CN115999902A - A vibrating sieving device for lime powder packaging - Google Patents

Abstract

Translated fromChinese

本发明涉及一种过筛装置，尤其涉及一种石灰粉包装用振荡过筛装置。需要设计一种能够将筛分出的块状石灰粉清除，避免孔洞被堵塞影响后续筛分效果的石灰粉包装用振荡过筛装置。一种石灰粉包装用振荡过筛装置，包括有底座、外壳和出料斗等，底座顶部后侧固接有外壳，外壳左侧中部连通有出料斗。本发明启动驱动机构带动筛网上下移动，且筛网上下移动带动清理机构运作，再将石灰粉通过进料斗倒入外壳内，石灰粉掉落至筛网上，筛网上下移动则对石灰粉进行振荡筛分，合格的石灰粉被筛分至接料框内，块状石灰粉被留在筛网上，清理机构运作则将块状石灰粉推入出料斗内完成清除，如此，可避免块状石灰粉将筛网的孔洞堵塞影响后续筛分效果。

The invention relates to a sieving device, in particular to an oscillating sieving device for lime powder packaging. It is necessary to design a vibrating sieving device for lime powder packaging that can remove the sieved massive lime powder and avoid the hole being blocked to affect the subsequent screening effect. An oscillating sieving device for lime powder packaging includes a base, a casing, and a discharge hopper. The drive mechanism of the present invention drives the screen to move up and down, and the screen moves up and down to drive the cleaning mechanism to operate, and then the lime powder is poured into the shell through the feeding hopper, and the lime powder falls to the screen, and the screen moves up and down to clean the lime powder. Vibration screening is carried out, the qualified lime powder is screened into the material receiving frame, the block lime powder is left on the screen, and the cleaning mechanism will push the block lime powder into the discharge hopper to complete the removal. In this way, the block lime powder can be avoided Lime powder will block the holes of the screen and affect the subsequent screening effect.

Description

Translated fromChinese

一种石灰粉包装用振荡过筛装置A vibrating sieving device for lime powder packaging

技术领域technical field

本发明涉及一种过筛装置，尤其涉及一种石灰粉包装用振荡过筛装置。The invention relates to a sieving device, in particular to an oscillating sieving device for lime powder packaging.

背景技术Background technique

石灰粉制作出来后，经过存放会出现结块现象，为了不影响后续包装，都需要对石灰粉进行筛分，将合格与不合格的石灰粉筛分出。After the lime powder is produced, agglomeration will occur after storage. In order not to affect the subsequent packaging, it is necessary to sieve the lime powder to screen out the qualified and unqualified lime powder.

公开号为CN204122349U的中国专利公开了一种石灰粉筛料装置，包括有进料口、振动筛、粉碎框和出料带组成，进料口上设置有振动装置，振动筛设置有振动轴、联轴装置、振动电机和弹簧，振动轴连接偏心装置和振动轴承，振动筛下面设置有出料带，振动筛较低的一端设置有粉碎框，粉碎框内部有粉碎风扇，粉碎风扇连接粉碎电机，粉碎框下面是出料带，虽然上述专利能够对石灰粉进行筛分，且使筛分出的块状石灰粉掉落收集，但其随着筛分出的块状石灰粉越来越多，部分块状石灰粉容易卡住将筛选网的孔洞堵塞，也就影响将合格的石灰粉筛分出来，影响筛分效果。Publication number is that the Chinese patent of CN204122349U discloses a kind of lime powder screening device, comprises feed inlet, vibrating screen, crushing frame and discharge belt to form, and feed inlet is provided with vibrating device, and vibrating screen is provided with vibrating shaft, coupling Shaft device, vibrating motor and spring, the vibrating shaft is connected to the eccentric device and the vibrating bearing, the discharge belt is set under the vibrating screen, the lower end of the vibrating screen is set with a crushing frame, there is a crushing fan inside the crushing frame, and the crushing fan is connected to the crushing motor. Below the crushing frame is the discharge belt. Although the above-mentioned patent can sieve the lime powder, and the sieved massive lime powder is dropped and collected, but it is more and more along with the sieved massive lime powder, Part of the block lime powder is easy to get stuck and block the holes of the screen, which also affects the screening of qualified lime powder and affects the screening effect.

本发明旨在解决上述专利中存在的问题，为此，提出一种能够将筛分出的块状石灰粉清除，避免孔洞被堵塞影响后续筛分效果的石灰粉包装用振荡过筛装置。The present invention aims to solve the problems in the above-mentioned patents. For this reason, a vibrating sieving device for lime powder packaging that can remove the sieved massive lime powder and prevent the holes from being blocked and affecting the subsequent screening effect is proposed.

发明内容Contents of the invention

为了克服随着块状石灰粉的越来越多，块状石灰粉容易将筛选网的孔洞堵塞，也就影响将合格的石灰粉筛分出来，影响筛分效果的缺点，本发明提供一种能够将筛分出的块状石灰粉清除，避免孔洞被堵塞影响后续筛分效果的石灰粉包装用振荡过筛装置。In order to overcome the shortcoming that with the increasing amount of block lime powder, the block lime powder will easily block the holes of the screen, which will affect the screening of qualified lime powder and affect the screening effect, the invention provides a The oscillating sieving device for lime powder packaging can remove the sieved massive lime powder and prevent the holes from being blocked and affecting the subsequent screening effect.

本发明通过以下技术途径实现：The present invention is realized through the following technical approaches:

一种石灰粉包装用振荡过筛装置，包括有底座、外壳、筛网、导杆、第一弹簧、出料斗、进料斗和接料框，底座顶部后侧固接有外壳，外壳左侧中部连通有出料斗，外壳顶部中间连通有进料斗，外壳内顶部与内底部左右两侧都前后对称固接有导杆，四根导杆之间滑动式的套装有用于对石灰粉进行振荡筛分的筛网，筛网为倾斜设置，筛网底部与外壳内底部之间连接有四根第一弹簧，四根第一弹簧分别套在四根导杆上，外壳前侧下部滑动式的穿接有用于对合格的石灰粉进行收集的接料框，还包括有驱动机构和清理机构，外壳右侧设置有用于带动筛网上下移动的驱动机构，外壳上设置有用于将筛网上卡住的石灰粉清除的清理机构。An oscillating screening device for lime powder packaging, including a base, a casing, a screen, a guide rod, a first spring, a discharge hopper, a feeding hopper, and a material receiving frame. There is a discharge hopper in the middle, and a feed hopper in the middle of the top of the shell. Guide rods are symmetrically fixed on the left and right sides of the inner top and inner bottom of the outer shell. The sliding set between the four guide rods is used to vibrate the lime powder. The sieve screen is inclined. There are four first springs connected between the bottom of the screen and the inner bottom of the shell. The four first springs are respectively set on the four guide rods. There is a material receiving frame for collecting qualified lime powder, and it also includes a driving mechanism and a cleaning mechanism. The right side of the casing is equipped with a driving mechanism for driving the screen to move up and down. The cleaning mechanism for the removal of lime powder.

进一步的说明，还包括有透视板，外壳左侧上部固定穿接有透视板。Further description, it also includes a see-through plate, and the see-through plate is fixedly connected to the upper left side of the casing.

进一步的说明，驱动机构包括有安装架、步进电机和凸轮，外壳外右侧面下部固接有安装架，安装架上固接有步进电机，步进电机的输出轴转动式的贯穿外壳右侧，步进电机的输出轴端部固接有用于带动筛网移动的凸轮，凸轮位于筛网下方。Further explanation, the driving mechanism includes a mounting frame, a stepping motor and a cam, the lower part of the outer right side of the casing is fixedly connected with the mounting frame, the mounting frame is fixedly connected with a stepping motor, and the output shaft of the stepping motor rotates through the casing On the right side, the end of the output shaft of the stepping motor is fixedly connected with a cam for driving the screen to move, and the cam is located below the screen.

进一步的说明，清理机构包括有清理辊、滚轮、滑动块、导向杆和第二弹簧，外壳内前后两侧面中部都固接有导向杆，前后两侧导向杆上都滑动式的套装有滑动块，前后两侧滑动块左侧面都与外壳内侧之间连接有第二弹簧，第二弹簧套在导向杆上，前后两侧滑动块内侧面之间固接有用于将筛网上卡住的石灰粉清除的清理辊，清理辊上前后对称固定套装有滚轮，前后两侧滚轮都与筛网顶部接触。Further explanation, the cleaning mechanism includes cleaning rollers, rollers, sliding blocks, guide rods and second springs. Guide rods are fixedly connected to the middle of the front and rear sides of the housing, and sliding blocks are mounted on the front and rear guide rods. A second spring is connected between the left side of the sliding block on the front and rear sides and the inner side of the shell, the second spring is sleeved on the guide rod, and the limestone used to block the screen is fixed between the inner side of the sliding block on the front and rear sides The cleaning roller for powder removal, the front and rear symmetrical fixed sets of rollers on the cleaning roller, and the front and rear rollers are in contact with the top of the screen.

进一步的说明，还包括有用于将热风吹出的吹风机构，吹风机构包括有安装框、加热管、同步带、转轴和风扇，外壳右侧上部固定穿接有安装框，安装框左侧面固接有加热管，安装框中部转动式的穿接有转轴，转轴左侧固定套装有用于将风吹出的风扇，步进电机的输出轴上设置有同步带，同步带通过单向离合器与转轴右侧连接。Further explanation, it also includes a blowing mechanism for blowing hot air. The blowing mechanism includes a mounting frame, a heating pipe, a synchronous belt, a rotating shaft and a fan. There is a heating pipe, and the rotating shaft in the middle of the installation frame is connected with a rotating shaft. The fan on the left side of the rotating shaft is fixed for blowing out the wind. The output shaft of the stepping motor is provided with a synchronous belt. connect.

进一步的说明，还包括有用于间隔进料斗封闭的隔离机构，隔离机构包括有丝杆、滑动架、磁吸块、导柱、第三弹簧、隔离板、细杆和第五弹簧，外壳右侧上部滑动式的穿接有用于将进料斗内封闭的隔离板，外壳右侧上部前后对称滑动式的穿接有细杆，前后两侧细杆左端都与隔离板左部固定连接，隔离板左部与外壳内右侧面上部之间前后对称连接有第五弹簧，第五弹簧套在细杆上，外壳外右侧面上部中间固接有导柱，导柱位于安装框上方，导柱上滑动式的套装有用于带动隔离板移动的滑动架，滑动架内右侧面与外壳外右侧面上部之间连接有第三弹簧，转轴右端固接有丝杆，丝杆上螺纹式转动连接有用于带动滑动架移动的磁吸块，滑动架下部套在磁吸块上，滑动架与磁吸块磁性接触。Further description, it also includes an isolation mechanism for closing the interval feed hopper. The isolation mechanism includes a screw rod, a sliding frame, a magnetic block, a guide post, a third spring, an isolation plate, a thin rod and a fifth spring. The right side of the shell The sliding connection on the upper part of the side is connected with an isolation plate for sealing the inside of the feed hopper, and the front and rear symmetrical sliding connection on the upper right side of the housing is connected with thin rods. There is a fifth spring symmetrically connected between the left part of the plate and the upper right side of the housing. The fifth spring is sleeved on the thin rod. The sliding type set on the column has a sliding frame for driving the isolation plate to move. A third spring is connected between the inner right side of the sliding frame and the outer right side of the shell. The right end of the rotating shaft is fixedly connected with a screw rod. Rotationally connected with a magnetic block for driving the sliding frame to move, the lower part of the sliding frame is sleeved on the magnetic block, and the sliding frame is in magnetic contact with the magnetic block.

进一步的说明，还包括有用于对接料框进行导向的助动机构，助动机构包括有安装块和助动轮，接料框外底部前后两侧都左右对称固接有安装块，四块安装块都与底座顶部滑动连接，四块安装块底部都前后对称转动式的连接有助动轮。Further explanation, it also includes an auxiliary mechanism for guiding the material receiving frame. The auxiliary mechanism includes a mounting block and an auxiliary wheel. The front and rear sides of the outer bottom of the material receiving frame are symmetrically fixed with mounting blocks. Four mounting blocks They are all slidably connected to the top of the base, and the bottoms of the four mounting blocks are all symmetrically rotated forward and backward and have driving wheels.

进一步的说明，还包括有用于将隔离板固定的锁定机构，锁定机构包括有固定块和电磁块，外壳内顶部左侧固接有固定块，固定块右侧面固接有用于将隔离板吸住固定的电磁块。Further description, it also includes a locking mechanism for fixing the isolation board. The locking mechanism includes a fixed block and an electromagnetic block. Hold the fixed electromagnetic block.

本发明其显著进步在于：Its remarkable progress of the present invention is:

1、启动驱动机构带动筛网上下移动，且筛网上下移动带动清理机构运作，再将石灰粉通过进料斗倒入外壳内，石灰粉掉落至筛网上，筛网上下移动则对石灰粉进行振荡筛分，合格的石灰粉被筛分至接料框内，块状石灰粉被留在筛网上，清理机构运作则将块状石灰粉推入出料斗内完成清除，如此，可避免块状石灰粉将筛网的孔洞堵塞影响后续筛分效果。1. Start the driving mechanism to drive the screen to move up and down, and the screen to move up and down to drive the cleaning mechanism to operate, then pour the lime powder into the shell through the feeding hopper, the lime powder falls to the screen, and the screen moves up and down to clean the lime powder. Vibration screening is carried out, the qualified lime powder is screened into the material receiving frame, the block lime powder is left on the screen, and the cleaning mechanism will push the block lime powder into the discharge hopper to complete the removal. In this way, the block lime powder can be avoided Lime powder will block the holes of the screen and affect the subsequent screening effect.

2、在吹风机构的作用下，每当石灰粉都筛分完成后，即可使得吹风机构运作将外壳内与出料斗内残留的石灰粉清除被收集，避免石灰粉残留不能被收集处理导致浪费。2. Under the action of the blowing mechanism, every time the lime powder is sieved, the blowing mechanism can be operated to remove and collect the residual lime powder in the shell and the hopper, so as to avoid waste of the lime powder residue that cannot be collected and processed .

3、在隔离机构的作用下，在将残留的石灰粉清除收集时，隔离机构能够将进料斗内封闭，热风也就不能排入出料斗内，也就避免大量的热风通过进料斗排出影响对外壳和出料斗内残留石灰粉的清除效果。3. Under the action of the isolation mechanism, when the residual lime powder is removed and collected, the isolation mechanism can seal the inside of the feed hopper, and the hot air cannot be discharged into the discharge hopper, which prevents a large amount of hot air from being discharged through the feed hopper Affect the removal effect of residual lime powder in the shell and hopper.

附图说明Description of drawings

图1为本发明的立体结构示意图。Fig. 1 is a schematic diagram of the three-dimensional structure of the present invention.

图2为本发明的部分剖视结构示意图。Fig. 2 is a partial cross-sectional structural schematic diagram of the present invention.

图3为本发明外壳的立体结构示意图。Fig. 3 is a schematic perspective view of the three-dimensional structure of the casing of the present invention.

图4为本发明筛网的立体结构示意图。Fig. 4 is a schematic diagram of the three-dimensional structure of the screen of the present invention.

图5为本发明驱动机构的立体结构示意图。Fig. 5 is a schematic perspective view of the drive mechanism of the present invention.

图6为本发明清理机构的立体结构示意图。Fig. 6 is a schematic perspective view of the cleaning mechanism of the present invention.

图7为本发明A部分的放大示意图。Fig. 7 is an enlarged schematic view of part A of the present invention.

图8为本发明滚轮的立体结构示意图。Fig. 8 is a schematic perspective view of the three-dimensional structure of the roller of the present invention.

图9为本发明吹风机构的第一视角部分剖视结构示意图。Fig. 9 is a partial cross-sectional structural schematic view of the blowing mechanism of the present invention at a first viewing angle.

图10为本发明吹风机构的第二视角部分剖视结构示意图。Fig. 10 is a partial cross-sectional structural schematic diagram of the blowing mechanism of the present invention at a second viewing angle.

图11为本发明隔离机构的部分剖视结构示意图。Fig. 11 is a partial sectional structural schematic diagram of the isolation mechanism of the present invention.

图12为本发明滑动架的部分剖视结构示意图。Fig. 12 is a partial cross-sectional structural schematic diagram of the sliding frame of the present invention.

图13为本发明助动机构的第一种部分剖视结构示意图。Fig. 13 is a schematic diagram of a partial cross-sectional structure of the first type of actuating mechanism of the present invention.

图14为本发明助动机构的第二种部分剖视结构示意图。Fig. 14 is a schematic diagram of a second partial cross-sectional structure of the actuating mechanism of the present invention.

图15为本发明锁定机构的部分剖视结构示意图。Fig. 15 is a partial sectional structural schematic diagram of the locking mechanism of the present invention.

附图标号：1_底座，2_外壳，21_透视板，22_筛网，23_导杆，24_第一弹簧，3_出料斗，31_进料斗，32_接料框，4_驱动机构，41_安装架，42_步进电机，43_凸轮，5_清理机构，51_清理辊，52_滚轮，53_滑动块，54_导向杆，55_第二弹簧，6_吹风机构，61_安装框，62_加热管，63_同步带，64_转轴，65_风扇，7_隔离机构，71_丝杆，72_滑动架，73_磁吸块，74_导柱，75_第三弹簧，76_隔离板，77_细杆，78_第五弹簧，8_助动机构，81_安装块，82_助动轮，9_锁定机构，91_固定块，92_电磁块。Reference numerals: 1_base, 2_shell, 21_perspective plate, 22_screen, 23_guide rod, 24_first spring, 3_discharging hopper, 31_feeding hopper, 32_receiving frame, 4_driving mechanism, 41_mounting frame, 42_stepping motor, 43_cam, 5_cleaning mechanism, 51_cleaning roller, 52_roller, 53_sliding block, 54_guide rod, 55_second spring, 6_Blowing mechanism, 61_Installation frame, 62_Heating pipe, 63_Timing belt, 64_Rotating shaft, 65_Fan, 7_Isolation mechanism, 71_Screw rod, 72_Sliding frame, 73_Magnetic block, 74 _guide post, 75_third spring, 76_isolation plate, 77_thin rod, 78_fifth spring, 8_assist mechanism, 81_installation block, 82_auxiliary wheel, 9_locking mechanism, 91_fixed block, 92_ electromagnetic block.

具体实施方式Detailed ways

首先要指出，在不同描述的实施方式中，相同部件设有相同的附图标记或者说相同的构件名称，其中，在整个说明书中包含的公开内容能够按意义转用到具有相同的附图标记或者说相同的构件名称的相同部件上。在说明书中所选择的位置说明、例如上、下、侧向等也参考直接描述的以及示出的附图并且在位置改变时按意义转用到新的位置上。At the outset, it should be pointed out that in the different described embodiments, identical parts are provided with the same reference symbols or the same component designations, wherein the disclosure contained in the entire description can be transferred to the reference symbols with the same reference symbols. Or on the same part with the same component name. Positional indications selected in the description, such as top, bottom, sideways, etc., also refer to the directly described and illustrated figures and are transferred to the new position in the event of a position change.

实施例1Example 1

一种石灰粉包装用振荡过筛装置，包括有底座1、外壳2、筛网22、导杆23、第一弹簧24、出料斗3、进料斗31、接料框32、驱动机构4和清理机构5，请参阅图1-图8所示，底座1顶部后侧通过焊接连接的方式安装有外壳2，外壳2左侧中部连通有出料斗3，外壳2顶部中间连通有进料斗31，外壳2内顶部与内底部左右两侧都前后对称固接有导杆23，四根导杆23之间滑动式的套装有筛网22，当石灰粉掉落至筛网22上时，筛网22可实现对石灰粉进行振荡筛分，筛网22为倾斜设置，筛网22底部与外壳2内底部之间连接有四根第一弹簧24，四根第一弹簧24分别套在四根导杆23上，外壳2前侧下部滑动式的穿接有接料框32，接料框32用于对合格的石灰粉进行收集，外壳2右侧设置有驱动机构4，当驱动机构4运作时，驱动机构4可实现带动筛网22上下移动，外壳2上设置有清理机构5，当清理机构5运作时，清理机构5可实现将筛网22上卡住的石灰粉清除。An oscillating screening device for lime powder packaging, comprising abase 1, acasing 2, ascreen 22, aguide rod 23, afirst spring 24, adischarge hopper 3, afeed hopper 31, amaterial receiving frame 32, a drive mechanism 4 and Cleaning mechanism 5, please refer to Fig. 1-Fig. 8, theshell 2 is installed on the rear side of the top of thebase 1 by welding, the middle part of the left side of theshell 2 is connected with thedischarge hopper 3, and the middle of the top of theshell 2 is connected with thefeed hopper 31 , both the left and right sides of the inner top and the inner bottom of theshell 2 are symmetrically fixed withguide rods 23 front and back, and the sliding sets between the fourguide rods 23 are equipped with ascreen 22. When the lime powder falls on thescreen 22, the screen The net 22 can realize the vibratory screening of the lime powder. Thescreen 22 is inclined. There are fourfirst springs 24 connected between the bottom of thescreen 22 and the inner bottom of theshell 2, and the fourfirst springs 24 are respectively set in four On theguide rod 23, amaterial receiving frame 32 is slidably connected to the lower part of the front side of thecasing 2. Thematerial receiving frame 32 is used to collect qualified lime powder. The right side of thecasing 2 is provided with a driving mechanism 4. When the driving mechanism 4 operates , the drive mechanism 4 can drive thescreen cloth 22 to move up and down, and theshell 2 is provided with a cleaning mechanism 5. When the cleaning mechanism 5 operates, the cleaning mechanism 5 can remove the stuck lime powder on thescreen cloth 22.

还包括有透视板21，请参阅图1和图2所示，外壳2左侧上部固定穿接有透视板21。It also includes a see-throughplate 21 , as shown in FIG. 1 and FIG. 2 , the see-throughplate 21 is fixedly connected to the upper left side of thehousing 2 .

驱动机构4包括有安装架41、步进电机42和凸轮43，请参阅图1、图2和图5所示，外壳2外右侧面下部通过焊接连接的方式安装有安装架41，安装架41上固接有步进电机42，步进电机42的输出轴转动式的贯穿外壳2右侧，步进电机42的输出轴端部固接有凸轮43，凸轮43位于筛网22下方，当凸轮43转动与筛网22接触时，凸轮43可实现带动筛网22移动。The driving mechanism 4 includes a mountingframe 41, a steppingmotor 42 and acam 43, please refer to Fig. 1, Fig. 2 and shown in Fig. 5, the lower part of the outer right side of thehousing 2 is equipped with a mountingframe 41 by welding, the mountingframe 41 is fixedly connected with astepper motor 42, the output shaft of thestepper motor 42 rotates through the right side of thehousing 2, and the end of the output shaft of thestepper motor 42 is fixedly connected with acam 43, and thecam 43 is positioned at the bottom of thescreen 22. When thecam 43 rotates and contacts thescreen cloth 22, thecam 43 can drive thescreen cloth 22 to move.

清理机构5包括有清理辊51、滚轮52、滑动块53、导向杆54和第二弹簧55，请参阅图2、图6、图7和图8所示，外壳2内前后两侧面中部都固接有导向杆54，前后两侧导向杆54上都滑动式的套装有滑动块53，前后两侧滑动块53左侧面都与外壳2内侧之间连接有第二弹簧55，第二弹簧55套在导向杆54上，前后两侧滑动块53内侧面之间固接有清理辊51，当清理辊51向左移动时，清理辊51可实现将筛网22上卡住的石灰粉清除，清理辊51上前后对称固定套装有滚轮52，前后两侧滚轮52都与筛网22顶部接触。The cleaning mechanism 5 includes a cleaningroller 51, aroller 52, a slidingblock 53, aguide rod 54 and asecond spring 55, as shown in Fig. 2, Fig. 6, Fig. 7 and Fig. Be connected withguide rod 54, all slide on theguide rod 54 of front and back two sides and be equipped withslide block 53, the left side of front and back both sides slideblock 53 is all connected with thesecond spring 55 between the inner side ofshell 2, thesecond spring 55 Covered on theguide rod 54, a cleaningroller 51 is fixedly connected between the inner surfaces of the slidingblocks 53 on the front and rear sides. When the cleaningroller 51 moves to the left, the cleaningroller 51 can remove the lime powder stuck on thescreen 22.Rollers 52 are fixedly set symmetrically front and back on the cleaningroller 51 , and therollers 52 on both sides of the front and back are in contact with the top of thescreen cloth 22 .

首先将收集容器放置在出料斗3下方，再启动驱动机构4，驱动机构4运作带动筛网22向上移动，第一弹簧24被拉伸，筛网22向上移动带动清理机构5向左移动，随着驱动机构4继续运作复位，驱动机构4与筛网22脱离接触，因第一弹簧24的作用，筛网22向下移动复位，同时，清理机构5也向右移动复位，如此反复，可使得筛网22不断的上下移动，且清理机构5不断的左右移动，此时，即可将石灰粉倒入进料斗31内，进料斗31内的石灰粉掉落至外壳2内，外壳2内的石灰粉与筛网22接触，筛网22上下移动对石灰粉进行振荡筛分，合格的石灰粉被筛分至接料框32内，块状的石灰粉则被留在筛网22上，筛网22向上移动时，筛网22也就带动块状的石灰粉向上移动，清理机构5向左移动则将块状石灰粉推入出料斗3内，出料斗3内的块状石灰粉掉落至收集容器内，如此，随着长时间的筛分，筛网22上的孔洞也不会被块状石灰粉堵塞影响后续筛分，同时，石灰粉筛分时，人们可通过透视板21查看外壳2内石灰粉的筛分情况，当全部的石灰粉都筛分完成后，关闭驱动机构4，驱动机构4停止运作，筛网22停止上下移动，清理机构5也就停止左右移动，即可拉动接料框32向前移动至外壳2外，且使得接料框32与底座1脱离接触，再将接料框32内合适的石灰粉到处进行包装，且将收集容器拿起对块状石灰粉进行再次筛分，合适的石灰粉全部倒出后，将接料框32放回至底座1上，且推动接料框32向后移动复位。First, the collection container is placed under thedischarge hopper 3, and then the drive mechanism 4 is started. The drive mechanism 4 operates to drive thescreen 22 to move upward, thefirst spring 24 is stretched, and thescreen 22 moves upward to drive the cleaning mechanism 5 to move to the left. As the driving mechanism 4 continues to operate and reset, the driving mechanism 4 is out of contact with thescreen cloth 22. Due to the effect of thefirst spring 24, thescreen cloth 22 moves downwards and resets. At the same time, the cleaning mechanism 5 also moves to the right and resets. Thescreen cloth 22 constantly moves up and down, and the cleaning mechanism 5 constantly moves left and right. At this moment, the lime powder can be poured into thefeed hopper 31, and the lime powder in thefeed hopper 31 falls into theshell 2, and theshell 2 The lime powder inside is in contact with thesieve 22, and thesieve 22 moves up and down to oscillate and sieve the lime powder. The qualified lime powder is sieved into thematerial receiving frame 32, and the massive lime powder is left on thesieve 22. , when thesieve 22 moves upward, thesieve 22 also drives the massive lime powder to move upward, and the cleaning mechanism 5 moves to the left to push the massive lime powder into thedischarge hopper 3, and the massive lime powder in thedischarge hopper 3 Drop in the collection container, like this, along with long-time screening, the hole on thescreen cloth 22 also can not be blocked by massive lime powder and influence follow-up screening, simultaneously, when lime powder sieves, people can pass through the see-throughplate 21 Check the sieving situation of the lime powder in theshell 2. After all the lime powder has been sieved, close the drive mechanism 4, the drive mechanism 4 stops operating, thescreen 22 stops moving up and down, and the cleaning mechanism 5 also stops moving left and right. That is, thematerial receiving frame 32 can be pulled to move forward to the outside of theshell 2, and thematerial receiving frame 32 is out of contact with thebase 1, and then the suitable lime powder in thematerial receiving frame 32 is packed everywhere, and the collection container is picked up to the block Shaped lime powder is sieved again, and after suitable lime powder is all poured out,material receiving frame 32 is put back on thebase 1, and promotesmaterial receiving frame 32 to move backward and reset.

当收集容器放置好后，启动步进电机42带动凸轮43正转，凸轮43正转与筛网22接触时，凸轮43带动筛网22向上移动，筛网22向上移动带动清理机构5向左移动，随着凸轮43继续正转，凸轮43正转与筛网22脱离接触，因第一弹簧24的作用，筛网22向下移动复位，清理机构5也就向右移动复位，即可将石灰粉通过进料斗31倒入外壳2内，筛网22上下移动对石灰粉进行筛分，清理机构5则将块状石灰粉从筛网22上清除，当石灰粉都筛分完成后，关闭步进电机42，步进电机42停止带动凸轮43转动，筛网22也就停止上下移动。After the collection container is placed, start thestepper motor 42 to drive thecam 43 to rotate forward, and when thecam 43 rotates forward to contact thescreen 22, thecam 43 drives thescreen 22 to move upward, and the upward movement of thescreen 22 drives the cleaning mechanism 5 to move to the left , as thecam 43 continues to rotate forward, thecam 43 rotates forward and disengages from thescreen 22. Due to the effect of thefirst spring 24, thescreen 22 moves downward and resets, and the cleaning mechanism 5 also moves to the right to reset, and the lime can be removed. The powder is poured into thecasing 2 through thefeed hopper 31, thescreen 22 moves up and down to screen the lime powder, and the cleaning mechanism 5 removes the massive lime powder from thescreen 22, and when the lime powder is screened, close theStepper motor 42,stepper motor 42stops driving cam 43 and rotates, andscreen cloth 22 just stops moving up and down.

当步进电机42启动正转时，凸轮43正转带动筛网22向上移动，由于筛网22为倾斜设置，筛网22向上移动带动前后两侧滚轮52向左移动，前后两侧滚轮52向左移动带动清理辊51向左移动，清理辊51向左移动带动前后两侧滑动块53向左移动，第二弹簧55被压缩，当凸轮43继续正转与筛网22脱离接触时，筛网22向下移动复位与前后两侧滚轮52脱离接触，因第二弹簧55的作用，前后两侧滑动块53向右移动复位带动清理辊51向右移动复位，清理辊51向右移动复位带动前后两侧滚轮52向右移动复位，进而筛网22上筛分出块状石灰粉时，筛网22带动块状石灰粉向上移动，清理辊51向左移动则将块状石灰粉推至出料斗3内，块状石灰粉也就掉落至收集容器内，如此，可避免块状石灰粉堆积将筛网22的孔洞堵塞影响后续筛分。当石灰粉都筛分完成后，关闭步进电机42，筛网22停止上下移动，筛网22也就停止带动前后两侧滚轮52向左移动，清理辊51也就停止左右移动。When thestepper motor 42 starts to rotate forward, the forward rotation of thecam 43 drives thescreen 22 to move upwards. Since thescreen 22 is inclined, the upward movement of thescreen 22 drives the front andrear rollers 52 to move to the left, and the front andrear rollers 52 move to the left. Moving to the left drives the cleaningroller 51 to move to the left, and the moving of the cleaningroller 51 to the left drives the front and rear slidingblocks 53 to move to the left, and thesecond spring 55 is compressed. 22. Move downward to reset and disengage from therollers 52 on the front and rear sides. Due to the effect of thesecond spring 55, the slidingblocks 53 on the front and rear sides move to the right to reset and drive the cleaningroller 51 to move to the right to reset, and the cleaningroller 51 moves to the right to reset to drive theThe rollers 52 on both sides move to the right to reset, and when the block lime powder is sieved on thescreen 22, thescreen 22 drives the block lime powder to move upward, and the cleaningroller 51 moves to the left to push the block lime powder to thedischarge hopper 3, block lime powder also just falls in the collection container, like this, can avoid block lime powder to pile up and block the hole ofscreen cloth 22 and influence follow-up screening. After lime powder all sieved, close steppingmotor 42,screen cloth 22 stops moving up and down, andscreen cloth 22 just stops driving front and back bothsides roller 52 to move to the left, and cleaningroller 51 also just stops moving left and right.

实施例2Example 2

在实施例1的基础上，还包括有吹风机构6，吹风机构6包括有安装框61、加热管62、同步带63、转轴64和风扇65，请参阅图2、图9和图10所示，外壳2右侧上部固定穿接有安装框61，安装框61左侧面固接有加热管62，安装框61中部转动式的穿接有转轴64，转轴64左侧固定套装有风扇65，当风扇65转动时，风扇65可实现将风吹出，步进电机42的输出轴上设置有同步带63，同步带63通过单向离合器与转轴64右侧连接。On the basis ofEmbodiment 1, a blower mechanism 6 is also included, and the blower mechanism 6 includes a mountingframe 61, aheating pipe 62, asynchronous belt 63, a rotatingshaft 64 and afan 65, please refer to Fig. 2, Fig. 9 and Fig. 10 , the upper right side of thehousing 2 is fixedly connected with aninstallation frame 61, the left side of theinstallation frame 61 is fixedly connected with aheating pipe 62, the middle part of theinstallation frame 61 is rotatably connected with arotating shaft 64, and the left side of therotating shaft 64 is fixedly fitted with afan 65, Whenfan 65 rotates,fan 65 can realize that wind is blown out, and the output shaft of steppingmotor 42 is provided withsynchronous belt 63, andsynchronous belt 63 is connected withrotating shaft 64 right sides by one-way clutch.

还包括有隔离机构7，隔离机构7包括有丝杆71、滑动架72、磁吸块73、导柱74、第三弹簧75、隔离板76、细杆77和第五弹簧78，请参阅图1、图2、图11和图12所示，外壳2右侧上部滑动式的穿接有隔离板76，当隔离板76向左移动与进料斗31底部接触时，隔离板76可实现将进料斗31内封闭，外壳2右侧上部前后对称滑动式的穿接有细杆77，前后两侧细杆77左端都与隔离板76左部固定连接，隔离板76左部与外壳2内右侧面上部之间前后对称连接有第五弹簧78，第五弹簧78套在细杆77上，外壳2外右侧面上部中间固接有导柱74，导柱74位于安装框61上方，导柱74上滑动式的套装有滑动架72，当滑动架72向左移动与隔离板76接触时，滑动架72可实现带动隔离板76移动，滑动架72内右侧面与外壳2外右侧面上部之间连接有第三弹簧75，转轴64右端固接有丝杆71，丝杆71上螺纹式转动连接有磁吸块73，滑动架72下部套在磁吸块73上，滑动架72与磁吸块73磁性接触，当磁吸块73移动时，磁吸块73可实现带动滑动架72移动。Also includes isolating mechanism 7, isolating mechanism 7 includesscrew mandrel 71, slidingframe 72,magnetic block 73, guidepost 74, the3rd spring 75, isolatingplate 76,thin rod 77 and the5th spring 78, please refer to figure 1. As shown in Figure 2, Figure 11 and Figure 12, the upper right side of thehousing 2 is slidably connected with anisolation plate 76. When theisolation plate 76 moves to the left and contacts the bottom of thefeed hopper 31, theisolation plate 76 can realize the Thefeed hopper 31 is internally closed, and the upper part of the right side of thehousing 2 is connected withthin rods 77 symmetrically sliding forward and backward. Thefifth spring 78 is symmetrically connected front and back between the upper side of the right side, and thefifth spring 78 is sleeved on thethin rod 77. Aguide post 74 is fixed in the middle of the outer right side of thehousing 2, and theguide post 74 is located above theinstallation frame 61. Theguide column 74 is fitted with a slidingframe 72. When the slidingframe 72 moves to the left and contacts theisolation plate 76, the slidingframe 72 can drive theisolation plate 76 to move. Thethird spring 75 is connected between the upper part of the side, the right end of therotating shaft 64 is fixedly connected with ascrew mandrel 71, and the threaded rotation on thescrew mandrel 71 is connected with amagnetic block 73, and the lower part of the slidingframe 72 is enclosed within themagnetic block 73, and the slidingframe 72 is in magnetic contact with themagnetic block 73, and when themagnetic block 73 moves, themagnetic block 73 can drive the slidingframe 72 to move.

当步进电机42启动正转时，步进电机42还带动同步带63正转，由于单向离合器的作用，同步带63正转不会带动转轴64正转，当石灰粉都筛分完成后，关闭步进电机42，步进电机42停止带动同步带63正转，此时，启动步进电机42反转带动同步带63反转，同步带63反转带动转轴64反转，转轴64反转带动风扇65反转，风扇65反转将风吹出，启动加热管62，加热管62运作使得风变成热风，热风被吹入外壳2内，且部分热风会通过进料斗31排出，热风将残留在外壳2内的石灰粉吹动，石灰粉掉落至接料框32内，同时，热风还吹入出料斗3内，热风将出料斗3内的块状石灰粉吹出进行收集，当外壳2内与出料斗3内残留的石灰粉都被收集后，关闭步进电机42，步进电机42停止通过同步带63传动带动转轴64反转，转轴64停止带动风扇65反转，再关闭加热管62。如此，可避免石灰粉残留不能被收集处理导致浪费。When thestepper motor 42 starts to rotate forward, thestepper motor 42 also drives thesynchronous belt 63 to rotate forward. Due to the effect of the one-way clutch, the forward rotation of thesynchronous belt 63 will not drive the rotatingshaft 64 to rotate forwardly. , turn off thestepper motor 42, thestepper motor 42 stops driving thesynchronous belt 63 to rotate forward, at this time, start thestepper motor 42 and drive thesynchronous belt 63 to reverse, thesynchronous belt 63 reversely drives the rotatingshaft 64 to reverse, and therotating shaft 64 reverses The rotation drives thefan 65 to reverse, and thefan 65 reverses to blow the wind out, start theheating pipe 62, theheating pipe 62 operates to make the wind into hot air, the hot air is blown into theshell 2, and part of the hot air will be discharged through thefeed hopper 31, and the hot air The lime powder remaining in theshell 2 is blown, and the lime powder falls into thematerial receiving frame 32. At the same time, hot air is also blown into thedischarge hopper 3, and the hot air blows out the massive lime powder in thedischarge hopper 3 for collection. 2 and the residual lime powder in thehopper 3 are collected, turn off thestepper motor 42, thestepper motor 42 stops driving the rotatingshaft 64 to reverse through thesynchronous belt 63, the rotatingshaft 64 stops driving thefan 65 to reverse, and then turn off theheating Tube 62. In this way, it is possible to avoid waste of lime powder residues that cannot be collected and processed.

当步进电机42启动反转时，转轴64反转带动丝杆71反转，丝杆71反转带动磁吸块73向左移动，磁吸块73向左移动带动滑动架72向左移动，第三弹簧75被压缩，滑动架72向左移动与隔离板76接触，滑动架72带动隔离板76向左移动，第五弹簧78被拉伸，隔离板76向左移动与进料斗31底部接触，隔离板76将进料斗31内封闭，此时，热风也就不会吹入进料斗31内，随着磁吸块73向左移动至最大行程时，磁吸块73停止向左移动，滑动架72也就停止带动隔离板76向左移动，丝杆71继续反转则带动磁吸块73反转，由于磁吸块73与滑动架72为磁性接触，磁吸块73反转在滑动架72内空转。当外壳2内与出料斗3内残留的石灰粉都清除收集后，关闭步进电机42，转轴64停止带动丝杆71反转，丝杆71停止带动磁吸块73反转，因第三弹簧75的作用，滑动架72向右移动复位带动磁吸块73向右移动复位，滑动架72复位与隔离板76脱离接触，因第五弹簧78的作用，隔离板76向右移动复位与进料斗31底部脱离接触。如此，可避免大量的热风通过进料斗31排出影响对外壳2和出料斗3内残留石灰粉的清除效果。When thestepper motor 42 starts to reverse, the rotation of therotating shaft 64 drives thescrew mandrel 71 to reverse, thescrew mandrel 71 reverses to drive themagnetic block 73 to move to the left, and themagnetic block 73 moves to the left to drive the slidingframe 72 to move to the left. Thethird spring 75 is compressed, and the slidingframe 72 moves to the left to contact theisolation plate 76. The slidingframe 72 drives theisolation plate 76 to move to the left, thefifth spring 78 is stretched, and theisolation plate 76 moves to the left to contact the bottom of thefeed hopper 31. contact, the separatingplate 76 seals thefeed hopper 31, at this moment, the hot air will not be blown into thefeed hopper 31, and when themagnetic block 73 moves to the left to the maximum stroke, themagnetic block 73 stops moving to the left Move, the slidingframe 72 also stops driving theisolation plate 76 to move to the left, and thescrew mandrel 71 continues to reverse and then drives themagnetic block 73 to reverse. Since themagnetic block 73 is in magnetic contact with the slidingframe 72, themagnetic block 73 reverses. Idling in thecarriage 72. After the lime powder remaining in thecasing 2 and thedischarge hopper 3 is removed and collected, thestepper motor 42 is turned off, the rotatingshaft 64 stops driving thescrew mandrel 71 to reverse, and thescrew mandrel 71 stops driving themagnetic block 73 to reverse, because thethird spring 75, the slidingframe 72 moves to the right and resets to drive themagnetic block 73 to move to the right and resets, and the slidingframe 72 resets and is out of contact with theisolation plate 76. Because of the effect of thefifth spring 78, theisolation plate 76 moves to the right to reset and feed The bottom of thebucket 31 is out of contact. In this way, it is possible to prevent a large amount of hot air from being discharged through thefeed hopper 31 from affecting the removal effect of the residual lime powder in theshell 2 and thedischarge hopper 3 .

实施例3Example 3

在实施例1和实施例2的基础上，还包括有助动机构8，助动机构8包括有安装块81和助动轮82，请参阅图2、图13和图14所示，接料框32外底部前后两侧都左右对称固接有安装块81，四块安装块81都与底座1顶部滑动连接，四块安装块81底部都前后对称转动式的连接有助动轮82。On the basis ofEmbodiment 1 andEmbodiment 2, it also includes anauxiliary mechanism 8. Theauxiliary mechanism 8 includes a mountingblock 81 and anauxiliary wheel 82. Please refer to Fig. 2, Fig. 13 and Fig. 14, thematerial receiving frame 32 front and rear sides of the outer bottom are all symmetrically fixedly connected with mountingblock 81, and four mountingblocks 81 are all slidably connected with thebase 1 top, and four mountingblock 81 bottoms are all connected with front and rear symmetricalrotating wheels 82.

还包括有锁定机构9，锁定机构9包括有固定块91和电磁块92，请参阅图2和图15所示，外壳2内顶部左侧通过焊接连接的方式安装有固定块91，固定块91右侧面固接有电磁块92，当隔离板76向左移动与电磁块92接触时，电磁块92可实现将隔离板76吸住固定。It also includes alocking mechanism 9. Thelocking mechanism 9 includes a fixedblock 91 and anelectromagnetic block 92. Please refer to FIGS. Anelectromagnetic block 92 is affixed to the right side, and when theisolation plate 76 moves to the left and contacts theelectromagnetic block 92, theelectromagnetic block 92 can absorb and fix theisolation plate 76.

当接料框32移动时，接料框32还带动安装块81移动，安装块81移动对接料框32进行导向，同时，安装块81移动带动助动轮82移动，助动轮82则对安装块81进行导向。如此，可使得接料框32移动的更加稳固和顺畅。When thematerial receiving frame 32 moved, thematerial receiving frame 32 also drove theinstallation block 81 to move, and theinstallation block 81 moved to guide thematerial receiving frame 32. to guide. In this way, thematerial receiving frame 32 can be moved more stably and smoothly.

当隔离板76向左移动与进料斗31底部接触时，隔离板76向左移动与电磁块92接触，启动电磁块92，电磁块92启动通过磁力将隔离板76吸住。当隔离板76需要复位时，关闭电磁块92，电磁块92将隔离板76松开，隔离板76也就能向右移动复位。如此，可避免因外力因素导致隔离板76出现右移动的现象影响对残留的石灰粉进行清除。When theisolation plate 76 moved to the left and contacted the bottom of thefeed hopper 31, theisolation plate 76 moved to the left to contact theelectromagnetic block 92, and theelectromagnetic block 92 was started, and theelectromagnetic block 92 started to suck theisolation plate 76 by magnetic force. When theisolation plate 76 needs to be reset, theelectromagnetic block 92 is closed, and theelectromagnetic block 92 releases theisolation plate 76, and theisolation plate 76 also can move to the right to reset. In this way, it is possible to avoid the removal of residual lime powder due to the phenomenon that theseparation plate 76 moves to the right due to external force factors.

最后，有必要说明的是：上述内容仅用于帮助理解本发明的技术方案，不能理解为对本发明保护范围的限制；本领域技术人员根据本发明的上述内容所做出的非本质改进和调整，均属本发明所要求保护的范围。Finally, it is necessary to note that: the above content is only used to help understand the technical solution of the present invention, and should not be interpreted as limiting the protection scope of the present invention; non-essential improvements and adjustments made by those skilled in the art based on the above content of the present invention , all belong to the protection scope of the present invention.

Claims (8)

Translated fromChinese

1.一种石灰粉包装用振荡过筛装置，包括有底座(1)、外壳(2)、筛网(22)、导杆(23)、第一弹簧(24)、出料斗(3)、进料斗(31)和接料框(32)，底座(1)顶部后侧固接有外壳(2)，外壳(2)左侧中部连通有出料斗(3)，外壳(2)顶部中间连通有进料斗(31)，外壳(2)内顶部与内底部左右两侧都前后对称固接有导杆(23)，四根导杆(23)之间滑动式的套装有用于对石灰粉进行振荡筛分的筛网(22)，筛网(22)为倾斜设置，筛网(22)底部与外壳(2)内底部之间连接有四根第一弹簧(24)，四根第一弹簧(24)分别套在四根导杆(23)上，外壳(2)前侧下部滑动式的穿接有用于对合格的石灰粉进行收集的接料框(32)，其特征在于，还包括有驱动机构(4)和清理机构(5)，外壳(2)右侧设置有用于带动筛网(22)上下移动的驱动机构(4)，外壳(2)上设置有用于将筛网(22)上卡住的石灰粉清除的清理机构(5)。1. A vibrating screening device for lime powder packaging, comprising a base (1), a shell (2), a screen (22), a guide rod (23), a first spring (24), a hopper (3), The feed hopper (31) and the material receiving frame (32), the base (1) top rear side is fixedly connected with the shell (2), the left middle part of the shell (2) is connected with the discharge hopper (3), the middle of the top of the shell (2) A feed hopper (31) is connected, and guide rods (23) are fixedly connected front and back symmetrically to the left and right sides of the inner top and inner bottom of the shell (2), and the sliding suit between the four guide rods (23) is used to adjust lime The sieve (22) for oscillating and sieving powder, the sieve (22) is inclined, and four first springs (24) are connected between the bottom of the sieve (22) and the inner bottom of the shell (2), and the four first springs (24) are connected to each other. A spring (24) is sleeved on the four guide rods (23) respectively, and the lower part of the front side of the casing (2) is slidably connected with a material receiving frame (32) for collecting qualified lime powder. It is characterized in that, It also includes a drive mechanism (4) and a cleaning mechanism (5). The right side of the casing (2) is provided with a drive mechanism (4) for driving the screen (22) to move up and down. The casing (2) is provided with a drive mechanism (4) for moving the screen (22) a cleaning mechanism (5) for removing stuck lime powder.2.如权利要求1所述的一种石灰粉包装用振荡过筛装置，其特征在于，还包括有透视板(21)，外壳(2)左侧上部固定穿接有透视板(21)。2. A vibrating screening device for lime powder packaging according to claim 1, characterized in that it also includes a see-through plate (21), and the see-through plate (21) is fixedly connected to the upper left side of the casing (2).3.如权利要求1所述的一种石灰粉包装用振荡过筛装置，其特征在于，驱动机构(4)包括有安装架(41)、步进电机(42)和凸轮(43)，外壳(2)外右侧面下部固接有安装架(41)，安装架(41)上固接有步进电机(42)，步进电机(42)的输出轴转动式的贯穿外壳(2)右侧，步进电机(42)的输出轴端部固接有用于带动筛网(22)移动的凸轮(43)，凸轮(43)位于筛网(22)下方。3. A kind of lime powder packing oscillating screening device as claimed in claim 1, is characterized in that, drive mechanism (4) comprises mounting bracket (41), stepper motor (42) and cam (43), and shell (2) the outer right side lower part is fixedly connected with mounting frame (41), is fixedly connected with stepper motor (42) on the mounting frame (41), the output shaft rotation type of stepper motor (42) runs through the casing (2) On the right side, the end of the output shaft of the stepping motor (42) is fixedly connected with a cam (43) for driving the screen cloth (22) to move, and the cam (43) is located below the screen cloth (22).4.如权利要求3所述的一种石灰粉包装用振荡过筛装置，其特征在于，清理机构(5)包括有清理辊(51)、滚轮(52)、滑动块(53)、导向杆(54)和第二弹簧(55)，外壳(2)内前后两侧面中部都固接有导向杆(54)，前后两侧导向杆(54)上都滑动式的套装有滑动块(53)，前后两侧滑动块(53)左侧面都与外壳(2)内侧之间连接有第二弹簧(55)，第二弹簧(55)套在导向杆(54)上，前后两侧滑动块(53)内侧面之间固接有用于将筛网(22)上卡住的石灰粉清除的清理辊(51)，清理辊(51)上前后对称固定套装有滚轮(52)，前后两侧滚轮(52)都与筛网(22)顶部接触。4. A kind of lime powder packaging vibration screening device as claimed in claim 3, is characterized in that, cleaning mechanism (5) comprises cleaning roller (51), roller (52), sliding block (53), guide bar (54) and the second spring (55), the middle part of the front and rear sides in the shell (2) is all fixedly connected with guide rods (54), and the front and rear sides guide rods (54) are all slidably fitted with slide blocks (53) , a second spring (55) is connected between the left side of the front and rear sliding blocks (53) and the inner side of the casing (2), the second spring (55) is sleeved on the guide rod (54), and the front and rear sliding blocks (53) The cleaning roller (51) that is used to remove the lime powder jammed on the screen (22) is fixedly connected between the inner surfaces, and the front and rear symmetrical fixed sets of rollers (52) are fixed on the cleaning roller (51). The rollers (52) are all in contact with the top of the screen (22).5.如权利要求4所述的一种石灰粉包装用振荡过筛装置，其特征在于，还包括有用于将热风吹出的吹风机构(6)，吹风机构(6)包括有安装框(61)、加热管(62)、同步带(63)、转轴(64)和风扇(65)，外壳(2)右侧上部固定穿接有安装框(61)，安装框(61)左侧面固接有加热管(62)，安装框(61)中部转动式的穿接有转轴(64)，转轴(64)左侧固定套装有用于将风吹出的风扇(65)，步进电机(42)的输出轴上设置有同步带(63)，同步带(63)通过单向离合器与转轴(64)右侧连接。5. A kind of lime powder packaging vibration screening device as claimed in claim 4, is characterized in that, also comprises the blower mechanism (6) that is used for blowing out hot air, and blower mechanism (6) comprises installation frame (61) , heating pipe (62), timing belt (63), rotating shaft (64) and fan (65), the upper part of the right side of the casing (2) is fixedly pierced with an installation frame (61), and the left side of the installation frame (61) is fixedly connected Heating pipe (62) is arranged, and the rotating shaft (64) is connected in the middle part of the installation frame (61), and the left side of the rotating shaft (64) is fixedly fitted with a fan (65) for blowing the wind out, and a stepper motor (42) A synchronous belt (63) is arranged on the output shaft, and the synchronous belt (63) is connected with the right side of the rotating shaft (64) through a one-way clutch.6.如权利要求5所述的一种石灰粉包装用振荡过筛装置，其特征在于，还包括有用于间隔进料斗(31)封闭的隔离机构(7)，隔离机构(7)包括有丝杆(71)、滑动架(72)、磁吸块(73)、导柱(74)、第三弹簧(75)、隔离板(76)、细杆(77)和第五弹簧(78)，外壳(2)右侧上部滑动式的穿接有用于将进料斗(31)内封闭的隔离板(76)，外壳(2)右侧上部前后对称滑动式的穿接有细杆(77)，前后两侧细杆(77)左端都与隔离板(76)左部固定连接，隔离板(76)左部与外壳(2)内右侧面上部之间前后对称连接有第五弹簧(78)，第五弹簧(78)套在细杆(77)上，外壳(2)外右侧面上部中间固接有导柱(74)，导柱(74)位于安装框(61)上方，导柱(74)上滑动式的套装有用于带动隔离板(76)移动的滑动架(72)，滑动架(72)内右侧面与外壳(2)外右侧面上部之间连接有第三弹簧(75)，转轴(64)右端固接有丝杆(71)，丝杆(71)上螺纹式转动连接有用于带动滑动架(72)移动的磁吸块(73)，滑动架(72)下部套在磁吸块(73)上，滑动架(72)与磁吸块(73)磁性接触。6. a kind of lime powder packaging vibration screening device as claimed in claim 5, is characterized in that, also comprises the isolating mechanism (7) that is used for interval feeding hopper (31) closure, and isolating mechanism (7) comprises Screw rod (71), sliding frame (72), magnetic block (73), guide post (74), third spring (75), isolation plate (76), thin rod (77) and fifth spring (78) , the upper right side of the housing (2) is connected with a partition plate (76) for sealing the inside of the feed hopper (31), and the front and rear symmetrical sliding type is connected with a thin rod (77) on the upper right side of the housing (2). ), the left end of the thin rod (77) on the front and rear sides is all fixedly connected with the left part of the isolation plate (76), and the fifth spring ( 78), the fifth spring (78) is sleeved on the thin rod (77), and a guide post (74) is affixed in the middle of the outer right side surface of the casing (2), and the guide post (74) is located above the mounting frame (61), The sliding set on the guide post (74) is provided with a sliding frame (72) for driving the separating plate (76) to move, and the inner right side of the sliding frame (72) is connected with the upper right side outside the casing (2) with a second Three springs (75), the right end of rotating shaft (64) are fixedly connected with screw mandrel (71), and threaded rotation on the screw mandrel (71) is connected with the magnetic block (73) that is used to drive sliding frame (72) to move, and sliding frame ( 72) The bottom is enclosed within on the magnetic block (73), and the sliding frame (72) is in magnetic contact with the magnetic block (73).7.如权利要求6所述的一种石灰粉包装用振荡过筛装置，其特征在于，还包括有用于对接料框(32)进行导向的助动机构(8)，助动机构(8)包括有安装块(81)和助动轮(82)，接料框(32)外底部前后两侧都左右对称固接有安装块(81)，四块安装块(81)都与底座(1)顶部滑动连接，四块安装块(81)底部都前后对称转动式的连接有助动轮(82)。7. A kind of vibrating sieving device for lime powder packaging as claimed in claim 6, characterized in that, it also includes an auxiliary mechanism (8) for guiding the material receiving frame (32), and the auxiliary mechanism (8) Including installation block (81) and auxiliary wheel (82), all left and right sides symmetrically fixedly connected with installation block (81) on the front and rear sides of the outer bottom of material receiving frame (32), four installation blocks (81) are all connected with base (1) The top is slidingly connected, and four mounting blocks (81) bottoms are all connected with front and back symmetric rotation types to have a driving wheel (82).8.如权利要求7所述的一种石灰粉包装用振荡过筛装置，其特征在于，还包括有用于将隔离板(76)固定的锁定机构(9)，锁定机构(9)包括有固定块(91)和电磁块(92)，外壳(2)内顶部左侧固接有固定块(91)，固定块(91)右侧面固接有用于将隔离板(76)吸住固定的电磁块(92)。8. A kind of lime powder packaging oscillating sieve device as claimed in claim 7, is characterized in that, also comprises the locking mechanism (9) that is used for separating plate (76) fixing, and locking mechanism (9) includes fixing block (91) and electromagnetic block (92), the left side of the inner top of the shell (2) is fixedly connected with a fixed block (91), and the right side of the fixed block (91) is fixedly connected with a fixed Electromagnetic block (92).

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