CN112208953B - A raw and other materials storage system for insulation material production - Google Patents

Abstract

Translated fromChinese

本发明公开了一种用于保温材料生产的原材料存储系统，涉及保温材料生产技术领域，分隔加强机构将存储容器的内部分隔成四个存储腔室，每个腔室中均可以存储不同种类的液态原料，另外在原料存储单元的顶端固定安装有四向连通单元，其中，四向连通单元包括对称安装在密封盖板顶端的两根支撑导柱，两根支撑导柱的顶端共同固定连接有分向组件，在分向组件的内部固定安装有导流衔接组件，分向组件和导流衔接组件共同配合使用后，可以向每个分隔腔室中注入生产保温材料不同种类的液态原料，整个过程为全自动控制，无需人工手动操作，从而为保温材料液态原料的在存储前的注入提供便利，省时省力的同时，又能提高效率。

The invention discloses a raw material storage system for the production of thermal insulation materials, which relates to the technical field of thermal insulation material production. Liquid raw material, in addition, a four-way communication unit is fixedly installed at the top of the raw material storage unit, wherein the four-way communication unit includes two supporting guide posts symmetrically installed on the top of the sealing cover, and the tops of the two supporting guide posts are fixedly connected together with a The diverter component is fixedly installed with a diversion connection component inside the diversion component. After the diversion component and the diversion connection component are used together, different types of liquid raw materials for the production of thermal insulation materials can be injected into each compartment. The process is fully automatic control, without manual operation, which facilitates the injection of liquid raw materials of thermal insulation materials before storage, saves time and effort, and improves efficiency.

Description

A raw and other materials storage system for insulation material production

Technical Field

The invention relates to the technical field of production of heat-insulating materials, in particular to a raw material storage system for production of heat-insulating materials.

Background

With the development of science and technology and the improvement of living standard year by year, the heat insulation material has become one of indispensable articles in production and life of people, and the heat insulation material generally refers to a material with a heat conductivity coefficient less than or equal to 0.12. The development of heat insulation materials is fast, and good heat insulation technology and materials are adopted in industry and buildings, so that the effect of achieving twice the result with half the effort can be achieved. One ton of oil can be saved in one year per ton of mineral wool insulation product used in the building.

When the heat insulation material is produced, raw materials used for producing the heat insulation material in a large batch need to be stored, so that convenience is brought to the transfer of the raw materials in the production process of the subsequent heat insulation material;

in order to enable the storage container used by the heat insulation material liquid raw material to have more excellent performance in practical use, the storage of the heat insulation material liquid raw material is more convenient, and further the efficiency is improved, the technical personnel in the field provide a raw material storage system for heat insulation material production.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a raw material storage system for heat insulation material production, and solves the problems that a storage container used for liquid raw materials of heat insulation materials has more excellent performance in practical use, the liquid raw materials of the heat insulation materials are more convenient to store, and the efficiency is further improved.

In order to achieve the purpose, the invention is realized by the following technical scheme: a raw material storage system for heat insulation material production comprises an equipment bearing frame and an equipment bearing platform which is fixedly arranged at the top end of the equipment bearing frame and has a matched size, wherein a raw material storage unit is fixedly arranged at the top end of the equipment bearing platform, and a four-way communication unit is fixedly arranged at the top end of the raw material storage unit;

the raw material storage unit comprises a storage container fixedly mounted at the top end of an equipment bearing platform, a plurality of groups of outer ring reinforcing hoops arranged at equal intervals are fixedly sleeved on the outer side of the storage container in a fixed mode, a sealing cover plate is fixedly mounted at the top end of the storage container through bolts, a separation reinforcing mechanism is fixedly mounted in the storage container and divides the interior of the storage container into four storage chambers, maintenance windows are fixedly mounted at the top end of the sealing cover plate and in positions corresponding to the storage chambers, a raw material injection pipe penetrates through the interior of each maintenance window, and the raw material injection pipe extends into the storage container;

the four-way communication unit comprises two supporting guide pillars symmetrically arranged at the top end of the sealing cover plate, the top ends of the two supporting guide pillars are fixedly connected with a branch component together, and a diversion connection component is fixedly arranged in the branch component;

the branch component comprises a protection cylinder fixedly installed at the top ends of two support guide pillars, a plurality of branch guide pipes are arranged on the side wall of the protection cylinder in a penetrating mode, each branch guide pipe is fixedly connected with a raw material injection pipe in series, a laser receiver is fixedly installed on the inner side wall of the protection cylinder and in the position corresponding to each branch guide pipe, and a sealing gasket made of rubber is fixedly installed at the feed inlet of each branch guide pipe;

the water conservancy diversion links up the subassembly and includes the spacing frame of fixed mounting in the inside bottom of a protection section of thick bamboo the runway groove has been seted up to spacing frame's inside sliding connection has the slide of an arc structure two backup pads are installed to the top symmetry of slide, and the intermediate position fixedly connected with raw materials that is located two backup pads on the top of slide carry the linking pipe the fixed cover in top that the raw materials carried the linking pipe has linked up the lantern ring, every all form pressure through electronic hydraulic stem between the backup pad and the linking lantern ring and apply the structure link up the back fixed mounting of the lantern ring has laser emitter the inside fixed mounting of spacing frame has the inner skleeve.

Furthermore, one side fixed mounting of equipment bearing frame has a district section maintenance ladder one side fixed mounting of raw materials storage unit has two district section maintenance ladders, the top of a district section maintenance ladder and the bottom intercommunication of two district section maintenance ladders are in the same place, the top of two district section maintenance ladders extends to the top of raw materials storage unit.

Furthermore, the outer side surface of the storage container and the position corresponding to each storage chamber are fixedly provided with a liquid level meter, the bottom end of the storage container and the position corresponding to each storage chamber are fixedly connected with a discharge pipe in series, and the discharge end of each discharge pipe is provided with a manual control valve and an electromagnetic valve in series.

Furthermore, the partition reinforcing mechanism comprises a stand column fixedly installed at the center inside the storage container, four partition plates are fixedly installed on the lateral end faces of the stand column, and a fixed connection structure is formed between every two partition plates and between the inner side walls of the storage container through a plurality of reinforcing arc plates.

Furthermore, four clapboards and the upright post jointly form a cross-shaped separation reinforcing structure, and the upright post and two adjacent clapboards form a fixedly connected reinforcing structure through a plurality of pedal plates which are arranged at equal intervals in the vertical direction.

Furthermore, a dustproof cover plate with the matched size is fixedly installed at the top end of the branch component, and a driven gear is fixedly sleeved on the outer side of the bottom of the raw material conveying connecting pipe.

Furthermore, the four-way communication unit further comprises a driving motor which is fixedly installed at the top end of the sealing cover plate and located on one side of the supporting guide pillar, a driving gear is fixedly installed at the driving end of the driving motor, the driving gear and the driven gear are meshed together, and the transmission ratio of the driving gear to the driven gear is 3: 1.

Furthermore, a raw material conveying pipe is rotatably connected to the inner portion of the bottom end of the raw material conveying connecting pipe, and a rotary connecting structure with a sealing function is formed between the raw material conveying connecting pipe and the raw material conveying pipe through a water seal sleeve.

Furthermore, a through groove is formed in the bottom end of the sealing washer, the through groove is communicated with the inside of the inner sleeve, and the bottom end of the raw material conveying connecting pipe penetrates through the inner sleeve and the through groove in sequence and extends to the position below the protective cylinder.

Further, when the laser transmitter rotates along with the raw material conveying adapter tube and rotates to correspond to the position of the laser receiver, the end part of the raw material conveying adapter tube is in contact with the end part of one diversion pipe.

Advantageous effects

The invention provides a raw material storage system for production of heat insulation materials. Compared with the prior art, the method has the following beneficial effects:

1. the utility model provides a raw and other materials storage system for insulation material production, there is four-way intercommunication unit through the top fixed mounting at raw materials storage unit, wherein, four-way intercommunication unit includes that the symmetry is installed two support guide pillars on sealed apron top, the common fixedly connected with in top of two support guide pillars divides to the subassembly, there is water conservancy diversion linking assembly at the inside fixed mounting of branch subassembly, use the back to subassembly and water conservancy diversion linking assembly cooperation jointly, can inject into the different kinds of liquid raw materials of production insulation material into every partition cavity, whole process is full automatic control, need not artifical manual operation, thereby for the injection before the storage of the liquid raw materials of insulation material facilitates, in the time of labour saving and time saving, can raise the efficiency again.

2. A raw material storage system for thermal insulation material production is characterized in that laser receivers are fixedly arranged on the inner side wall of a protective cylinder and at positions corresponding to each direction of a flow guide pipe, rubber sealing washers are fixedly arranged at the feed inlet of each direction of the flow guide pipe, a linking sleeve ring is fixedly sleeved at the top end of a raw material conveying linking pipe, a pressure applying structure is formed between each supporting plate and the linking sleeve ring through an electric hydraulic rod, a laser transmitter is fixedly arranged on the back surface of the linking sleeve ring, through the structure, when the laser transmitter rotates along with the link, the laser transmitter sequentially approaches the position of each laser receiver, after the laser receiver receives laser emitted by the laser transmitter, the laser transmitter stops rotating along with the link, and at the moment, the raw material conveying linking pipe is just contacted with one direction of the flow guide pipe, and then the liquid raw material is injected by the two electric hydraulic rods and the sealing washer, so that the problem of leakage cannot occur.

3. The utility model provides a raw and other materials storage system for insulation material production, there is the partition strengthening mechanism through the inside fixed mounting at storage container, separate strengthening mechanism and divide into four storage cavity with storage container's internal partitioning, wherein, separate strengthening mechanism and include the stand of fixed mounting at the inside central point of storage container and put, there are four baffles at the side direction terminal surface fixed mounting of stand, all form fixed connection structure through a plurality of reinforcing arc boards between per two baffles and between storage container's the inside wall, above-mentioned structure, when the in-service use, the container that will be used for storing insulation material liquid raw materials equally divides into four, all can store different kinds of liquid raw materials in every, thereby the practicality of whole raw and other materials storage system for insulation material production has been improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of an assembled structure of the raw material storage unit according to the present invention;

FIG. 3 is a schematic exploded view of a material storage unit according to the present invention;

FIG. 4 is a schematic structural view of the partition reinforcing mechanism of the present invention;

FIG. 5 is a schematic view of an assembly structure of the four-way communication unit according to the present invention;

FIG. 6 is an exploded view of the four-way communication unit of the present invention;

FIG. 7 is a schematic structural view of a diverter assembly of the present invention;

FIG. 8 is a top view of the diverter assembly of the present invention;

FIG. 9 is a schematic view of a flow guide engagement assembly according to the present invention;

fig. 10 is a top view of a flow guide engagement assembly of the present invention.

In the figure: 1. an equipment carrying frame; 2. an equipment carrying platform; 3. a sectional service ladder; 4. a raw material storage unit; 41. a storage container; 42. an outer ring reinforcing hoop; 43. sealing the cover plate; 44. an access panel; 45. a raw material injection pipe; 46. a separation reinforcement mechanism; 461. a column; 462. a partition plate; 463. a pedal plate; 464. reinforcing the arc plate; 47. a liquid level meter; 5. a second section of overhaul ladder; 6. a four-way communication unit; 61. supporting the guide post; 62. a direction component; 621. a protective cylinder; 622. diversion pipes; 623. a laser receiver; 624. a sealing gasket; 625. a through groove; 63. a dust-proof cover plate; 64. a diversion engagement assembly; 641. a limiting frame; 642. a runway groove; 643. a slide plate; 644. a support plate; 645. an electro-hydraulic lever; 646. engaging the lantern ring; 647. a laser transmitter; 648. an inner sleeve; 649. a raw material conveying connecting pipe; 65. a driven gear; 66. a drive motor; 67. a driving gear; 68. a raw material conveying pipe; 69. a water jacket; 7. a discharge pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution: a raw material storage system for heat insulation material production comprises an equipment bearing frame 1 and an equipment bearing platform 2 which is fixedly installed at the top end of the equipment bearing frame 1 and is adaptive to the size, a raw material storage unit 4 is fixedly installed at the top end of the equipment bearing platform 2, a four-way communication unit 6 is fixedly installed at the top end of the raw material storage unit 4, a first-section maintenance ladder 3 is fixedly installed at one side of the equipment bearing frame 1, a second-section maintenance ladder 5 is fixedly installed at one side of the raw material storage unit 4, the top end of the first-section maintenance ladder 3 is communicated with the bottom end of the second-section maintenance ladder 5, the top end of the second-section maintenance ladder 5 extends to the upper side of the raw material storage unit 4, a liquid level meter 47 is fixedly installed on the outer side surface of a storage container 41 and at a position corresponding to each storage chamber, and a discharge pipe 7 is fixedly connected in series with the bottom end of the storage container 41 and a position corresponding to each storage chamber, the discharge end of each discharge pipe 7 is provided with a manual control valve and an electromagnetic valve in series.

Referring to fig. 2-3, the rawmaterial storage unit 4 includes astorage container 41 fixedly installed at the top end of the equipment carrying platform 2, a plurality of groups of outerring reinforcing hoops 42 arranged at equal intervals are fixedly sleeved outside thestorage container 41, a sealingcover plate 43 is fixedly installed at the top end of thestorage container 41 through bolts, aseparation reinforcing mechanism 46 is fixedly installed inside thestorage container 41, theseparation reinforcing mechanism 46 divides the inside of thestorage container 41 into four storage chambers,access windows 44 are fixedly installed at the top end of the sealingcover plate 43 and corresponding to the positions of the storage chambers, a rawmaterial injection pipe 45 penetrates through the inside of eachaccess window 44, and the rawmaterial injection pipe 45 extends to the inside of thestorage container 41.

Referring to fig. 4, thepartition reinforcing mechanism 46 includes avertical column 461 fixedly installed at a central position inside thestorage container 41, fourpartition plates 462 are fixedly installed at lateral end surfaces of thevertical column 461, a plurality of reinforcingarc plates 464 form a fixed connection structure between each twopartition plates 462 and an inner side wall of thestorage container 41, the fourpartition plates 462 and thevertical column 461 form a cross-shaped partition reinforcing structure together, and a plurality ofpedal plates 463 arranged at equal intervals in a vertical direction form a fixed connection reinforcing structure between thevertical column 461 and the twoadjacent partition plates 462.

Referring to fig. 5-6, the four-way connection unit 6 includes two support guide posts 61 symmetrically installed on the top of the sealingcover plate 43, abranch assembly 62 is fixedly connected to the top of the two support guide posts 61, adiversion engagement assembly 64 is fixedly installed inside thebranch assembly 62, a dust-proof cover plate 63 with a matched size is fixedly installed on the top of thebranch assembly 62, a drivengear 65 is fixedly sleeved on the outer side of the bottom of the raw material conveyingengagement tube 649, the four-way connection unit 6 further includes a drivingmotor 66 fixedly installed on the top of the sealingcover plate 43 and located on one side of the support guide posts 61, adriving gear 67 is fixedly installed at the driving end of the drivingmotor 66, thedriving gear 67 and the drivengear 65 are meshed together, the transmission ratio of thedriving gear 67 to the drivengear 65 is 3:1, a rawmaterial conveying tube 68 is rotatably connected inside the bottom of the raw material conveyingengagement tube 649, the materialdelivery linking tube 649 and thematerial delivery tube 68 form a rotary connection structure with a sealing function through awater seal sleeve 69.

Referring to fig. 7-8, thebranch component 62 includes aprotection cylinder 621 fixedly mounted on the top of twosupport guide pillars 61, a plurality ofbranch guide pipes 622 are arranged on the sidewall of theprotection cylinder 621 in a penetrating manner, eachbranch guide pipe 622 is fixedly connected with the rawmaterial injection pipe 45 in series, alaser receiver 623 is fixedly mounted on the inner sidewall of theprotection cylinder 621 and at a position corresponding to eachbranch guide pipe 622, arubber sealing washer 624 is fixedly mounted at the feed inlet of eachbranch guide pipe 622, a throughgroove 625 is formed at the bottom end of the sealingwasher 624, the throughgroove 625 is communicated with the inside of theinner sleeve 648, and the bottom end of the raw material conveyingconnection pipe 649 sequentially penetrates through theinner sleeve 648 and the throughgroove 625 and extends to the lower side of theprotection cylinder 621.

Referring to fig. 9-10, thediversion connection assembly 64 includes a limitingframe 641 fixedly installed at the bottom end inside theprotective cylinder 621, arunway groove 642 formed inside the limitingframe 641, a slidingplate 643 with an arc-shaped structure slidably connected inside therunway groove 642, twosupport plates 644 symmetrically installed at the top end of the slidingplate 643, a material conveyingconnection tube 649 fixedly connected at the top end of the slidingplate 643 and located at the middle position of the twosupport plates 644, aconnection collar 646 fixedly connected at the top end of the material conveyingconnection tube 649, a pressure applying structure formed between eachsupport plate 644 and theconnection collar 646 by an electrichydraulic rod 645, alaser emitter 647 fixedly installed at the back of theconnection collar 646, aninner sleeve 648 fixedly installed inside the limitingframe 641, when thelaser emitter 647 rotates along with the material conveyingconnection tube 649 and rotates to correspond to the position of thelaser receiver 623 therein, the end of the material-conveyingadapter 649 is in contact with the end of one of thediversion pipes 622.

When thestorage container 41 is used, aseparation reinforcing mechanism 46 is fixedly installed inside thestorage container 41, theseparation reinforcing mechanism 46 divides the inside of thestorage container 41 into four storage chambers, wherein theseparation reinforcing mechanism 46 comprises avertical column 461 fixedly installed at the central position inside thestorage container 41, fourpartition plates 462 are fixedly installed on the lateral end faces of thevertical column 461, a fixed connection structure is formed between every twopartition plates 462 and the inner side wall of thestorage container 41 through a plurality of reinforcing arc plates, the container for storing the heat insulation material liquid raw materials is equally divided into four parts, and different types of liquid raw materials can be stored in each part;

when a corresponding liquid raw material needs to be added into one of the storage chambers, the driving motor 66 is firstly started, the driving motor 66 drives the driving gear 67 to rotate, the driving gear 67 is meshed with the driven gear 65, the driven gear 65 synchronously rotates, and then the raw material conveying connecting pipe 649 is driven to rotate, in the process of rotating the raw material conveying connecting pipe 649, the raw material conveying connecting pipe 649 is connected with the raw material conveying pipe 68 through the water seal sleeve 69, on the premise of ensuring the sealing performance, the raw material conveying connecting pipe 649 and the raw material conveying pipe 68 can relatively rotate, meanwhile, in the process of rotating the raw material conveying connecting pipe 649, the sliding plate 643 also makes a circular motion in the runway groove 642, in the process of rotating the sliding plate 643, the laser emitter 647 also synchronously rotates along with the sliding plate 643, and the laser emitter 647 sends out a laser signal at any moment, the laser receiver 623 can sequentially approach the position of each laser receiver 623, after the laser receiver 623 receives laser emitted by the laser emitter 647, the laser emitter 647 stops rotating along with the laser, at the moment, the raw material conveying connection pipe 649 happens to be in contact with one of the raw material conveying connection pipes to the guide pipe 622, at the moment, the driving motor 66 stops working, then the electric hydraulic rod 645 pushes the connection sleeve ring 646, pressure is applied to the part, in contact with the guide pipe 622, of the raw material conveying connection pipe 649, and under the action of the sealing washer 624, the problem of leakage cannot occur in the subsequent conveying of liquid raw materials, and pollution and waste are avoided.

In this embodiment, thelaser emitter 647 and thelaser receiver 623 are the devices used in a matching manner, and are internally provided with power supplies without external power supply, and are internally provided with wireless modules, so that signals can be remotely transmitted to a controller (not shown in the figure), and then the controller actively controls the on/off of the drivingmotor 66.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

Translated fromChinese

1.一种用于保温材料生产的原材料存储系统，包括设备承载框架（1）以及固定安装在设备承载框架（1）顶端且尺寸相适配的设备承载平台（2），其特征在于，在所述设备承载平台（2）的顶端固定安装有原料存储单元（4），在所述原料存储单元（4）的顶端固定安装有四向连通单元（6）；1. A raw material storage system for the production of thermal insulation materials, comprising an equipment carrying frame (1) and an equipment carrying platform (2) fixedly installed on the top of the equipment carrying frame (1) and having an adapted size, characterized in that: A raw material storage unit (4) is fixedly installed on the top of the equipment carrying platform (2), and a four-way communication unit (6) is fixedly installed on the top of the raw material storage unit (4);所述原料存储单元（4）包括固定安装在设备承载平台（2）顶端的存储容器（41），在所述存储容器（41）的外侧固定套接有若干组等距离设置的外圈加强箍（42），在所述存储容器（41）的顶端通过螺栓固定安装有密封盖板（43），所述存储容器（41）的内部固定安装有分隔加强机构（46），所述分隔加强机构（46）将存储容器（41）的内部分隔成四个存储腔室，在所述密封盖板（43）的顶端且对应每个存储腔室的位置均固定安装有检修窗（44），在每个所述检修窗（44）的内部均贯穿设置有一根原料注入管（45），所述原料注入管（45）延伸至存储容器（41）的内部；The raw material storage unit (4) includes a storage container (41) fixedly installed on the top of the equipment carrying platform (2), and a plurality of sets of outer ring reinforcing hoops arranged at equal distances are fixedly sleeved on the outside of the storage container (41). (42), a sealing cover plate (43) is fixedly installed on the top of the storage container (41) by means of bolts, and a partition reinforcement mechanism (46) is fixedly installed inside the storage container (41), and the partition reinforcement mechanism (46) The interior of the storage container (41) is divided into four storage chambers, and an inspection window (44) is fixedly installed at the top of the sealing cover plate (43) and at a position corresponding to each storage chamber, and A raw material injection pipe (45) is disposed through the interior of each of the inspection windows (44), and the raw material injection pipe (45) extends to the interior of the storage container (41);所述四向连通单元（6）包括对称安装在密封盖板（43）顶端的两根支撑导柱（61），两根所述支撑导柱（61）的顶端共同固定连接有分向组件（62），在所述分向组件（62）的内部固定安装有导流衔接组件（64）；The four-way communication unit (6) includes two support guide columns (61) symmetrically installed on the top of the sealing cover plate (43), and the top ends of the two support guide columns (61) are jointly fixedly connected with a diverter assembly ( 62), a flow guide connecting assembly (64) is fixedly installed inside the diverting assembly (62);所述分向组件（62）包括固定安装在两根支撑导柱（61）顶端的防护筒（621），在所述防护筒（621）的侧壁贯穿设置有若干根分向导流管（622），每一根所述分向导流管（622）均与原料注入管（45）固定串接在一起，在所述防护筒（621）的内侧壁且与每根分向导流管（622）相对应的位置均固定安装有激光接收器（623），在每根所述分向导流管（622）的进料口处均固定安装有橡胶材质的密封垫圈（624）；The diverting assembly (62) includes a protective tube (621) fixedly installed on the top ends of the two support guide columns (61), and a plurality of diverting guide tubes (622) are provided through the side wall of the protective tube (621). ), each of the branch guide pipes (622) is fixedly connected in series with the raw material injection pipe (45), on the inner side wall of the protective cylinder (621) and with each branch guide pipe (622) A laser receiver (623) is fixedly installed at the corresponding position, and a sealing gasket (624) made of rubber is fixedly installed at the feed port of each of the branch guide tubes (622);所述导流衔接组件（64）包括固定安装在防护筒（621）内部底端的限位框架（641），在所述限位框架（641）的内部开设有跑道槽（642），在所述跑道槽（642）的内部滑动连接有一块弧形结构的滑板（643），在所述滑板（643）的顶端对称安装有两块支撑板（644），且在滑板（643）的顶端位于两块支撑板（644）的中间位置固定连接有原料输送衔接管（649），在所述原料输送衔接管（649）的顶端固定套接有衔接套环（646），每块所述支撑板（644）与衔接套环（646）之间均通过电动液压杆（645）形成压力施加结构，在所述衔接套环（646）的背面固定安装有激光发射器（647），在所述限位框架（641）的内部固定安装有内套筒（648）;The diversion joint assembly (64) includes a limit frame (641) that is fixedly installed at the inner bottom end of the protective cylinder (621), and a racetrack groove (642) is opened inside the limit frame (641). An arc-shaped sliding plate (643) is slidably connected to the inside of the track groove (642), two supporting plates (644) are symmetrically installed on the top of the sliding plate (643), and two supporting plates (644) are installed at the top of the sliding plate (643). A raw material conveying connecting pipe (649) is fixedly connected to the middle position of the support plate (644), and a connecting collar (646) is fixedly sleeved on the top of the raw material conveying connecting pipe (649). A pressure applying structure is formed between 644) and the connecting collar (646) through an electro-hydraulic rod (645), and a laser transmitter (647) is fixedly installed on the back of the connecting collar (646), and a laser transmitter (647) is fixed at the limit An inner sleeve (648) is fixedly mounted inside the frame (641);在所述分向组件（62）的顶端固定安装有一块尺寸相适配的防尘盖板（63），所述原料输送衔接管（649）底部的外侧固定套接有从动齿轮（65）,所述四向连通单元（6）还包括固定安装在密封盖板（43）顶端且位于支撑导柱（61）一侧的驱动电机（66），在所述驱动电机（66）的驱动端固定安装有主动齿轮（67），所述主动齿轮（67）与从动齿轮（65）相互啮合在一起，且主动齿轮（67）与从动齿轮（65）的传动比为3:1。A dust cover plate (63) with a suitable size is fixedly installed on the top of the diverter assembly (62), and a driven gear (65) is fixedly sleeved on the outer side of the bottom of the raw material conveying connecting pipe (649). , the four-way communication unit (6) also includes a drive motor (66) fixedly mounted on the top of the sealing cover plate (43) and located on one side of the support guide column (61), at the drive end of the drive motor (66) A driving gear (67) is fixedly installed, the driving gear (67) and the driven gear (65) are meshed with each other, and the transmission ratio of the driving gear (67) and the driven gear (65) is 3:1.2.根据权利要求1所述的一种用于保温材料生产的原材料存储系统，其特征在于，在所述设备承载框架（1）的一侧固定安装有一区段检修梯（3），在所述原料存储单元（4）的一侧固定安装有二区段检修梯（5），所述一区段检修梯（3）的顶端和二区段检修梯（5）的底端连通在一起，所述二区段检修梯（5）的顶端延伸至原料存储单元（4）的上方。2. A raw material storage system for thermal insulation material production according to claim 1, characterized in that a section maintenance ladder (3) is fixedly installed on one side of the equipment carrying frame (1), A two-section maintenance ladder (5) is fixedly installed on one side of the raw material storage unit (4), and the top end of the one-section maintenance ladder (3) and the bottom end of the two-section maintenance ladder (5) are connected together, The top end of the two-section maintenance ladder (5) extends above the raw material storage unit (4).3.根据权利要求1所述的一种用于保温材料生产的原材料存储系统，其特征在于，在所述存储容器（41）的外侧表面且对应每个存储腔室的位置均固定安装有液位计（47），且存储容器（41）的底端且对应每个存储腔室的位置均固定串接有一根排料管（7），在每根所述排料管（7）的出料端均串接安装有手动控制阀和电磁阀。3. A raw material storage system for thermal insulation material production according to claim 1, characterized in that a liquid is fixedly installed on the outer surface of the storage container (41) and at a position corresponding to each storage chamber A position meter (47) is provided, and a discharge pipe (7) is fixedly connected in series at the bottom end of the storage container (41) and corresponding to the position of each storage chamber, and at the outlet of each discharge pipe (7) A manual control valve and a solenoid valve are installed in series on the material ends.4.根据权利要求1所述的一种用于保温材料生产的原材料存储系统，其特征在于，所述分隔加强机构（46）包括固定安装在存储容器（41）内部中心位置的立柱（461），在所述立柱（461）的侧向端面固定安装有四块隔板（462），每两块隔板（462）之间与存储容器（41）的内侧壁之间均通过若干块加强弧板（464）形成固定连接结构。4. A raw material storage system for the production of thermal insulation materials according to claim 1, characterized in that, the partition reinforcement mechanism (46) comprises a column (461) fixedly installed at a central position inside the storage container (41) , four baffles (462) are fixedly installed on the lateral end face of the upright column (461), and between every two baffles (462) and the inner side wall of the storage container (41), there are several reinforcing arcs Plate (464) forms a fixed connection.5.根据权利要求4所述的一种用于保温材料生产的原材料存储系统，其特征在于，四块所述隔板（462）与立柱（461）之间共同组成“十”字形的分隔加强结构，所述立柱（461）与相邻两块隔板（462）之间均通过若干块在竖直方向呈等距离设置的脚蹬板（463）形成固定连接的加强结构。5. A raw material storage system for the production of thermal insulation materials according to claim 4, characterized in that, a "cross"-shaped partition reinforcement is formed between the four partitions (462) and the uprights (461). Structure, the vertical column (461) and the two adjacent partition plates (462) are fixedly connected by a plurality of pedal plates (463) arranged at equal distances in the vertical direction to form a fixed connection reinforcement structure.6.根据权利要求1所述的一种用于保温材料生产的原材料存储系统，其特征在于，在所述原料输送衔接管（649）底端的内部转动连接有一根原料输送管（68），所述原料输送衔接管（649）与原料输送管（68）之间通过水封套（69）形成具有密封功能的转动连接结构。6. A raw material storage system for thermal insulation material production according to claim 1, characterized in that a raw material conveying pipe (68) is rotatably connected inside the bottom end of the raw material conveying connecting pipe (649), so A rotary connection structure with a sealing function is formed between the raw material conveying connecting pipe (649) and the raw material conveying pipe (68) through a water envelope (69).7.根据权利要求1所述的一种用于保温材料生产的原材料存储系统，其特征在于，在所述密封垫圈（624）的底端开设有通槽（625），所述通槽（625）与内套筒（648）的内部相连通，所述原料输送衔接管（649）的底端依次贯穿内套筒（648）和通槽（625）延伸至防护筒（621）的下方。7. A raw material storage system for thermal insulation material production according to claim 1, characterized in that, a through groove (625) is opened at the bottom end of the sealing gasket (624), and the through groove (625) ) is communicated with the interior of the inner sleeve (648), and the bottom end of the raw material conveying connecting pipe (649) extends through the inner sleeve (648) and the through groove (625) to the bottom of the protective cylinder (621) in sequence.8.根据权利要求1所述的一种用于保温材料生产的原材料存储系统，其特征在于，所述激光发射器（647）跟随原料输送衔接管（649）旋转时，且旋转至与其中激光接收器（623）的位置相对应时，所述原料输送衔接管（649）的端部与其中一根分向导流管（622）的端部相接触。8. A raw material storage system for thermal insulation material production according to claim 1, characterized in that, when the laser emitter (647) rotates following the raw material conveying connecting pipe (649), and rotates to match the laser light therein When the positions of the receivers (623) correspond, the end of the raw material conveying connecting pipe (649) is in contact with the end of one of the branching flow pipes (622).

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