CN111570198A - Data line USB cover skin adhesive deposite device - Google Patents

Abstract

The invention discloses a data line USB sheath rubber dispensing device, which relates to the electronic industry, can sleeve a USB wire head with a sheath sleeve through a double linkage effect, and release hands artificially during dispensing treatment to achieve the aim of automatically improving efficiency, and comprises a side frame, wherein a motor is arranged on the left end surface of the side frame, and a rotating mechanism which synchronously rotates with the motor is arranged on a rotating shaft connected with the right end of the motor through a coupler; the rear end face of the side frame is connected with a USB feeding seat in a backward inclined mode through an L-shaped connecting plate, and one end head of the dispensing machine fixing plate is provided with a dispensing tube inserting tube of a tubular structure in a vertical penetrating mode; the glue solution completely sleeves the thread end and the rubber tube, and an automatic use mode that the thread end and the rubber tube are synchronous in feeding, glue dispensing and rubber sleeve preassembling and the rubber sleeve is compressed again can be realized by matching with a glue occupying machine mode, so that a mode that the rubber sleeve is sleeved on the USB thread end manually before glue dispensing is replaced, and the work efficiency is greatly improved.

Description

Data line USB cover skin adhesive deposite device

Technical Field

The invention relates to the technical field of USB sheath glue dispensing, in particular to a USB sheath glue dispensing device for a data line.

Background

The data line generally comprises a metal connector (USB connection port), an electrical line and a sheath, wherein the metal connector (USB connection port) is used for connecting the whole USB connection line between two applied devices to form data transmission, such as a common USB charger, a mouse and a keyboard, which are connected to a host by using the metal connector (USB connection port) to form data transmission, in the process of USB connection line preparation, the sheath with protective properties is sleeved on the metal connector by using a dispenser to drop glue droplets to the root of the USB metal connector, which is a common dispenser, for example, an automatic dispensing and drying device disclosed in CN201720220137.7, which is basically described as follows: the method comprises the following steps: the glue dispensing device comprises a workbench, a glue dispensing part arranged on the workbench, a jig movably arranged on the workbench and a drying part arranged on the workbench; the utility model discloses be equipped with some portion of gluing, tool and can realize full-automatic point and glue the process, improve the accuracy of point position and the more accurate volume of gluing, moreover, this process is the full automatic control's of mechanical equipment process, even it has relative automation, but when being applied to this application occasion that above-mentioned background was mentioned with regard to it, still had and use not enough.

For example, when the USB metal connection wire is manufactured, when the sheath made of the rubber tube is sleeved on the root of the USB metal head and is subjected to dispensing treatment by the dispenser, even though the dispenser disclosed above can be used for realizing relative automation, the USB wire head still needs to be manually held before the dispensing of the rubber sleeve of the USB wire metal head, the sheath is sleeved on the metal head first, the sleeved USB metal head is placed on the dispenser again, and the dispenser is waited for the dispensing, and this method also needs to manually hold the USB metal head and the sheath for sleeving, thereby affecting the working efficiency and increasing the labor intensity.

Disclosure of Invention

The invention aims to provide a data line USB sheath glue dispensing device, which aims to solve the problems that when the existing sheath made of a sheath tube is sleeved on the root of a USB metal head and is subjected to glue dispensing treatment by a glue dispenser, even though the relative automation can be realized by applying the glue dispenser disclosed above, the USB wire head still needs to be manually held before the glue dispensing of the sheath tube at the metal head of the USB wire, the sheath is sleeved on the metal head, the sleeved USB metal head is placed on the glue dispenser again, and the glue dispensing is waited, and the method also needs to manually hold the USB metal head and the sheath for sleeving, so that the working efficiency is influenced, and the labor intensity is increased.

In order to achieve the purpose, the invention provides the following technical scheme: a data line USB sheath glue dispensing device comprises a side frame; a motor is arranged on the left end face of the side frame, and a rotating mechanism which rotates synchronously with the motor is arranged on a rotating shaft connected with the right end of the motor through a coupler; the rear end face of the side frame is connected with a USB feeding seat in a backward inclined mode through an L-shaped connecting plate, the inner end face of the USB feeding seat is welded with a dispenser fixing plate in a horizontal welding mode, and a dispensing tube inserting tube of a tubular structure is arranged at one end head of the dispenser fixing plate in a vertical penetrating mode; the rear end face of the dispenser fixing plate is welded with a rectangular tubular leather sheath feeding seat in a vertical mode, and a row of connecting rods welded at the bottom of the leather sheath feeding seat are connected with a first guide seat towards the rear; the first guide seat is matched with a pressing mechanism in a sliding mode, and a second guide seat is welded on the bottom face of the first guide seat.

Further: the rotating mechanism comprises a working position surface and a scraping and pulling seat; the working position surface is a rectangular plane structure uniformly distributed on the rotating mechanism, and the right sides of the working position surface and the rotating mechanism are provided with scraping and pulling seats with arc-shaped block structures.

Further: the left side of the top surface of the station surface of the rotating mechanism is also welded with a station plate, each station plate group is composed of two adjacent welding plates, and a distance opening is formed between the two adjacent welding plates.

Further: the USB feeding seat is welded on the connecting plate in an inclined mode, so that the bottom end of the USB feeding seat is far away from the maximum outline of the rotating mechanism, and a notch is formed in the left side area of the USB feeding seat.

Further: the right end face of the rotating mechanism is further provided with a station seat of a wheel disc structure in an embedding assembly mode, and the right end face of the station seat is further uniformly provided with a circle of arc-shaped grooves.

Further: the pressing mechanism comprises a bent rod, a first pressing sleeve seat and a spring rod assembly, wherein the first pressing sleeve seat at the top end of the bent rod is guided in the first guide seat in a sliding mode, and a guide rod part of the spring rod assembly in the middle section of the bent rod is inserted in a second guide seat welded to the bottom surface of the first guide seat in a sliding mode.

Further: the bottom section of the bent rod is also welded with a contact block according to a horizontal mode, the left end of the contact block is of a smooth arc-shaped surface structure, and the contact block is matched in an arc-shaped groove formed in the right end face of the station seat in a sliding mode.

Further: a supporting rod is further welded in the middle of the pressing mechanism according to a front bending mode, the supporting rod extends towards the left, and a second pressing sleeve seat is welded at the left end of the extended supporting rod.

Further: and a discharging spring plate with a streamline warped plate structure is welded at the front bottom side position of the right end face of the side frame, and the discharging spring plate is also positioned on the left side of the rotating mechanism.

Compared with the prior art, the invention has the beneficial effects that:

a bracket device with a rotating mechanism is designed, the rotating mechanism is provided with a circle of placing working surfaces for placing USB wire ends, the rotating mechanism can utilize the position of a plurality of position wire slots at the right end of the rotating mechanism to realize linkage type synchronous pressing action of a pressing mechanism, the right pressing mechanism can synchronously move the pressing mechanism of a bent rod structure contacted with the pressing mechanism in a left-right mode when the rotating mechanism at one side of the device rotates, the top and the middle part of the pressing mechanism are respectively provided with a first pressing sleeve seat and a second pressing sleeve seat which synchronously move in the left-right mode, the first pressing sleeve seat can automatically press and butt the USB wire ends brought by the rotating action of the rotating mechanism and rubber sleeves falling from a material seat when the rotating mechanism rotates, a dispenser of the prior art is arranged on a dispenser fixing plate arranged on the device mechanism, and the dispenser can just drop the rubber on the USB wire ends at the moment, the second pressing sleeve seat can extrude the rubber sleeve sleeved with the glue in the mode of the inner side of the glued USB connector lug which is driven by the rotating action of the rotating mechanism again, so that the glue can completely sleeve the wire end and the rubber sleeve.

Drawings

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

FIG. 2 is a first rotational multi-view schematic drawing of FIG. 1 in accordance with the present invention;

FIG. 3 is a second rotational multi-view illustration of the present invention taken from FIG. 1;

FIG. 4 is a third rotational multi-view illustration of the present invention taken from FIG. 1;

FIG. 5 is a fourth rotational multi-view illustration of the present invention taken from FIG. 1;

FIG. 6 is a schematic structural diagram of a front view of the present invention;

fig. 7 is a schematic diagram of the operation principle of the present invention for convenience of explanation (the principle in the figure indicates letters: T indicates a USB wire end, T1 indicates a rubber tube to be fitted with the USB wire end, T2 indicates glue dropped from a prior art dispenser, and T3 indicates a prior art dispenser for external cooperation installation).

In the figure: 1. a side frame; 2. a motor; 3. a rotating shaft; 4. a rotation mechanism; 401. a station surface; 402. a station plate; 403. a scraping and pulling seat; 5. inserting a dispensing tube into the tube; 7. a pressing mechanism; 701. a contact block; 702. bending a rod; 703. a first press sleeve seat; 704. a spring rod assembly; 8. a connecting plate; 9. a USB feeding seat; 10. a dispenser fixing plate; 11. a leather sheath feeding seat; 12. a connecting rod; 13. a first guide seat; 14. a spring plate is arranged; 15. a station seat; 1501. an arc-shaped slot; 16. a strut; 1601. a second press sleeve seat; 17. and a second guide seat.

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.

Referring to fig. 1 to 7, an embodiment of the present invention includes: a data line USB sheath glue dispensing device comprises aside frame 1; amotor 2 is arranged on the left side of theside frame 1, and the right end of themotor 2 is connected with a rotatingshaft 3 through a coupler; a rotating mechanism 4 which synchronously rotates with the rotatingshaft 3 is installed on the rotating shaft 4, the rotating mechanism 4 comprises astation surface 401 and a scraping and pullingseat 403, thestation surface 401 is a rectangular plane structure uniformly distributed on the rotating mechanism 4, as shown in fig. 7, thestation surface 401 is used for receiving and taking USB wire ends T placed in aUSB feeding seat 9, and the right sides of thestation surface 401 and the rotating and pullingseat 403 are provided with arc-shaped block structures, the scraping and pullingseat 403 is used for pulling the USB wire ends T arranged in theUSB feeding seat 9 out in a rotating manner when the USB wire ends T fall downwards, thestation plate 402 is further welded on the left side of the top surface of thestation surface 401 of the rotating mechanism 4, each group ofstation plates 402 is composed of two adjacent welding plates, a distance port is formed between the two adjacent welding plates, and a small wire end of the outer end of the USB wire end T falling on thestation surface 401 is clamped; the rear side of theside frame 1 is connected with aUSB feeding seat 9 in a backward inclined mode through an L-shaped connectingplate 8, the inner end of theUSB feeding seat 9 is welded with a gluedispenser fixing plate 10, the gluedispenser fixing plate 10 is horizontally arranged, a glue dispensingpipe inserting pipe 5 with a tubular structure is installed on the gluedispenser fixing plate 10 in an embedded mode, the glue dispensingpipe inserting pipe 5 is vertically arranged, a rectangular tubular leathersheath feeding seat 11 is welded at the rear end of the gluedispenser fixing plate 10, the leathersheath feeding seat 11 is vertically arranged, and a row of connectingrods 12 welded at the bottom of the leathersheath feeding seat 11 are connected with afirst guide seat 13 in a backward mode; thefirst guide seat 13 is internally matched with thepressing mechanism 7 in a sliding way, and the bottom of thefirst guide seat 13 is welded with asecond guide seat 17.

The slope formula welding has USB to throwmaterial seat 9 on connectingplate 8, and USB throwsmaterial seat 9 and is used for throwing in one row of USB end of a thread, makes USB throw the bottom ofmaterial seat 9 apart from the biggest profile of rotary mechanism 4 distance far away, and USB throws the left side region ofmaterial seat 9 and offers the notch that makes USB end of a thread end minor segment end of a thread stretch out.

The right side of the rotating mechanism 4 is embedded with astation seat 15 with a wheel disc structure, the right side of thestation seat 15 is provided with a circle of arc-shaped grooves 1501, the arc-shaped grooves 1501 are streamline, thestation seat 15 forms a cam type matching relation which forms a linkage action effect on the rightpressing mechanism 7 through the streamline-shaped arc-shaped grooves 1501 on the right side, as long as the rotating mechanism 4 rotates, thestation seat 15 on the right side can synchronously rotate, and forms a left-right direction compression action in a high-low position mode with thepressing mechanism 7 through the high-low position mode of the arc-shaped grooves 1501.

As shown in fig. 2, thepressing mechanism 7 includes acontact block 701, acurved bar 702, a first pressingsleeve seat 703 and aspring bar assembly 704, the first pressingsleeve seat 703 at the top end of thecurved bar 702 is slidably guided in thefirst guide seat 13, as shown in fig. 7, the first pressingsleeve seat 703 realizes a left-right action mode by the above principle, so that a rubber hose T1 falling downward in the leathersheath feeding seat 11 can be synchronously pressed leftward by the first pressingsleeve seat 703, a USB wire end T falling synchronously with theUSB feeding seat 9 realizes a half-part regional socket joint, a guide rod part of thespring bar assembly 704 at the middle section of thecurved bar 702 is slidably inserted into asecond guide seat 17 welded on the bottom surface of thefirst guide seat 13, an elastic pressure relief mechanism is formed by thespring bar assembly 704, and also has a guiding characteristic, thecontact block 701 is welded on the bottom end of thecurved bar 702 in a horizontal mode, the left end of thecontact block 701 has a smooth arc-shaped surface structure, the slide fit is in the arc-shaped groove 1501 formed in the right end face of thestation seat 15, as shown in fig. 2, it can be seen that the rotation of thestation seat 15 can make thepressing mechanism 7 synchronously rotate, and thecontact block 701 at the bottom end of thebent rod 702 and the rotation thereof continuously change the high-low position of the arc-shaped groove 1501 to synchronously link.

The middle position of thepressing mechanism 7 is further welded with asupport rod 16 according to a front bending sample, thesupport rod 16 extends towards the left, the left end of thesupport rod 16 is welded with a second pressingsleeve seat 1601 to form a branch pressing moving trend, and a double linkage effect is realized, as shown in fig. 7, the principle is as follows: meanwhile, the secondsleeve pressing seat 1601 is used for sleeving a part of thestation surface 401 rotating on the rotating mechanism 4, and the USB sleeved workpiece with the glue solution T2 which is already dotted on the USB plastic section is pushed and pressed by the secondsleeve pressing seat 1601 which synchronously presses the USB sleeved workpiece again, so that the complete sleeving and pressing of the workpiece are completed, and the glue solution T2 is located inside the workpiece after the sleeve assembly is completed.

Adischarging spring plate 14 with a streamline warped plate structure is welded at the front bottom side position of the right end face of theside frame 1, and thedischarging spring plate 14 is also positioned at the left side of the rotating mechanism 4 and used for enabling the dischargingspring plate 14 to elastically jump out outwards in the downward rotating process of continuously carrying the sleeved workpiece.

The working principle is as follows: a row of USB thread ends T is placed in aUSB feeding seat 9, a rubber tube T1 is placed in a leathersheath feeding seat 11, when a rotating mechanism 4 rotates, astation seat 15 at the right end synchronously rotates, according to the mechanism transmission principle, apressing mechanism 7 in a slowly pressing contact relation with the station seat can synchronously move left and right by anarc groove 1501 at the right side of the station seat, the rotating mechanism 4 utilizes a scraping and pullingseat 403 to rotate and take out the USB thread ends T which fall down in theUSB feeding seat 9, when the station seat reaches a horizontal position, a first pressingsleeve seat 703 which just presses the inner side of thepressing mechanism 7 leftwards presses leftwards moves leftwards, the rubber tube T1 falling down from the rubber tube T1 leathersheath feeding seat 11 is pressed leftwards, the USB thread ends T which are conveyed by rotation realize half-part regional sleeving, meanwhile, a dispensing tube of a dispensing machine T3 in the prior art is downwards pressed by a dispensingtube inserting tube 5, and a workpiece in a half-combination state continuously rotates downwards, the second pressingsleeve seat 1601 which is just pressed by the synchronous frequent pressing action again realizes pushing, so that the complete sleeve pressing of the workpieces is completed, the glue solution T2 is positioned inside the workpieces combined by the sleeve and continuously rotates downwards, and when the position of thespring plate 14 is reached, thespring plate 14 is positioned on the left side of the rotating mechanism 4 and is used for enabling the sleeved workpieces to elastically jump out outwards by thedischarging spring plate 14 in the process of continuously rotating downwards with the sleeved workpieces.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. The utility model provides a data line USB cover skin adhesive deposite device which characterized in that: comprises a side frame (1); a motor (2) is installed on the left end face of the side frame (1), and a rotating mechanism (4) which rotates synchronously with the motor (2) is installed on a rotating shaft (3) which is connected with the right end of the motor (2) through a coupler; the rear end face of the side frame (1) is connected with a USB feeding seat (9) through an L-shaped connecting plate (8) in a backward inclining mode, the inner end face of the USB feeding seat (9) is welded with a dispenser fixing plate (10) in a horizontal welding mode, and one end head of the dispenser fixing plate (10) is provided with a dispensing tube inserting tube (5) of a tubular structure in a vertical penetrating mode; the rear end face of the dispenser fixing plate (10) is welded with a rectangular tubular leather sheath feeding seat (11) in a vertical mode, and the leather sheath feeding seat (11) is connected with a first guide seat (13) towards the rear by adopting a row of connecting rods (12) welded at the bottom; the first guide seat (13) is in sliding fit with the pressing mechanism (7), and a second guide seat (17) is welded on the bottom surface of the first guide seat (13).

2. The device of claim 1, wherein the device comprises: the rotating mechanism (4) comprises a working position surface (401) and a scraping and pulling seat (403); the station surfaces (401) are rectangular plane structures uniformly distributed on the rotating mechanism (4), and the right sides of the rectangular plane structures are provided with scraping and pulling seats (403) with arc-shaped block structures.

3. The device of claim 2, wherein the device comprises: the left side of the top surface of the station surface (401) of the rotating mechanism (4) is also welded with a station plate (402), each station plate (402) is composed of two adjacent welding plates, and a distance opening is formed between the two adjacent welding plates.

4. The device of claim 1, wherein the device comprises: the USB feeding seat (9) is welded on the connecting plate (8) in an inclined mode, so that the bottom end of the USB feeding seat (9) is far away from the maximum profile of the rotating mechanism (4), and a notch is formed in the left side area of the USB feeding seat (9).

5. The device of claim 1, wherein the device comprises: the right end face of the rotating mechanism (4) is further provided with a station seat (15) of a wheel disc structure in an embedding assembly mode, and the right end face of the station seat (15) is further uniformly provided with a circle of arc-shaped grooves (1501).

6. The device of claim 1, wherein the device comprises: the pressing mechanism (7) comprises a bent rod (702), a first pressing sleeve seat (703) and a spring rod assembly (704), wherein the first pressing sleeve seat (703) at the top end of the bent rod (702) is guided in the first guide seat (13) in a sliding manner, and a guide rod part of the spring rod assembly (704) at the middle section of the bent rod (702) is inserted in a second guide seat (17) welded to the bottom surface of the first guide seat (13) in a sliding manner.

7. The device of claim 6, wherein the device comprises: the bottom section of the bent rod (702) is also welded with a contact block (701) in a horizontal mode, the left end of the contact block (701) is of a smooth arc-shaped surface structure, and the contact block is in sliding fit in an arc-shaped groove (1501) formed in the right end face of the station seat (15).

8. The device of claim 1, wherein the device comprises: a supporting rod (16) is further welded in the middle of the pressing mechanism (7) according to a front bending mode, the supporting rod (16) extends towards the left, and a second pressing sleeve seat (1601) is further welded at the left end of the extended supporting rod.

9. The device of claim 1, wherein the device comprises: a discharging spring plate (14) with a streamline warped plate structure is welded at the front bottom side position of the right end face of the side frame (1), and the discharging spring plate (14) is also positioned at the left side of the rotating mechanism (4).

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