CN214320726U - Thermal-insulated cavity glass hits rubber machine - Google Patents

Thermal-insulated cavity glass hits rubber machine Download PDF

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Publication number
CN214320726U
CN214320726U CN202022579135.1U CN202022579135U CN214320726U CN 214320726 U CN214320726 U CN 214320726U CN 202022579135 U CN202022579135 U CN 202022579135U CN 214320726 U CN214320726 U CN 214320726U
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support body
box
hollow glass
sensor
head
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CN202022579135.1U
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李东海
姚良青
李炎钦
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Hunan Xinglong Technology Co ltd
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Hunan Xinglong Technology Co ltd
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Abstract

The utility model provides a thermal-insulated cavity glass hits rubber machine, including support body, movable box and beat mucilage binding and put, the movable box locates the front end of support body below through horizontal slide rail, and the support body includes first support body and second support body, beats the mucilage binding and put and locate between first support body and the second support body through elevating guide, the lower extreme of support body is equipped with the conveyer belt, and first support body and second support body all are equipped with the sensor near vertical gliding one side, and the sensor is located 5-20 cm's position above the conveyer belt. This scheme is effectual has improved the range of application of gluing machine, can process not unidimensional thermal-insulated cavity glass, reduces manual work and manufacturing cost, has improved the quality and the efficiency to small-size glass production and processing simultaneously, is convenient for can not carry out automated production, the batch production of being convenient for to the thermal-insulated cavity of small-size.

Description

Thermal-insulated cavity glass hits rubber machine
Technical Field
The utility model relates to a glass production and processing equipment, especially a thermal-insulated cavity glass hits rubber machine.
Background
The sealing and structural stability of the insulating glass system is achieved by insulating glass cement. Insulating glass is always exposed to external moisture penetration and temperature changes over its lifetime, requiring that the insulating glass paste must first prevent the ingress of external moisture into the air layer of the insulating glass. After the hollow glass is installed, the hollow glass is often influenced by external forces such as external temperature difference, air pressure and wind load, so that the structural stability of the system is required to be ensured by the hollow glass cement. It is obvious that it is equally important to ensure the sealing of the air space of the insulating glass and to maintain the structural stability of the insulating glass system. The sealing property of the insulating glass depends on the structural integrity, and the structural property ensures the stability of the sealing property
The existing hollow glass is generally manufactured manually, a glass plate is conveyed into a cleaning part to clean the glass by a manual control manipulator, then the glass plate is taken out by the manipulator and conveyed to an assembly table, an aluminum alloy frame is pasted on the glass plate manually, another glass plate which is cleaned is pasted on the aluminum alloy frame by the manipulator, the placement position of the glass plate needs to be adjusted after the glass plate is pasted on the aluminum alloy frame and is consistent with the position of the other glass plate, but the glass plate has a certain weight due to the fact that the glass plate is large in size, and can swing due to the fact that moving inertia is generated in the displacement of the manipulator during adjustment, the use position of the glass plate is difficult to control, too much time is spent for position adjustment, time and labor are wasted, the manufacturing efficiency is slow, and the yield is low; simultaneously cavity glass is behind later stage hot pressing, and the binder on the aluminum alloy frame can be liquefied by high temperature, and partial binder can flow to the later stage after the liquefaction and beat gluey, utilizes to beat the gluey time of gluing machine in the later stage, and the glue of two kinds of different viscosities can mix together, leads to glue viscidity not enough, can't realize when cavity glass and door, window frame installation in the later stage firmly installing etc. series of problems.
In the existing automatic production, the application range of the gluing machine in the use process is limited, and the automatic production cannot be realized on the heat-insulating hollow glass with the small size of less than 20cm, so that the improvement on equipment is urgently needed, and the application range of the gluing machine is improved.
SUMMERY OF THE UTILITY MODEL
The utility model aims at overcoming the above-mentioned not enough of prior art, and provide one kind and be convenient for beat to not unidimensional thermal-insulated cavity glass and glue, realize automated production, improve the range of application of beating the machine of gluing, the thermal-insulated cavity glass who is convenient for batch production small-size beats the machine of gluing.
The technical scheme of the utility model is that: the utility model provides a thermal-insulated cavity glass hits rubber machine, includes support body, movable box and hits the mucilage binding and put, and the movable box locates the front end of support body below through horizontal slide rail, and the support body includes first support body and second support body, hits the mucilage binding and puts and locate between first support body and the second support body through elevating guide, the lower extreme of support body is equipped with the conveyer belt, and first support body and second support body all are equipped with the sensor near vertical gliding one side, and the sensor is located 5-20 cm's position above the conveyer belt.
The advantage of this scheme lies in, can effectually solve to beat the glue automatically to the thermal-insulated cavity glass of different specifications, reduces manual work and manufacturing cost, has improved production machining efficiency, has improved processingquality and effect to thermal-insulated cavity glass, can effectually avoid steam to get into in cavity glass's the air layer. Preferably, the lower extreme of first support body is equipped with first conveyer belt, and the lower extreme of second support body is equipped with the second conveyer belt, and the transport work of conveyer belt is controlled by the sensor, is convenient for improve conveyer belt, mobile box and beat mucilage binding and put the operation in coordination.
Further, the sensor is positioned 12-18cm above the conveyor belt. The sensor is convenient to improve the processing and production of the heat insulation hollow glass with the thickness less than 20cm, automation is realized, manual operation is reduced, and the processing quality and effect of the heat insulation hollow glass are improved.
Further, the sensor includes first sensor and second sensor, and first sensor is located first support body, and the second sensor is located the second support body.
Furthermore, a plurality of supporting blocks are arranged on the conveying belt at equal intervals, and arc-shaped grooves are formed in the supporting blocks. The setting of arc recess can improve the transport effect to thermal-insulated cavity glass, plays spacing effect to thermal-insulated glass, beats gluey completion back when thermal-insulated cavity glass simultaneously, can effectively avoid gluing and conveyer belt to contact, avoids dropping of gluing or avoids gluing direct contact conveyer belt pollution conveyer belt, can improve gluey drying effect simultaneously.
Furthermore, the movable box is driven by a synchronous motor to move along the transverse sliding rail, and the synchronous motor is connected with the movable box through a synchronous belt.
Furthermore, the frame body is provided with an installation plate, and the installation plate is provided with an auxiliary wheel.
Further, the movable box comprises a box body, a telescopic rod and a sucker, a first cylinder is arranged in the box body, the telescopic rod is driven to do telescopic motion by the first cylinder, the sucker is arranged at the end part of the telescopic rod which is of a hollow structure, the telescopic rod is connected with a negative pressure pipe, and the negative pressure pipe is connected with a vacuum generator.
Furthermore, beat mucilage binding and put, sliding connection has the slider on the riser guide, and the slider front end rotates to be connected with and rotates the head, rotates the head front end and is equipped with gluey box, is equipped with the play rubber tube that extends outward in gluing the box, goes out rubber tube outer end department and is equipped with and beats gluey head.
Furthermore, a pair of sliding rods inserted into the rotating head is arranged below the glue box, a base body is fixed at the front ends of the sliding rods, a second air cylinder is fixed in the base body, a piston rod of the second air cylinder is connected with a glue cleaning head, and a contact piece is inserted into the inner end of the glue cleaning head.
Furthermore, the side part of the rubber box is provided with a rotating shaft which rotates in the rotating head, and the front end of the rotating shaft is inserted with a positioning head.
The utility model has the characteristics of as follows: this scheme is effectual has improved the range of application of gluing machine, can process not unidimensional thermal-insulated cavity glass, reduces manual work and manufacturing cost, has improved the quality and the efficiency to small-size glass production and processing simultaneously, is convenient for can not carry out automated production, the batch production of being convenient for to the thermal-insulated cavity of small-size.
The detailed structure of the present invention will be further described with reference to the accompanying drawings and the detailed description.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is an enlarged view of a portion A of FIG. 1;
FIG. 3 is a partial enlarged view of part B;
FIG. 4 is a schematic view of a structure of a mobile box;
FIG. 5-is a schematic view of a support block configuration;
1-lifting guide rail, 2-slide block, 3-first sensor, 4-first frame body, 5-suction cup, 6-first conveying belt, 7-driving motor, 8-synchronous belt, 9-synchronous motor, 10-transverse slide rail, 11-moving box, 12-second sensor, 13-support seat, 14-second conveying belt, 15-second frame body, 16-mounting cavity, 17-auxiliary wheel, 18-rubber outlet pipe, 19-rubber box, 20-rotating head, 21-sliding rod, 22-second air cylinder, 23-seat body, 24-rubber cleaning head, 25-contact piece, 26-rubber polishing head, 27-telescopic rod, 28-groove and 29-support block.
Detailed Description
As shown in the attached drawings: the utility model provides a thermal-insulated cavity glass hits rubber machine, comprising a frame body, movable box 11 and the device of beating, movable box 11 locates on the support 13 of the front end of support body below through horizontal slide rail 10, support 13 is fixed to be located on the support body, the support body includes first support body 4 and second support body 15, beat the device of gluing and locate between first support body 4 and second support body 15 through lifting guide 1, the lower extreme of support body is equipped with the conveyer belt, first support body 4 and second support body 15 all are equipped with the sensor near vertical gliding one side, the sensor is located 5-20 cm's position above the conveyer belt. Preferably, the sensor is located 12-18cm above the conveyor belt, which is driven by the drive motor 7. Preferably, the position of the sensor in the embodiment is 13 or 15cm above the conveyer belt, so that the sensor can conveniently process and produce the heat-insulating hollow glass with the length of more than 13cm, automation is realized, manual operation is reduced, and the processing quality and effect of the heat-insulating hollow glass are improved.
The scheme can effectively solve the problem that the heat-insulating hollow glass with different specifications is automatically glued, reduces labor and production cost, improves production and processing efficiency, improves the processing quality and effect of the heat-insulating hollow glass, and can effectively avoid water vapor from entering the air layer of the hollow glass. Preferably, the lower end of the first frame body 4 is provided with a first conveying belt 6, the lower end of the second frame body 15 is provided with a second conveying belt 14, and the conveying operation of the conveying belts is controlled by a sensor, so that the cooperative operation of the conveying belts, the movable box 11 and the glue applying device is improved.
In an embodiment, the sensors include a first sensor 3 and a second sensor 12, the first sensor 3 being located on the first frame 4, and the second sensor 12 being located on the second frame 15. In the using process, the first conveying belt 6 is controlled by the first sensor 3, the second conveying belt 14 is controlled by the second sensor 12, when glass moves from the first frame body 4 to the second frame body 15, the conveying belt stops conveying after the second sensor 12 senses the heat insulation hollow glass, the gravity center of the heat insulation hollow glass is just positioned between the first frame body 4 and the second frame body 15 under the action of inertia, then the moving box 11 starts to work, the heat insulation hollow glass is adsorbed on the surface of the heat insulation hollow glass through the sucking disc 5 on the moving box 11 and is driven by the synchronous motor 9 to drive the moving box 11 to move the heat insulation hollow glass stably left and right, the glue beating device also starts to work together with the moving box 11, glue beating is started from the lowest corner of the right end of the heat insulation hollow glass in the glue beating process and moves upwards along the end part with edges of the heat insulation hollow glass, when reaching thermal-insulated cavity glass's last limit, the direction is glued in the rotation, and the removal box 11 bodies begin to move to the right and accomplish and beat to glue thermal-insulated glass's the higher authority, beat to glue on thermal-insulated cavity glass's the left side, beat to glue the base, accomplish whole process of beating to glue, adopt anticlockwise direction to beat to glue and can improve and beat the effect of gluing, be convenient for reduce glue and remove in-process and thermal-insulated cavity glass combination, avoid gluing and receive inertial action and drop at the removal in-process.
In the embodiment, the conveyer belt is arranged on a plurality of supporting blocks 29 at equal intervals, the supporting blocks 29 are made of soft rubber, and the supporting blocks 29 are provided with arc-shaped grooves 28; can also be a V-shaped groove; arc recess 28's setting can improve the transport effect to thermal-insulated cavity glass, plays spacing effect to thermal-insulated glass, beats gluey the completion back when thermal-insulated cavity glass simultaneously, can effectively avoid gluing and conveyer belt to contact, avoids gluey dropping or avoids gluing direct contact conveyer belt pollution conveyer belt, can improve gluey drying effect simultaneously.
More preferably, the movable box 11 is driven by the synchronous motor 9 to move along the transverse sliding rail 10, the synchronous motor 9 is connected with the movable box 11 through the synchronous belt 8, the movable box 11 is convenient to move left and right along the transverse sliding rail 10 by the aid of the synchronous belt 8 and the synchronous motor 9, the moving stability effect and the moving precision are improved, the swinging is reduced, and the heat insulation hollow glass is prevented from falling. Preferably, the frame body is provided with a mounting plate, the mounting plate is provided with an auxiliary wheel 17, the mounting plate is provided with a mounting cavity 16 which is linearly distributed, and the auxiliary wheel 17 is mounted in the mounting cavity 16. The conveying effect of the heat-insulating hollow glass is convenient to improve, and the glass is prevented from being collided with equipment and damaged.
In the embodiment, the movable box 11 includes a box body, a telescopic rod 27 and a suction cup 5, a first cylinder is arranged in the box body, the telescopic rod 27 is driven by the first cylinder to perform telescopic motion, the telescopic rod 27 is a hollow structure, the suction cup 5 is arranged at the end of the telescopic rod 27, a negative pressure pipe is connected inside the telescopic rod 27, and the negative pressure pipe is connected with a vacuum generator.
In the embodiment, the gluing device comprises a sliding block 2 connected to a lifting guide rail 1 in a sliding manner, a rotating head 20 is connected to the front end of the sliding block 2 in a rotating manner, a gluing box 19 is arranged at the front end of the rotating head 20, a glue outlet pipe 18 extending outwards is arranged in the gluing box 19, and a gluing head 26 is arranged at the end of the outer end of the glue outlet pipe 18. Preferably, a pair of sliding rods 21 inserted into the rotating head 20 is arranged below the glue box 19, a base 23 is fixed at the front end of each sliding rod 21, a second cylinder 22 is fixed in the base 23, a piston rod of the second cylinder 22 is connected with a glue cleaning head 24, and a contact piece 25 is inserted into the inner end of the glue cleaning head 24. The side of the rubber box 19 is provided with a rotating shaft rotating in the rotating head 20, and the front end of the rotating shaft is inserted with a positioning head. The conveying belt also has the function of realizing left and right movement of the glass, the sucker 5 is sucked on the surface of the hollow glass, the function of stably conveying the hollow glass is realized by the moving box 11 which slides on the transverse sliding rail 10, the lifting guide rail 1 is used for realizing the up and down lifting of the gluing head 26, and the rotating head 20 which is used for installing the gluing head 26 is rotatably connected on the sliding block 2, so that the using position of the gluing head 26 can be changed by rotating according to the change of the gluing position, the gluing processing of four side grooves of the hollow glass can be completed by matching the lifting guide rail 1 and the conveying belt, the gluing head 24 realizes the gluing function through the glue cleaning head 25, the surface of the hollow glass is clean, meanwhile, the gluing head 24 can also push the hollow glass away after the processing is completed, the hollow glass is separated from the gluing head 26, the gluing head 26 is convenient to return to the initial using position, the positioning head is arranged between two glass plates of the hollow glass, the location head has two effects, one is whether confirm to beat to glue head 26 and place in between two glass boards of cavity glass, and the hypothesis is beaten to glue head 26 and is not existed in and beat and glue the position, and the location head just can not rotate to the specified angle along with the pivot, beats so and glues head 26 and just can not go out gluey, and the in-process is just being beaten to the other effect, and the location head can be got rid of some binders that are used for on the aluminum alloy frame for two kinds of glues can not be used together mixedly, ensure the firm installation in later stage.
This scheme is effectual has improved the range of application of gluing machine, can process not unidimensional thermal-insulated cavity glass, reduces manual work and manufacturing cost, has improved the quality and the efficiency to small-size glass production and processing simultaneously, is convenient for can not carry out automated production, the batch production of being convenient for to the thermal-insulated cavity of small-size.
The preferred embodiments of the present invention have been described in detail above, but it is apparent that the present invention is not limited to the above embodiments. The technical idea of the utility model within the scope, can be right the utility model discloses a technical scheme carries out multiple equivalent variant, and these equivalent variants all belong to the utility model discloses a protection scope. In addition, it should be noted that the technical features described in the above embodiments may be separately and independently combined as long as they are within the technical concept of the present invention.

Claims (10)

1. The utility model provides a thermal-insulated cavity glass hits rubber machine, includes support body, movable box and hits the mucilage binding and puts, and the front end of support body below is located through horizontal slide rail to the movable box, and the support body includes first support body and second support body, hits the mucilage binding and puts and locate between first support body and the second support body through elevating guide, its characterized in that: the lower end of the frame body is provided with a conveying belt, one sides, close to the vertical sliding direction, of the first frame body and one side, close to the vertical sliding direction, of the second frame body are provided with sensors, and the sensors are located 5-20cm above the conveying belt.
2. The insulated hollow glass glue spreader according to claim 1, wherein: the sensor is positioned 12-18cm above the conveyor belt.
3. The insulated hollow glass glue spreader according to claim 1, wherein: the sensor includes first sensor and second sensor, and first sensor is located first support body, and the second sensor is located the second support body.
4. The insulated hollow glass glue spreader according to claim 1, wherein: the conveyer belt is equidistantly provided with a plurality of supporting blocks, and arc-shaped grooves are formed in the supporting blocks.
5. The insulated hollow glass glue spreader according to claim 1, wherein: the moving box is driven by a synchronous motor to move along the transverse sliding rail, and the synchronous motor is connected with the moving box through a synchronous belt.
6. The insulated hollow glass glue spreader according to any one of claims 1 to 5, wherein: the frame body is provided with a mounting plate, and the mounting plate is provided with an auxiliary wheel.
7. The insulated hollow glass glue spreader according to claim 6, wherein: the movable box comprises a box body, a telescopic rod and a sucker, a first cylinder is arranged in the box body, the telescopic rod is driven to do telescopic motion by the first cylinder, the telescopic rod is of a hollow structure, the sucker is arranged at the end of the telescopic rod, the telescopic rod is internally connected with a negative pressure pipe, and the negative pressure pipe is connected with a vacuum generator.
8. The insulated hollow glass glue spreader according to claim 6, wherein: beat mucilage binding and put including sliding connection has the slider on the riser guide, and the slider front end rotates to be connected with and rotates the head, rotates the head front end and is equipped with gluey box, is equipped with the play hose that extends outward in gluing the box, goes out the outer end of hose end department and is equipped with and beats gluey head.
9. The insulated hollow glass glue spreader according to claim 8, wherein: a pair of sliding rods inserted in the rotating heads are arranged below the glue box, a base body is fixed at the front ends of the sliding rods, a second air cylinder is fixed in the base body, a piston rod of the second air cylinder is connected with a glue cleaning head, and a contact piece is inserted in the inner end of the glue cleaning head.
10. The insulated hollow glass glue spreader according to claim 9, wherein: the side of the rubber box is provided with a rotating shaft which rotates in the rotating head, and the front end of the rotating shaft is inserted with a positioning head.
CN202022579135.1U 2020-11-10 2020-11-10 Thermal-insulated cavity glass hits rubber machine Active CN214320726U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022579135.1U CN214320726U (en) 2020-11-10 2020-11-10 Thermal-insulated cavity glass hits rubber machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202022579135.1U CN214320726U (en) 2020-11-10 2020-11-10 Thermal-insulated cavity glass hits rubber machine

Publications (1)

Publication Number Publication Date
CN214320726U true CN214320726U (en) 2021-10-01

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114308570A (en) * 2022-01-12 2022-04-12 天长市中凯玻璃实业有限公司 Cavity glass seals glue production line

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114308570A (en) * 2022-01-12 2022-04-12 天长市中凯玻璃实业有限公司 Cavity glass seals glue production line

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