CN211700015U

CN211700015U - Rubber coating mechanism

Info

Publication number: CN211700015U
Application number: CN202020617554.7U
Authority: CN
Inventors: 刘世君; 杨波
Original assignee: Dongguan Zongyi Intelligent Equipment Co ltd
Current assignee: Dongguan Zongyi Intelligent Equipment Co ltd
Priority date: 2020-04-22
Filing date: 2020-04-22
Publication date: 2020-10-16
Anticipated expiration: 2030-04-22

Abstract

The utility model discloses a rubber coating mechanism, which comprises a rubber coating machine moving platform, a lifting sliding component, a front and back push plate, a longitudinal and transverse moving seat, a left and right sliding component, a lifting motor, a left and right driving motor, a winding shaft, a front and back moving motor, a front and back sliding bearing component, a cylinder for a rubber belt, and the like; the moving platform of the rubber coating machine comprises a plurality of fixed active clamp seats, a plurality of fixed passive clamp seats, an active clamp seat transmission rod, a rubber belt passing shaft, an attenuation shaft, a rubber belt detection wheel, a rubber belt disc, a rubber belt passive clamp, a rubber belt active clamp, a rubber belt cutting blade, a high-strength rubber block and a framework. The utility model discloses holistic structural design makes it need not disconnected sticky tape when carrying out wire winding corner angle to the skeleton, and it has realized that once rubber coating just can bend out perfect right angle to the rubber coating machine of having avoided traditional structure need wrap the secondary and glue just can bend out the right angled not enough, and it has that the rubber coating is efficient, the rubber coating is effectual and the rubber coating advantage with low costs.

Description

Rubber coating mechanism

Technical Field

The utility model relates to a rubber coating mechanism.

Background

The traditional rubber coating machine with the structure has the defects of low rubber coating efficiency and poor rubber coating effect because the rubber belt is required to be broken when the traditional rubber coating machine winds and bends a right angle, and the rubber belt can be bent out of the right angle only by coating twice; in addition, because the traditional encapsulation machine needs to encapsulate twice to bend the right angle, the consumption of encapsulation materials is large, and finally the encapsulation cost is high.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a rubber coating mechanism, it uses through being provided with rubber coating machine moving platform and other part combinations, it need not disconnected sticky tape when automatic winding corner angle is carried out to the skeleton to make its holistic structural design, it has realized that a rubber coating just can bend out perfect right angle, it is not enough that the right angle just can bend out with the rubber coating machine that has avoided traditional structure needs to wrap the secondary and glue, it has still solved the rubber coating machine of traditional structure effectively and has leaded to the material to consume big problem because of needing the secondary rubber coating, it has rubber coating efficiently, the rubber coating is effectual and the rubber coating advantage with low costs. The utility model discloses a realize through following technical scheme:

the rubber coating mechanism comprises a rubber coating machine moving platform, wherein a lifting sliding assembly is vertically arranged on one side of the rubber coating machine moving platform, a front push plate and a rear push plate are arranged on the other side of the rubber coating machine moving platform, a longitudinal and transverse moving seat is arranged on one side of the lifting sliding assembly, a positioning support is arranged below the longitudinal and transverse moving seat, a left-right sliding assembly is arranged below the positioning support, a lifting motor is arranged below the left-right sliding assembly, a left transmission belt pulley and a right transmission belt pulley are arranged on one side of the left-right sliding assembly, and a left driving motor and a right; one side of the front and rear push plates is provided with a winding shaft and a front and rear moving motor in parallel, and one side of the front and rear push plates is provided with a front and rear sliding bearing assembly.

Preferably, an air cylinder for actively clamping the adhesive tape is arranged at the upper left corner of the moving platform of the adhesive tape wrapping machine.

Preferably, the moving platform of the rubber coating machine comprises a plurality of fixed active clamp seats and a plurality of fixed passive clamp seats, one fixed active clamp seat and one fixed passive clamp seat are arranged adjacently, and more than one active clamp seat transmission rod longitudinally penetrates through the plurality of fixed active clamp seats and the plurality of fixed passive clamp seats; the adhesive tape is conveyed between each fixed driving clamp seat and each fixed driven clamp seat, a plurality of adhesive tape passing shafts are vertically arranged on the same side of each adhesive tape, an attenuation shaft is arranged on the other side of each adhesive tape, an adhesive tape detection wheel is arranged on the lower side of the adhesive tape passing shaft positioned at the lowermost end, and an adhesive tape disc capable of replacing the adhesive tape is arranged below the adhesive tape detection wheel. The tape passing shaft refers to a transmission shaft for driving the tape to transmit. The damping axis is an axis capable of damping-adjusting the tension transmitted by the adhesive tape. The adhesive tape detection wheel is a functional wheel which is provided with a tension sensor so as to judge whether the adhesive tape is normally supplied or broken by sensing or detecting whether the adhesive tape is in a tension state.

Preferably, the moving platform of the rubber coating machine further comprises a rubber belt clamping passive clamp arranged on each fixed passive clamp seat, and a rubber belt clamping active clamp arranged on each fixed active clamp seat.

Preferably, the moving platform of the rubber coating machine further comprises a rubber belt cutting blade arranged on one side of each passive clamp of the rubber belt.

Preferably, the moving platform of the rubber coating machine further comprises a high-strength rubber block which is arranged on the other side of the driven clamp of each rubber clamping belt and used for shaping the rubber belts and straightening the rubber belts.

Preferably, a framework is arranged on one side of each high-strength rubber block.

Preferably, the lifting sliding assembly and the left-right sliding assembly comprise sliding rails, sliding blocks are arranged on the sliding rails in a sliding mode, and the sliding blocks and a motor connected with the sliding blocks are connected with screw rods. The front and rear sliding bearing assemblies comprise more than one guide rod, the front end and the rear end of each guide rod are respectively provided with a bearing seat, and the guide rods penetrate through the end parts of the front and rear push plates, so that the front and rear push plates can be pushed to move back and forth along the guide rods when the front and rear moving motors are started.

The utility model discloses a rubber coating mechanism, which comprises a rubber coating machine moving platform, a lifting sliding component, a front and back push plate, a longitudinal and transverse moving seat, a positioning bracket, a left and right sliding component, a lifting motor, a left and right transmission belt pulley, a left and right driving motor, a winding shaft, a front and back moving motor, a front and back sliding bearing component and a cylinder for a rubber belt; the moving platform of the rubber coating machine comprises a plurality of fixed active clamp seats, a plurality of fixed passive clamp seats, an active clamp seat transmission rod, a rubber belt passing shaft, an attenuation shaft, a rubber belt detection wheel, a rubber belt disc, a rubber belt passive clamp, a rubber belt active clamp, a rubber belt cutting blade, a high-strength rubber block and a framework. The utility model discloses a rubber coating machine moving platform can carry out the back-and-forth movement along the front and back sliding bearing subassembly under the drive of front and back moving motor, rubber coating machine moving platform can remove about through the horizontal slip subassembly under the drive of left and right driving motor, rubber coating machine moving platform can carry out the elevating movement through the lift slip subassembly under the drive of elevator motor, namely rubber coating machine moving platform can carry out back-and-forth movement location, remove about and fix and lift the movement location under the common drive of front and back moving motor, left and right driving motor and elevator motor, make its realization can implement the rubber coating operation in different directions more in a flexible way; the adhesive tape disc can be replaced to quickly provide the adhesive tape, the adhesive tape detection wheel is used for sensing whether the adhesive tape is in a tensioned state or not, and when the adhesive tape detection wheel senses that the adhesive tape is tensioned, the adhesive tape is normally fed; when the adhesive tape detection wheel senses that the adhesive tape is not tensioned, the adhesive tape is in a tape breaking state, and when the adhesive tape passes by the adhesive tape shaft and the attenuation shaft, the attenuation shaft is used for loosening the adhesive tape so as to prevent the adhesive tape from falling off when the adhesive tape is firstly stained with the framework; the adhesive tape active clamp can press the adhesive tape between the adhesive tape active clamp and an adhesive tape passive clamp through an active clamp seat transmission rod along with a fixed active clamp seat and under the driving of an air cylinder for actively clamping the adhesive tape, and then the adhesive tape clamped between the adhesive tape active clamp and the adhesive tape passive clamp can cross the framework leftwards after being driven by a left-right driving motor, a lifting air cylinder and a front-back moving air cylinder through left-right movement, lifting movement and front-back movement and is wrapped on the upper surface of the framework; the shape of the high-strength rubber block is set to be a horizontal mirror isosceles triangle, and the high-strength rubber block can tightly press the adhesive tape on the upper surface of the framework by utilizing the sharp corner part at the lower end of the high-strength rubber block; when the cylinder for actively clamping the adhesive tape drives the driving clamp seat transmission rod, the fixed driving clamp seat and the adhesive tape active clamp to move rightwards together, the adhesive tape active clamp and the adhesive tape passive clamp can loosen the clamp of the adhesive tape; when a left driving motor, a right driving motor, a lifting cylinder and a front-and-back moving cylinder are used together in a matched mode to drive the adhesive tape clamped by the adhesive tape active clamp and the adhesive tape clamped by the adhesive tape passive clamp to move towards the left lower side, the front end of the adhesive tape can be tightly pressed on the surface of the framework by using the right inclined surface of the high-strength adhesive block, and then the winding shaft rotates to carry out pre-encapsulation operation; after pre-encapsulation is finished, the left and right driving motors, the lifting cylinder and the front and back moving cylinder are matched for use together to drive the active clamp of the adhesive tape and the passive clamp of the adhesive tape to synchronously move downwards to the lower surface of the framework, the cylinder for actively clamping the adhesive tape is started to drive the driving clamp seat transmission rod, the fixed active clamp seat and the active clamp of the adhesive tape to jointly move leftwards, and after the active clamp of the adhesive tape and the passive clamp of the adhesive tape clamp the adhesive tape, the adhesive tape is cut off by the adhesive tape cutting blade under the driving of the adhesive tape cutting cylinder connected with the adhesive tape cutting blade, at the moment, one-time encapsulation is realized, and the operation of winding and bending a right angle is automatically completed; then, the left and right driving motors, the lifting cylinder and the front and back moving cylinder are jointly combined for use, so that the driving clamp and the driven clamp of the rubber belt can be driven to clamp the rubber belt and continuously move leftwards, the tail end of the rubber belt can be flattened on the framework by the upper surface of the high-strength rubber block, and the rubber coating operation of the framework is completed; its holistic structural design makes it need not disconnected sticky tape when bending the right angle to skeleton wire winding, and it has realized that the package once glues just can bend out perfect right angle to the rubber coating machine of having avoided traditional structure need wrap the secondary and glue just can bend out the right angle, and avoided the material that secondary rubber coating caused to consume the high rate, it has the rubber coating is efficient, the rubber coating is effectual and the rubber coating advantage with low costs.

Drawings

For the purpose of illustration, the invention is described in detail with reference to the following preferred embodiments and the accompanying drawings.

Fig. 1 is a perspective view of the rubber coating mechanism of the present invention.

Fig. 2 is an enlarged structure view of the moving platform of the rubber coating machine of the rubber coating mechanism of the present invention.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

In this embodiment, as shown in fig. 1 to 2, the present invention relates to a rubber coating mechanism, including a rubber coating machine moving platform 1, a lifting sliding assembly 2 is vertically disposed on one side of the rubber coating machine moving platform 1, a front and back push plate 3 is disposed on the other side of the rubber coating machine moving platform 1, a longitudinal and transverse moving seat 4 capable of moving longitudinally and transversely is disposed on one side of the lifting sliding assembly 2, a positioning support 5 is disposed below the longitudinal and transverse moving seat 4, a left and right sliding assembly 6 is disposed below the positioning support 5, a lifting motor 7 is disposed below the left and right sliding assembly 6, a left and right driving pulley 8 is disposed on one side of the left and right sliding assembly 6, and a left and right driving motor 9 is disposed on one side of the left; one side of the front and rear push plate 3 is provided with a winding shaft 10 and a front and rear moving motor 11 in parallel, and one side of the front and rear push plate 3 is provided with a front and rear sliding bearing assembly 12.

In one embodiment, a cylinder 13 for actively clamping the adhesive tape is arranged at the upper left corner of the moving platform 1 of the adhesive tape wrapping machine.

In one embodiment, the moving platform 1 of the rubber coating machine comprises a plurality of fixed active clamp seats 14 and a plurality of fixed passive clamp seats 15, wherein one fixed active clamp seat 14 and one fixed passive clamp seat 15 are arranged adjacently, and more than one active clamp seat transmission rod 16 is longitudinally and jointly arranged through the plurality of fixed active clamp seats 14 and the plurality of fixed passive clamp seats 15; the adhesive tapes 17 are conveyed between each fixed driving clamp seat 14 and each fixed driven clamp seat 15, a plurality of adhesive tape passing shafts 18 are vertically arranged on the same side of each adhesive tape 17, an attenuation shaft 19 is arranged on the other side of each adhesive tape 17, an adhesive tape detection wheel 20 is arranged on the lower side of the adhesive tape passing shaft 18 positioned at the lowermost end, and an adhesive tape disc 21 capable of replacing the adhesive tapes is arranged below the adhesive tape detection wheel 20.

In one embodiment, the moving platform 1 further comprises a passive clamp 22 for clamping adhesive tape disposed on each fixed passive clamp seat 15, and an active clamp 23 for clamping adhesive tape disposed on each fixed active clamp seat 14.

In one embodiment, the moving platform 1 further comprises a tape cutting blade 24 disposed on one side of each passive clamp 22.

In one embodiment, the moving platform 1 further comprises a high-strength rubber block 25 arranged on the other side of each adhesive tape passive clamp 22 for shaping the adhesive tape and for straightening and straightening the adhesive tape.

In one embodiment, a skeleton 26 is disposed on one side of each acrylic rubber block 25.

In one embodiment, the operation process of the encapsulation mechanism is as follows: the rubber coating machine moving platform 1 can move back and forth along the front and rear sliding bearing assemblies 12 under the drive of the front and rear moving motors 11, the rubber coating machine moving platform 1 can move left and right through the left and right sliding assemblies 6 under the drive of the left and right driving motors 9, and the rubber coating machine moving platform 1 can move up and down through the lifting sliding assemblies 2 under the drive of the lifting motors 7, namely the rubber coating machine moving platform 1 can move back and forth, move left and right and move and position up and down under the common drive of the front and rear moving motors 11, the left and right driving motors 9 and the lifting motors 7, so that the rubber coating operation can be flexibly implemented in a three-dimensional space; the replacement of the adhesive tape disc 21 can quickly provide the adhesive tape 17 for the encapsulation operation, the adhesive tape detection wheel 20 is used for sensing whether the adhesive tape 17 is in a tensioned state, and when the adhesive tape detection wheel 20 senses the tensioned state of the adhesive tape 17, the adhesive tape 17 is in normal feeding; when the adhesive tape detection wheel 20 senses that the adhesive tape 17 is not tensioned, the adhesive tape 17 is in a broken tape state, and when the adhesive tape 17 bypasses the adhesive tape shaft 18 and the attenuation shaft 19, the attenuation shaft 19 releases the adhesive tape 17 at the moment so as to prevent the adhesive tape 17 from falling off when being stained on the framework 26 for the first time; the adhesive tape clamping driving clamp 23 can press the adhesive tape 17 between the adhesive tape clamping driving clamp 23 and the adhesive tape clamping driven clamp 22 through the driving clamp seat transmission rod 16 along with the fixed driving clamp seat 14 and under the driving of the cylinder 13 for actively clamping the adhesive tape, and then the adhesive tape 17 clamped between the adhesive tape clamping driving clamp 23 and the adhesive tape clamping driven clamp 22 can cross the framework 26 leftwards after being driven by the left-right driving motor 9, the lifting cylinder 13 and the front-back moving cylinder 13 through left-right movement, lifting movement and front-back movement adjustment, and the adhesive tape 17 is wrapped on the upper surface of the framework 26; the shape of the high-strength rubber block 25 is set to be a horizontal mirror isosceles triangle, and the high-strength rubber block 25 can press the adhesive tape 17 on the upper surface of the framework 26 by utilizing the sharp corner at the lower end of the high-strength rubber block; when the cylinder 13 for actively clamping the adhesive tape drives the driving clamp seat transmission rod 16, the fixed driving clamp seat 14 and the adhesive tape clamping driving clamp 23 to move rightwards together, the adhesive tape clamping driving clamp 23 and the adhesive tape clamping driven clamp 22 release the clamping of the adhesive tape 17; when the left and right driving motor 9, the lifting cylinder 13 and the front and back moving cylinder 13 are used together to drive the adhesive tape 17 clamped by the adhesive tape clamping driving clamp 23 and the adhesive tape clamping driven clamp 22 to move towards the left and lower direction, the front end of the adhesive tape 17 can be pressed on the surface of the framework 26 by utilizing the right inclined surface of the high-force rubber block 25, and then the winding shaft 10 rotates to carry out pre-encapsulation operation; after pre-encapsulation is finished, the left and right driving motor 9, the lifting cylinder 13 and the front and back moving cylinder 13 are used together in a matched mode to drive the active clamp 23 of the adhesive tape and the passive clamp 22 of the adhesive tape to synchronously move downwards to the lower surface of the framework 26, the cylinder 13 for actively clamping the adhesive tape is started to drive the driving clamp seat transmission rod 16, the fixed active clamp seat 14 and the active clamp 23 of the adhesive tape to jointly move leftwards, and after the adhesive tape 17 is clamped by the active clamp 23 of the adhesive tape and the passive clamp 22 of the adhesive tape, the adhesive tape cutting blade 24 cuts off the adhesive tape 17 under the driving of the adhesive tape cutting cylinder 13 connected with the adhesive tape cutting blade, so that the operation of winding and bending right angles can be automatically finished by one-time encapsulation; then, the left and right driving motors 9, the lifting cylinder 13 and the front and back moving cylinder 13 are jointly combined to drive the adhesive tape clamping driving clamp 23 and the adhesive tape clamping driven clamp 22 to clamp the adhesive tape 17 and continuously move leftwards, so that the upper surface of the gravity rubber block 25 can flatten the tail end of the adhesive tape 17 onto the framework 26 to complete rubber coating operation on the framework 26, and the process is repeated.

The utility model discloses a rubber coating mechanism, which comprises a rubber coating machine moving platform, a lifting sliding component, a front and back push plate, a longitudinal and transverse moving seat, a positioning bracket, a left and right sliding component, a lifting motor, a left and right transmission belt pulley, a left and right driving motor, a winding shaft, a front and back moving motor, a front and back sliding bearing component and a cylinder for a rubber belt; the moving platform of the rubber coating machine comprises a plurality of fixed active clamp seats, a plurality of fixed passive clamp seats, an active clamp seat transmission rod, a rubber belt passing shaft, an attenuation shaft, a rubber belt detection wheel, a rubber belt disc, a rubber belt passive clamp, a rubber belt active clamp, a rubber belt cutting blade, a high-strength rubber block and a framework. The utility model discloses holistic structural design makes it need not disconnected sticky tape when carrying out wire winding corner angle to the skeleton, and it has realized that once rubber coating just can the turn out perfect right angle to the rubber coating machine of having avoided traditional structure need wrap the secondary and glue just can the turn out the right angled not enough, and it has still solved the rubber coating machine of traditional structure effectively and has leaded to the material to consume big problem because of needing the secondary rubber coating, and it has the rubber coating efficient, the rubber coating is effectual and the rubber coating advantage with low costs.

The above-mentioned embodiment is only an example of the present invention, and is not intended to limit the scope of the present invention, and all technical solutions that are the same as or equivalent to the content of the claims of the present invention should be included in the scope of the present invention.

Claims

1. Rubber coating mechanism, its characterized in that: the rubber coating machine comprises a rubber coating machine moving platform, wherein a lifting sliding assembly is vertically arranged on one side of the rubber coating machine moving platform, a front push plate and a rear push plate are arranged on the other side of the rubber coating machine moving platform, a longitudinal and transverse moving seat is arranged on one side of the lifting sliding assembly, a positioning support is arranged below the longitudinal and transverse moving seat, a left-right sliding assembly is arranged below the positioning support, a lifting motor is arranged below the left-right sliding assembly, a left transmission belt pulley and a right transmission belt pulley are arranged on one side of the left-right sliding assembly, and a left driving motor; one side of the front and rear push plates is provided with a winding shaft and a front and rear moving motor in parallel, and one side of the front and rear push plates is provided with a front and rear sliding bearing assembly.

2. The encapsulation mechanism of claim 1, wherein: and an air cylinder for actively clamping the adhesive tape is arranged at the upper left corner of the moving platform of the adhesive tape wrapping machine.

3. The encapsulation mechanism of claim 1, wherein: the moving platform of the rubber coating machine comprises a plurality of fixed active clamp seats and a plurality of fixed passive clamp seats, wherein one fixed active clamp seat is adjacent to one fixed passive clamp seat, and more than one active clamp seat transmission rod longitudinally penetrates through the plurality of fixed active clamp seats and the plurality of fixed passive clamp seats; the adhesive tape is conveyed between each fixed driving clamp seat and each fixed driven clamp seat, a plurality of adhesive tape passing shafts are vertically arranged on the same side of each adhesive tape, an attenuation shaft is arranged on the other side of each adhesive tape, an adhesive tape detection wheel is arranged on the lower side of the adhesive tape passing shaft positioned at the lowermost end, and an adhesive tape disc capable of replacing the adhesive tape is arranged below the adhesive tape detection wheel.

4. The encapsulation mechanism of claim 3, wherein: the rubber coating machine moving platform further comprises a rubber belt clamping passive clamp arranged on each fixed passive clamp seat and a rubber belt clamping active clamp arranged on each fixed active clamp seat.

5. The encapsulation mechanism of claim 4, wherein: the moving platform of the rubber coating machine further comprises a rubber belt cutting blade arranged on one side of each rubber belt clamping passive clamp.

6. The encapsulation mechanism of claim 4, wherein: the moving platform of the rubber coating machine further comprises a high-strength rubber block arranged on the other side of each rubber belt passive clamp.

7. The encapsulation mechanism of claim 6, wherein: one side of each high-strength rubber block is provided with a framework.