CN220074155U - Post-treatment device for producing polyester resin gaskets - Google Patents

Abstract

The utility model relates to a post-treatment device for producing a polyester resin gasket, which comprises a flash unit, wherein the flash unit comprises a flash conveying bracket, a flash conveying belt, a rotary clamping assembly and a polishing assembly; the feeding unit is arranged on one side of the feeding side of the flash conveyor belt and comprises a feeding bracket, a feeding platform and a first lifting assembly; the blanking unit is arranged on the other side of the feeding side of the flash conveyor belt and comprises a blanking bracket, a blanking platform and a second lifting assembly; the circulation unit for realizing circulation of the polyester resin gasket among the feeding unit, the flash unit and the blanking unit comprises a circulation bracket, a circulation guide rail, a circulation plate and a circulation sucker. The utility model has the advantages that: the automatic flashing processing of the outer edge of the square polyester resin gasket is realized by utilizing the mutual coordination among the flashing unit, the feeding unit, the blanking unit and the circulation unit, and manual polishing is not needed.

Description

Post-treatment device for producing polyester resin gaskets

Technical Field

The utility model relates to the field of polyester resin gaskets, in particular to a post-treatment device for producing a polyester resin gasket.

Background

The cup pad is generally used in restaurants, cafes, hotels and other public eating places, can be used as advertisement ornaments to improve the image, has more outstanding LOGO of companies and enterprises, is closer to the life of people, has stronger friction force to prevent glass and porcelain cups from sliding off, and can also protect the tabletop from being scalded.

The existing polyester resin gasket is made of PET materials, has multiple shapes, has higher rigidity and hardness and electrical insulation, not only has practicability, but also can play a good role in visual effect and advertising effect.

In the use process of the polyester resin gasket, in order to prevent personnel from being scratched by the polyester resin gasket in the process of taking the cup, the edge of the outer edge of the upper surface of the polyester resin gasket is made into a chamfer shape. At present, a round polyester resin gasket can be directly polished to form a chamfer by adopting a polisher or a flash machine, and for a square polyester resin gasket, as the outer edge of the round polyester resin gasket is rectangular, when the round polyester resin gasket rotates, the tracks of the outer edge of the round polyester resin gasket form a plurality of concentric circles with inconsistent diameters, so that the track cannot be directly processed by adopting the existing polisher or flash machine, and the common practice is a polishing mode by manual work, thus not only having high labor intensity, but also having low working efficiency.

Disclosure of Invention

The utility model aims to provide a post-treatment device for producing a polyester resin gasket, which is convenient for processing a square polyester resin gasket.

In order to solve the technical problems, the technical scheme of the utility model is as follows: a post-treatment device for producing polyester resin gaskets is characterized in that: comprising

The device comprises a flash unit, a flash conveying device and a polishing device, wherein the flash unit comprises a flash conveying support, a pair of flash conveying belts which are distributed in parallel along the width direction of the flash conveying support are arranged on the flash conveying support, a gap is reserved between the two flash conveying belts, the feeding side of the flash conveying belt is a feeding area, the discharging side of the flash conveying belt is a flash area, a rotary clamping assembly is arranged at the flash area, and a polishing assembly matched with the rotary clamping assembly is further arranged at the position of the flash conveying belt at the discharging side;

the feeding unit is arranged on one side of the feeding side of the flash conveyor belt and comprises a feeding bracket, a feeding platform is arranged on the feeding bracket, and the feeding platform is driven by a first lifting assembly to lift up and down;

the blanking unit is arranged on the other side of the feeding side of the flash conveyor belt and comprises a blanking bracket, a blanking platform is arranged on the blanking bracket, and the blanking platform is driven by a second lifting assembly to lift up and down;

the utility model provides a circulation unit that is used for realizing that polyester resin gasket flows between feeding unit, overlap unit, unloading unit, circulation unit includes a circulation support, installs the circulation guide rail that supplies the unit to the unloading unit direction to extend on the circulation support, installs a circulation board on the circulation guide rail, the top of circulation board install with circulation guide rail matched with circulation slider, still install the circulation sucking disc in the below of circulation board, this circulation sucking disc is by installing the circulation jar drive on the circulation board and go up and down.

Further, the rotary clamping assembly comprises a gantry clamping support, two sides of the clamping support are respectively located at the outer sides of the two flash conveyor belts, an upper clamping plate and a lower clamping plate which are distributed up and down are installed on the clamping support, the upper clamping plate is driven by a clamping cylinder installed on the clamping support to lift up and down to be close to or far away from the lower clamping plate, a slewing bearing is further arranged between the upper clamping plate and a piston rod of the clamping cylinder, the lower clamping plate is located in a gap between the two flash conveyor belts, the upper end face of the lower clamping plate is not higher than the upper end face of the flash conveyor belts, the lower clamping plate is driven by a rotating motor installed on the clamping support to rotate, and the lower clamping plate is driven by a retaining mechanism and drives a polyester resin gasket to keep close to the polishing assembly.

Further, the holding mechanism comprises a pair of holding guide rails arranged on the flash conveying support, the two holding guide rails extend along the conveying direction of the flash conveying belt, a holding movable plate which is horizontally arranged is arranged on the holding guide rails, a holding sliding block which is matched with the two holding guide rails for use is arranged at the bottom end of the holding movable plate, the bottom end of the clamping support is fixed on the holding movable plate, a holding fixed plate which is vertically arranged is further arranged at one side, far away from the polishing assembly, of the holding guide rails, and a holding spring is further connected between the holding fixed plate and the holding movable plate.

Further, the polishing assembly comprises a polishing support, a polishing abrasive belt is arranged on the polishing support, and the polishing abrasive belt is driven by a polishing motor to rotate.

Further, the first lifting assembly comprises a first screw rod lifter arranged on the feeding support, the first screw rod lifter is driven by a first lifting motor arranged on the feeding support to work, and the top end of the first screw rod lifter is connected with the bottom end of the feeding platform and drives the feeding platform to lift up and down.

Further, the second lifting assembly comprises a second screw rod lifter arranged on the blanking support, the second screw rod lifter is driven by a second lifting motor arranged on the blanking support to work, and the top end of the second screw rod lifter is connected with the bottom end of the blanking platform and drives the blanking platform to lift up and down.

Further, the total number of the circulation sucking discs is two, the circulation sucking discs are arranged on a linkage lifting plate, the two circulation sucking discs are respectively located above any two adjacent units of the feeding unit, the flash unit and the blanking unit, the linkage lifting plate is driven by a circulation cylinder to lift up and down, a pair of lifting guide rods are further arranged on the linkage lifting plate, and meanwhile, guide holes for allowing the lifting guide rods to pass through and move are arranged on the circulation plate.

The utility model has the advantages that: the automatic flashing processing of the outer edge of the square polyester resin gasket is realized by utilizing the mutual coordination among the flashing unit, the feeding unit, the blanking unit and the circulation unit, and the manual polishing is not needed, so that the processing is convenient, the manual labor is greatly reduced, and the working efficiency is correspondingly improved.

To the design of rotatory clamping assembly, adopt clamping plate and lower clamping plate complex mode to realize pressing from both sides tight to polyester resin gasket to make things convenient for follow-up polishing to polyester resin gasket, adopt the cooperation of rotating electrical machines and hold mechanism again, thereby make the polyester resin gasket can hug closely the subassembly of polishing all the time in rotatory in-process of polishing, in order to realize polishing the disposable of subassembly to all outer edges of polyester resin gasket and polish, convenient processing.

The design of first lifting assembly and second lifting assembly all adopts the lead screw lift to realize the oscilaltion to feed platform or unloading platform, and the lifting precision is high to the convenience cooperates with the circulation unit, realizes the circulation to polyester resin gasket.

For the design of circulation sucking discs, two circulation sucking discs are adopted to realize the simultaneous clamping of two polyester resin gaskets, so that the simultaneous circulation of the polyester resin gaskets from a feeding unit to a flash unit and from the flash unit to a discharging unit is realized, and the working efficiency is further improved.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic view of a post-treatment apparatus for producing a polyester resin gasket according to the present utility model.

Fig. 2 is a front view of the post-treatment device for producing a polyester resin gasket of the present utility model.

Description of the embodiments

The following examples will provide those skilled in the art with a more complete understanding of the present utility model and are not intended to limit the utility model to the embodiments described.

The post-treatment device for producing polyester resin gaskets shown in fig. 1 and 2 comprises

The flash unit comprises a flash conveying support 1, wherein the flash conveying support 1 is of a cuboid frame structure formed by a plurality of transverse rods, longitudinal rods and vertical rods, a pair of flash conveying belts 2 which are distributed in parallel along the width direction of the flash conveying support 1 are installed on the flash conveying support 1, two sides of the two flash conveying belts 2 are respectively installed on the same rotating shaft, two sides of the rotating shafts are movably installed on the flash conveying support 1 through matching of bearings and bearing seats, any one rotating shaft is driven by a motor installed on the flash conveying support 1 to rotate and drive the flash conveying belts 2 to work, a gap is reserved between the two flash conveying belts 2, the vertical distance of the gap is smaller than the length of a polyester resin gasket, smooth conveying of the flash conveying belts 2 can be realized, the feeding side of the flash conveying belts 2 is defined as a feeding area, the discharging side is a flash area, a rotating clamping assembly is installed at the flash area, and a position of the flash conveying belt 2 on the discharging side is also provided with a rotating clamping assembly matched with the rotating clamping assembly.

The rotary clamping assembly comprises a clamping bracket 3, the clamping bracket 3 is a gantry type frame structure formed by a plurality of cross bars, vertical bars and longitudinal bars, two sides of the clamping bracket 3 are respectively positioned at two outer sides of the two flash conveyor belts 2, an upper clamping plate 4 and a lower clamping plate 5 which are distributed up and down are arranged on the clamping bracket 3,

the upper clamping plate 4 is located above the flash conveyor belt 2, and the upper clamping plate 4 is driven to lift up and down by the clamping cylinder 6 mounted on the clamping bracket 3 to be close to or far away from the lower clamping plate 5, in this embodiment, the clamping cylinder 6 can adopt an air cylinder, a hydraulic cylinder can also be adopted, a slewing bearing is further arranged between the upper clamping plate 4 and a piston rod of the clamping cylinder 6, through the design of the slewing bearing, the free rotation of the upper clamping plate 4 can be realized on the basis that the upper clamping plate 4 can lift up and down under the driving of the clamping cylinder 6, so that the upper clamping plate 4 can follow the rotation in the process that the lower clamping plate 5 drives the polyester resin gasket to rotate, and the surface of the polyester resin gasket is prevented from being damaged due to relative friction between the upper clamping plate 4 and the polyester resin gasket.

The lower clamping plate 5 is located in the gap between the two flash conveying belts 2, and the upper end face of the lower clamping plate 5 is not higher than the upper end face of the flash conveying belts 2, so that the polyester resin gasket can be smoothly conveyed onto the lower clamping plate 5, the situation that the lower clamping plate 5 directly impacts on the side wall of the lower clamping plate 5 due to the fact that the height of the lower clamping plate 5 is too high is avoided, the lower clamping plate 5 is driven to rotate by a rotating motor 7 arranged on the clamping bracket 3, and the lower clamping plate is driven by a retaining mechanism and drives the polyester resin gasket to keep close to a polishing assembly. To the design of rotatory clamping assembly, adopt last clamping plate 4 and lower clamping plate 5 complex mode to realize pressing from both sides the clamp of polyester resin gasket to make things convenient for follow-up polishing to polyester resin gasket, again adopt the cooperation of rotating electrical machines and hold mechanism, thereby make the polyester resin gasket can hug closely the subassembly of polishing all the time in rotatory in-process of polishing, in order to realize polishing the disposable of subassembly to all outer edges of polyester resin gasket and polish, convenient processing.

The holding mechanism comprises a pair of holding guide rails 8 arranged on the flash conveying support 1, the two holding guide rails 8 extend along the conveying direction of the flash conveying belt 2, a holding movable plate 9 which is horizontally arranged is arranged on the holding guide rails 8, holding sliding blocks which are matched with the two holding guide rails 8 for use are arranged at the bottom ends of the holding movable plate 9, the bottom ends of the clamping supports 3 are respectively fixed at two sides of the upper end face of the holding movable plate 9, meanwhile, a rotating motor 7 is also directly arranged on the upper end face of the holding movable plate 9, a holding fixed plate 10 which is vertically arranged is also arranged at one side of the holding guide rails 8 far away from the polishing assembly, and a holding spring 11 is also connected between the holding fixed plate 10 and the holding movable plate 9, and two sides of the holding spring 11 are respectively connected with the holding fixed plate 10 and the holding movable plate 11.

The polishing assembly comprises a polishing support, a polishing abrasive belt 12 is arranged on the polishing support, and the polishing abrasive belt 12 is driven to rotate by a polishing motor arranged on the polishing support.

The feeding unit is arranged on one side of the feeding side of the flash conveyor belt 2 and comprises a feeding bracket 13, a feeding platform 14 is arranged on the feeding bracket 13, and the feeding platform 14 is driven by a first lifting assembly to lift up and down.

The first lifting assembly comprises a first screw rod lifter 15 installed on the feeding bracket 13, the first screw rod lifter 15 is driven by a first lifting motor 16 installed on the feeding bracket 13 to work, and the top end of the first screw rod lifter 15 is connected with the bottom end of the feeding platform 14 and drives the feeding platform 14 to lift up and down. The first lifting assembly is designed, the first screw rod lifter 15 is adopted to realize the up-and-down lifting of the feeding platform 14, and the lifting precision is high, so that the feeding platform is matched with the circulation unit conveniently, and the circulation of the polyester resin gaskets is realized.

The blanking unit is arranged on the other side of the feeding side of the flash conveyor belt 2 and comprises a blanking support 17, a blanking platform 18 is arranged on the blanking support 17, and the blanking platform 18 is driven by a second lifting assembly to lift up and down.

The second lifting assembly comprises a second screw rod lifter 19 arranged on the blanking bracket 17, the second screw rod lifter 19 is driven by a second lifting motor 20 arranged on the blanking bracket 17 to work, and the top end of the second screw rod lifter 19 is connected with the bottom end of the blanking platform 18 and drives the blanking platform 18 to lift up and down. The second lifting assembly is designed, the second screw rod lifter 19 is adopted to realize the up-and-down lifting of the blanking platform 18, the lifting precision is high, the second screw rod lifter is matched with the circulation unit conveniently, and the circulation of the polyester resin gasket is realized.

The circulation unit comprises a circulation support 21, a circulation guide rail 22 extending from the feeding unit to the discharging unit is arranged on the circulation support 21, a circulation plate 23 is arranged on the circulation guide rail 22, a circulation sliding block matched with the circulation guide rail 22 is arranged at the top end of the circulation plate 23, the circulation plate 23 is driven by a horizontal moving cylinder arranged on the circulation support 21 to horizontally reciprocate along the circulation guide rail 22, in the embodiment, the horizontal moving cylinder is a hydraulic cylinder, a circulation sucker 24 is further arranged below the circulation plate, the circulation sucker 24 is driven by a circulation cylinder 25 arranged on the circulation plate 23 to vertically lift, in the embodiment, the circulation sucker 24 is a pneumatic sucker, the circulation cylinder 25 is a cylinder or a hydraulic cylinder, the circulation plate 23 is composed of an upper plate and a lower plate which are distributed up and down, the upper plate and the lower plate are fixedly connected in a transition mode through the circulation cylinder 25, and the circulation sliding block is arranged on the upper end face of the upper plate.

The two circulation sucking discs 24 are arranged on a linkage lifting plate 26, the two circulation sucking discs 24 are respectively positioned above any two adjacent units of the feeding unit, the flash unit and the blanking unit, the linkage lifting plate 26 is driven by the circulation cylinder 2 to lift up and down, a pair of lifting guide rods 27 are further arranged on the linkage lifting plate 26, and meanwhile, guide holes for allowing the lifting guide rods 26 to pass through and move are arranged on the lower plate of the circulation plate 23. For the design of the circulation sucking disc 24, two circulation sucking discs are adopted to realize the simultaneous clamping of two polyester resin gaskets, so that the simultaneous circulation of the polyester resin gaskets from the feeding unit to the flash unit and from the flash unit to the blanking unit is realized, and the working efficiency is further improved.

Working principle: during processing, firstly, batch polyester resin gaskets to be processed are placed on a feeding platform 14, then a first screw rod lifter 15 and a second screw rod lifter 19 start to work, the feeding platform 14 is driven to descend respectively, a discharging platform 18 is driven to ascend until the uppermost polyester resin gasket on the feeding platform 14 is flush with the upper end face of a flash conveyor belt 2, the upper end face of the discharging platform 18 is flush with the upper end face of the flash conveyor belt 2, then a horizontal moving cylinder drives a flow rotating plate 23 to move horizontally until two flow sucking discs 24 are respectively positioned above a feeding platform 14 and a feeding area, then a flow sucking disc 24 is driven to descend by a flow sucking disc 25, the uppermost polyester resin gasket on the feeding platform 14 is adsorbed by the flow sucking disc 24, and after adsorption, the flow sucking disc 24 ascends again, the circulation plates 23 are driven by the horizontal moving cylinders to move horizontally until the two circulation sucking discs 24 are respectively positioned above the feeding area and the discharging platform 18, the circulation sucking discs 24 descend to place the polyester resin gaskets on the two flash conveyor belts 2, then the polyester resin gaskets are conveyed by the flash conveyor belts 2 until the side ends of the polyester resin gaskets are abutted against the side edges of the polishing abrasive belt 12 and then stop conveying, at the moment, the polyester resin gaskets are positioned above the lower clamping plate 5, the upper clamping plate 4 descends and is matched with the lower clamping plate 5 to clamp the polyester resin gaskets, then the polishing abrasive belt 12 starts to work to polish the polyester resin gaskets, meanwhile, the rotating motor 7 starts to work to drive the lower clamping plate 5 to rotate so as to rotate the polyester resin gaskets, and because of the rectangular shape of the polyester resin gaskets, the polyester resin gaskets are gradually far away from the polishing abrasive belt 12 in the rotating process, due to the existence of the retaining spring 11, when the polyester resin gasket is far away from the sanding belt 12, the retaining movable plate 9 is driven to be far away from the sanding belt 12, at the moment, the retaining movable plate 9 can apply a force to the retaining spring 11 towards the direction of the retaining fixed plate 10, so that the retaining spring 11 is compressed, and at the same time, the retaining spring 11 can apply a reverse force to the retaining movable plate 9 under the action of self elasticity, so that the retaining movable plate 9 is pushed towards the sanding belt 12, namely, the polyester resin gasket is kept attached to the sanding belt 12, so that the outer edge of the polyester resin gasket is sanded, after finishing sanding, the upper clamping plate 4 is lifted, the flash conveyor belt 2 is reversely conveyed, the finished polyester resin gasket is conveyed back to the feeding area, at the moment, the two circulation suction cups 24 are moved to the upper parts of the feeding platform 14 and the feeding area again, meanwhile, since the last polyester resin gasket is grabbed away, the feeding platform 14 moves upwards by one unit to ensure that the uppermost polyester resin gasket of the feeding platform 14 is kept flush with the upper end face of the flash conveyor belt 2, then the two circulation chucks 24 can respectively grab the polyester resin gasket to be processed on the feeding platform 14 and the processed polyester resin gasket at the feeding area, after grabbing, the two circulation chucks 24 can move to the upper parts of the feeding area and the discharging platform 18 again, the polyester resin gasket to be processed and the processed polyester resin gasket are respectively placed on the feeding area and the discharging platform 18, the polyester resin gasket to be processed at the feeding area is sent to the flash area to be processed, and after the discharging platform 18 receives the polyester resin gasket at the bottom side, the unit is moved downwards, to ensure that the upper end surface of the flash conveyor belt 2 is flush with the polyester resin gasket at the uppermost end of the blanking platform 18, thereby facilitating circulation. And repeating the steps to finish batch processing of the polyester resin gaskets.

It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a polyester resin gasket production is with aftertreatment device which characterized in that: comprising

The device comprises a flash unit, a flash conveying device and a polishing device, wherein the flash unit comprises a flash conveying support, a pair of flash conveying belts which are distributed in parallel along the width direction of the flash conveying support are arranged on the flash conveying support, a gap is reserved between the two flash conveying belts, the feeding side of the flash conveying belt is a feeding area, the discharging side of the flash conveying belt is a flash area, a rotary clamping assembly is arranged at the flash area, and a polishing assembly matched with the rotary clamping assembly is further arranged at the position of the flash conveying belt at the discharging side;

the feeding unit is arranged on one side of the feeding side of the flash conveyor belt and comprises a feeding bracket, a feeding platform is arranged on the feeding bracket, and the feeding platform is driven by a first lifting assembly to lift up and down;

the blanking unit is arranged on the other side of the feeding side of the flash conveyor belt and comprises a blanking bracket, a blanking platform is arranged on the blanking bracket, and the blanking platform is driven by a second lifting assembly to lift up and down;

the utility model provides a circulation unit that is used for realizing that polyester resin gasket flows between feeding unit, overlap unit, unloading unit, circulation unit includes a circulation support, installs the circulation guide rail that supplies the unit to the unloading unit direction to extend on the circulation support, installs a circulation board on the circulation guide rail, the top of circulation board install with circulation guide rail matched with circulation slider, still install the circulation sucking disc in the below of circulation board, this circulation sucking disc is by installing the circulation jar drive on the circulation board and go up and down.

2. The post-treatment device for producing a polyester resin gasket according to claim 1, wherein: the rotary clamping assembly comprises a gantry type clamping support, two sides of the clamping support are respectively located on the outer sides of two flash conveying belts, an upper clamping plate and a lower clamping plate which are distributed up and down are installed on the clamping support, the upper clamping plate is driven by a clamping cylinder installed on the clamping support to lift up and down to be close to or far away from the lower clamping plate, a slewing bearing is further arranged between the upper clamping plate and a piston rod of the clamping cylinder, the lower clamping plate is located in a gap between the two flash conveying belts, the upper end face of the lower clamping plate is not higher than the upper end face of the flash conveying belts, the lower clamping plate is driven by a rotary motor installed on the clamping support to rotate, and the lower clamping plate is driven by a retaining mechanism and drives a polyester resin gasket to keep close to the polishing assembly.

3. The post-treatment device for producing a polyester resin gasket according to claim 2, wherein: the retaining mechanism comprises a pair of retaining guide rails arranged on the flash conveying support, the two retaining guide rails extend along the conveying direction of the flash conveying belt, a retaining movable plate which is horizontally arranged is arranged on the retaining guide rails, a retaining sliding block which is matched with the two retaining guide rails for use is arranged at the bottom end of the retaining movable plate, the bottom end of the clamping support is fixed on the retaining movable plate, a retaining fixed plate which is vertically arranged is further arranged at one side, far away from the polishing assembly, of the retaining guide rails, and a retaining spring is further connected between the retaining fixed plate and the retaining movable plate.

4. The post-treatment device for producing a polyester resin gasket according to claim 1, wherein: the polishing assembly comprises a polishing support, a polishing abrasive belt is arranged on the polishing support, and the polishing abrasive belt is driven by a polishing motor to rotate.

5. The post-treatment device for producing a polyester resin gasket according to claim 1, wherein: the first lifting assembly comprises a first screw rod lifter arranged on the feeding support, the first screw rod lifter is driven by a first lifting motor arranged on the feeding support to work, and the top end of the first screw rod lifter is connected with the bottom end of the feeding platform and drives the feeding platform to lift up and down.

6. The post-treatment device for producing a polyester resin gasket according to claim 1, wherein: the second lifting assembly comprises a second screw rod lifter arranged on the blanking support, the second screw rod lifter is driven by a second lifting motor arranged on the blanking support to work, and the top end of the second screw rod lifter is connected with the bottom end of the blanking platform and drives the blanking platform to lift up and down.

7. The post-treatment device for producing a polyester resin gasket according to claim 1, wherein: the circulation sucking discs are two in total and are arranged on a linkage lifting plate, the two circulation sucking discs are respectively positioned above any two adjacent units of the feeding unit, the flash unit and the blanking unit, the linkage lifting plate is driven by a circulation cylinder to lift up and down, a pair of lifting guide rods are further arranged on the linkage lifting plate, and meanwhile, guide holes for allowing the lifting guide rods to pass through and move are arranged on the circulation plate.