CN215902543U - Mould structure for producing automobile glass guide groove - Google Patents

Abstract

The utility model relates to the field of glass guide grooves, in particular to a die structure for producing an automobile glass guide groove.

Description

Mould structure for producing automobile glass guide groove

Technical Field

The utility model relates to the field of glass guide grooves, in particular to a mold structure for producing an automobile glass guide groove.

Background

At present, the automobile glass guide groove has the functions of sealing, water proofing, dust proofing, sound insulation and shock absorption, and ensures that the door glass is freely and stably lifted. The position of the guide groove assembled on the car door needs to be accurate so as to realize attractive appearance and ensure normal lifting of glass, the automobile glass guide groove is formed by generally adopting a punching process, materials in a die are punched through punching equipment, and therefore a primary process of the automobile glass guide groove is completed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a die structure for producing an automobile glass guide slot, and aims to solve the technical problems that in the prior art, a primary process of the automobile glass guide slot is finished by punching materials in a die through punching equipment, and in the punching process of the equipment, waste materials generated after the processing is finished easily fall into the die, so that the subsequent molding of the punched automobile glass guide slot is easily caused.

In order to achieve the purpose, the utility model adopts a die structure for producing the automobile glass guide groove, which comprises a processing table, a template, punching equipment and a storage device; the die cutting equipment is fixedly connected with the processing table and is positioned on one side of the processing table, and the die cutting equipment is fixedly connected with the processing table and is positioned on one side of the processing table close to the die plate; the storage device comprises a storage push plate, an air pump, an air gun, a connecting pipe and a driving assembly, wherein the storage push plate is connected with the machining table through the driving assembly, the air pump is connected with the template in a sliding mode and located at one side of the template, the machining table is close to one side of the template, the air pump is fixedly connected with the machining table and located at one side of the machining table, the air gun is fixedly connected with the storage push plate and located at one side of the storage push plate, one end of the connecting pipe is connected with the output end of the air pump, the other end of the connecting pipe is communicated with the air gun, the connecting pipe is located between the air pump and the air gun, and the driving assembly is fixedly connected with the machining table.

Thereby drive through drive assembly accomodate the slip of push pedal to die-cut completion back waste material in the template passes through accomodate the slip of push pedal and promote, thereby release on the template, through high-pressure gas is stored and is produced to the air pump, and produced high-pressure gas passes through the connecting pipe flows in the middle of the air gun, thereby passes through the blowout of air gun muzzle, thereby will through high-pressure gas waste material in the template groove rushes out the surface of template, thereby the rethread accomodate the push pedal propelling movement out on the template, and then to falling into the waste material in the template concentrates the collection, avoids causing the influence to the shaping of follow-up die-cut car glass guide slot.

The driving assembly comprises a hydraulic cylinder and a hydraulic rod, the hydraulic cylinder is fixedly connected with the processing table and is positioned on one side of the processing table close to the accommodating push plate; one end of the hydraulic rod is connected with the output end of the hydraulic cylinder, the other end of the hydraulic rod is fixedly connected with the storage push plate, and the hydraulic rod is located between the hydraulic cylinder and the storage push plate.

The hydraulic rod is made to stretch and retract through the output power provided by the hydraulic cylinder, so that the storage push plate slides on the template, and waste materials are pushed through the sliding of the storage push plate.

The die plate is provided with a forming groove, and the forming groove is positioned in the die plate and is opened towards the direction of the punching equipment.

And punching and processing the material in the template through the forming groove so as to finish the primary forming of the automobile glass guide groove.

The receiving push plate is provided with a lateral protrusion, and the lateral protrusion is positioned on one side, close to the template, of the receiving push plate.

The lateral bulge prevents the waste from falling into the forming groove again or scattering out of the pushing range of the accommodating push plate in the process of pushing the waste.

The storage device further comprises a waste box, the waste box is fixedly connected with the processing table and is positioned on one side, close to the template, of the processing table.

Through the produced waste material of waste material case offset cut completion back passes through thereby accomodate the promotion of push pedal and push away accomplish the collection to the waste material in the waste material case to operating personnel handles the concentrated collection of waste material.

The die structure for producing the automobile glass guide groove further comprises an upper cover plate and a rebounding device, wherein the upper cover plate is connected with the processing table through the rebounding device, is fixedly connected with the punching equipment, and is positioned on one side, close to the punching equipment, of the processing table; and the rebound device is fixedly connected with the processing table.

Through the upper cover plate makes die-cut equipment to the die-cut completion back of working material pass through resilient means is right the cope match-plate pattern in the die-cut equipment carries out the lifting to can carry out the die-cut process next time.

The rebounding device comprises a telescopic upright post and a rebounding spring, two ends of the telescopic upright post are respectively and fixedly connected with the processing table and the upper cover plate, and the telescopic upright post is positioned between the processing table and the upper cover plate; the rebound spring is arranged on the processing table.

Thereby through the elasticity of flexible stand cooperate the flexible of rebound spring makes when kick-backing to rebound spring's fixed and spacing effect.

The rebound spring comprises a first spring fixing seat, a second spring fixing seat and a spring body, and the first spring fixing seat is fixedly connected with the processing table and is positioned on one side of the processing table; the second spring fixing seat is fixedly connected with the upper cover plate and is positioned on one side, close to the first spring fixing seat, of the upper cover plate; the two ends of the spring body are respectively fixedly connected with the first spring fixing seat and the second spring fixing seat, and the spring body is located between the first spring fixing seat and the second spring fixing seat.

Through first spring fixing base with the second spring fixing base is right the spring body carries out fixed stay, through the spring body can make the upper cover plate plays the effect to kick-backing at the in-process of die-cut processing to reach the effect of kick-backing.

According to the die structure for producing the automobile glass guide groove, the driving assembly drives the storage push plate to slide, so that waste materials on the die plate after punching are pushed by the sliding of the storage push plate to be pushed out of the die plate, high-pressure gas is stored and generated by the air pump, the generated high-pressure gas flows into the air gun through the connecting pipe and is sprayed out of the gun opening of the air gun, the waste materials in the die plate groove are punched out of the surface of the die plate through the high-pressure gas, the waste materials are pushed out of the die plate through the storage push plate, the waste materials falling into the die plate are collected in a concentrated mode, and the influence on the forming of the subsequent punched automobile glass guide groove is avoided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

FIG. 1 is a schematic structural view of a mold structure for producing an automotive glass run in accordance with the present invention.

Fig. 2 is a schematic structural view of the storage device of the present invention.

Fig. 3 is a schematic view of the structure of the rebounding apparatus of the present invention.

Fig. 4 is a schematic structural view of the driving assembly of the present invention.

Fig. 5 is a schematic view of the structure of the rebound spring of the present invention.

In the figure: 1-processing table, 2-template, 3-punching device, 4-receiving device, 5-upper cover plate, 6-rebound device, 21-forming groove, 41-receiving push plate, 42-air pump, 43-air gun, 44-connecting pipe, 45-driving assembly, 46-waste box, 61-telescopic upright post, 62-rebound spring, 411-lateral projection, 451-hydraulic cylinder, 452-hydraulic rod, 621-first spring fixing seat, 622-second spring fixing seat and 623-spring body.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

Referring to fig. 1 to 3, the present invention provides a mold structure for manufacturing an automotive glass run channel, which includes a processing table 1, a mold plate 2, a punching device 3 and a receiving device 4; the template 2 is fixedly connected with the processing table 1 and is positioned at one side of the processing table 1, and the punching equipment 3 is fixedly connected with the processing table 1 and is positioned at one side of the processing table 1 close to the template 2; storage device 4 is including accomodating push pedal 41, air pump 42, air gun 43, connecting pipe 44 and drive assembly 45, accomodate push pedal 41 with processing platform 1 passes through drive assembly 45 connects, and with 2 sliding connection of template, and be located processing platform 1 is close to one side of template 2, air pump 42 with processing platform 1 fixed connection, and be located one side of processing platform 1, air gun 43 with accomodate push pedal 41 fixed connection, and be located accomodate one side of push pedal 41, the one end of connecting pipe 44 with the output of air pump 42 is connected, the other end of connecting pipe 44 with air gun 43 intercommunication, connecting pipe 44 is located air pump 42 with between the air gun 43, drive assembly 45 with processing platform 1 fixed connection.

Template 2 bolted connection be in processing platform 1 is last, through 2 help of template processing material shaping, die-cut 3 bolted connection of equipment processing platform 1's left side is passed through die-cut equipment 3 with 2 cooperations of template to carry out die-cut processing to the guide slot, accomodate push pedal 41 and pass through drive assembly 45 with processing platform 1 is connected, through thereby drive of drive assembly 45 drives accomodate the slip of push pedal 41, thereby to die-cut completion back waste material on the template 2 passes through accomodate the slip of push pedal 41 and promote, thereby release on the template 2, air pump 42 welds processing platform 1 is last, through air pump 42 stores and produces high-pressure gas, air gun 43 welds accomodate on push pedal 41, air gun 43 is certain inclination, through air gun 43 spun high-pressure gas is right in template 2 accomodate waste gas in push pedal 41 can not push away in the groove The material rushes out of the groove of the template 2 and is pushed by the receiving push plate 41, one end of the connecting pipe 44 is connected with the output end of the air pump 42, the other end of the connecting pipe 44 is communicated with the air gun 43, high-pressure air can rush into the air gun 43 by the connecting pipe 44 and is ejected out of the gun opening, so that the receiving push plate 41 is driven to slide by the driving component 45, waste materials on the template 2 after punching are pushed by the sliding of the receiving push plate 41 and are pushed out of the template 2, the high-pressure air is stored and generated by the air pump 42, the generated high-pressure air flows into the air gun 43 by the connecting pipe 44 and is ejected out of the gun opening of the air gun 43, and the waste materials in the groove of the template 2 are rushed out of the surface of the template 2 by the high-pressure air, therefore, the waste materials falling into the template 2 are collected in a concentrated mode by pushing the template 2 out through the accommodating push plate 41, and the influence on the forming of the subsequent punching automobile glass guide groove is avoided.

Referring to fig. 4, the driving assembly 45 includes a hydraulic cylinder 451 and a hydraulic rod 452, the hydraulic cylinder 451 is fixedly connected to the processing table 1 and is located on a side of the processing table 1 close to the receiving push plate 41; one end of the hydraulic rod 452 is connected with the output end of the hydraulic cylinder 451, the other end of the hydraulic rod 452 is fixedly connected with the accommodating push plate 41, and the hydraulic rod 452 is located between the hydraulic cylinder 451 and the accommodating push plate 41.

The hydraulic cylinder 451 is welded on the processing table 1, power for extending and retracting the hydraulic rod 452 is provided in the extending and retracting process of the hydraulic cylinder 451, one end of the hydraulic rod 452 is connected with the output end of the hydraulic cylinder 451, the other end of the hydraulic rod 452 is welded on the receiving push plate 41, the hydraulic rod 452 is arranged between the hydraulic cylinder 451 and the receiving push plate 41, the hydraulic rod 452 is extended and retracted by the output power provided by the hydraulic cylinder 451, so that the receiving push plate 41 slides on the template 2, and waste materials are pushed by the sliding of the receiving push plate 41.

Referring to fig. 2, the die plate 2 has a forming groove 21, and the forming groove 21 is located in the die plate 2 and opens toward the die cutting device 3.

The template 2 is provided with the forming groove 21, and the notch of the forming groove 21 faces the direction of the punching equipment 3 and is matched with the upper template 2 in the punching equipment 3, so that the punching processing is carried out on the material through the forming groove 21.

Referring to fig. 2, the receiving push plate 41 has a lateral protrusion 411, and the lateral protrusion 411 is located on a side of the receiving push plate 41 close to the mold plate 2.

The receiving push plate 41 is provided with the lateral protrusion 411, the lateral protrusion 411 is positioned at the right side of the receiving push plate 41, and the receiving push plate 41 prevents the waste from falling into the forming groove 21 again or scattering out of the pushing range of the receiving push plate in the process of pushing the waste through the lateral protrusion 411.

Referring to fig. 2, the storage device 4 further includes a waste bin 46, and the waste bin 46 is fixedly connected to the processing table 1 and is located on a side of the processing table 1 close to the form 2.

The waste bin 46 is welded the right side of processing platform 1, through waste bin 46 is to punching produced waste material after accomplishing through thereby accomodate push pedal 41's promotion and push away accomplish the collection to the waste material in the waste bin 46 to operating personnel handles the concentrated collection of waste material.

Referring to fig. 1 and 3, the mold structure for producing the glass run channel of the automobile further includes an upper cover plate 5 and a rebounding device 6, wherein the upper cover plate 5 is connected with the processing table 1 through the rebounding device 6, is fixedly connected with the punching equipment 3, and is located on one side of the processing table 1 close to the punching equipment 3; the rebounding device 6 is fixedly connected with the processing table 1.

The upper cover plate 5 is connected with the processing table 1 through the rebound device 6, the upper cover plate 5 is in bolted connection on the punching equipment 3, and the punching equipment 3 is lifted by the rebound device 6 after punching of a processing material through the upper cover plate 5, so that the next punching process can be performed.

Referring to fig. 3 and 5, the rebounding device 6 includes a telescopic column 61 and a rebounding spring 62, two ends of the telescopic column 61 are respectively and fixedly connected with the processing table 1 and the upper cover plate 5, and the telescopic column 61 is located between the processing table 1 and the upper cover plate 5; the return spring 62 is provided on the processing table 1.

Telescopic column 61 has four, four telescopic column 61's one end welding is in processing platform 1's four ends, telescopic column 61's the other end welding is in on the upper cover plate 5, four telescopic column 61 can be right the better support of upper cover plate 5 is fixed, thereby through telescopic column 61's elasticity cooperation rebound spring 62's flexible make when kick-backing right rebound spring 62's fixed and spacing effect.

Referring to fig. 5, the resilient spring 62 includes a first spring fixing seat 621, a second spring fixing seat 622, and a spring body 623, wherein the first spring fixing seat 621 is fixedly connected to the processing table 1 and is located at one side of the processing table 1; the second spring fixing seat 622 is fixedly connected with the upper cover plate 5 and is located on one side of the upper cover plate 5 close to the first spring fixing seat 621; two ends of the spring body 623 are respectively fixedly connected to the first spring fixing seat 621 and the second spring fixing seat 622, and the spring body 623 is located between the first spring fixing seat 621 and the second spring fixing seat 622.

Four first spring fixing seats 621 are provided, four first spring fixing seats 621 are respectively arranged above the processing table 1, four second spring fixing seats 622 are provided, the second spring fixing seats 622 are respectively welded below the upper cover plate 5, four spring bodies 623 are provided, the four spring bodies 623 can better play a role in rebounding the upper cover plate 5 and can better support four ends of the upper cover plate 5, one end of each corresponding spring body 623 is welded on the corresponding first spring fixing seat 621, the other end of each spring body 623 is welded on the corresponding second spring fixing seat 622, the spring bodies 623 are fixedly supported through the first spring fixing seats 621 and the second spring fixing seats 622, and the upper cover plate 5 can play a role in rebounding in the punching process through the spring bodies 623, thereby achieving the effect of springback.

While the utility model has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the utility model.

Claims (8)

1. A die structure for producing an automobile glass guide groove is characterized by comprising a processing table, a template, punching equipment and a storage device;

the die cutting equipment is fixedly connected with the processing table and is positioned on one side of the processing table, and the die cutting equipment is fixedly connected with the processing table and is positioned on one side of the processing table close to the die plate;

the storage device comprises a storage push plate, an air pump, an air gun, a connecting pipe and a driving assembly, wherein the storage push plate is connected with the machining table through the driving assembly, the air pump is connected with the template in a sliding mode and located at one side of the template, the machining table is close to one side of the template, the air pump is fixedly connected with the machining table and located at one side of the machining table, the air gun is fixedly connected with the storage push plate and located at one side of the storage push plate, one end of the connecting pipe is connected with the output end of the air pump, the other end of the connecting pipe is communicated with the air gun, the connecting pipe is located between the air pump and the air gun, and the driving assembly is fixedly connected with the machining table.

2. The mold structure for manufacturing a glass run of an automobile according to claim 1,

the driving assembly comprises a hydraulic cylinder and a hydraulic rod, the hydraulic cylinder is fixedly connected with the processing table and is positioned on one side of the processing table close to the accommodating push plate; one end of the hydraulic rod is connected with the output end of the hydraulic cylinder, the other end of the hydraulic rod is fixedly connected with the storage push plate, and the hydraulic rod is located between the hydraulic cylinder and the storage push plate.

3. The mold structure for manufacturing a glass run of an automobile according to claim 1,

the die plate is provided with a forming groove, and the forming groove is positioned in the die plate and is opened towards the direction of the punching equipment.

4. The mold structure for manufacturing a glass run of an automobile according to claim 1,

the receiving push plate is provided with a lateral protrusion, and the lateral protrusion is positioned on one side, close to the template, of the receiving push plate.

5. The mold structure for manufacturing a glass run of an automobile according to claim 1,

the storage device further comprises a waste box, the waste box is fixedly connected with the processing table and is positioned on one side, close to the template, of the processing table.

6. The mold structure for manufacturing a glass run of an automobile according to claim 1,

the die structure for producing the automobile glass guide groove further comprises an upper cover plate and a rebounding device, wherein the upper cover plate is connected with the processing table through the rebounding device, is fixedly connected with the punching equipment, and is positioned on one side, close to the punching equipment, of the processing table; and the rebound device is fixedly connected with the processing table.

7. The mold structure for manufacturing a glass run of an automobile according to claim 6,

the rebounding device comprises a telescopic upright post and a rebounding spring, two ends of the telescopic upright post are respectively and fixedly connected with the processing table and the upper cover plate, and the telescopic upright post is positioned between the processing table and the upper cover plate; the rebound spring is arranged on the processing table.

8. The mold structure for manufacturing a glass run for an automobile according to claim 7,

the rebound spring comprises a first spring fixing seat, a second spring fixing seat and a spring body, and the first spring fixing seat is fixedly connected with the processing table and is positioned on one side of the processing table; the second spring fixing seat is fixedly connected with the upper cover plate and is positioned on one side, close to the first spring fixing seat, of the upper cover plate; the two ends of the spring body are respectively fixedly connected with the first spring fixing seat and the second spring fixing seat, and the spring body is located between the first spring fixing seat and the second spring fixing seat.

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