CN215657433U - Bumper drawing and stamping equipment - Google Patents

Abstract

The utility model discloses a bumper drawing and stamping device, which comprises: the cooling device comprises a concave cooling box, a processing table and a carrying support, wherein the concave cooling box is arranged on the processing table, the carrying support is arranged on the concave cooling box and the processing table, a rotary cooling structure is arranged on the processing table, a stretching stamping structure is arranged on the rotary cooling structure, a cooling structure is arranged in the concave cooling box, and a carrying structure is arranged on the carrying support; the utility model relates to the technical field of bumper production, which is characterized in that a plate is extruded and molded through a drawing and stamping structure, so that a high-temperature bumper is extruded and molded at high temperature, the bumper is rotated into a concave cooling box through a rotating cooling structure, the bumper is quenched through the concave cooling box, the bumper is integrally quenched, and the wall surface is formed to have errors.

Description

Bumper drawing and stamping equipment

Technical Field

The utility model relates to the technical field of bumper production, in particular to bumper drawing and stamping equipment.

Background

The bumper is the most traditional elastic element in an automobile suspension system, and is widely applied due to the advantages of good reliability, simple structure, short manufacturing process flow, low cost, greatly simplified structure and the like. The bumper is generally a group of spring beams with similar equal strength, which are formed by combining a plurality of alloy spring steels with different lengths.

The automobile is quite common in life and work, the automobile brings great convenience to people, the bumper needs to be quenched in the production process, but at present, the bumper cannot be rapidly and fully quenched due to manual operation in the quenching process, time is wasted, the production efficiency of the bumper is reduced, and the product quality cannot be guaranteed.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides a bumper drawing and stamping device, which solves the problems of the prior art.

In order to achieve the purpose, the utility model is realized by the following technical scheme: a bumper draw stamping apparatus comprising: the cooling device comprises a concave cooling box, a processing table and a carrying support, wherein the concave cooling box is arranged on the processing table, the carrying support is arranged on the concave cooling box and the processing table, a rotary cooling structure is arranged on the processing table, a stretching stamping structure is arranged on the rotary cooling structure, a cooling structure is arranged in the concave cooling box, and a carrying structure is arranged on the carrying support;

the stretching and stamping structure comprises: the extrusion device comprises an extrusion support, two pairs of extrusion limit shafts with the same structure, an arc extrusion block, an arc movable extrusion block and an extrusion hydraulic cylinder;

the extrusion support is installed on the rotary cooling structure, two pairs of extrusion limiting shafts are installed on the extrusion support in a pairwise parallel mode, the arc extrusion blocks are installed on the extrusion support, the arc moves the extrusion blocks and is provided with two pairs of moving ports with the same structure, the arc moves the extrusion blocks and is sleeved on the two pairs of extrusion limiting shafts through the two pairs of moving ports, the extrusion hydraulic cylinder is installed on the extrusion support, and the pushing end of the extrusion hydraulic cylinder is connected to the arc moving extrusion blocks.

Preferably, the rotary cooling structure comprises: the device comprises a pair of rotary cooling shafts with the same structure, a pair of rotary transmission bevel gears with the same structure, a pair of rotary driving machines with the same structure, a pair of rotary hydraulic push rods with the same structure, a pair of limiting telescopic fixed rods with the same structure and a pair of rotating limiting disks with the same structure;

the pair of rotary cooling shafts are respectively inserted on the carrying support through bearings, the other ends of the pair of rotary cooling shafts are arranged on the extrusion support, the pair of rotary transmission bevel gears are respectively arranged on the pair of rotary cooling shafts, the pair of rotary driving machines are arranged on the carrying support, the pair of rotary driving bevel gears are respectively arranged on the driving ends of the pair of rotary driving machines, the pair of rotary driving bevel gears are respectively engaged with the pair of rotary transmission bevel gears, the pair of rotary limiting disks are respectively arranged on two sides of the extrusion support, the pair of rotary limiting disks are provided with a plurality of limiting grooves with the same structure, the extrusion support is provided with a pair of telescopic grooves with the same structure, the pair of rotary hydraulic push rods are respectively arranged in the pair of telescopic grooves, and the pair of limiting telescopic fixed rods are respectively movably inserted in the pair of telescopic grooves, and the pair of limiting telescopic fixing rods are respectively movably inserted on the pushing ends of the pair of rotating hydraulic push rods.

Preferably, the cooling structure comprises: the cooling coil pipe, the radiator and a plurality of heat conducting fins with the same structure;

the cooling coil pipe is arranged in the concave cooling box, the radiator is arranged outside the concave cooling box and connected to the cooling coil pipe, and the plurality of heat-conducting fins are uniformly arranged on the cooling coil pipe.

Preferably, the carrying structure includes: the conveying device comprises a pair of conveying lead screw modules with the same structure, a movable plate, a pair of conveying hydraulic push rods with the same structure and a pair of electromagnet conveying blocks with the same structure;

the pair of carrying lead screw modules are horizontally and parallelly arranged on the carrying support, the moving plate is arranged on the moving ends of the pair of carrying lead screw modules, the pair of carrying hydraulic push rods are horizontally and parallelly arranged on the moving plate, and the pair of electromagnet carrying blocks are respectively arranged on the pushing ends of the pair of carrying hydraulic push rods.

Preferably, a pressure sensor is arranged on the arc moving extrusion block.

Preferably, a temperature sensor is arranged in the concave cooling box.

Advantageous effects

The utility model provides a bumper drawing and stamping device. The method has the following beneficial effects: this bumper drawing stamping equipment carries out extrusion through tensile stamping structure with panel to reach and carry out high temperature extrusion with the bumper of high temperature, rotate the bumper simultaneously through rotating cooling structure and go into concave type cooler bin, through concave type cooler bin with the bumper quenching, the integration quenches, and the shaping error appears in the wall.

Drawings

Fig. 1 is a schematic front sectional view of a bumper drawing and stamping apparatus according to the present invention.

Fig. 2 is a schematic top cross-sectional view of a bumper drawing and stamping apparatus according to the present invention.

Fig. 3 is a schematic drawing and stamping structure diagram of the bumper drawing and stamping equipment.

In the figure: 1. a concave cooling box; 2. a processing table; 3. carrying the bracket; 4. extruding the bracket; 5. extruding the limiting shaft; 6. an arc extrusion block; 7. moving the extrusion block in an arc manner; 8. an extrusion hydraulic cylinder; 9. rotating the cooling shaft; 10. rotating the transmission bevel gear; 11. rotating the drive bevel gear; 12. rotating the driver; 13. rotating the hydraulic push rod; 14. limiting the telescopic fixing rod; 15. rotating the limiting disc; .

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

All the electrical components in the present application are connected with the power supply adapted to the electrical components through a wire, and an appropriate controller and an appropriate encoder should be selected according to actual conditions to meet control requirements, and specific connection and control sequences should be obtained.

Example (b): according to the attached drawings 1-3, the concave cooling box 1 is arranged on the processing table 2, the carrying support 3 is arranged on the concave cooling box 1 and the processing table 2, the processing table 2 is provided with a rotary cooling structure, the rotary cooling structure is provided with a stretching stamping structure, the concave cooling box 1 is internally provided with a cooling structure, and the carrying support 3 is provided with a carrying structure; the stretching and stamping structure comprises: the extrusion device comprises an extrusion support 4, two pairs of extrusion limit shafts 5 with the same structure, an arc extrusion block 6, an arc movable extrusion block 7 and an extrusion hydraulic cylinder 8; the extrusion support 4 is mounted on the rotary cooling structure, two pairs of extrusion limit shafts 5 are mounted on the extrusion support 4 in parallel, the arc extrusion block 6 is mounted on the extrusion support 4, two pairs of moving ports with the same structure are respectively formed in the arc movable extrusion block 7 and the arc movable extrusion block 7, the arc movable extrusion block 7 and the arc movable extrusion block 7 are sleeved on the two pairs of extrusion limit shafts 5 through the two pairs of moving ports respectively, the extrusion hydraulic cylinder 8 is mounted on the extrusion support 4, and the pushing end of the extrusion hydraulic cylinder 8 is connected to the arc movable extrusion block 7; the rotary cooling structure comprises: a pair of rotary cooling shafts 9 with the same structure, a pair of rotary transmission bevel gears 10 with the same structure, a pair of rotary driving bevel gears 11 with the same structure, a pair of rotary driving machines 12 with the same structure, a pair of rotary hydraulic push rods 13 with the same structure, a pair of limit telescopic fixed rods 14 with the same structure and a pair of rotary limit disks 15 with the same structure; a pair of rotary cooling shafts 9 are respectively inserted on the carrying bracket 3 through bearings, the other ends of the pair of rotary cooling shafts 9 are arranged on the extrusion bracket 4, a pair of rotary transmission bevel gears 10 are respectively arranged on the pair of rotary cooling shafts 9, a pair of rotary driving machines 12 are arranged on the carrying bracket 3, a pair of rotary driving bevel gears 11 are respectively arranged on the driving ends of the pair of rotary driving machines 12, the pair of rotary driving bevel gears 11 are respectively engaged with the pair of rotary transmission bevel gears 10, a pair of rotary limiting disks 15 are respectively arranged on two sides of the extrusion bracket 4, a plurality of limiting grooves with the same structure are arranged on the pair of rotary limiting disks 15, a pair of telescopic grooves with the same structure are arranged on the extrusion bracket 4, a pair of rotary hydraulic push rods 13 are respectively arranged in the pair of telescopic grooves, the pair of limiting telescopic fixing rods 14 are respectively and movably inserted into the pair of telescopic grooves, and the pair of limiting telescopic fixing rods 14 are respectively and movably inserted into the pushing ends of the pair of rotating hydraulic push rods 13; the cooling structure includes: the cooling coil pipe, the radiator and a plurality of heat conducting fins with the same structure;

the cooling coil pipe is arranged in the concave cooling box 1, the radiator is arranged outside the concave cooling box 1 and connected to the cooling coil pipe, and the plurality of heat-conducting fins are uniformly arranged on the cooling coil pipe; the carrying structure comprises: the conveying device comprises a pair of conveying lead screw modules with the same structure, a movable plate, a pair of conveying hydraulic push rods with the same structure and a pair of electromagnet conveying blocks with the same structure;

the pair of carrying lead screw modules are horizontally and parallelly arranged on the carrying bracket 3, the moving plate is arranged on the moving ends of the pair of carrying lead screw modules, the pair of carrying hydraulic push rods are horizontally and parallelly arranged on the moving plate, and the pair of electromagnet carrying blocks are respectively arranged on the pushing ends of the pair of carrying hydraulic push rods; a pressure sensor is arranged on the arc movable extrusion block 7; and a temperature sensor is arranged in the concave cooling box 1.

From the above, it follows: the raw material is conveyed into an extrusion support 4 through a conveying structure, an arc movable extrusion block 7 on a pushing end is pushed through an extrusion hydraulic cylinder 8, the plate is extruded and molded through the matching of the arc movable extrusion block 7 and the arc extrusion block 6, after the extrusion is finished, a pair of rotary driving machines 12 simultaneously operate to respectively drive a pair of rotary driving bevel gears 11 on the driving ends of the rotary driving machines 12 to rotate, a pair of rotary driving bevel gears 11 respectively drive a rotary transmission bevel gear 10 engaged with gears of the rotary driving bevel gears to rotate, a pair of rotary cooling shafts 9 on the rotary driving bevel gears 10 are respectively driven to rotate through the pair of rotary transmission bevel gears 10, so that the arc extrusion block 6 on the extrusion support 4, the arc movable extrusion block 7 and the extruded raw material plate in the arc movable extrusion block are rotated into a concave cooling box 1, the plate is cooled through a cooling structure in the concave cooling box 1, and the arc extrusion block 6 and the arc movable extrusion block 7 are simultaneously, avoided appearing high temperature and removed extrusion piece 7 and produce the injury to circular arc extrusion piece 6 and circular arc, promoted a pair of spacing flexible dead lever 14 on the promotion end respectively through a pair of rotation hydraulic push rod 13 simultaneously and pushed a pair of spacing inslot respectively to reach and reduce the pressure of a pair of rotation driving machine 12, adsorb the heat through the cooling coil pipe in the cooling structure simultaneously, avoided the phenomenon that the error appears in the cooling.

Preferably, the rotary cooling structure further comprises: a pair of rotary cooling shafts 9 with the same structure, a pair of rotary transmission bevel gears 10 with the same structure, a pair of rotary driving bevel gears 11 with the same structure, a pair of rotary driving machines 12 with the same structure, a pair of rotary hydraulic push rods 13 with the same structure, a pair of limit telescopic fixed rods 14 with the same structure and a pair of rotary limit disks 15 with the same structure;

a pair of rotary cooling shafts 9 are respectively inserted on the carrying bracket 3 through bearings, the other ends of the pair of rotary cooling shafts 9 are arranged on the extrusion bracket 4, a pair of rotary transmission bevel gears 10 are respectively arranged on the pair of rotary cooling shafts 9, a pair of rotary driving machines 12 are arranged on the carrying bracket 3, a pair of rotary driving bevel gears 11 are respectively arranged on the driving ends of the pair of rotary driving machines 12, the pair of rotary driving bevel gears 11 are respectively engaged with the pair of rotary transmission bevel gears 10, a pair of rotary limiting disks 15 are respectively arranged on two sides of the extrusion bracket 4, a plurality of limiting grooves with the same structure are arranged on the pair of rotary limiting disks 15, a pair of telescopic grooves with the same structure are arranged on the extrusion bracket 4, a pair of rotary hydraulic push rods 13 are respectively arranged in the pair of telescopic grooves, the pair of limiting telescopic fixing rods 14 are respectively movably inserted into the pair of telescopic grooves, and the pair of limiting telescopic fixing rods 14 are respectively movably inserted into the pushing ends of the pair of rotating hydraulic push rods 13.

Preferably, the cooling structure further comprises: the cooling coil pipe, the radiator and a plurality of heat conducting fins with the same structure;

the cooling coil pipe is arranged in the concave cooling box 1, the radiator is arranged outside the concave cooling box 1 and connected to the cooling coil pipe, and the plurality of heat-conducting fins are uniformly arranged on the cooling coil pipe.

Preferably, the carrying structure further includes: the conveying device comprises a pair of conveying lead screw modules with the same structure, a movable plate, a pair of conveying hydraulic push rods with the same structure and a pair of electromagnet conveying blocks with the same structure;

the pair of carrying lead screw modules are horizontally and parallelly arranged on the carrying support 3, the moving plate is arranged on the moving ends of the pair of carrying lead screw modules, the pair of carrying hydraulic push rods are horizontally and parallelly arranged on the moving plate, and the pair of electromagnet carrying blocks are respectively arranged on the pushing ends of the pair of carrying hydraulic push rods.

Preferably, the circular arc moving extrusion block 7 is provided with a pressure sensor.

Preferably, a temperature sensor is disposed in the concave cooling box 1.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A bumper draw stamping apparatus comprising: the cooling device comprises a concave cooling box, a processing table and a carrying support, and is characterized in that the concave cooling box is mounted on the processing table, the carrying support is mounted on the concave cooling box and the processing table, a rotary cooling structure is mounted on the processing table, a stretching stamping structure is mounted on the rotary cooling structure, a cooling structure is mounted in the concave cooling box, and a carrying structure is mounted on the carrying support;

the stretching and stamping structure comprises: the extrusion device comprises an extrusion support, two pairs of extrusion limit shafts with the same structure, an arc extrusion block, an arc movable extrusion block and an extrusion hydraulic cylinder;

the extrusion support is installed on the rotary cooling structure, two pairs of extrusion limiting shafts are installed on the extrusion support in a pairwise parallel mode, the arc extrusion blocks are installed on the extrusion support, the arc moves the extrusion blocks and is provided with two pairs of moving ports with the same structure, the arc moves the extrusion blocks and is sleeved on the two pairs of extrusion limiting shafts through the two pairs of moving ports, the extrusion hydraulic cylinder is installed on the extrusion support, and the pushing end of the extrusion hydraulic cylinder is connected to the arc moving extrusion blocks.

2. The bumper drawing-stamping apparatus as claimed in claim 1, wherein the rotary cooling structure includes: the device comprises a pair of rotary cooling shafts with the same structure, a pair of rotary transmission bevel gears with the same structure, a pair of rotary driving machines with the same structure, a pair of rotary hydraulic push rods with the same structure, a pair of limiting telescopic fixed rods with the same structure and a pair of rotating limiting disks with the same structure;

the pair of rotary cooling shafts are respectively inserted on the carrying support through bearings, the other ends of the pair of rotary cooling shafts are arranged on the extrusion support, the pair of rotary transmission bevel gears are respectively arranged on the pair of rotary cooling shafts, the pair of rotary driving machines are arranged on the carrying support, the pair of rotary driving bevel gears are respectively arranged on the driving ends of the pair of rotary driving machines, the pair of rotary driving bevel gears are respectively engaged with the pair of rotary transmission bevel gears, the pair of rotary limiting disks are respectively arranged on two sides of the extrusion support, the pair of rotary limiting disks are provided with a plurality of limiting grooves with the same structure, the extrusion support is provided with a pair of telescopic grooves with the same structure, the pair of rotary hydraulic push rods are respectively arranged in the pair of telescopic grooves, and the pair of limiting telescopic fixed rods are respectively movably inserted in the pair of telescopic grooves, and the pair of limiting telescopic fixing rods are respectively movably inserted on the pushing ends of the pair of rotating hydraulic push rods.

3. The bumper drawing-stamping apparatus as claimed in claim 1, wherein the cooling structure includes: the cooling coil pipe, the radiator and a plurality of heat conducting fins with the same structure;

the cooling coil pipe is arranged in the concave cooling box, the radiator is arranged outside the concave cooling box and connected to the cooling coil pipe, and the plurality of heat-conducting fins are uniformly arranged on the cooling coil pipe.

4. The bumper drawing and stamping apparatus as claimed in claim 1, wherein the handling structure includes: the conveying device comprises a pair of conveying lead screw modules with the same structure, a movable plate, a pair of conveying hydraulic push rods with the same structure and a pair of electromagnet conveying blocks with the same structure;

the pair of carrying lead screw modules are horizontally and parallelly arranged on the carrying support, the moving plate is arranged on the moving ends of the pair of carrying lead screw modules, the pair of carrying hydraulic push rods are horizontally and parallelly arranged on the moving plate, and the pair of electromagnet carrying blocks are respectively arranged on the pushing ends of the pair of carrying hydraulic push rods.

5. The bumper drawing and stamping device according to claim 1, wherein the arc moving extrusion block is provided with a pressure sensor.

6. The bumper drawing and stamping apparatus as claimed in claim 1, wherein a temperature sensor is disposed within the concave cooling box.

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