CN220532945U - A compound die auxiliary device for car die casting die - Google Patents

Abstract

The utility model belongs to the field of die design and manufacturing, and discloses a die-closing auxiliary device for an automobile die-casting die, which comprises a foundation platform, wherein a sliding component for sliding is arranged on the foundation platform, a main fixing platform is connected above the sliding component in a sliding way, a transmission component for transmitting power is arranged in the main fixing platform, an auxiliary placing component for assisting in placing the die-casting die is arranged above the transmission component, one end of the transmission component is provided with a fixed component for fixing, a synchronous transmission component for simultaneously transmitting power is arranged in the middle of the inside of the main fixing platform, and a supporting component for supporting an integral structure is arranged below the foundation platform.

Description

A compound die auxiliary device for car die casting die

Technical Field

The utility model relates to the field of die design and manufacture, in particular to a die assembly auxiliary device for an automobile die casting die.

Background

The automobile die casting die is a key tool used in the production of automobile parts. In die casting, die closing is an important step that determines the quality of the cast and the surface finish. In order to ensure accuracy and efficiency of mold closing, mold closing assistance devices have been developed.

Mold clamping aids of the prior art typically employ hydraulic or pneumatic systems. These devices ensure proper closure of the mold by applying the proper pressure and controlling the closing process. They typically include hydraulic cylinders, air cylinders, sensors, and control systems.

Although the prior art is mature enough, the defects are still that when the die-casting die is replaced, for example, the die is required to be lifted slowly to be moved to a correct position, the die is easy to misplace, and the die is required to be adjusted for a plurality of times, so that great inconvenience is brought to the work, and certain potential safety hazard is brought when the die-casting die is lifted.

Disclosure of Invention

The present utility model is intended to provide solutions to existing problems.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a compound die auxiliary device for car die casting die includes the ground platform, be equipped with on the ground platform and be used for gliding slip subassembly, the top sliding connection of slip subassembly has main fixed platform, be equipped with the drive assembly who is used for transmitting power in the main fixed platform, drive assembly's top is equipped with the auxiliary assembly of placing that is used for assisting to place die casting die, and drive assembly's one end is equipped with the fixed subassembly that is used for fixing, the inside centre of main fixed platform is equipped with the synchronous transmission subassembly that is used for transmitting power simultaneously, the below of ground platform is equipped with the supporting component who is used for supporting overall structure.

Preferably, the sliding assembly comprises sliding rails fixed on two sides of the foundation platform and used for guiding the sliding direction, and sliding blocks used for sliding are connected to the sliding rails in a sliding mode.

Preferably, the transmission assembly comprises a sliding groove, a sliding square block is connected in the sliding groove in a sliding manner, a rotary screw rod used for transmitting sliding power is connected in the sliding square block in a threaded manner, the sliding of the sliding square block is controlled by rotating the rotary screw rod, a gear used for transmitting power is arranged at the front end of the rotary screw rod, a rotating shaft used for reducing friction force is arranged at one side of the front end of the rotary screw rod, a fixed rectangular block used for preventing the rotary screw rod from being displaced is sleeved outside the rotating shaft, and the fixed rectangular block is fixed in the sliding groove.

Preferably, the auxiliary placement component comprises an auxiliary placement inclined plate fixed on the sliding square block and used for assisting in positioning of the die-casting die, the auxiliary placement inclined plate is in a horn shape, the die-casting die can conveniently slide into a fixed position, and the sliding of the sliding square block drives the auxiliary placement inclined plate to slide together.

Preferably, the fixing assembly comprises a bearing at the rear end of the rotary screw rod for reducing friction, and the bearing is sleeved with a fixing square block for fixing the rotary screw rod from displacement, and the fixing square block is fixed in a sliding groove on the main fixing platform.

Preferably, the synchronous transmission assembly comprises a fluted disc meshed with the gear, a short cylinder is arranged in the middle of the fluted disc, a belt pulley used for transmitting power is arranged below the short cylinder, the belt pulley can be connected with power equipment through a belt to realize rotation of the fluted disc, the fluted disc rotates while driving the gear to rotate, the gear drives a rotary screw rod to rotate, and the rotary screw rod rotates while enabling a sliding square to slide.

Preferably, the support assembly comprises support legs supported below the foundation platform for supporting the overall weight, and leg pads for increasing the contact area with the ground are arranged below the support legs.

Compared with the prior art, the technical scheme has the beneficial effects that:

(1) The equipment is provided with the auxiliary placement component and the sliding component, can be adjusted and customized according to specific requirements, provides greater design flexibility to adapt to different types of die casting molds, the sliding component and the auxiliary placement component are matched to design so that the sliding and positioning of the die casting molds are more accurate and accurate, the molding quality of castings can be ensured, the operation is relatively simple and convenient due to the design, the working strength and technical requirements of operators are reduced, and the equipment is safer than those of the traditional method.

(2) The transmission assembly of the equipment adopts the rotary screw rod and the gear mechanism, the sliding of the sliding square block is controlled by rotating the screw rod, the reliability and the stability of power transmission are ensured, and the die assembly auxiliary device improves the efficiency and the quality of the die assembly process of the automobile die casting die through a stable structure, accurate sliding and positioning, reliable power transmission and easy operation, and has certain design flexibility.

Drawings

FIG. 1 is a schematic view of the overall structure provided by the present utility model;

FIG. 2 is a schematic cross-sectional view of the present utility model;

FIG. 3 is a schematic view of an internal transmission structure provided by the present utility model;

fig. 4 is a schematic top view of the present utility model.

In the figure: 1. a foundation platform; 2. a sliding assembly; 201. a sliding rail; 202. a sliding block; 3. a main fixed platform; 4. a transmission assembly; 401. a sliding groove; 402. a sliding square; 403. rotating the screw rod; 404. a gear; 405. a rotating shaft; 406. fixing the rectangular block; 5. an auxiliary placement component; 501. an inclined plate is placed in an auxiliary mode; 6. a fixing assembly; 601. a bearing; 602. fixing the square blocks; 7. a synchronous transfer assembly; 701. fluted disc; 702. a short cylinder; 703. a belt pulley; 8. a support assembly; 801. support legs; 802. leg pads.

Detailed Description

The utility model is described in further detail below with reference to the attached drawings and embodiments:

the specific implementation process is as follows:

referring to fig. 1-4, in general, the existing auxiliary device for die-casting mold of automobile is required to be lifted and moved slowly and easily to be misplaced when the die-casting mold is replaced, and this way brings great inconvenience to the user and has a certain potential safety hazard, so a novel auxiliary device for die-casting mold of automobile is required: including ground platform 1, be equipped with on the ground platform 1 and be used for gliding slip subassembly 2, the top sliding connection of slip subassembly 2 has main fixed platform 3, be equipped with the drive assembly 4 that is used for transmitting power in the main fixed platform 3, the top of drive assembly 4 is equipped with the auxiliary placement subassembly 5 that is used for assisting the placement die casting die, the slip subassembly 2 makes the operation more convenient with the design of auxiliary placement subassembly 5, operating personnel's working strength has been reduced and the risk has been reduced to a certain extent, the one end of drive assembly 4 is equipped with the fixed subassembly 6 that is used for fixing, the inside centre of main fixed platform 3 is equipped with the synchronous transmission subassembly 7 that is used for simultaneously transmitting power, the transmission subassembly 4 and the effect of synchronous transmission subassembly 7 can ensure the transmission and the harmony of power, the accuracy of adjustment has been improved, the below of ground platform 1 is equipped with the supporting component 8 that is used for supporting overall structure, the stability of ground platform 1 and supporting component 8 can be increased overall structure, vibration and warp, stable structure and accurate position adjustment can guarantee the precision and the uniformity of product, the design of above-mentioned structure makes overall structure have stability, convenience and high efficiency and high-efficient and can satisfy the product demand of industrial production.

The sliding assembly 2 comprises the sliding rails 201 which are fixed on two sides of the foundation platform 1 and used for guiding the sliding direction, the sliding blocks 202 are connected to the sliding rails 201 in a sliding manner, and the sliding rails 201 and the sliding blocks 202 are matched with each other, so that the whole structure can perform stable sliding motion on the platform, friction and resistance are reduced, smoothness of operation is improved, the sliding blocks 202 can be ensured to slide on the correct rails due to the guiding effect of the sliding rails 201, accurate positioning and position adjustment are achieved, friction and abrasion between structural components can be reduced due to the design of the sliding assembly 2, the service life is prolonged, the maintenance cost is reduced, and the whole structure has the characteristics of stable sliding, accurate positioning and efficient operation due to the design of the sliding assembly 2, so that the working efficiency and the service life are improved, and the sliding assembly is suitable for various scenes requiring sliding operation.

The transmission assembly 4 comprises a sliding groove 401, the sliding groove 401 is connected with a sliding block 402 in a sliding manner, a rotary screw 403 for transmitting sliding power is connected in the sliding block 402 in a threaded manner, the sliding of the sliding block 402 is controlled by rotating the rotary screw 403, the sliding of the sliding block 402 is controlled by transmitting power through the rotary screw 403, thus the accurate control and positioning of the structure can be realized, the operation is simple and convenient, an operator can adjust the position of the sliding block 402 through the rotary screw 403, the required operation target is realized, the structure can enable the operator to finish the operation task more quickly and accurately, thereby the production efficiency is improved, the sliding and positioning of the structure can be realized quickly through the adjustment of the rotary screw 403, the operation time is saved, a gear 404 for transmitting power is arranged at the front end of the rotary screw 403, a rotating shaft 405 for reducing the friction force is arranged at one side of the gear 404, the rotating shaft 405 is sleeved with a fixed rectangular block 406 for preventing the displacement of the rotary screw 403, the fixed rectangular block 406 is fixed in the sliding groove 401, and the effect of the structure design is that the operation convenience is improved, the production efficiency is improved, the product quality is improved, and the stability of the structure is improved.

The auxiliary placement component 5 comprises an auxiliary placement inclined plate 501 which is fixed on the sliding square 402 and used for assisting in positioning of a die-casting die, the auxiliary placement inclined plate 501 is in a horn shape, the auxiliary placement inclined plate 501 is fixed on the sliding square 402, the positioning of the die-casting die is assisted by the sliding of the sliding square 402, the horn-shaped design of the auxiliary placement inclined plate 501 can facilitate the die-casting die to slide into a fixed position, accurate positioning is ensured, the horn-shaped inclined plate shape can ensure the accurate positioning of the die in the sliding process, offset and dislocation are avoided, the positioning precision and consistency are improved, the auxiliary placement inclined plate 501 is designed to enable the placement of the die-casting die to be more convenient and quick, the auxiliary placement inclined plate 501 can slide along with the sliding square 402 through the sliding of the sliding square 402, the sliding of the sliding square 402 can drive the auxiliary placement inclined plate 501 to slide along with the sliding square 402, the auxiliary placement inclined plate 501 can be rapidly and accurately placed into the fixed position through the positioning auxiliary placement inclined plate 501, the operation time is saved, and the production efficiency is improved.

The fixing assembly 6 includes a bearing 601 for reducing friction force at the rear end of the rotary screw 403, a fixing block 602 for fixing the rotary screw 403 without displacement is sleeved outside the bearing 601, and the friction force between the rotary screw 403 and the fixing block 602 can be reduced by installing the bearing 601, so that the operating force requirement is reduced, the operating smoothness is improved, the fixing block 602 is fixed in the sliding groove 401 on the main fixing platform 3, the rotary screw 403 is ensured not to displace, the stable position of the rotary screw 403 is maintained, the stability and the reliability of the structure are ensured, and by reducing the friction force and stabilizing the rotary screw 403, the structure can provide a smoother and stable operating environment, and an operator can perform accurate operation more easily.

The synchronous transmission assembly 7 comprises a fluted disc 701 meshed with a gear 404, a short cylinder 702 is arranged in the middle of the fluted disc 701, a belt pulley 703 for transmitting power is arranged below the short cylinder 702, the belt pulley 703 can be connected with power equipment through a belt to realize rotation of the fluted disc 701, the power equipment can directly use a die-casting motor to save certain cost, the fluted disc 701 rotates and drives the gear 404 to rotate, the gear 404 drives a rotary screw 403 to rotate, the rotary screw 403 rotates and enables a sliding block 402 to slide, the synchronous transmission enables the sliding block 402 to accurately position, accurate operation and positioning requirements are realized, the power can be transmitted to the fluted disc 701 through connection of the belt pulley 703 and the belt with the power equipment, rotation of the fluted disc 701 is realized, and thus, rotation of the fluted disc 701 can be transmitted to each gear 404, the rotary screw 403 and the sliding block 402 to realize synchronous movement of the fluted disc 701, and the auxiliary placement of the inclined plate 501 can shrink towards the middle or be scattered towards the periphery.

The supporting component 8 comprises supporting legs 801 which are supported below the foundation platform 1 and used for supporting the whole weight, the supporting legs 801 bear the weight of the whole structure, the stability of the structure is ensured by transmitting the weight to the foundation platform 1 and the ground, leg pads 802 used for increasing the contact area with the ground are arranged below the supporting legs 801, the supporting legs are helpful for reducing the bearing pressure of the foundation platform 1 and the ground, overlarge pressure concentration of the foundation and the ground caused by the structure is prevented, the risk of foundation settlement is reduced, the stable support and balance of the structure can be provided by the design of the supporting component 8, the safety and the earthquake resistance of the structure are improved, and stable operation of the structure in the use process is ensured.

The working principle of the fitting is as follows:

firstly, the stability and integrity of the foundation platform 1 and the support assembly 8 are ensured, and the running state of the sliding assembly 2, the transmission assembly 4, the auxiliary placement assembly 5 and the fixing assembly 6 is checked. An operator is connected with the power equipment through the belt pulley 703 and the belt, and power can be transmitted to the fluted disc 701, so that the fluted disc 701 can rotate. In this way, the rotation of the toothed disc 701 can be transmitted to the respective gears 404, the rotary screw 403 and the sliding block 402, achieving their synchronous movement. By adjusting the rotary screw 403, an operator can quickly achieve sliding and positioning of the structure. The sliding of the sliding block 402 will drive the auxiliary placing inclined plate 501 to slide together, and after positioning the auxiliary placing inclined plate 501 to a certain position, the operator uses the auxiliary placing inclined plate 501 to place the die casting mold on the main fixing platform 3. The trumpet-like design of the auxiliary placement swash plate 501 can facilitate the sliding in of the mold and ensure accurate positioning. After the operation is completed, the power transmission is stopped, and the structure is fixed at a desired position. The stable support and balance of the support component 8 are ensured, and the stability and safety of the whole equipment are ensured.

The foregoing is merely exemplary of the present utility model, and specific technical solutions and/or features that are well known in the art have not been described in detail herein. It should be noted that, for those skilled in the art, several variations and modifications can be made without departing from the technical solution of the present utility model, and these should also be regarded as the protection scope of the present utility model, which does not affect the effect of the implementation of the present utility model and the practical applicability of the patent. The protection scope of the present application shall be subject to the content of the claims, and the description of the specific embodiments and the like in the specification can be used for explaining the content of the claims.

Claims (7)

1. A compound die auxiliary device for car die casting die, its characterized in that: including ground platform (1), be equipped with on ground platform (1) and be used for gliding slip subassembly (2), the top sliding connection of slip subassembly (2) has main fixed platform (3), be equipped with in main fixed platform (3) and be used for transmitting power transmission subassembly (4), the top of transmission subassembly (4) is equipped with the supplementary subassembly (5) of placing that are used for assisting the die casting die, and the one end of transmission subassembly (4) is equipped with fixed subassembly (6) that are used for fixing, the inside centre of main fixed platform (3) is equipped with synchronous transmission subassembly (7) that are used for transmitting power simultaneously, the below of ground platform (1) is equipped with supporting component (8) that are used for supporting overall structure.

2. The mold clamping assisting device for an automobile die casting mold according to claim 1, characterized in that: the sliding assembly (2) comprises sliding rails (201) which are fixed on two sides of the foundation platform (1) and used for guiding the sliding direction, and sliding blocks (202) used for sliding are connected to the sliding rails (201) in a sliding mode.

3. The mold clamping assisting device for an automobile die casting mold according to claim 1, characterized in that: the transmission assembly (4) comprises a sliding groove (401), a sliding square block (402) is connected in the sliding groove (401) in a sliding mode, a rotary screw (403) used for transmitting sliding power is connected in the sliding square block (402) in a threaded mode, sliding of the sliding square block (402) is controlled through rotating the rotary screw (403), a gear (404) used for transmitting power is arranged at the front end of the rotary screw (403), a rotating shaft (405) used for reducing friction force is arranged at one side of the gear (404) at the front end of the rotary screw (403), a fixed rectangular block (406) used for preventing the rotary screw (403) from being displaced is sleeved outside the rotating shaft (405), and the fixed rectangular block (406) is fixed in the sliding groove (401).

4. A mold clamping assisting device for an automobile die casting mold according to claim 2, characterized in that: the auxiliary placement assembly (5) comprises an auxiliary placement inclined plate (501) fixed on the sliding square block (402) and used for assisting in positioning of the die-casting die, the auxiliary placement inclined plate (501) is in a horn shape, the die-casting die is convenient to slide into a fixed position, and the sliding of the sliding square block (402) drives the auxiliary placement inclined plate (501) to slide together.

5. The mold clamping assisting device for an automobile die casting mold according to claim 4, wherein: the fixing assembly (6) comprises a bearing (601) at the rear end of the rotary screw rod (403) for reducing friction force, a fixing square block (602) for fixing the rotary screw rod (403) without displacement is sleeved outside the bearing (601), and the fixing square block (602) is fixed in a sliding groove (401) on the main fixing platform (3).

6. The mold clamping assisting device for an automobile die casting mold according to claim 1, characterized in that: synchronous transmission subassembly (7) including installing fluted disc (701) in the middle of main fixed platform (3) with gear (404) meshing, the centre of fluted disc (701) is equipped with short cylinder (702), belt pulley (703) that are used for transmitting power are installed to the below of short cylinder (702), belt pulley (703) accessible belt is connected with power equipment and is realized the rotation of fluted disc (701), and gear (404) are rotated in the drive of fluted disc (701) pivoted, and gear (404) drive rotatory lead screw (403) rotate, make sliding block (402) slide in the pivoted of rotatory lead screw (403).

7. The mold clamping assisting device for an automobile die casting mold according to claim 1, characterized in that: the support assembly (8) comprises support legs (801) which are supported below the foundation platform (1) and used for supporting the whole weight, and leg pads (802) used for increasing the contact area with the ground are arranged below the support legs (801).