CN216126333U - Dislocation-preventing aluminum profile extrusion die - Google Patents

Abstract

The utility model discloses a dislocation-preventing aluminum profile extrusion die which comprises a connecting frame, a driving assembly and a limiting assembly, wherein the driving assembly and the limiting assembly are positioned on the connecting frame; the device comprises a clamping arm, at least one group of dislocation preventing assemblies and at least one group of dislocation preventing assemblies, wherein each dislocation preventing assembly comprises a transmission plate, a clamping arm positioned on the transmission plate and an adsorption device arranged on the clamping arm; the clamping arm is also provided with a limiting groove; the anti-dislocation assembly is connected with the driving assembly. This device is through adsorption equipment and the spacing groove that sets up, and then can avoid extrusion die position to take place the skew, guarantees that the product of producing accords with established standard.

Description

Dislocation-preventing aluminum profile extrusion die

Technical Field

The utility model belongs to the technical field of workpiece processing, and particularly relates to a dislocation-preventing aluminum profile extrusion die.

Background

With the increasing degree of automation in China, the extrusion device is widely applied to process workpieces into given specifications

However, there are some problems in the operation of the existing extrusion die, in order to ensure the smooth operation of the extrusion, the position of the extrusion die needs to be adjusted and checked, and it is ensured that the aluminum material at the extrusion position can meet the established standard.

Therefore, how to avoid the dislocation of the mold is a problem to be solved at present.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model provides a dislocation prevention aluminium alloy extrusion die to solve the above-mentioned problem that prior art exists.

The technical scheme is as follows: the utility model provides a dislocation prevention aluminium alloy extrusion die, includes:

the connecting frame is positioned on the driving assembly and the limiting assembly on the connecting frame;

the device is characterized by further comprising at least one group of dislocation preventing assemblies, wherein each dislocation preventing assembly comprises a transmission plate, a clamping arm positioned on the transmission plate, and an adsorption device arranged on the clamping arm;

the clamping arm is also provided with a limiting groove;

the anti-dislocation assembly is connected with the driving assembly;

at least when the extrusion die is in a working state, the clamping arm and the adsorption device work in a matched mode, and then the adsorption work of the extrusion device can be completed, and the extrusion die is prevented from deviating from a set installation area.

In a further embodiment, the transmission plate is further provided with a transmission rack meshed with the driving assembly; ensuring smooth transmission work.

In a further embodiment, the connecting frame is further provided with a group of adjusting slide rails and two groups of adjusting slide blocks connected with the adjusting slide rails in a sliding manner;

the adjusting slide block is positioned on the transmission plate; the purpose of protecting the device is achieved.

In a further embodiment, the driving assembly comprises a driving motor positioned on the connecting frame, a driving rack arranged at the output end of the driving motor, and a driving gear meshed with the driving rack; the device is driven to work, and smooth operation of the device is guaranteed.

In a further embodiment, the driving assembly further comprises a transmission piece arranged on the driving gear, and a driven gear sleeved on the transmission piece;

the driven gear is meshed with the transmission rack; the position of the extrusion die is prevented from deviating due to excessive vibration or excessive pressure of the clamp.

In a further embodiment, the limiting assembly comprises a limiting seat positioned on the connecting frame, a supporting rod arranged on the limiting seat, and a damping block positioned at one end of the supporting rod;

at least when the vibration damper is in a working state, the vibration damper is abutted against one end of the driving rack; the driving rack is always meshed with the driving gear, and smooth operation of the device is guaranteed.

Has the advantages that: the utility model relates to a dislocation prevention aluminum profile extrusion die, which is characterized in that in order to avoid dislocation of the die, a dislocation prevention assembly is arranged in the device, when an operator needs to perform production work, a driving assembly can drive a transmission rack to start working, the moving transmission rack can drive a transmission plate to start working, the moving transmission plate can drive a clamping arm to start moving, the extrusion device is abutted against the clamping arm, two protruding ends on the extrusion device are positioned in limiting grooves on the clamping arm, then an adsorption device starts moving, and the working adsorption device can adsorb and clamp the extrusion device, so that the displacement of the extrusion die can be avoided, and the produced product is ensured to meet the established standard.

Drawings

Fig. 1 is a perspective view of the present invention.

FIG. 2 is a schematic view of a driving assembly according to the present invention.

FIG. 3 is a schematic view of the anti-dislocation assembly of the present invention.

The figures are numbered: the device comprises a connecting frame 1, a driving component 2, a driving motor 21, a driving rack 22, a driving gear 23, a transmission piece 24, a driven gear 25, a limiting component 3, a limiting seat 31, a supporting rod 32, a damping block 33, an anti-dislocation component 4, a transmission plate 41, a clamping arm 42, an adsorption device 43, a transmission rack 44, an adjusting slide rail 45 and an adjusting slide block 46.

Detailed Description

Through research and analysis of the applicant, the reason for the problem (the extrusion die deviates from the set position, so that the extruded workpiece does not conform to the set standard, and further causes waste of raw materials) is that the existing extrusion die still has some problems during working, and in order to ensure smooth extrusion work, the position of the extrusion die needs to be adjusted and checked, and further ensures that the aluminum material at the extrusion position can conform to the set standard, but because a large pressure needs to be applied to the extrusion die during the extrusion process, and further causes the extrusion die to deviate from the set position, so that the extruded workpiece does not conform to the set standard, and further causes waste of raw materials. This device avoids the mould to take place the dislocation, and then be equipped with the anti-dislocation subassembly in this device, and then when operating personnel need carry out production work, drive assembly can drive the driving rack this moment and begin work, and then the driving rack of motion can drive the driving plate and begin work, and then the motion driving plate can drive the centre gripping arm and begin motion, and then make extrusion device and centre gripping arm butt, two protruding ends on the extrusion device this moment are arranged in the spacing groove on the centre gripping arm, then adsorption equipment begins motion, and then the adsorption equipment of work can adsorb and centre gripping work to the extrusion device, and then can avoid extrusion mould position to take place the skew, guarantee that the product of producing accords with established standard.

The utility model provides a dislocation prevention aluminium alloy extrusion die, includes: the device comprises a connecting frame 1, a driving component 2, a driving motor 21, a driving rack 22, a driving gear 23, a transmission piece 24, a driven gear 25, a limiting component 3, a limiting seat 31, a supporting rod 32, a damping block 33, an anti-dislocation component 4, a transmission plate 41, a clamping arm 42, an adsorption device 43, a transmission rack 44, an adjusting slide rail 45 and an adjusting slide block 46.

In a further embodiment, the device requires a large pressure to be applied to the extrusion die during the processing, which may cause the extrusion die to shift from a predetermined position, so that the extruded workpiece does not meet a predetermined standard, thereby causing waste of raw materials.

In order to solve the problems, the device comprises a connecting frame 1, a driving assembly 2 and a limiting assembly 3, wherein the driving assembly 2 and the limiting assembly 3 are positioned on the connecting frame 1; the anti-dislocation device comprises at least one group of anti-dislocation components 4, wherein each anti-dislocation component 4 comprises a transmission plate 41, a clamping arm 42 positioned on the transmission plate 41, and an adsorption device 43 arranged on the clamping arm 42; a limiting groove is further formed in the clamping arm 42; the anti-dislocation component 4 is connected with the driving component 2; the transmission plate 41 is also provided with a transmission rack 44 meshed with the driving assembly 2; the connecting frame 1 is also provided with a group of adjusting slide rails 45 and two groups of adjusting slide blocks 46 which are connected with the adjusting slide rails 45 in a sliding manner; the adjusting slide block 46 is positioned on the transmission plate 41; when operating personnel need carry out the production work, drive assembly 2 can drive rack 44 and begin work this moment, and then the drive rack 44 of motion can drive driving plate 41 and begin work, and then movement driving plate 41 can drive centre gripping arm 42 and begin to move, and then make extrusion device and centre gripping arm 42 butt, two protruding ends on the extrusion device this moment are arranged in the spacing groove on the centre gripping arm 42, then adsorption equipment 43 begins to move, and then adsorption equipment 43 of work can adsorb and centre gripping work extrusion device, and then can avoid extrusion die position to take place the skew, the product of guaranteeing to produce accords with established standard.

Drive assembly 2 is including being located driving motor 21 on the link 1 sets up the drive rack 22 of driving motor 21 output, and with the drive gear 23 of drive rack 22 meshing, when needs carry out production work, driving motor 21 begins work, and the driving motor 21 of motion drives drive rack 22 and begins work, and the drive rack 22 of motion drives drive gear 23 and begins to rotate, and then accomplishes the drive work to the device, guarantees the smooth operation of work.

The driving assembly 2 further comprises a transmission piece 24 arranged on the driving gear 23, and a driven gear 25 sleeved on the transmission piece 24; the driven gear 25 is meshed with the transmission rack 44, when the driving gear 23 starts to rotate, the moving driving gear 23 can drive the transmission piece 24 to start to rotate, the working transmission piece 24 can drive the driven gear 25 to start to rotate, the rotating driven gear 25 drives the transmission rack 44 to start to work, and the bulletproof device can be guaranteed to complete clamping work of the extrusion device.

The limiting component 3 comprises a limiting seat 31 positioned on the connecting frame 1, a supporting rod 32 arranged on the limiting seat 31, and a damping block 33 positioned at one end of the supporting rod 32; at least in the working state, the damping block 33 is abutted with one end of the driving rack 22; when the driving motor 21 brings the driving rack 22 to start moving, the limiting component 3 is further arranged to ensure that the driving rack 22 is always meshed with the driving gear 23, so that the driving rack 22 can reciprocate in a predetermined area, the driving rack 22 is always meshed with the driving gear 23, and smooth operation of the device is ensured.

Description of the working principle: when production work is required, the driving motor 21 starts to work, the moving driving motor 21 drives the driving rack 22 to start to work, and the moving driving rack 22 drives the driving gear 23 to start to rotate, so that the driving work of the device is completed, and the smooth operation of the work is ensured; when the driving gear 23 starts to rotate, the moving driving gear 23 can drive the transmission member 24 to start to rotate, the working transmission member 24 can drive the driven gear 25 to start to rotate, and the rotating driven gear 25 drives the transmission rack 44 to start to work, so that the bulletproof device can be ensured to finish the clamping work of the extrusion device; when operating personnel is carrying out production work, drive assembly 2 can drive rack 44 and begin work this moment, and then the drive rack 44 of motion can drive driving plate 41 and begin work, and then movement driving plate 41 can drive centre gripping arm 42 and begin to move, and then make extrusion device and centre gripping arm 42 butt, the protruding end at pressure device both ends is arranged in the spacing groove on the centre gripping arm 42 this moment, then adsorption equipment 43 begins to move, and then adsorption equipment 43 of work can adsorb and centre gripping work extrusion device, and then avoid the mould to take place the dislocation phenomenon, the product of guaranteeing to produce accords with established standard.

As noted above, while the present invention has been shown and described with reference to certain preferred embodiments, it is not to be construed as limited thereto. Various changes in form and detail may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (6)

1. The utility model provides a dislocation prevention aluminium alloy extrusion die, includes:

the connecting frame is positioned on the driving assembly and the limiting assembly on the connecting frame;

the device is characterized by further comprising at least one group of dislocation preventing assemblies, wherein each dislocation preventing assembly comprises a transmission plate, a clamping arm positioned on the transmission plate, and an adsorption device arranged on the clamping arm;

the clamping arm is also provided with a limiting groove;

the anti-dislocation assembly is connected with the driving assembly.

2. The dislocation-preventing aluminum profile extrusion die as claimed in claim 1, is characterized in that: and the transmission plate is also provided with a transmission rack meshed with the driving component.

3. The dislocation-preventing aluminum profile extrusion die as claimed in claim 2, is characterized in that: the connecting frame is also provided with a group of adjusting slide rails and two groups of adjusting slide blocks which are connected with the adjusting slide rails in a sliding manner;

the adjusting slide block is positioned on the transmission plate.

4. The dislocation-preventing aluminum profile extrusion die as claimed in claim 1, is characterized in that: the driving assembly comprises a driving motor, a driving rack and a driving gear, wherein the driving motor is positioned on the connecting frame, the driving rack is arranged at the output end of the driving motor, and the driving gear is meshed with the driving rack.

5. The dislocation-preventing aluminum profile extrusion die as claimed in claim 4, is characterized in that: the driving assembly further comprises a transmission piece arranged on the driving gear and a driven gear sleeved on the transmission piece;

the driven gear is meshed with the transmission rack.

6. The dislocation-preventing aluminum profile extrusion die as claimed in claim 1, is characterized in that: the limiting assembly comprises a limiting seat positioned on the connecting frame, a supporting rod arranged on the limiting seat and a damping block positioned at one end of the supporting rod;

at least when the vibration damper is in a working state, the vibration damper is abutted against one end of the driving rack.

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