CN219256105U - Deformation absorption platform of internal mixer - Google Patents

Abstract

The utility model belongs to the technical field of internal mixer equipment, and relates to an internal mixer deformation absorption platform, which comprises a linear bearing mounting plate, wherein the bottom of the linear bearing mounting plate is fixedly connected with a cushion block through a plurality of connecting shafts, the cushion block is fixed on an equipment support, a shock pad is arranged on the periphery of the connecting shaft between the cushion block and the linear bearing mounting plate, and the top of the linear bearing mounting plate is fixedly connected with the bottom of an extruder through a bearing mounting structure. The utility model avoids the slight deformation of the equipment bracket caused by moving the extruder, so that the extruder can move flexibly, and the working efficiency of the equipment is improved.

Description

Deformation absorption platform of internal mixer

Technical Field

The utility model relates to a deformation absorption platform of an internal mixer, and belongs to the technical field of internal mixer equipment.

Background

The internal mixer is one of the devices commonly used in the production and processing processes of enterprises and factories, the extruder of the existing internal mixer is generally directly arranged on the equipment support through the linear bearings and the linear guide rails, the extruder is relatively heavy, the equipment support is often slightly deformed to influence the cooperation between the linear bearings and the linear guide rails, the extruder cannot move or is difficult to move, the working efficiency of equipment is reduced, the integral strength of the equipment support can be enhanced, and the problem of deformation of the equipment support can be solved, but the cost is increased.

Disclosure of Invention

The utility model aims to solve the technical problems that: the deformation absorption platform for the internal mixer is capable of absorbing deformation force of the equipment support caused by moving the extruder, so that the extruder is prevented from moving difficultly or cannot move, and the working efficiency of the equipment is improved.

The deformation absorbing platform of the internal mixer comprises a linear bearing mounting plate, wherein the bottom of the linear bearing mounting plate is fixedly connected with a cushion block through a plurality of connecting shafts, the cushion block is fixed on an equipment bracket, a shock pad is arranged on the periphery of the connecting shaft between the cushion block and the linear bearing mounting plate, and the top of the linear bearing mounting plate is fixedly connected with the bottom of an extruder through a bearing mounting structure.

When the device is used, under the action of the bearing mounting structure, when the extruder moves, the extruder moves to generate force causing deformation of the device bracket due to the weight of the extruder, the plurality of connecting shafts can share the force causing deformation of the device bracket due to the elasticity of the shock pad and the supporting force of the plurality of connecting shafts, and meanwhile, the shock pad can absorb the force causing deformation of the device bracket, so that the force causing deformation of the device bracket is prevented from being transmitted to the linear bearing mounting plate to cause deformation of the linear bearing mounting plate, the extruder can normally move under the action of the bearing mounting structure, the integral strength of the device bracket is not required to be enhanced, and the cost is reduced.

Preferably, the bearing mounting structure comprises a plurality of linear guide rail mounting seats, the bottoms of the linear guide rail mounting seats are fixed on a linear bearing mounting plate, the linear guide rail is mounted in the linear guide rail mounting seats, the linear guide rail and the linear bearing are matched for use, the top of the linear bearing is fixed on a connecting plate, an extruder mounting seat is fixedly arranged on the upper surface of the connecting plate, and an extruder is fixedly arranged at the top of the extruder mounting seat. The quantity of the linear guide mounting seats is 4, and 4 linear guide mounting seats are respectively and correspondingly arranged on the linear bearing mounting plates in pairs from front to back, linear guide is arranged in the two linear guide mounting seats corresponding to the front and back, and 2 linear bearings are respectively arranged on 1 linear guide, so that the extruder moves more stably under the matching action of the linear bearings and the linear guide.

Preferably, the shock pad adopts the polyurethane shock pad, and elasticity is good, and shock attenuation buffering effect is good, when removing the extruder, the shock pad can be fine absorption make the equipment support take place the slightly deformed force, avoids making the equipment support deformed force conduction to the linear bearing mounting panel and arouses the linear bearing mounting panel deformation, makes the extruder remove in a flexible way.

Preferably, the connecting shaft adopts a screw, two ends of the screw are respectively in threaded connection with the cushion block and the linear bearing mounting plate, the connecting mode is simple, the screw can share and absorb the force which enables the equipment support to deform, the force which enables the equipment support to deform is prevented from being conducted to the linear bearing mounting plate to cause the linear bearing mounting plate to deform, and the extruder can normally move.

Preferably, the quantity of the connecting shafts is 4,4 connecting shafts are correspondingly connected with the bottoms of the linear bearing mounting plates in pairs from front to back respectively, the bottoms of the connecting shafts are fixedly connected with the equipment support through cushion blocks, when the extruder moves to cause deformation of the equipment support, the 4 connecting shafts can better distribute the force for causing deformation of the equipment support, and the force for causing deformation of the equipment support is prevented from being transmitted to the linear bearing mounting plates to cause deformation of the linear bearing mounting plates.

Preferably, the cushion block is fixedly connected with the equipment support through a plurality of bolts.

Compared with the prior art, the utility model has the following beneficial effects:

the utility model has reasonable structural design, when the extruder moves, the extruder moves to generate force which causes deformation of the equipment bracket, the plurality of connecting shafts can share the force which causes deformation of the equipment bracket due to the elasticity of the shock pad and the supporting force of the plurality of connecting shafts, and meanwhile, the shock pad can absorb the force which causes deformation of the equipment bracket, so that the force which causes deformation of the equipment bracket is prevented from being transmitted to the linear bearing mounting plate to cause deformation of the linear bearing mounting plate, and therefore, the extruder can normally move under the action of the bearing mounting structure, the integral strength of the equipment bracket is not required to be enhanced, and the cost is reduced.

Drawings

FIG. 1 is a schematic diagram of a deformation absorption platform structure of an internal mixer;

fig. 2 is a schematic diagram II of a deformation absorption platform structure of the internal mixer.

In the figure: 1. an extruder mounting seat; 2. a linear bearing; 3. an extruder; 4. a connecting plate; 5. a linear guide rail; 6. a linear bearing mounting plate; 7. a linear guide rail mounting seat; 8. a shock pad; 9. an equipment rack; 10. and (5) cushion blocks.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

referring to fig. 1 and 2, the deformation absorbing platform of the internal mixer provided by the utility model comprises a linear bearing mounting plate 6, wherein the bottom of the linear bearing mounting plate 6 is fixedly connected with a cushion block 10 through a plurality of connecting shafts, the cushion block 10 is fixed on an equipment bracket 9, a shock pad 8 is arranged on the periphery of the connecting shaft between the cushion block 10 and the linear bearing mounting plate 6, and the top of the linear bearing mounting plate 6 is fixedly connected with the bottom of an extruder 3 through a bearing mounting structure.

In this embodiment:

the bearing mounting structure comprises a plurality of linear guide mounting seats 7, the bottoms of the linear guide mounting seats 7 are fixed on a linear bearing mounting plate 6, linear guide 5 is mounted in the linear guide mounting seats 7, the linear guide 5 and the linear bearing 2 are matched for use, the tops of the linear bearings 2 are fixed on a connecting plate 4, an extruder mounting seat 1 is fixedly arranged on the upper surface of the connecting plate 4, and an extruder 3 is fixedly arranged at the top of the extruder mounting seat 1. The number of the linear guide mounting seats 7 is 4, the 4 linear guide mounting seats 7 are respectively and correspondingly arranged on the linear bearing mounting plates 6 in a front-back mode, the linear guide 5 is arranged in the two linear guide mounting seats 7 which are respectively and correspondingly arranged in the front-back mode, and 2 linear bearings 2 are respectively arranged on the 1 linear guide 5, so that the extruder 3 moves more stably under the matching action of the linear bearings 2 and the linear guide 5.

The shock pad 8 adopts the polyurethane shock pad, and elasticity is good, and shock attenuation buffering is effectual, when removing extruder 3, the shock pad 8 absorption that can be fine makes equipment support 9 take place the slightly deformed force, avoids making the force conduction that equipment support 9 warp to the linear bearing mounting panel 6 arouse the linear bearing mounting panel 6 and warp, makes extruder 3 remove in a flexible way.

The connecting shaft adopts the screw rod, and the screw rod both ends respectively with cushion 10 and linear bearing mounting panel 6 threaded connection, connected mode is simple, and the screw rod can share and absorb the power that makes equipment support 9 warp, avoids making the power conduction that equipment support 9 warp to linear bearing mounting panel 6 arouse linear bearing mounting panel 6 and warp, makes extruder 3 can normally remove.

The quantity of connecting shafts is 4,4 connecting shafts respectively correspond to the bottom of the linear bearing mounting plate 6 in pairs from front to back, and the bottom of the connecting shafts is fixedly connected with the equipment support 9 through the cushion block 10, when the extruder 3 moves to cause the deformation of the equipment support 9, the 4 connecting shafts can better distribute the force for causing the deformation of the equipment support 9, and the force for causing the deformation of the equipment support 9 is prevented from being transmitted to the linear bearing mounting plate 6 to cause the deformation of the linear bearing mounting plate 6.

The cushion block 10 is fixedly connected with the equipment bracket 9 through a plurality of bolts.

In the concrete working process, under the cooperation of the linear bearing 2 and the linear guide rail 5, the linear bearing 2 drives the extruder 3 to move along the linear guide rail 5 through the connecting plate 4 and the extruder mounting seat 1, the extruder 3 moves to generate force for causing the deformation of the equipment support 9, the plurality of connecting shafts can share the force for causing the deformation of the equipment support 9 due to the elasticity of the shock pad 8 and the supporting force of the plurality of connecting shafts, and meanwhile, the shock pad 8 can absorb the force for causing the deformation of the equipment support 9, so that the force for causing the deformation of the equipment support 9 is prevented from being transmitted to the linear bearing mounting plate 6 to cause the deformation of the linear bearing mounting plate 6, the extruder 3 can normally move, the integral strength of the equipment support 9 is not required to be enhanced, and the cost is reduced.

Claims (6)

1. An internal mixer deformation absorbing platform which is characterized in that: including linear bearing mounting panel (6), linear bearing mounting panel (6) bottom is through several connecting axle and cushion (10) fixed connection, and on equipment support (9) was fixed to cushion (10), connecting axle periphery between cushion (10) and linear bearing mounting panel (6) was equipped with shock pad (8), and the top of linear bearing mounting panel (6) is through bearing mounting structure and extruder (3) bottom fixed connection.

2. The internal mixer deformation absorbing platform of claim 1, wherein: the bearing mounting structure comprises a plurality of linear guide mounting seats (7), the bottoms of the linear guide mounting seats (7) are fixed on a linear bearing mounting plate (6), the linear guide (5) is mounted in the linear guide mounting seats (7), the linear guide (5) and the linear bearing (2) are matched for use, the top of the linear bearing (2) is fixed on a connecting plate (4), an extruder mounting seat (1) is fixedly arranged on the upper surface of the connecting plate (4), and an extruder (3) is fixedly arranged at the top of the extruder mounting seat (1).

3. The internal mixer deformation absorbing platform of claim 1, wherein: the shock pad (8) adopts a polyurethane shock pad.

4. The internal mixer deformation absorbing platform of claim 1, wherein: the connecting shaft adopts a screw, and two ends of the screw are respectively in threaded connection with the cushion block (10) and the linear bearing mounting plate (6).

5. The internal mixer deformation absorbing platform according to claim 1 or 4, characterized in that: the number of connecting shafts is 4.

6. The internal mixer deformation absorbing platform according to any one of claims 1-4, wherein: the cushion block (10) is fixedly connected with the equipment bracket (9) through a plurality of bolts.

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