CN220885656U - Ball cage cooling stack frame of standing - Google Patents

Abstract

The utility model discloses a ball cage standing cooling stacking frame, which comprises a stacking frame, wherein a material receiving opening of the stacking frame corresponds to a material conveying opening of a ball cage forging device, and further comprises: a carriage provided on the stacker; the sliding frame comprises a straight sliding part and a bent sliding part connected with the straight sliding part. According to the ball cage standing cooling stacking frame provided by the utility model, the ball cage firstly moves on the straight sliding part, the protruding parts at the bottom of the ball cage are positioned in the limiting grooves, and the inner walls at the two sides of the straight sliding part are matched with the limiting grooves to limit the ball cage, so that the stability of the ball cage in sliding is improved, the ball cage can slide continuously until the ball cage enters the bent sliding part to the bottom, the ball cage positioned in the bent sliding part is placed on the slideway, the ball cage is weakened or even avoided in the standing cooling process, the ball cage is stacked in the stacking box, and the temperature among the ball cages positioned in the stacking box is superposed, so that the standing cooling effect is poor, the standing cooling efficiency is reduced, and the next procedure of the ball cage is delayed.

Description

Ball cage cooling stack frame of standing

Technical Field

The utility model relates to the technical field of ball cages, in particular to a ball cage standing cooling stacking frame.

Background

As is known, an automotive ball cage is generally composed of a bell-shaped housing, a dust cover, liang Juan, grease, tripod bearings and the like, and secondly, an inner ball cage and an outer ball cage of the automotive ball cage are also called as 'constant velocity universal joints', and are important components in a car transmission system, and the function of the automobile ball cage is to transmit power of an engine from a transmission to two front wheels so as to drive a car to run at a high speed.

In the working procedure of the ball cage processing, the ball cage is transported into a stacking box from a conveyer belt after forging, and after the ball cage is kept stand and cooled to a preset temperature, the ball cage stacked in the stacking box is normalized and added.

After the ball cage is forged, the ball cage is piled up in the stacking box in the standing cooling process, and the temperature between the ball cages in the stacking box is superposed, so that the standing cooling effect is poor, the standing cooling efficiency is reduced, the next procedure of the ball cage is delayed, and the processing time of the ball cage is prolonged.

Disclosure of utility model

In view of the foregoing problems of the prior art, an aspect of the present utility model is to provide a cage standing cooling stacking rack, so as to solve the foregoing disadvantages of the prior art.

In order to achieve the above purpose, the utility model provides a ball cage standing cooling stacking rack, which comprises a stacking rack, wherein a material receiving opening of the stacking rack corresponds to a material conveying opening of a ball cage forging device, and the ball cage standing cooling stacking rack further comprises: a carriage provided on the stacker frame; the sliding frame comprises a straight sliding part and a bent sliding part connected with the straight sliding part, and a limit groove matched with the ball cage is formed in the straight sliding part and the bent sliding part in a communicating mode.

Preferably, the straight sliding part is provided with a first sliding groove which is used for being matched with the ball cage.

Preferably, the first chute is provided with a plurality of placement grooves along the length direction of the straight sliding part.

Preferably, each of the placement grooves has a rectangular structure.

Preferably, rollers matched with the ball cages are arranged in the placing grooves.

Preferably, the stacker further comprises a chassis and a strut connected between the chassis and the carriage.

Preferably, the strut is in particular a round rod structure.

Preferably, the chassis is provided with a limiting part, the limiting part comprises a rectangular block and two protruding parts connected with the rectangular block, and each protruding part is provided with an elastic resetting piece.

Preferably, the elastic reset piece is located in the sliding opening direction of the bent sliding part and is in abutting fit with the ball cage.

Preferably, the elastic reset piece is of an arc-shaped structure as a whole.

In the technical scheme, the ball cage standing cooling stacking frame provided by the utility model has the following beneficial effects: according to the utility model, the forged ball cage is conveyed onto the stacking rack on the conveying belt of the ball cage forging device, the ball cage firstly moves on the straight sliding part, the protruding parts at the bottom of the ball cage are positioned in the limiting grooves, the inner walls at the two sides of the straight sliding part are matched with the limiting grooves to limit the ball cage, so that the stability of the ball cage during sliding is improved, the ball cage can slide into the bent sliding part until the bottom, as shown in the state of fig. 1, the ball cage positioned in the bent sliding part is placed in the slideway, stacking is avoided, weakening or even avoiding that the ball cage is stacked in the stacking box in the standing cooling process, and the temperature between the ball cages positioned in the stacking box is superposed, so that the standing cooling effect is poor, the standing cooling efficiency is reduced, the next procedure of the ball cage is delayed, and the processing time of the ball cage is prolonged.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings required for the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments described in the present utility model, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of a part of the straight sliding part according to the present utility model;

FIG. 3 is a schematic view of the abutting engagement part of the ball cage and the elastic restoring member of the present utility model;

fig. 4 is a schematic view of a partial structure of a limiting groove according to the present utility model.

Reference numerals illustrate:

1. a stacker; 2. a support rod; 3. a carriage; 4. a ball cage; 5. a limit part; 3.1, a straight sliding part; 3.2, a curved sliding part; 3.3, a first chute; 3.4, a second chute; 3.5, placing grooves; 3.6, a roller; 3.7, a limit groove; and 5.1, an elastic resetting piece.

Detailed Description

In order to make the technical scheme of the present utility model better understood by those skilled in the art, the present utility model will be further described in detail with reference to the accompanying drawings.

Referring to fig. 1-4, the cooling stack frame is used for solving the problems that after the ball cage is forged, the ball cage is piled inside a stack box in the cooling process, and the temperature between the ball cages in the stack box is overlapped, so that the cooling effect of standing is poor, the cooling efficiency of standing is reduced, the next process of the ball cage is delayed, and the processing time of the ball cage is prolonged.

According to the technical scheme, the ball cage forging device comprises a stacker 1, wherein a material receiving port of the stacker 1 corresponds to a material conveying port of the ball cage forging device, and the ball cage forging device further comprises: a carriage 3 provided on the stacker frame 1; the sliding frame 3 comprises a straight sliding part 3.1 and a bent sliding part 3.2 connected with the straight sliding part 3.1, a limit groove 3.7 matched with the ball cage 4 is formed in the straight sliding part 3.1 and the bent sliding part 3.2 in a communicating manner, specifically, the forged ball cage is conveyed to the stacker 1 on a conveying belt of the ball cage forging device, the ball cage 4 moves on the straight sliding part 3.1 first, a protruding part at the bottom of the ball cage 4 is positioned in the limit groove 3.7, the inner walls at two sides of the straight sliding part 3.1 are matched with the limit groove 3.7 to limit the ball cage 4, so that the stability in sliding can be improved, the ball cage can continue to slide into the bent sliding part 3.2 until reaching the bottom, as shown in the state of fig. 1, the ball cage positioned in the bent sliding part 3.2 is placed on a slide way to be subjected to standing cooling, the temperature reduction is weakened or even avoided in the standing cooling process, the temperature between the ball cages positioned in the stacker can be stacked inside the stacker, the effect is poor, the standing cooling effect is reduced, the processing time of the ball cage is prolonged, and the processing procedure of the ball cage is prolonged.

The overall length of the carriage 3 in this embodiment and the slopes of the straight slide 3.1 and the curved slide 3.2 are set according to the needs of the person skilled in the art.

In another embodiment of the present utility model, preferably, the straight sliding portion 3.1 is provided with a first sliding groove 3.3 for matching with the ball cage 4, further, the curved sliding portion 3.2 is provided with a second sliding groove 3.4 which is communicated with the first sliding groove 3.3, and the two sliding grooves are matched with each other so that the ball cage 4 can slide to the bottom of the curved sliding portion 3.2 for placing, standing and cooling.

In still another embodiment of the present utility model, preferably, the first chute 3.3 is provided with a plurality of placement grooves 3.5 along the length direction of the straight sliding portion 3.1, each placement groove 3.5 is specifically in a rectangular structure, each placement groove 3.5 is internally provided with a roller 3.6 matched with the ball cage 4, as shown in the state of fig. 2, further, the roller 3.6 arranged in the straight sliding portion 3.1 is used for enabling the ball cage 4 to slide more smoothly in the part, and simultaneously increasing the speed during sliding, so that the ball cage 4 can enter the bent sliding portion 3.2 more quickly for standing and cooling, and the bent sliding portion 3.2 is not provided with the roller 3.6, so that the ball cage 4 gradually decelerates until being displaced to the bottom or being abutted with the previous ball cage 4 after entering the bent sliding portion 3.2 again, and the ball cage 4 in the gradually decelerating state weakens or even avoids damage caused by collision with the previous ball cage 4.

In still another embodiment of the present utility model, preferably, the stacker crane 1 further includes a chassis and a strut 2 connected between the chassis and the carriage 3, and the strut 2 is specifically a round bar structure, further, as shown in the state of fig. 1, after the chassis and the carriage 3 are connected through the strut 2, stability of the carriage 3 is improved.

In still another embodiment of the present utility model, the chassis is provided with a limiting part 5, the limiting part 5 includes a rectangular block and two protruding parts connected with the rectangular block, each protruding part is provided with an elastic restoring piece 5.1, the elastic restoring piece 5.1 is located in the sliding opening direction of the curved sliding part 3.2, and is in abutting fit with the ball cage 4, the elastic restoring piece 5.1 is in an arc structure as a whole, specifically, as shown in fig. 3, the protruding part is provided with a sliding groove, the elastic restoring piece 5.1 is specifically an elastic piece, secondly, the elastic piece is specifically an arc piece and two straight pieces connected with the arc piece, the two straight pieces are slidably located in the sliding groove, when the ball cage 4 slides down in the curved sliding part 3.2 to abut against the elastic restoring piece 5.1, the two straight pieces move back to back in the sliding groove, namely, the arc piece part of the elastic piece deforms to buffer the impact force brought by the ball cage 4, and the impact force brought by the ball cage 4 is adjusted to a certain degree when the subsequent ball cage 4 collides with the previous ball cage 4, so that collision damage between the ball cages 4 is avoided.

While certain exemplary embodiments of the present utility model have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the utility model, which is defined by the appended claims.

Claims (10)

1. The utility model provides a ball cage cooling stack frame of standing, includes stack frame (1), the receiving mouth of stack frame (1) is corresponding with ball cage forging device's material conveying mouth, its characterized in that still includes:

A carriage (3) provided on the stacker frame (1);

The sliding frame (3) comprises a straight sliding part (3.1) and a bent sliding part (3.2) connected with the straight sliding part (3.1), and a limit groove (3.7) matched with the ball cage (4) is formed in the communication of the straight sliding part (3.1) and the bent sliding part (3.2).

2. The ball cage standing cooling stacking frame according to claim 1, wherein the straight sliding part (3.1) is provided with a first sliding groove (3.3) which is used for being matched with the ball cage (4).

3. The ball cage standing cooling stacker according to claim 2, wherein the first chute (3.3) is provided with a plurality of placement grooves (3.5) along the length direction of the straight sliding portion (3.1).

4. A cage rest cooling stacker according to claim 3 wherein each of said placement slots (3.5) is embodied as a rectangular structure.

5. A cage resting and cooling stacker according to claim 3, wherein a roller (3.6) cooperating with the cage (4) is provided in each of the placement grooves (3.5).

6. The ball cage resting and cooling stack according to claim 1, characterized in that the stack (1) further comprises a chassis and struts (2) connected between the chassis and the carriage (3).

7. The ball cage standing cooling stacker of claim 6 wherein said strut (2) is specifically a round bar structure.

8. The ball cage standing cooling stacking frame according to claim 6, wherein a limiting part (5) is arranged on the chassis, the limiting part (5) comprises a rectangular block and two protruding parts connected with the rectangular block, and an elastic reset piece (5.1) is arranged on each protruding part.

9. The ball cage standing cooling stacker according to claim 8, wherein the elastic reset member (5.1) is located in a sliding port direction of the bent sliding portion (3.2), and is in abutting fit with the ball cage (4).

10. The ball cage resting and cooling stacker of claim 8 wherein said elastic return member (5.1) is of an arcuate configuration as a whole.