CN211134187U - Bearing end cover mounting structure for shredder convenient to disassemble - Google Patents

Abstract

The utility model relates to a bearing cap mounting structure for shredder convenient to dismantle, including bearing cap body and activity post, the left end of bearing cap body is provided with the bearing frame, the activity post passes through activity groove and bearing cap body interconnect, and the outer end of activity post is fixed with the connecting plate, the outer end periphery of activity post is provided with the limiting plate, the inner of activity post passes through the draw-in groove and accepts a interconnect, and the middle part of activity post passes through spout and fixed block interconnect, and the middle part of activity post is through preformed hole and fixed column interconnect simultaneously, the left end of fixed column passes through-hole and control flume and fixed block interconnect, holding tank and bearing ring interconnect are passed through at the left surface middle part of bearing cap body. This bearing cap mounting structure for shredder convenient to dismantle, not only convenient to use person installs and fixes between bearing cap body and the bearing frame, increases the steadiness between bearing cap body and the bearing frame simultaneously.

Description

Bearing end cover mounting structure for shredder convenient to disassemble

[ technical field ] A method for producing a semiconductor device

The utility model relates to a part connection technology field, concretely relates to bearing end cover mounting structure for shredder convenient to dismantle.

[ background of the invention ]

A shredder is a machine used for coarse crushing, generally used for processing raw materials or scraps to make them smaller in size, and has a low rotation speed of a cutter shaft, low noise, and low energy consumption compared to other crushers.

However, the bearing end cover and the bearing seat for most existing shredders are of independent screw fixing structures, so that looseness is easily caused, and the abrasion of the main shaft to the inside of the bearing end cover is not convenient to reduce, and the service life of the bearing end cover is influenced. Aiming at the problems, the bearing end cover mounting structure is innovatively designed on the basis of the original bearing end cover mounting structure.

[ Utility model ] content

In order to solve the problem, an object of the utility model is to provide a bearing cap mounting structure for shredder convenient to dismantle has solved the bearing cap that current most shredders used and bearing frame and is solitary screw fixation structure, causes easily not hard up, and is not convenient for reduce the wearing and tearing of main shaft to the bearing cap inside, influences the life's of bearing cap problem.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a bearing end cover mounting structure for a shredder convenient to disassemble comprises a bearing end cover body and a movable column, wherein a bearing seat is arranged at the left end of the bearing end cover body, a bearing block is fixed in the middle of the right surface of the bearing seat, the movable column is connected with the bearing end cover body through a movable groove, a connecting plate is fixed at the outer end of the movable column, the connecting plate is connected with the bearing end cover body through a storage groove, a limiting plate is arranged on the periphery of the outer end of the movable column, a supporting spring is arranged on the inner side of the limiting plate, the inner end of the movable column is connected with the bearing block through a clamping groove, the middle of the movable column is connected with the fixed block through a sliding groove, the middle of the movable column is connected with the fixed column through a reserved hole, the left end of the fixed column is connected with the fixed block through a through hole and a control groove, and the middle, holding tank and bearing ring interconnect are passed through at the left surface middle part of bearing end cover body, and the internally mounted of bearing ring has the guide pulley, and connecting block and spread groove and bearing end cover body interconnect are passed through to the left end outside of bearing ring simultaneously, connecting hole and spliced pole interconnect are passed through to the middle part of connecting block, and the right-hand member of spliced pole passes through recess and bearing end cover body interconnect, and the left end of spliced pole passes through the portable hole and solid fixed ring interconnect simultaneously.

The utility model provides a bearing end cover mounting structure for shredder convenient to dismantle further sets up to: the bearing end cover body is connected with the fixed blocks in a clamping mode through the movable columns and the clamping grooves, and four fixed blocks are uniformly distributed on the right surface of the bearing seat.

The utility model provides a bearing end cover mounting structure for shredder convenient to dismantle further sets up to: the movable columns and the bearing end cover body form a telescopic mechanism through the movable grooves, the limiting plates and the bearing end cover body, the depth of each movable groove is equal to the initial length of each supporting spring, and four movable columns are uniformly distributed in the bearing end cover body.

The utility model provides a bearing end cover mounting structure for shredder convenient to dismantle further sets up to: the movable column and the fixed block form a sliding mechanism through a sliding groove, and the depth of the sliding groove is equal to the width of the fixed block.

The utility model provides a bearing end cover mounting structure for shredder convenient to dismantle further sets up to: the outer surface of the left end of the fixing column and the inner part of the right surface of the control groove are both in threaded structures and are in threaded connection, and meanwhile, the fixing column and the bearing end cover body form a sliding mechanism through a flow groove.

The utility model provides a bearing end cover mounting structure for shredder convenient to dismantle further sets up to: the bearing ring is connected with the bearing end cover body in a clamping mode through the containing groove, and guide wheels are uniformly distributed in the bearing ring.

The utility model provides a bearing end cover mounting structure for shredder convenient to dismantle further sets up to: the left end of bearing ring passes through the connecting block and the spread groove is connected with the holding tank block, and the connecting block is the loop configuration.

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

(1) this bearing end cover mounting structure for shredder convenient to dismantle, bearing end cover body is connected with the block of fixed block and is convenient for increase bearing end cover body to the fastening nature of being connected between the bearing frame, avoids the vibrations that the main shaft produced to make the not hard up condition of fixed column, and the telescopic machanism of activity post and bearing end cover body is convenient for after dismantling the fixed column, makes the automatic outwards pop out of activity post, and convenient to use person takes off bearing end cover body.

(2) This bearing cap mounting structure for shredder convenient to dismantle, threaded connection through fixed column and control flume is convenient for increase bearing cap body and bearing frame between the fastening nature of being connected, and convenient to use person is to the dismantlement and the installation of fixed column, the bearing ring is connected can avoiding rocking of bearing ring to the buffer process of main shaft with the block of bearing cap body, the setting of guide pulley can reduce the wearing and tearing between main shaft and the bearing ring, the life of device is improved, increase the rotation efficiency of main shaft simultaneously.

[ description of the drawings ]

FIG. 1 is a schematic side view of the present invention;

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is an enlarged schematic view of the structure of FIG. 1;

fig. 4 is an enlarged schematic view of the structure at B in fig. 1 according to the present invention.

In the figure: 1. bearing end cover body, 2, the bearing frame, 3, the bearing piece, 4, the activity post, 5, the activity groove, 6, the connecting plate, 7, put the thing groove, 8, the limiting plate, 9, supporting spring, 10, the preformed hole, 11, the control groove, 12, the fixed column, 13, the fixed block, 14, the through-hole, 15, the chute, 16, the draw-in groove, 17, the holding tank, 18, the bearing ring, 19, the guide pulley, 20, the connecting block, 21, the spread groove, 22, the connecting hole, 23, the spliced pole, 24, the recess, 25, the activity hole, 26, solid fixed ring, 27, the spout.

[ detailed description ] embodiments

The bearing end cover mounting structure for shredder of the present invention is described in further detail below with reference to the following embodiments.

As shown in fig. 1-4, the utility model provides a technical solution: a bearing end cover mounting structure for a shredder convenient to disassemble comprises a bearing end cover body 1, a bearing seat 2, a bearing block 3, a movable column 4, a movable groove 5, a connecting plate 6, a storage groove 7, a limiting plate 8, a supporting spring 9, a preformed hole 10, a control groove 11, a fixed column 12, a fixed block 13, a through hole 14, a flow groove 15, a clamping groove 16, a containing groove 17, a bearing ring 18, a guide wheel 19, a connecting block 20, a connecting groove 21, a connecting hole 22, a connecting column 23, a groove 24, a movable hole 25, a fixing ring 26 and a sliding groove 27, wherein the bearing seat 2 is arranged at the left end of the bearing end cover body 1, the bearing block 3 is fixed in the middle of the right surface of the bearing seat 2, the movable column 4 is mutually connected with the bearing end cover body 1 through the movable groove 5, the outer end of the movable column 4 is fixedly provided with the connecting plate 6, the connecting plate 6 is mutually connected with, the inner side of the limiting plate 8 is provided with a supporting spring 9, the inner end of the movable column 4 is connected with the bearing block 3 through a clamping groove 16, the middle part of the movable column 4 is connected with the fixed block 13 through a sliding groove 27, the middle part of the movable column 4 is connected with the fixed column 12 through a preformed hole 10, the left end of the fixed column 12 is connected with the fixed block 13 through a through hole 14 and a control groove 11, the middle part of the fixed column 12 is connected with the bearing end cover body 1 through a flow groove 15, the middle part of the left surface of the bearing end cover body 1 is connected with the bearing ring 18 through a holding groove 17, a guide wheel 19 is arranged inside the bearing ring 18, the outer side of the left end of the bearing ring 18 is connected with the bearing end cover body 1 through a connecting block 20 and a connecting groove 21, the middle part of the connecting block 20 is connected with a connecting column 23 through a connecting hole, meanwhile, the left end of the connecting column 23 is connected with a fixed ring 26 through a movable hole 25;

the bearing end cover body 1 is connected with the fixed blocks 13 in a clamping mode through the movable columns 4 and the clamping grooves 16, four fixed blocks 13 are uniformly distributed on the right surface of the bearing seat 2, the connection stability between the bearing end cover body 1 and the bearing seat 2 can be improved due to the clamping connection of the bearing end cover body 1 and the fixed blocks 13, and the bearing end cover body 1 is prevented from moving rightwards;

the movable column 4 and the bearing end cover body 1 form a telescopic mechanism through the movable groove 5 and the limiting plate 8, the depth of the movable groove 5 is equal to the initial length of the supporting spring 9, four movable columns 4 are uniformly distributed in the bearing end cover body 1, the telescopic mechanisms of the movable column 4 and the bearing end cover body 1 are convenient for a user to eject the movable column 4 outwards due to the elastic force of the supporting spring 9 after the user detaches the fixed column 12, so that the movable column 4 is separated from the fixed block 13 and the bearing block 3 in a clamping connection mode, and the detaching efficiency of the bearing end cover body 1 is improved;

the movable column 4 and the fixed block 13 form a sliding mechanism through the sliding chute 27, the depth of the sliding chute 27 is equal to the width of the fixed block 13, and the sliding mechanism of the movable column 4 and the fixed block 13 is convenient for the movable column 4 to pass through the fixed block 13 and then be clamped and connected with the bearing block 3, so that the connection stability of the bearing end cover body 1 and the bearing seat 2 is further improved;

the outer surface of the left end of the fixed column 12 and the inner part of the right surface of the control groove 11 are both in threaded structures and are in threaded connection, meanwhile, the fixed column 12 and the bearing end cover body 1 form a sliding mechanism through a flow groove 15, the threaded connection of the fixed column 12 and the control groove 11 is convenient for increasing the connection tightness of the fixed column 12 and the control groove, and meanwhile, a user can conveniently detach and install the fixed column 12;

the bearing ring 18 is connected with the bearing end cover body 1 in a clamping mode through the accommodating groove 17, the guide wheels 19 are uniformly distributed in the bearing ring 18, the bearing ring 18 can be prevented from shaking left and right in the accommodating groove 17 due to the clamping connection of the bearing ring 18 and the bearing end cover body 1, the guide wheels 19 can reduce abrasion between the main shaft and the bearing ring 18, and the rotation efficiency of the main shaft is improved;

the left end of bearing ring 18 passes through connecting block 20 and connecting groove 21 and is connected with holding tank 17 block, and connecting block 20 is the loop configuration, and the block connection of bearing ring 18 and holding tank 17 is convenient for increase the fastening nature between bearing ring 18 and the bearing end cover body 1, and connecting block 20 loop configuration can be with bearing ring 18 pressure right.

The utility model discloses a theory of operation is: when in use, according to the figures 1 and 3, firstly, a user aligns the middle part of the left end of the bearing end cover body 1 with the middle part of the receiving block 3, so that the movable column 4 is positioned at the outer end of the sliding groove 27, at the same time, the user presses the connecting plate 6 inwards, so that the connecting plate 6 drives the movable column 4 and the limiting plate 8 to slide towards the lower end of the movable groove 5, at the same time, the limiting plate 8 presses the supporting spring 9 to compress, so that the supporting spring 9 gives the outward elastic trend to the limiting plate 8, at the same time, the movable column 4 drives the preformed hole 10 to be positioned inside the sliding groove 27, and inserts the inner end of the movable column 4 into the clamping groove 16, at the same time, the user passes the fixed column 12 through the flow groove 15 at the outer end of the bearing end cover body 1, passes through the through hole 14 and passes through the preformed hole 10, then pushes the fixed column 12 left, the connection between the bearing end cover body 1 and the bearing seat 2 is completed at this time, the outward movement trend of the movable column 4 enables the movable column 4 to pull the fixed column 12 outwards through the preformed hole 10, the connection tightness between the fixed column 12 and the control groove 11 is improved, and the looseness of the fixed column 12 in the using process is avoided;

according to fig. 2 and 4, the rotation of the main shaft inside the bearing ring 18 makes it possible to stabilize the height of the main shaft, meanwhile, the rotation of the guide wheel 19 and the main shaft can reduce the abrasion of the main shaft and the bearing ring 18, increase the service life of the bearing ring 18, meanwhile, the clamping connection between the bearing ring 18 and the accommodating groove 17 not only can increase the connection stability between the bearing ring 18 and the accommodating groove 17, meanwhile, a user can conveniently take down or replace the bearing ring 18, the working stability of the device is improved, the fixing ring 26 can press the connecting block 20 to the right end of the connecting groove 21, the leftward sliding of the bearing ring 18 is avoided, the clamping friction generated by the inclination of the bearing ring 18 and the main shaft is avoided, the safety of the device is improved, and the working principle of the bearing end cover mounting structure for the shredder convenient to disassemble is the same, and those not described in detail in this specification are well within the skill of those in the art.

The above-mentioned embodiments are merely illustrative of the principles and effects of the present invention, and some embodiments may be used, and are not intended to limit the present invention; it should be noted that, for those skilled in the art, without departing from the inventive concept, several variations and modifications can be made, which are within the scope of the present invention.

Claims (7)

1. The utility model provides a bearing cap mounting structure for shredder convenient to dismantle, includes bearing cap body and activity post, its characterized in that: the bearing end cover comprises a bearing end cover body, a bearing seat is arranged at the left end of the bearing end cover body, a bearing block is fixed in the middle of the right surface of the bearing seat, a movable column is connected with the bearing end cover body through a movable groove, a connecting plate is fixed at the outer end of the movable column, the connecting plate is connected with the bearing end cover body through a storage groove, a limiting plate is arranged on the periphery of the outer end of the movable column, a supporting spring is arranged on the inner side of the limiting plate, the inner end of the movable column is connected with the bearing block through a clamping groove, the middle of the movable column is connected with the fixed block through a sliding groove, the middle of the movable column is connected with the fixed column through a preformed hole, the left end of the fixed column is connected with the fixed block through a, and the internally mounted of bearing ring has the guide pulley, and the left end outside of bearing ring passes through connecting block and spread groove and bearing end cover body interconnect simultaneously, connecting hole and spliced pole interconnect are passed through at the middle part of connecting block, and the right-hand member of spliced pole passes through recess and bearing end cover body interconnect, and the left end of spliced pole passes through the activity hole simultaneously and solid fixed ring interconnect.

2. A bearing cap mounting structure for a shredder adapted to be easily detached in accordance with claim 1, wherein: the bearing end cover body is connected with the fixed blocks in a clamping mode through the movable columns and the clamping grooves, and four fixed blocks are uniformly distributed on the right surface of the bearing seat.

3. A bearing cap mounting structure for a shredder adapted to be easily detached in accordance with claim 1, wherein: the movable columns and the bearing end cover body form a telescopic mechanism through the movable grooves, the limiting plates and the bearing end cover body, the depth of each movable groove is equal to the initial length of each supporting spring, and four movable columns are uniformly distributed in the bearing end cover body.

4. A bearing cap mounting structure for a shredder adapted to be easily detached in accordance with claim 1, wherein: the movable column and the fixed block form a sliding mechanism through a sliding groove, and the depth of the sliding groove is equal to the width of the fixed block.

5. A bearing cap mounting structure for a shredder adapted to be easily detached in accordance with claim 1, wherein: the outer surface of the left end of the fixing column and the inner part of the right surface of the control groove are both in threaded structures and are in threaded connection, and meanwhile, the fixing column and the bearing end cover body form a sliding mechanism through a flow groove.

6. A bearing cap mounting structure for a shredder adapted to be easily detached in accordance with claim 1, wherein: the bearing ring is connected with the bearing end cover body in a clamping mode through the containing groove, and guide wheels are uniformly distributed in the bearing ring.

7. A bearing cap mounting structure for a shredder adapted to be easily detached in accordance with claim 1, wherein: the left end of bearing ring passes through the connecting block and the spread groove is connected with the holding tank block, and the connecting block is the loop configuration.

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