CN115106954A - High-stability anti-loosening clamping device for bearing machining - Google Patents

Abstract

The invention provides a high-stability anti-loosening clamping device for bearing machining, which relates to the technical field of clamping devices and comprises: a main body; the main part is the rectangle structure, and the internally mounted that leads to the groove of every has a kicking block, and the kicking block is the rectangle structure, and the outer end top of every kicking block is equipped with a wedge, and the internally mounted in every outer hole has a contact, and the top of contact is I shape axle construction, and the bottom of contact is circular structure. When the device is used, the ejecting block can be directly controlled to move downwards through manpower, the height of the ejecting block can be adjusted, the main body can improve the supporting effect, the bottom of the contact element can be automatically stressed, the bottom of the contact element is automatically stressed and is in anti-slip contact with a placing surface, the main body can improve the stability, the main body and the bearing are prevented from being displaced in the machining process, the bearing clamping device is solved, the stability is lower, in the machining process, the displacement and the shaking are easily generated, and the machining precision is easily reduced.

Description

High-stability anti-loosening clamping device for bearing machining

Technical Field

The invention relates to the technical field of clamping devices, in particular to a high-stability anti-loosening clamping device for bearing machining.

Background

When the bearing is machined, a clamping device is usually used for fixing the bearing, so that the bearing can be fixed for machining;

however, when the conventional bearing clamping device is used, the stability is low, the displacement and the shaking are easily generated in the processing process, the processing precision is easily reduced, the scratch is easily generated on the bearing when the bearing is fixed, the structure for fixing the bearing by automatic stress fitting is lacked, and the looseness prevention structure is easily generated and is lacked when the bearing is fixed.

Disclosure of Invention

In view of the above, the present invention provides a high-stability anti-loosening clamping device for bearing processing, which has a contact member that can be in anti-slip contact with a placing surface, thereby stably supporting a main body and improving the stability of the main body.

The invention provides a high-stability anti-loosening clamping device for bearing machining, which specifically comprises: a main body; the main body is of a rectangular structure, the outer side of the bottom of the main body is of an inclined structure, a round hole is formed in the middle of the main body, through grooves are formed in the periphery of the outer side of the main body respectively, a top block is installed inside each through groove and is of a rectangular structure, a wedge block is arranged above the outer end of each top block, outer holes are formed in the corner positions of the main body respectively, a contact element is installed inside each outer hole, the top end of each contact element is of an I-shaped shaft structure, the bottom and the top end of each contact element are connected through threads, the bottom of each contact element is of a circular structure, and the bottom of each contact element is made of rubber; the four moving parts are arranged at the top end of the main body, an auxiliary plate is arranged in each moving part through a slot and a connecting plate, a contact head is arranged on the inner side of each auxiliary plate, the bottom of each contact head is of a wedge-shaped structure, the contact head is made of rubber, and a rectangular through groove is formed in each contact head; the casting die, the casting die is the rectangle frame structure, and the casting die is installed on the top of main part and moving member, and a locating part is installed respectively to the both sides of casting die, and the bottom of every locating part is connected with a limiting plate, and the inboard of every limiting plate is equipped with align to grid's fixture block, and the fixture block is the wedge structure.

Optionally, four sliding chutes are arranged inside the top end of the main body, each sliding chute is of a T-shaped structure, the bottom end inside each sliding chute is of an inclined structure, a guide rod is arranged at each corner position of the top end of the main body, the top end of each guide rod is of a cylindrical structure, and the bottom of each guide rod is of a conical structure; the periphery of the main body is respectively provided with an outer plate which is of an L-shaped plate structure, the inner part of each outer plate is embedded with a top block, the inner side of each outer plate is provided with uniformly arranged wedge blocks, the wedge blocks are clamped with the wedge blocks of the top blocks, the top end of each top block is provided with a guide plate, each guide plate is of a rectangular structure, and a round hole is formed in each guide plate; the outer hole is of a circular structure, bottom rods are arranged at corners of the bottom of the main body respectively, and the bottom rods are of a cylindrical structure.

Optionally, two slots are formed in the inner side of each moving member, each slot is of a rectangular structure, a guide head is arranged at the bottom of each moving member, each guide head is of a T-shaped structure, and each guide head is embedded in each sliding slot; the bottom of each moving piece is provided with an embedded groove which is of a rectangular structure, a guide plate is embedded in the embedded groove, a round rod is arranged in each embedded groove and inserted into the round hole, and a spring is sleeved outside each round rod; and a connecting plate is inserted into the slot and has a rectangular structure, and an auxiliary plate is arranged outside each connecting plate and has a rectangular structure.

Optionally, the periphery of the bottom of the pressing piece is provided with a stress groove, the stress groove is of an inclined structure, a moving piece is embedded in the stress groove, the corners of the inside of the pressing piece are provided with a pressing plate, the pressing plates are of a rectangular structure, a round hole is formed in the middle of each pressing plate, and a guide rod is inserted in the round hole; the limiting piece is of a U-shaped structure, an inclined structure is arranged above the inner end of the limiting piece, the limiting piece is made of elastic metal, and two sides of the top end of the limiting piece are respectively provided with a wedge block; every the bottom of limiting plate is equipped with a backup pad, and the backup pad is H shaped plate column structure, and the backup pad is equipped with two altogether, and two backup pads are fixed respectively in the both sides of main part.

Advantageous effects

According to the clamping device of each embodiment of the invention, compared with the traditional clamping device, the clamping device is provided with the clamping block, so that the pressing piece can be blocked and fixed by the clamping block after moving downwards, the pressing piece can control the moving piece to move stably to fix the bearing, and the bearing is prevented from loosening.

In addition, by arranging the top block and the contact element, when the device is used, the top block can be directly controlled to move downwards through manpower, so that the height of the top block can be adjusted, the bottom of the top block can be in contact with a placing surface for supporting, the main body can improve the supporting effect, meanwhile, the bottom of the contact element can be automatically stressed, the bottom of the contact element is automatically stressed to be in anti-skid contact with the placing surface, the main body can improve the stability, and the main body and a bearing are prevented from being displaced in the processing process;

in addition, the contact head is arranged, so that when the device is used, the contact head can be arranged on the inner side of the moving part along with the connecting plate, the moving part is controlled to move, and then the contact head can be directly contacted with the bearing;

in addition, through setting up the fixture block, make this device when using, can directly move down through manpower control casting die, make the atress groove can contact with the outside top of moving member, because contact surface between them is the slope column structure, make the moving member can be promoted the displacement, make the moving member can lateral displacement, and then convenient centre gripping fixing bearing, after the casting die moves down, can contact through locating part and fixture block, make the casting die can be stabilized fixed, make the casting die can fix at appropriate height, make the moving member can be spacing in lasting stationary state, make the bearing is held in what the moving member can stabilize, avoid producing and become flexible.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

FIG. 1 shows a schematic view of a three-dimensional structure of a clamping device according to an embodiment of the invention;

FIG. 2 shows a schematic view of a bottom view of a clamping device according to an embodiment of the invention;

FIG. 3 shows a schematic view of an exploded perspective structure of a clamping device according to an embodiment of the invention;

FIG. 4 shows a schematic view of an exploded bottom view of a clamping device according to an embodiment of the invention;

FIG. 5 shows a schematic view of an exploded perspective structure of a body of a clamping device according to an embodiment of the invention;

FIG. 6 shows a schematic view of an exploded bottom view of a main body of a clamping device according to an embodiment of the invention;

FIG. 7 is a schematic view showing an exploded perspective structure of a moving member of the chucking apparatus according to the embodiment of the present invention;

FIG. 8 is a schematic view of an exploded bottom view of a moving member of a clamping device according to an embodiment of the invention;

FIG. 9 illustrates a schematic view of an exploded perspective view of a compression element of a clamping arrangement according to an embodiment of the invention;

FIG. 10 illustrates a schematic view of an exploded bottom view of a compression element of a clamping device according to an embodiment of the invention.

List of reference numerals

1. A main body; 101. a chute; 102. a guide bar; 103. an outer plate; 104. a guide plate; 105. a top block; 106. an outer bore; 107. a bottom bar; 108. a contact member;

2. a moving member; 201. a slot; 202. a guide head; 203. a groove is embedded; 204. a connecting plate; 205. an auxiliary plate; 206. a contact head;

3. pressing parts; 301. a stress groove; 302. pressing a plate; 303. a limiting member; 304. a limiting plate; 305. a clamping block; 306. a connecting plate.

Detailed Description

In order to make the objects, aspects and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described in detail with reference to the accompanying drawings. Unless otherwise indicated, terms used herein have the ordinary meaning in the art. Like reference symbols in the various drawings indicate like elements.

The first embodiment is as follows: please refer to fig. 1 to 10:

the invention provides a high-stability anti-loosening clamping device for bearing machining, which comprises: a main body 1; the main body 1 is of a rectangular structure, the outer side of the bottom of the main body 1 is of an inclined structure and is used for increasing the contact effect with a placing surface and improving the supporting effect on the main body 1, round holes are formed in the middle of the main body 1 and are used for enabling scraps generated by processing to flow downwards, through grooves are formed in the periphery of the outer side of the main body 1 respectively, a top block 105 is installed inside each through groove, the top blocks 105 are of a rectangular structure and can move inside the top blocks 105, the position of each top block 105 can be adjusted, the main body 1 can be stably pushed to improve stability, a wedge block is arranged above the outer end of each top block 105 and is used for being clamped with the wedge block inside an outer plate 103, the top blocks 105 can be stably fixed at a proper height for use, outer holes 106 are formed in the corners of the main body 1 respectively, a contact element 108 is installed inside each outer hole 106, and the contact elements 108 can be moved inside the outer holes for use, the top end of the contact element 108 is of an I-shaped shaft structure, the bottom and the top end of the contact element 108 are connected through threads, so that the contact element 108 can be freely detached, the bottom of the contact element 108 is of a circular structure, the bottom of the contact element 108 is made of rubber materials and is used for being in anti-slip contact with a placing surface, and the stability of the main body 1 is improved; the moving part 2 is of a trapezoidal structure, an inclined structure is arranged above the outer end of the moving part 2 and is used for contacting with the inside of the stress groove 301, when the pressing part 3 moves downwards, four moving parts 2 can simultaneously displace and fix the bearing, the number of the moving parts 2 is four, the four moving parts 2 are arranged at the top end of the main body 1, an auxiliary plate 205 is arranged inside each moving part 2 through a slot 201 and a connecting plate 204, a contact head 206 is arranged on the inner side of each auxiliary plate 205, the bottom of the contact head 206 is of a wedge-shaped structure, the contact head 206 is made of rubber and is used for flexibly contacting with the bearing, scratches on the surface of the bearing are avoided, a rectangular through groove is arranged inside the contact head 206, the flexibility of the contact head 206 can be improved, and the bearing is attached and fixed; casting die 3, casting die 3 is the rectangular frame structure, casting die 3 is installed on the top of main part 1 and moving member 2, can drive four moving member 2 fixed bearing that moves down simultaneously, a locating part 303 is installed respectively to casting die 3's both sides, the bottom of every locating part 303 is connected with a limiting plate 304, the inboard of every limiting plate 304 is equipped with align to grid's fixture block 305, fixture block 305 is the wedge structure, after making casting die 3 move down, can make the fixture block 305 contact of locating part 303 with different positions, make casting die 3 can be fixed, make moving member 2 can last atress fixed bearing, and then avoid the bearing to produce not hard up.

Referring to fig. 5 and 6, four sliding grooves 101 are formed in the top end of the main body 1, the sliding grooves 101 are of a T-shaped structure and are used for enabling the guide head 202 to move inside the main body, so that the moving member 2 can be used for guiding and moving, the bottom end of the inside of the sliding grooves 101 is of an inclined structure, so that debris can be guided and circulated after entering the sliding grooves, so that the debris can be conveniently moved to the bottom of the main body 1 for collection, guide rods 102 are respectively arranged at corners of the top end of the main body 1, the top ends of the guide rods 102 are of a cylindrical structure and are used for being inserted into circular holes of the pressing plate 302, so that the pressing member 3 can be guided and moved, and the bottom of the guide rods 102 are of a conical structure, so that the supporting effect on the guide rods 102 can be improved; the periphery of the main body 1 is respectively provided with an outer plate 103, the outer plate 103 is of an L-shaped plate structure and is used for assisting in mounting of an ejector block 105, the ejector block 105 is embedded in the outer plate 103, wedge blocks which are uniformly arranged are arranged on the inner side of each outer plate 103 and are clamped with the wedge blocks of the ejector block 105, so that the ejector block 105 can be fixed after being moved to a proper position, the top end of each ejector block 105 is provided with a guide plate 104, each guide plate 104 is of a rectangular structure and is used for being inserted into the embedded groove 203, and a round hole is formed in each guide plate 104, so that the round hole in the embedded groove 203 can be guided to move in the guide plate; the outer holes 106 are circular structures for guiding and displacing the contact elements 108 inside the outer holes, bottom rods 107 are respectively arranged at the bottom corners of the main body 1, the bottom rods 107 are cylindrical structures, the contact elements 108 can be detached, and the bottom rods 107 can assist in supporting the main body 1.

Referring to fig. 7 and 8, two slots 201 are formed in the inner side of each moving member 2, each slot 201 is of a rectangular structure and is used for embedding and mounting a connecting plate 204, a guiding head 202 is arranged at the bottom of each moving member 2, each guiding head 202 is of a T-shaped structure, and each guiding head 202 is embedded in the corresponding sliding groove 101 and is used for driving the moving member 2 to guide and displace; the bottom of each moving part 2 is provided with an embedded groove 203, the embedded groove 203 is of a rectangular structure, a guide plate 104 is embedded in the embedded groove 203 and used for guiding the moving part 2 to move, a round rod is arranged in each embedded groove 203 and inserted into a round hole, and a spring is sleeved outside each round rod and can push the moving part 2, so that the moving part 2 can be forced to move outwards after the pressing part 3 does not move downwards, and a bearing can be conveniently placed in the bearing; a connecting plate 204 is inserted into each slot 201, the connecting plate 204 is of a rectangular structure and is used for driving the auxiliary plate 205 to be conveniently installed, the auxiliary plate 205 is arranged outside each connecting plate 204, the auxiliary plate 205 is of a rectangular structure and is used for conveniently driving the contact heads 206 to be installed and used together, and the contact heads 206 can be installed and used at will.

Referring to fig. 9 and 10, a force receiving groove 301 is respectively formed around the bottom of the pressing member 3, the force receiving groove 301 is an inclined structure, the moving member 2 is embedded in the force receiving groove 301, so that after the pressing member 3 moves downward, the four moving members 2 can be pushed by the force receiving groove 301 to simultaneously move, a pressing plate 302 is respectively arranged at the corner position of the inside of the pressing member 3, the pressing plate 302 is rectangular, a circular hole is formed in the middle of each pressing plate 302, and a guide rod 102 is inserted into the circular hole and used for controlling the pressing plate 302 and the pressing member 3 to move up and down in a horizontal state; the limiting piece 303 is of a U-shaped structure and is used for contacting with the fixture block 305, so that the pressing piece 3 can be fixed at a constant height for use, an inclined structure is arranged above the inner end of the limiting piece 303, the limiting piece 304 is made of elastic metal and can be slightly inclined, so that the fixture block 305 can be fixed by contacting with the limiting piece 303, and two sides of the top end of the limiting piece 304 are respectively provided with a wedge block which can stably support the limiting piece 304; the bottom of each limiting plate 304 is provided with a supporting plate 306, the supporting plate 306 is an H-shaped plate structure and can support and mount the limiting plates 304, the number of the supporting plates 306 is two, and the two supporting plates 306 are respectively fixed on two sides of the main body 1.

The second embodiment: when this device need install and use on the digit control machine tool, can utilize the screw thread to dismantle the top of contact 108, make contact 108 can conveniently break away from the inside of outer hole 106, make bottom bar 107 can drive main part 1 and be connected with the digit control machine tool is firm.

Example three: when a larger bearing needs to be fixed, the contact 206 can be directly pulled to be taken down, so that the connecting plate 204 can be pulled and taken down from the inside of the embedded groove 203, and further the fixing space of the bearing is enlarged, so that the larger bearing can be stably installed and used.

The specific use mode and function of the embodiment are as follows: in the invention, when the device is needed, the contact piece 108 can be controlled by manpower to be installed in the outer hole 106, then the jacking block 105 is pushed by manpower to move downwards, so that the wedge block of the jacking block 105 can be contacted with the wedge block in the outer plate 103, the jacking block 105 can be in a proper height, and further the main body 1 is fixed at a constant height, meanwhile, the contact piece 108 can be in anti-slip contact with a placing surface, so that the main body 1 can be limited and fixed by anti-slip, the main body 1 can be stably installed, the bearing is prevented from generating displacement in the processing process, the device has higher stability, then the connection plate 204 can be inserted into the slot 201 by controlling the contact head 206 by manpower, so that the contact head 206 can be stably installed and used, then the bearing is directly placed at the top end of the main body 1 by controlling the manpower, and then the pressing piece 3 is controlled by manpower to move downwards, when casting die 3 is the lapse, can make moving member 2 at the inside direction displacement of atress groove 301, make four moving members 2 can be controlled the displacement simultaneously, when casting die 3 is the lapse, locating part 303 can constantly be through the spacing fixed of fixture block 305, make casting die 3 fix the high use of invariant, make moving member 2 can be installed and used by stabilizing, and then it is not hard up to appear after avoiding the bearing to fix, simultaneously in the displacement of moving member 2, can be through contact 206 and bearing flexonics, make the bearing when being fixed, can not produce the mar, contact 206 can be atred and extruded simultaneously, make contact 206 can automatic atress and the outside laminating of bearing, and then improve fixed effect, make the bearing that adds that this device can stabilize, then carry out convenient processing to the bearing.

Finally, it should be noted that, when describing the positions of the components and the matching relationship therebetween, the present invention is usually illustrated by one/a pair of components, however, it should be understood by those skilled in the art that such positions, matching relationship, etc. are also applicable to other/other pairs of components.

The above description is intended to be illustrative of the present invention and not to limit the scope of the invention, which is defined by the claims appended hereto.

Claims (10)

1. The utility model provides a locking clamping device that moves based on high stability of bearing processing usefulness which characterized in that includes: a main body (1); the main body (1) is of a rectangular structure, the outer side of the bottom of the main body (1) is of an inclined structure, a round hole is formed in the middle of the main body (1), a through groove is formed in the periphery of the outer side of the main body (1), a top block (105) is installed inside each through groove, each top block (105) is of a rectangular structure, a wedge-shaped block is arranged above the outer end of each top block (105), an outer hole (106) is formed in each corner of the main body (1), a contact element (108) is installed inside each outer hole (106), the top end of each contact element (108) is of an I-shaped shaft structure, the bottom and the top end of each contact element (108) are connected through threads, the bottom of each contact element (108) is of a circular structure, and the bottom of each contact element (108) is made of rubber; the mobile piece (2) is of a trapezoid structure, an inclined structure is arranged above the outer end of the mobile piece (2), the number of the mobile pieces (2) is four, the four mobile pieces (2) are installed at the top end of the main body (1), an auxiliary plate (205) is installed inside each mobile piece (2) through a slot (201) and a connecting plate (204), a contact head (206) is arranged on the inner side of each auxiliary plate (205), the bottom of each contact head (206) is of a wedge-shaped structure, each contact head (206) is made of rubber, and a rectangular through groove is formed inside each contact head (206); casting die (3), casting die (3) are the rectangle frame structure, and the top in main part (1) and moving member (2) is installed in casting die (3), and one locating part (303) is installed respectively to the both sides of casting die (3), and the bottom of every locating part (303) is connected with one limiting plate (304), and the inboard of every limiting plate (304) is equipped with align to grid's fixture block (305), and fixture block (305) are the wedge structure.

2. The anti-loosening clamping device with high stability for bearing machining according to claim 1, is characterized in that: the novel multifunctional portable electronic device is characterized in that four sliding grooves (101) are arranged inside the top end of the main body (1), the sliding grooves (101) are of a T-shaped structure, the bottom end inside the sliding grooves (101) is of an inclined structure, a guide rod (102) is arranged at the corner position of the top end of the main body (1) respectively, the top end of the guide rod (102) is of a cylindrical structure, and the bottom of the guide rod (102) is of a conical structure.

3. The anti-loosening clamping device with high stability for bearing machining according to claim 1, is characterized in that: the novel bearing is characterized in that an outer plate (103) is arranged on the periphery of the main body (1) respectively, the outer plate (103) is of an L-shaped plate structure, a top block (105) is embedded into the outer plate (103), wedge blocks which are uniformly arranged are arranged on the inner side of each outer plate (103), the wedge blocks are connected with the top block (105) in a clamped mode, a guide plate (104) is arranged on the top end of each top block (105), the guide plate (104) is of a rectangular structure, and round holes are formed in the guide plate (104).

4. The anti-loosening clamping device with high stability for bearing machining according to claim 1, is characterized in that: the outer hole (106) is of a circular structure, bottom rods (107) are respectively arranged at the corners of the bottom of the main body (1), and the bottom rods (107) are of a cylindrical structure.

5. A high stability anti-loosening clamping device for bearing processing as claimed in claim 2, characterized in that: the inner side of each moving piece (2) is provided with two slots (201), the slots (201) are of a rectangular structure, the bottom of each moving piece (2) is provided with a guide head (202), the guide heads (202) are of a T-shaped structure, and the guide heads (202) are embedded in the sliding grooves (101).

6. A high-stability anti-loosening clamping device for bearing machining according to claim 3, wherein: every the bottom of moving member (2) is equipped with an embedded groove (203), and embedded groove (203) are the rectangle structure, and the inside embedding of embedded groove (203) has deflector (104), and the inside of every embedded groove (203) is equipped with a round bar, and the round bar inserts inside the round hole, and the outside cover of every round bar is equipped with a spring.

7. A high-stability anti-loosening clamping device for bearing machining according to claim 5, wherein: a connecting plate (204) is inserted into each slot (201), the connecting plate (204) is of a rectangular structure, an auxiliary plate (205) is arranged outside each connecting plate (204), and the auxiliary plate (205) is of a rectangular structure.

8. The anti-loosening clamping device with high stability for bearing machining according to claim 2, is characterized in that: the bottom of casting die (3) is equipped with one atress groove (301) all around respectively, and atress groove (301) are the slope column structure, and the inside embedding of atress groove (301) has moving member (2), and the inside corner position of casting die (3) is equipped with one clamp plate (302) respectively, and clamp plate (302) are the rectangle structure, and the intermediate position of every clamp plate (302) is equipped with a round hole, and guide arm (102) have been inserted to the inside of round hole.

9. The high-stability anti-loosening clamping device for bearing machining according to claim 1, is characterized in that: the limiting piece (303) is of a U-shaped structure, an inclined structure is arranged above the inner end of the limiting piece (303), the limiting plate (304) is made of elastic metal, and two wedge-shaped blocks are arranged on two sides of the top end of the limiting plate (304) respectively.

10. The high-stability anti-loosening clamping device for bearing machining according to claim 9, is characterized in that: the bottom of each limiting plate (304) is provided with a supporting plate (306), the supporting plates (306) are H-shaped plate structures, the number of the supporting plates (306) is two, and the two supporting plates (306) are respectively fixed on two sides of the main body (1).

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