CN219666256U - Cam processing clamping tool structure - Google Patents

Abstract

The utility model discloses a cam processing clamping tool structure which comprises a bearing column, wherein a connecting seat is arranged at the bottom end of the bearing column, a cover plate is arranged at the upper end of the bearing column, guide waist-shaped grooves are formed in the cover plate in a penetrating manner, the guide waist-shaped grooves are corresponding to mounting holes of cams, the guide waist-shaped grooves extend along the radial direction of the cover plate, positioning columns are arranged in the guide waist-shaped grooves, driving shafts are rotatably arranged in the bearing column, a transmission part is arranged between the driving shafts and the positioning columns, and the driving shafts capable of rotating in the forward direction and the reverse direction drive the positioning columns to horizontally slide in the guide waist-shaped grooves through the transmission part so as to be far away from or close to each other. The beneficial effects are that: the rotary driving shaft drives the positioning column to horizontally move inside the guide waist-shaped groove through the driving piece and to be away from each other, so that the positioning column can tightly prop the mounting hole of the cam, the clamping fixation of the cam is realized, and the cam is ensured to be stable and can not damage the outer circle of the cam.

Description

Cam processing clamping tool structure

Technical Field

The utility model relates to the technical field of cam processing devices, in particular to a cam processing clamping tool structure.

Background

In the cam processing process, burrs exist on the edge of the outline of the outer edge of the cam, the edge is required to be polished and chamfered, and clamping and fixing of the cam are required to be carried out by using a clamping tool in order to facilitate polishing of the edge; the precision requirement of the outer circular surface of the cam is high, and the outer circular surface of the cam is easy to be damaged when the cam is fixed by the existing clamping tool. Therefore, the cam processing clamping tool structure is designed, and the damage to the outer circular surface of the cam can be avoided while the cam is fixed.

Disclosure of Invention

The present utility model aims to provide a cam tooling clamping structure for solving the above problems, as described in detail below.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a cam processing clamping tool structure which comprises a bearing column, wherein a connecting seat is arranged at the bottom end of the bearing column and is used for being connected with the output end of a speed reducing motor, a cover plate is arranged at the upper end of the bearing column, a plurality of guide waist-shaped grooves are formed in the cover plate in a penetrating manner and correspond to mounting holes of a cam, the guide waist-shaped grooves extend along the radial direction of the cover plate, positioning columns are arranged in the guide waist-shaped grooves, a driving shaft is rotatably arranged in the bearing column and extends along the radial direction of the bearing column, a transmission part is arranged between the driving shaft and the positioning columns, and the driving shaft capable of rotating in the forward direction and the reverse direction drives the positioning columns to horizontally slide in the guide waist-shaped grooves through the transmission part so as to be far away from or close to each other.

By adopting the cam processing and clamping tool structure, when the cam is clamped, the cam is placed on the surface of the cover plate, the upper end of the positioning column penetrates through the mounting hole of the cam, the driving shaft is rotated, the positioning column is driven by the transmission assembly to horizontally slide in the guide waist-shaped groove to be mutually far away, and the positioning column is fully contacted with the inside of the cam mounting hole, so that the cam is tightly supported and fixed; after polishing of the edge of the cam is completed, the driving shaft is reversely rotated, the positioning column is driven to horizontally slide in the guide waist-shaped groove to mutually approach through the transmission component, the clamping of the positioning column to the cam mounting hole is relieved, and the cam is conveniently taken down from the surface of the cover plate; the cam installing hole is tightly supported by the positioning column, so that the cam is clamped and fixed, the cam stability is good, the outer circular surface of the cam is not damaged, the cam processing quality is guaranteed, the whole operation is simple and convenient, and the using effect is good.

Preferably, the cover plate is of a double-layer structure, a limiting cavity is formed in the bottom surface of the cover plate above the cover plate, a limiting ring is arranged on the outer side of the positioning column in the limiting cavity, and the limiting ring is matched with the limiting cavity to limit the lifting of the positioning column.

Preferably, a sliding cavity is arranged in the bearing column, extends along the axial direction of the bearing column, penetrates through the upper end face of the bearing column and is communicated with the guide waist-shaped groove, and the bottom end of the positioning column is of an inverted cone structure and extends into the sliding cavity;

the driving piece includes the driving ball, and the driving ball is located the slip intracavity portion, and is located the drive shaft top, driving ball and all reference column bottom butt, the outer disc in drive shaft middle part is provided with the drive low side and drives high side, and drive low side and drive high side all extend along drive shaft circumference, and both smooth transition, drive high side and driving ball contact, and the driving ball rises and promotes the reference column and slide each other keeping away from at the inside slip of direction waist type groove, and drive low side and driving ball contact, and the driving ball descends under the action of gravity, releases the promotion to the reference column, drive high side surface is provided with spacing shrinkage pool for it is spacing fixed at the drive high side with the driving ball.

Preferably, the inner diameter of the sliding cavity is matched with the outer diameter of the transmission ball, the upper part of the sliding cavity is coaxially provided with an avoidance cavity, and the inner diameter of the avoidance cavity is larger than the horizontal sliding stroke distance of the positioning column.

Preferably, the bearing column is internally provided with a rotating cavity, the rotating cavity penetrates through the outer circular surface of the bearing column along the radial direction of the bearing column, the rotating cavity is connected with a sliding cavity, the outer side, close to two ports of the rotating cavity, of the bearing column is provided with a limiting plane, the driving shaft is rotationally arranged in the rotating cavity, two ends of the driving shaft are respectively provided with clamping grooves, clamping springs are arranged in the clamping grooves, the two clamping springs are respectively abutted to the two limiting planes, and the lengths of the two ends of the driving shaft penetrating out of the rotating cavity are identical.

Preferably, both ends that the drive shaft spills are provided with insertion holes along its radial direction in a penetrating way for inserting the crowbar.

Preferably, the surface of the connecting seat is provided with two connecting threaded holes in a penetrating way, the connecting threaded holes are symmetrically distributed by taking the axis of the connecting seat as a reference, the inside of the bearing column penetrates through the connecting through holes along the axial direction of the bearing column, the connecting through holes correspond to the connecting threaded holes, the upper surface of the cover plate is provided with a counter bore in a penetrating way, the counter bore corresponds to the connecting through holes, connecting bolts are inserted into the counter bore, and the connecting bolts are in threaded connection with the connecting threaded holes;

the center of the upper surface of the connecting seat is penetrated and provided with an installation through hole which is in plug-in fit with the output end of the gear motor, the inner wall of the installation through hole is provided with a key groove, the inner bottom surface of the sliding cavity is penetrated and provided with a bottom through hole, the inside of the bottom through hole is provided with an installation bolt, and the installation bolt is in threaded connection with an installation threaded hole of the output end of the gear motor.

Preferably, the upper surface of the bearing column is provided with a positioning groove which is in clearance fit with the cover plate.

The beneficial effects are that: the rotary driving shaft drives the positioning column to horizontally move inside the guide waist-shaped groove through the driving piece and to be away from each other, so that the positioning column can tightly prop the mounting hole of the cam, the clamping fixation of the cam is realized, and the cam is ensured to be stable and can not damage the outer circle of the cam.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic structural view of a drive shaft;

FIG. 3 is a top view of the connection block;

FIG. 4 is a top view of the cover plate;

fig. 5 is a right side cross-sectional view of the cam after loading.

The reference numerals are explained as follows:

1. a load-bearing column; 101. a limit plane; 102. a sliding chamber; 103. a bottom through hole; 104. installing a bolt; 105. a positioning groove; 106. a rotating chamber; 107. an avoidance cavity; 108. a connecting through hole; 2. a connecting seat; 201. a connecting threaded hole; 202. mounting through holes; 3. a drive shaft; 301. driving the low surface; 302. driving the high surface; 303. limiting concave holes; 304. inserting holes; 305. a clamping groove; 306. clamping springs; 4. a cover plate; 401. countersink; 402. a connecting bolt; 403. a guide waist type groove; 404. a spacing cavity; 5. positioning columns; 501. a limiting ring; 6. and a driving ball.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be described in detail below. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, based on the examples herein, which are within the scope of the utility model as defined by the claims, will be within the scope of the utility model as defined by the claims.

Referring to fig. 1-5, the utility model provides a cam processing clamping tool structure, which comprises a bearing column 1, wherein the bottom end of the bearing column 1 is provided with a connecting seat 2 for being connected with the output end of a gear motor, the upper end of the bearing column 1 is provided with a cover plate 4, a guide waist-shaped groove 403 is arranged in the cover plate 4 in a penetrating manner, the guide waist-shaped groove 403 is provided with a plurality of mounting holes corresponding to cams, the guide waist-shaped groove 403 extends along the radial direction of the cover plate 4, a positioning column 5 is arranged in the guide waist-shaped groove 403, a driving shaft 3 is rotatably arranged in the bearing column 1, the driving shaft 3 extends along the radial direction of the bearing column 1, a transmission part is arranged between the driving shaft 3 and the positioning column 5, and the driving shaft 3 is rotated positively and reversely to drive the positioning column 5 to horizontally slide in the guide waist-shaped groove 403 through the transmission part so as to be far away from or close to each other.

As an alternative embodiment, in order to ensure that the positioning column 5 horizontally slides in the guide waist-shaped groove 403, as shown in fig. 5, the cover plate 4 has a double-layer structure, a spacing cavity 404 is provided on the bottom surface of the cover plate 4 above, a spacing ring 501 is provided on the outer side of the positioning column 5 inside the spacing cavity 404, and the spacing ring 501 cooperates with the spacing cavity 404 to limit lifting of the positioning column 5.

In order to facilitate the assembly and the disassembly of the cam 5, as shown in fig. 2 and 5, a sliding cavity 102 is arranged inside the bearing column 1, the sliding cavity 102 extends along the axial direction of the bearing column 1, the sliding cavity 102 penetrates through the upper end surface of the bearing column 1 and is communicated with the guide waist-shaped groove 403, and the bottom end of the positioning column 5 is in an inverted cone structure and extends into the sliding cavity 102; the transmission piece comprises a transmission ball 6, the transmission ball 6 is positioned in the sliding cavity 102 and above the driving shaft 3, the transmission ball 6 is abutted with the bottom ends of all positioning columns 5, the outer circular surface of the middle part of the driving shaft 3 is provided with a driving low surface 301 and a driving high surface 302, the driving low surface 301 and the driving high surface 302 extend along the circumference of the driving shaft 3, the driving low surface 301 and the driving high surface 302 are in smooth transition, the driving high surface 302 is contacted with the transmission ball 6, the transmission ball 6 rises and pushes the positioning columns 5 to slide in the guide waist-shaped groove 403 to be far away from each other, the driving low surface 301 is contacted with the transmission ball 6, the transmission ball 6 descends under the action of gravity, the pushing of the positioning columns 5 is relieved, and the surface of the driving high surface 302 is provided with a limiting concave hole 303 for limiting and fixing the transmission ball 6 on the driving high surface 302; when the cam is clamped, the limiting ring 501 is matched with the limiting cavity 404 to limit the lifting of the positioning column 5, so that the positioning column 5 can only horizontally slide in the guide waist-shaped groove 403, the driving shaft 3 is rotated to release the driving high surface 302 from the driving ball 6, the driving ball 6 ascends in the sliding cavity 102, the driving ball 6 contacts with the bottom end of the positioning column 5, and the positioning column 5 is pushed to horizontally slide in the guide waist-shaped groove 403 and move away from each other by applying a horizontal force to the positioning column 5, the inner wall of the cam mounting hole is tightly supported by the positioning column 5, the clamping fixation of the cam is realized, and after the driving ball 6 corresponds to the limiting concave hole 303, the driving ball 6 is kept in a state of contacting with the driving high surface 302, so that the clamping stability of the cam is ensured; the driving shaft 3 is reversely rotated, so that the driving ball 6 is separated from the limiting concave hole 303, the driving ball 6 is gradually contacted with the driving low surface 301, in the process, the driving ball 6 descends under the action of dead weight to release the pushing of the driving ball to the positioning column 5, the tightening of the positioning column 5 to the cam mounting hole is released, the clamping and fixing of the cam are released, and the cam is conveniently taken down from the surface of the cover plate 4.

In order to ensure that the positioning column 5 slides in the guide waist-shaped groove 403 under the pushing of the transmission ball 6, as shown in fig. 5, the inner diameter size of the sliding cavity 102 is matched with the outer diameter size of the transmission ball 6, the upper part of the sliding cavity 102 is coaxially provided with an avoidance cavity 107, the inner diameter size of the avoidance cavity 107 is larger than the horizontal sliding stroke distance size of the positioning column 5, so that the positioning column is arranged, the transmission ball 6 is limited and guided through the sliding cavity 102, the vertical lifting of the transmission ball 6 is ensured, the avoidance cavity 107 is arranged to avoid the bottom end of the positioning column 5, and the smooth horizontal sliding of the positioning column 5 in the guide waist-shaped groove 403 is ensured.

The bearing column 1 is internally provided with a rotating cavity 106, the rotating cavity 106 penetrates through the outer circular surface of the bearing column 1 along the radial direction of the bearing column 1, the rotating cavity 106 is connected with a sliding cavity 102, the outer side, close to two ports of the rotating cavity 106, of the bearing column 1 is provided with a limiting plane 101, a driving shaft 3 is rotatably arranged in the rotating cavity 106, two ends of the driving shaft 3 are provided with clamping grooves 305, clamping springs 306 are arranged in the clamping grooves 305, the two clamping springs 306 are respectively abutted with the two limiting planes 101, and the lengths of the two ends of the driving shaft 3 penetrating out of the rotating cavity 106 are the same; by adopting the structure, the stability of the driving shaft 3 along with the rotation of the bearing column 1 can be ensured, thereby ensuring the overall rotation stability.

Both ends that drive shaft 3 leaked all are provided with the insertion hole 304 along its radial direction penetration for insert the crow bar, set up like this, insert the crow bar and insert the insertion hole 304 inside, drive shaft 3 rotatory through the crow bar.

In order to facilitate the installation of the device, as shown in fig. 5, the surface of the connecting seat 2 is provided with two connecting threaded holes 201 in a penetrating way, the connecting threaded holes 201 are symmetrically distributed by taking the axis of the connecting seat 2 as a reference, the inside of the bearing column 1 penetrates through the connecting through holes 108 along the axial direction of the bearing column, the connecting through holes 108 correspond to the connecting threaded holes 201, the upper surface of the cover plate 4 is provided with a counter bore 401 in a penetrating way, the counter bore 401 corresponds to the connecting through holes 108, a connecting bolt 402 is inserted into the counter bore 401, and the connecting bolt 402 is in threaded connection with the connecting threaded holes 201; the center of the upper surface of the connecting seat 2 is provided with a mounting through hole 202 in insertion fit with the output end of the gear motor in a penetrating way, the inner wall of the mounting through hole 202 is provided with a key groove, the inner bottom surface of the sliding cavity 102 is provided with a bottom through hole 103 in a penetrating way, the inside of the bottom through hole 103 is provided with a mounting bolt 104, and the mounting bolt 104 is in threaded connection with a mounting threaded hole of the output end of the gear motor; the upper surface of the bearing column 1 is provided with a positioning groove 105, the positioning groove 105 is in clearance fit with the cover plate 4, when the bearing column is installed, a connecting key is placed in a key groove at the outer side of the output end of the gear motor, then the connecting seat 2 is sleeved at the outer side of the output end of the gear motor through an installation through hole 202, the connecting key is inserted into the key groove at the inner wall of the installation through hole 202, the plug-in connection of the connecting seat 2 and the output end of the gear motor is realized, the bearing column 1 is placed on the surface of the connecting seat 2, the connecting through hole 108 corresponds to a connecting threaded hole 201, an installation bolt 104 is inserted into a bottom through hole 103, the installation bolt 104 is screwed into the installation threaded hole, the fixed connection of the connecting seat 2 and the output end of the gear motor is realized, the driving shaft 3 is inserted into a rotating cavity 106, two clamping grooves 305 are respectively positioned at two ports of the rotating cavity 106, two clamping springs 306 are respectively clamped in the two clamping grooves 305, and the installation and the fixing of the driving shaft 3 is realized through the cooperation of the clamping springs 306 and a limiting plane 101; placing the driving ball 6 into the sliding cavity 102 above the driving shaft 3, and rotating the driving shaft 3 to enable the driving ball 6 to be in contact with the driving low surface 301; inserting the bottom end of the positioning column 5 into the guide waist-shaped groove 403 of the lower cover plate 4, butt-jointing and pressing the upper cover plate 4 on the surface of the lower cover plate 4, so that the limiting ring 501 is positioned in the limiting cavity 404, and the upper end of the positioning column 5 penetrates through the guide waist-shaped groove 403 of the upper cover plate 4, thereby completing the installation of the positioning column 5; the cover plate 4 is placed in the positioning groove 105, the counter bore 401 corresponds to the connecting through hole 108, the connecting bolt 402 is inserted into the counter bore 401 and the connecting through hole 108, and the connecting bolt 402 is screwed in the connecting threaded hole 201, so that the cover plate 4, the bearing column 1 and the connecting seat 2 are fixedly connected, and the whole installation is completed.

By adopting the structure, when the cam is clamped, the cam is placed on the surface of the cover plate 4, the upper end of the positioning column 5 penetrates through the mounting hole of the cam, the driving shaft 3 is rotated, the positioning column 5 is driven by the transmission assembly to horizontally slide in the guide waist-shaped groove 403 to be away from each other, and the positioning column 5 is fully contacted with the inside of the cam mounting hole, so that the cam is tightly supported and fixed; after finishing polishing the edges of the cams, reversely rotating the driving shaft 3, driving the positioning columns 5 to horizontally slide in the guide waist-shaped grooves 403 to mutually approach through the transmission assembly, and releasing the tightening of the positioning columns 5 on the cam mounting holes so as to be convenient for taking down the cams from the surface of the cover plate 4; the cam mounting hole is tightly supported by the positioning column 5, so that the cam is clamped and fixed, the cam stability is good, the outer circular surface of the cam is not damaged, the cam processing quality is ensured, the whole operation is simple and convenient, and the use effect is good.

The foregoing is merely illustrative of the present utility model, and the present utility model is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present utility model. Therefore, the protection scope of the present utility model shall be subject to the protection scope of the claims.

Claims (8)

1. Cam processing presss from both sides tight frock structure, its characterized in that: including bearing post (1), bearing post (1) bottom is provided with connecting seat (2) for being connected with gear motor's output, bearing post (1) upper end is provided with apron (4), apron (4) inside run through and are provided with direction waist type groove (403), direction waist type groove (403) are provided with a plurality of and correspond with the mounting hole of cam, direction waist type groove (403) extend along the radial direction of apron (4), direction waist type groove (403) inside is provided with reference column (5), bearing post (1) inside rotation is provided with drive shaft (3), drive shaft (3) radially extend along bearing post (1), are provided with the driving medium between drive shaft (3) and the reference column (5), and just, reverse rotation drive shaft (3) drive reference column (5) are kept away from each other or are close to through the driving medium in direction waist type groove (403) inside horizontal slip.

2. The cam tooling clamp structure of claim 1, wherein: the cover plate (4) is of a double-layer structure, a limiting cavity (404) is formed in the bottom surface of the cover plate (4) above, a limiting ring (501) is arranged on the outer side of the positioning column (5) inside the limiting cavity (404), and the limiting ring (501) is matched with the limiting cavity (404) to limit the lifting of the positioning column (5).

3. The cam tooling clamp structure of claim 2, wherein: the bearing column (1) is internally provided with a sliding cavity (102), the sliding cavity (102) axially extends along the bearing column (1), the sliding cavity (102) penetrates through the upper end face of the bearing column (1) and is communicated with the guide waist-shaped groove (403), and the bottom end of the positioning column (5) is of an inverted cone structure and extends into the sliding cavity (102);

the driving piece includes driving ball (6), and driving ball (6) are located inside sliding chamber (102), and are located driving shaft (3) top, driving ball (6) and all reference column (5) bottom butt, driving shaft (3) middle part outer disc is provided with drive low face (301) and drive high face (302), drive low face (301) and drive high face (302) all extend along driving shaft (3) circumference, and both smooth transition, drive high face (302) and driving ball (6) contact, driving ball (6) rise and promote reference column (5) and slide each other in direction waist type groove (403) and keep away from, drive low face (301) and driving ball (6) contact, driving ball (6) decline under the action of gravity, the promotion to reference column (5) is relieved, drive high face (302) surface is provided with spacing shrinkage pool (303) for with driving ball (6) spacing fixed at drive high face (302).

4. A cam tooling clamp structure according to claim 3, wherein: the inner diameter of the sliding cavity (102) is matched with the outer diameter of the transmission ball (6), an avoidance cavity (107) is coaxially arranged on the upper portion of the sliding cavity (102), and the inner diameter of the avoidance cavity (107) is larger than the horizontal sliding travel distance of the positioning column (5).

5. A cam tooling clamp structure according to claim 3, wherein: bear post (1) inside is provided with rotatory chamber (106), rotatory chamber (106) run through the outer disc that bears post (1) along bearing post (1) radial direction, rotatory chamber (106) are connected with sliding chamber (102), bear post (1) and be close to the outside of rotatory chamber (106) both ends mouth and be provided with spacing plane (101), drive shaft (3) rotate and set up inside rotatory chamber (106), drive shaft (3) both ends all are provided with draw-in groove (305), draw-in groove (305) inside is provided with jump ring (306), two jump rings (306) respectively with two spacing plane (101 butt, the length that rotatory chamber (106) was worn out at drive shaft (3) both ends is the same.

6. The cam tooling clamp structure of claim 5, wherein: both ends that drive shaft (3) spill are all run through along its radial direction and are provided with insertion hole (304) for insert the crow bar.

7. A cam tooling clamp structure according to claim 3, wherein: the surface of the connecting seat (2) is provided with two connecting threaded holes (201) in a penetrating mode, the connecting threaded holes (201) are symmetrically distributed by taking the axis of the connecting seat (2) as a reference, the inside of the bearing column (1) penetrates through the connecting through holes (108) along the axial direction of the bearing column, the connecting through holes (108) correspond to the connecting threaded holes (201), the upper surface of the cover plate (4) is provided with a counter bore (401) in a penetrating mode, the counter bore (401) corresponds to the connecting through holes (108), a connecting bolt (402) is inserted into the counter bore (401), and the connecting bolt (402) is in threaded connection with the connecting threaded holes (201);

the center of the upper surface of the connecting seat (2) is provided with a mounting through hole (202) which is in plug-in fit with the output end of the gear motor in a penetrating manner, the inner wall of the mounting through hole (202) is provided with a key groove, the inner bottom surface of the sliding cavity (102) is provided with a bottom through hole (103) in a penetrating manner, the inside of the bottom through hole (103) is provided with a mounting bolt (104), and the mounting bolt (104) is in threaded connection with a mounting threaded hole of the output end of the gear motor.

8. The cam tooling clamp structure of claim 7, wherein: the upper surface of the bearing column (1) is provided with a positioning groove (105), and the positioning groove (105) is in clearance fit with the cover plate (4).