CN210188725U

CN210188725U - Special chamfering machine for gear sleeve

Info

Publication number: CN210188725U
Application number: CN201921262025.3U
Authority: CN
Inventors: Guiyong Zhang; 张桂永
Original assignee: Xinchang Sanli Machinery Co Ltd
Current assignee: Xinchang Sanli Machinery Co Ltd
Priority date: 2019-08-06
Filing date: 2019-08-06
Publication date: 2020-03-27
Anticipated expiration: 2029-08-06

Abstract

The utility model provides a special beveler of tooth cover, including the mount pad, be equipped with tooth cover fixture at the top of mount pad, tooth cover fixture is by setting up the first servo motor on the mount pad, set up the support that sets up on the mount pad upside and be connected with the linkage of first servo motor, set up along the horizontal direction and cooperate the two-way lead screw of swing joint on the support through bearing and axle bed, set up the hand wheel at one end of two-way lead screw, the first connecting sleeve of threaded connection on the different screw thread section of two-way lead screw direction of rotation respectively, the head rod of setting on each first connecting sleeve, the direction subassembly that sets up at each head rod lower extreme and can dismantle the clamp splice that sets up on each head rod upper end and constitute; the shapes of the clamping blocks are adapted to the shape of an external gear sleeve, and the two clamping blocks are matched to apply force to clamp and fix the gear sleeve from inside to outside; the utility model discloses compact structure, excellent in use effect can be exclusively used in and carry out the chamfer to the tooth cover.

Description

Special chamfering machine for gear sleeve

Technical Field

The utility model relates to a gear sleeve professional equipment specifically is a special beveler of gear sleeve.

Background

After the gear milling process of the gear sleeve, some burrs exist on the gear surface, and if the burrs are not removed, the accuracy of the gear sleeve is affected, and the service life of the gear sleeve is indirectly affected. The traditional deburring method is manual chamfering deburring, but the labor intensity of workers is high, the machining efficiency is low, and the production efficiency of the gear sleeve is influenced, so that chamfering is generally performed by adopting a chamfering machine, but the existing chamfering machine is not specially used for the gear sleeve in the use process, so that the gear sleeve is difficult to fix well, the machining is influenced, and the use is inconvenient.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a special beveler of tooth cover to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a special chamfering machine for gear sleeves comprises a mounting seat, wherein a gear sleeve clamping mechanism is arranged at the top of the mounting seat, vertical rods are arranged at the top of the mounting seat on two sides of the gear sleeve clamping mechanism along the vertical direction, a top plate is arranged on the upper end face of each vertical rod, an adjusting mechanism is arranged on each top plate, a chamfering mechanism matched with the gear sleeve clamping mechanism is arranged at the lower end of each adjusting mechanism, a control unit is arranged on the mounting seat, and the gear sleeve clamping mechanism, the adjusting mechanism and the chamfering mechanism are respectively connected with the control unit;

the gear sleeve clamping mechanism consists of a first servo motor arranged on the mounting seat, a support arranged on the upper side of the mounting seat and in linkage connection with the first servo motor, a bidirectional screw rod which is arranged along the horizontal direction and is matched and movably connected with the support through a bearing and a shaft seat, a hand wheel arranged at one end of the bidirectional screw rod, first connecting sleeves which are respectively in threaded connection with screw sections with different turning directions of the bidirectional screw rod, first connecting rods arranged on the first connecting sleeves, a guide assembly arranged at the lower end of each first connecting rod and clamping blocks detachably arranged at the upper ends of the first connecting rods; the first servo motor is connected with the control unit; the shapes of the clamping blocks are adapted to the shape of an external gear sleeve, and the two clamping blocks are matched to apply force from inside to outside to clamp and fix the gear sleeve.

As a further aspect of the present invention: the bracket consists of a mounting plate which is arranged along the horizontal direction and is in linkage connection with the first servo motor and fixing plates which are arranged on the upper end surface of the mounting plate at intervals along the horizontal direction; the bidirectional screw rod is matched with the shaft seat through a bearing and movably connected between the two fixing plates;

the guide assembly comprises a first wear-resistant sleeve arranged at the lower end of each first connecting rod and a guide rod which movably penetrates through each first wear-resistant sleeve along the horizontal direction and is fixedly connected between the two fixing plates.

As a further aspect of the present invention: the adjusting mechanism consists of air cylinders which are arranged on the upper end surface of the top plate at intervals along the horizontal direction, a moving box which is arranged on the lower side of the top plate along the horizontal direction and is in linkage connection with each air cylinder, a screw rod which is arranged along the horizontal direction and is matched with the shaft seat through a bearing and movably connected in the moving box, a second servo motor which is arranged on the outer side of the moving box and is in linkage connection with the screw rod, a second connecting sleeve which is in threaded connection with the screw rod, a second connecting rod which is arranged on the lower end surface of the second connecting sleeve, a U-shaped guide limiting frame which is arranged at the bottom in the moving box and a second wear-resistant sleeve which is arranged on the second connecting rod and is; the chamfering mechanism is arranged at the lower end of the second connecting rod, and the second servo motor is connected with the control unit.

As a further aspect of the present invention: guide auxiliary components are arranged between the two sides of the movable box and the upright rods, and each guide auxiliary component consists of fixed rods arranged on the two sides of the movable box at intervals and a guide sleeve arranged at the free end of each fixed rod; each guide sleeve is movably sleeved on the corresponding upright pole.

As a further aspect of the present invention: the chamfering mechanism consists of a mounting box arranged at the lower end of the adjusting mechanism, a speed reducing motor arranged in the mounting box and a chamfering tool bit arranged at the power output end of the speed reducing motor; the speed reducing motor is connected with the control unit.

Compared with the prior art, the beneficial effects of the utility model are that:

after the structure is adopted, the gear sleeve clamping mechanism can effectively clamp and fix the gear sleeve, has good use effect, and is convenient for chamfering through the chamfering mechanism after clamping the gear sleeve; the position of the chamfering tool bit can be conveniently adjusted through the arranged adjusting mechanism, so that the gear sleeve is chamfered, and the applicability of the device is improved; the utility model discloses compact structure, excellent in use effect can be exclusively used in and carry out the chamfer to the tooth cover.

Drawings

Fig. 1 is a schematic structural view of a special chamfering machine for a gear sleeve.

Fig. 2 is a partially enlarged schematic view of a portion a in fig. 1.

Fig. 3 is a partially enlarged schematic view of a portion B in fig. 1.

In the figure: 1. a mounting seat; 2. a gear sleeve clamping mechanism; 201. a first servo motor; 202. a support; 203. a bidirectional screw rod; 204. a hand wheel; 205. a first connecting sleeve; 206. a first connecting rod; 207. a guide assembly; 208. a clamping block; 209. mounting a plate; 2010. a fixing plate; 2011. a first wear sleeve; 2012. a guide bar; 3. erecting a rod; 4. a top plate; 5. an adjustment mechanism; 501. a cylinder; 502. a mobile box; 503. a screw rod; 504. a second servo motor; 505. a second connecting sleeve; 506. a second connecting rod; 507. a U-shaped guide limiting frame; 508. a second wear sleeve; 6. a chamfering mechanism; 601. installing a box; 602. a reduction motor; 603. chamfering the tool bit; 7. a control unit; 8. a guide assistance assembly; 801. fixing the rod; 802. and a guide sleeve.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Referring to fig. 1-3, a special chamfering machine for a gear sleeve comprises an installation base 1, a gear sleeve clamping mechanism 2 is arranged at the top of the installation base 1, upright rods 3 are arranged at the top of the installation base 1 at two sides of the gear sleeve clamping mechanism 2 along the vertical direction, a top plate 4 is arranged on the upper end face of each upright rod 3, an adjusting mechanism 5 is arranged on each top plate 4, a chamfering mechanism 6 matched with the gear sleeve clamping mechanism 2 is arranged at the lower end of each adjusting mechanism 5, a control unit 7 is arranged on the installation base 1, and the gear sleeve clamping mechanism 2, the adjusting mechanism 5 and the chamfering mechanism 6 are respectively connected with the control unit 7; the gear sleeve clamping mechanism 2 consists of a first servo motor 201 arranged on the mounting seat 1, a support 202 arranged on the upper side of the mounting seat 1 and in linkage connection with the first servo motor 201, a bidirectional screw rod 203 which is arranged along the horizontal direction and is matched with a shaft seat through a bearing and movably connected on the support 202, a hand wheel 204 arranged at one end of the bidirectional screw rod 203, first connecting sleeves 205 which are respectively in threaded connection with different thread sections of the bidirectional screw rod 203 in different rotating directions, first connecting rods 206 arranged on the first connecting sleeves 205, guide assemblies 207 arranged at the lower ends of the first connecting rods 206 and clamping blocks 208 detachably arranged at the upper ends of the first connecting rods 206; the first servo motor 201 is connected with the control unit 7; the shapes of the clamping blocks 208 are adapted to the shape of an external gear sleeve, and the two clamping blocks 208 are matched to apply force from inside to outside to clamp and fix the gear sleeve; through setting up tooth cover fixture 2, can effectually carry out the centre gripping to the tooth cover fixed, excellent in use effect is convenient for carry out the chamfer to tooth cover centre gripping back through chamfering mechanism 6.

Specifically, the bracket 202 is composed of a mounting plate 209 arranged along the horizontal direction and linked with the first servo motor 201, and fixing plates 2010 arranged on the upper end surface of the mounting plate 209 at intervals along the horizontal direction; the bidirectional screw rod 203 is matched with the shaft seat through a bearing and movably connected between the two fixing plates 2010; the guide assembly 207 is composed of first wear-resistant sleeves 2011 arranged at the proximal end parts of the lower ends of the first connecting rods 206 and guide rods 2012 which penetrate the first wear-resistant sleeves 2011 in the horizontal direction and are fixedly connected between the two fixing plates 2010, so that the two clamping blocks 208 can move only along the axis of the bidirectional screw rod 203 to clamp and fix the gear sleeve.

Specifically, the adjusting mechanism 5 is composed of air cylinders 501 arranged on the upper end surface of the top plate 4 at intervals along the horizontal direction, a moving box 502 arranged on the lower side of the top plate 4 along the horizontal direction and connected with each air cylinder 501 in a linkage manner, a screw rod 503 arranged along the horizontal direction and movably connected with the shaft seat in the moving box 502 in a matching manner through a bearing, a second servo motor 504 arranged on the outer side of the moving box 502 and connected with the screw rod 503 in a linkage manner, a second connecting sleeve 505 connected with the screw rod 503 in a threaded manner, a second connecting rod 506 arranged on the lower end surface of the second connecting sleeve 505, a U-shaped guide limiting frame 507 arranged at the inner bottom of the moving box 502, and a second wear-resistant sleeve 508 arranged on the second connecting rod 506 and movably sleeved on the horizontal part of the U-shaped; the chamfering mechanism 6 is arranged at the lower end of the second connecting rod 506, and the second servo motor 504 is connected with the control unit 7, so that the position of the chamfering mechanism 6 can be adjusted.

Preferably, a guiding auxiliary assembly 8 is arranged between each upright rod 3 and each side of the movable box 502, and the guiding auxiliary assembly 8 is composed of fixing rods 801 arranged at both sides of the movable box 502 at intervals and a guiding sleeve 802 arranged at the free end of each fixing rod 801; each guide sleeve 802 is movably sleeved on the corresponding upright rod 3, so that the movable box 502 can only move up and down, and the stability of the device is improved.

Specifically, the chamfering mechanism 6 is composed of a mounting box 601 arranged at the lower end of the adjusting mechanism 5, a speed reducing motor 602 arranged in the mounting box 601, and a chamfering tool bit 603 arranged at the power output end of the speed reducing motor 602; the reduction motor 602 is connected to the control unit 7.

In this embodiment, it should be noted that the control unit 7, the first servo motor 201, each air cylinder 501, the second servo motor 504, and the speed reduction motor 602, which are connected to the control unit 7, are all in the prior art, and the connections between the components are also in the prior art, so that the connection and the operation principle thereof are not described in detail herein.

The utility model discloses a theory of operation is: the gear sleeve is replaced by the corresponding clamping blocks 208 according to the gear sleeve, then the gear sleeve is sleeved on the periphery of the two clamping blocks 208, then the hand wheel 204 is rotated to drive the two-way screw rod 203 to rotate, the two clamping blocks 208 are far away from each other, force is applied from inside to outside to clamp and fix the gear sleeve, then the position of the chamfering mechanism 6 is adjusted through the adjusting mechanism 5, and then the chamfering mechanism 6 simultaneously starts the first servo motor 201 to drive the gear sleeve to rotate to chamfer the gear sleeve.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims

1. A special chamfering machine for gear sleeves comprises a mounting seat (1) and is characterized in that a gear sleeve clamping mechanism (2) is arranged at the top of the mounting seat (1), vertical rods (3) are arranged at the tops of the mounting seats (1) on the two sides of the gear sleeve clamping mechanism (2) along the vertical direction, a top plate (4) is arranged on the upper end face of each vertical rod (3), an adjusting mechanism (5) is arranged on each top plate (4), a chamfering mechanism (6) matched with the gear sleeve clamping mechanism (2) is arranged at the lower end of each adjusting mechanism (5), a control unit (7) is arranged on the mounting seat (1), and the gear sleeve clamping mechanism (2), the adjusting mechanism (5) and the chamfering mechanism (6) are respectively connected with the control unit (7);

the gear sleeve clamping mechanism (2) is composed of a first servo motor (201) arranged on the mounting seat (1), a support (202) which is arranged on the upper side of the mounting seat (1) and is in linkage connection with the first servo motor (201), a bidirectional screw rod (203) which is arranged in the horizontal direction and is matched with the shaft seat through a bearing and movably connected onto the support (202), a hand wheel (204) arranged at one end of the bidirectional screw rod (203), first connecting sleeves (205) which are respectively in threaded connection with different thread sections of the bidirectional screw rod (203) in different rotating directions, first connecting rods (206) arranged on the first connecting sleeves (205), guide assemblies (207) arranged at the lower ends of the first connecting rods (206) and clamping blocks (208) detachably arranged at the upper ends of the first connecting rods (206); the first servo motor (201) is connected with the control unit (7); the shapes of the clamping blocks (208) are adapted to the shape of an external gear sleeve, and the two clamping blocks (208) are matched to apply force from inside to outside to clamp and fix the gear sleeve.

2. The special chamfering machine for gear sleeves according to claim 1, wherein the bracket (202) is composed of a mounting plate (209) which is arranged along the horizontal direction and is in linkage connection with the first servo motor (201) and fixing plates (2010) which are arranged on the upper end surface of the mounting plate (209) along the horizontal direction at intervals; the bidirectional screw rod (203) is matched with the shaft seat through a bearing and movably connected between the two fixing plates (2010);

the guide assembly (207) is composed of first wear-resistant sleeves (2011) arranged at the proximal end parts of the lower ends of the first connecting rods (206) and guide rods (2012) which penetrate through the first wear-resistant sleeves (2011) in a horizontal direction and are fixedly connected between the two fixing plates (2010).

3. The special chamfering machine for gear sleeves according to claim 1, the adjusting mechanism (5) is composed of air cylinders (501) which are arranged on the upper end face of the top plate (4) at intervals in the horizontal direction, a moving box (502) which is arranged on the lower side of the top plate (4) in the horizontal direction and is in linkage connection with each air cylinder (501), a screw rod (503) which is arranged in the horizontal direction and is matched and movably connected with a shaft seat in the moving box (502) through a bearing, a second servo motor (504) which is arranged on the outer side of the moving box (502) and is in linkage connection with the screw rod (503), a second connecting sleeve (505) which is in threaded connection with the screw rod (503), a second connecting rod (506) which is arranged on the lower end face of the second connecting sleeve (505), a U-shaped guide limiting frame (507) which is arranged at the inner bottom of the moving box (502), and a second wear-resistant sleeve (508) which is arranged on the second connecting rod (506) and; the chamfering mechanism (6) is arranged at the lower end of a second connecting rod (506), and the second servo motor (504) is connected with the control unit (7).

4. The special chamfering machine for gear sleeves according to claim 3, wherein a guiding auxiliary assembly (8) is arranged between both sides of the moving box (502) and each upright rod (3), the guiding auxiliary assembly (8) is composed of fixed rods (801) arranged at both sides of the moving box (502) at intervals and a guiding sleeve (802) arranged at the free end of each fixed rod (801); each guide sleeve (802) is movably sleeved on the corresponding upright rod (3).

5. The special chamfering machine for gear sleeves according to claim 1, wherein the chamfering mechanism (6) is composed of a mounting box (601) arranged at the lower end of the adjusting mechanism (5), a speed reducing motor (602) arranged in the mounting box (601), and a chamfering tool bit (603) arranged at the power output end of the speed reducing motor (602); the speed reducing motor (602) is connected with the control unit (7).