CN114291566A - Automatic feeding clamp for machining depth groove of caliper - Google Patents

Abstract

The invention relates to an automatic feeding clamp for machining a depth groove of a caliper, which comprises a feeding clamp, a positioning clamp, a screw rod conveying mechanism, a pushing mechanism and a linkage mechanism, wherein the feeding clamp is arranged on the feeding clamp; the feeding clamp is driven by the screw rod conveying mechanism to drive the main scale to move back and forth on one side of the positioning clamp; pushing mechanism promotes the main scale in the material loading anchor clamps to the positioning fixture on, pushing mechanism keeps away from the positioning fixture and removes and be straight reciprocating motion after breaking away from the material loading anchor clamps, and drives lead screw conveying mechanism through the link gear for lead screw conveying mechanism drives material loading anchor clamps reciprocating motion back and forth and carries out the material loading. The invention can realize the forward and backward movement of the feeding clamp and the pushing of the main ruler blanking into the positioning clamp only by one motor, has simple structure, small occupied area, low equipment cost, energy saving and environmental protection, is matched with a smart linkage mechanism, has smooth whole feeding and blanking process and greatly accelerates the processing efficiency.

Description

Automatic feeding clamp for machining depth groove of caliper

Technical Field

The invention belongs to the field of vernier caliper machining, and particularly relates to an automatic feeding clamp for machining a depth groove of a caliper.

Background

For the production of vernier calipers, the body of a main ruler needs to be subjected to deep groove machining, before machining, the main ruler needs to be subjected to feeding, conveying and positioning by using a feeding clamp, the whole process needs to be subjected to three steps of feeding, feeding and transferring positioning machining, and the feeding and transferring positioning needs to be realized by two mechanical structures in two steps, so that the equipment cost is high, the occupied area is large, and the energy waste is also caused.

Disclosure of Invention

The invention aims to solve the problems and provide an automatic feeding clamp for processing a depth groove of a caliper.

The invention realizes the purpose through the following technical scheme:

an automatic feeding clamp for machining a depth groove of a caliper comprises a feeding clamp, a positioning clamp, a lead screw conveying mechanism, a pushing mechanism and a linkage mechanism; wherein,

the feeding clamp is driven by the screw rod conveying mechanism to drive the main ruler to reciprocate back and forth on one side of the positioning clamp;

pushing mechanism promotes the main scale in the material loading anchor clamps to the positioning fixture on, pushing mechanism keeps away from the positioning fixture and removes and be straight reciprocating motion after breaking away from the material loading anchor clamps, and drives lead screw conveying mechanism through the link gear for lead screw conveying mechanism drives material loading anchor clamps reciprocating motion back and forth and carries out the material loading.

As a further optimization scheme of the invention, the feeding clamp comprises a substrate, a limiting sliding groove which is formed in the upper surface of the substrate and arranged along the length direction of the substrate, and two limiting clamping plates which are arranged on the substrate and symmetrically arranged along the limiting sliding groove, wherein the ruler body of the main ruler is clamped into the limiting sliding groove through a gap between the two limiting clamping plates and slides in the limiting sliding groove, the gap between the two limiting clamping plates is smaller than the length of the measuring claw, and a clamping groove for clamping the measuring claw of the main ruler is formed in one side wall of the bottom of each limiting clamping plate, which is close to the limiting sliding groove.

As a further optimization scheme of the invention, the positioning fixture comprises a fixed table, a positioning groove which is formed in the upper surface of the fixed table and arranged along the length direction of the fixed table, an air cylinder which is installed on the fixed table, a material pushing plate which is fixed at the end of the air cylinder and extends into the positioning groove, a plurality of pressing blocks which are installed at the edge of the positioning groove and one end of each pressing block extends to the upper part of the positioning groove, and guide plates which are arranged at two sides of the inlet of the positioning groove, wherein the two guide plates are arranged above the positioning groove, the distance between the two guide plates is smaller than the length of the measuring claw, and the two guide plates are used for limiting the position of the measuring claw when the main ruler slides along the positioning groove.

As a further optimized scheme of the invention, the screw rod conveying mechanism comprises two guide rails arranged side by side and a first ball screw rod arranged in the guide rails, the substrate is fixed on a first nut in threaded connection with the first ball screw rod, and two sides of the bottom of the substrate are fixedly provided with sliding feet arranged on the guide rails in a sliding manner.

As a further optimization scheme of the invention, the pushing mechanism comprises a second ball screw, a push plate and an inverted U-shaped push rod, the second ball screw is driven by a motor, one end of the inverted U-shaped push rod is arranged on a second nut which is in threaded connection with the second ball screw, the push plate is fixedly arranged at the other end of the inverted U-shaped push rod, the push plate is attached to the measuring claw and slides in the clamping groove, and a front vertical rod and a rear vertical rod of the inverted U-shaped push rod slide along front and rear side walls of the limiting clamping plate at the rear side.

As a further optimization scheme of the invention, the linkage mechanism comprises a chain wheel set, a rack and a gear, wherein the rack is fixed on the second nut through a support and drives the gear to rotate when moving along with the second nut, the rotating gear drives the chain wheel set to rotate, and the chain wheel set drives the screw rod conveying mechanism.

As a further optimization scheme of the invention, the gear is fixed on a shell of the second ball screw through a rotating shaft and a bearing, the chain wheel set comprises a first chain wheel, a second chain wheel and a chain, the first chain wheel is fixed on the rotating shaft, the second chain wheel is fixed on the first ball screw, and the first chain wheel and the second chain wheel are driven through the chain.

As a further optimization scheme of the invention, a lifting door is arranged between the feeding clamp and the positioning clamp, the lifting door comprises a door frame and a rolling door arranged in the door frame through a rotating shaft and a coil spring, the rotating shaft is in transmission connection with a first ball screw through a rolling rope, and when the first ball screw drives the feeding clamp to move back and forth, the rolling rope is rolled/unwound respectively, so that the rotating shaft rotates forward and backward to close and open the rolling door.

The invention has the beneficial effects that:

1) the feeding clamp can move back and forth to feed and push the main ruler to discharge into the positioning clamp by only one motor, the structure is simple, the equipment cost is low, the energy is saved, the environment is protected, a smart linkage mechanism is matched, the whole feeding and discharging process is smooth, and the processing efficiency is greatly accelerated;

2) the mechanical structure of the whole feeding clamp is centralized at the rear side of the feeding clamp, the feeding station is at the front side, the safety of workers can be well guaranteed, and the whole feeding clamp occupies a small area;

3) according to the invention, the rolling type lifting door between the feeding clamp and the positioning clamp is linked with the first ball screw through the rolling rope, the lifting door is driven to close to separate the feeding clamp from the positioning clamp when the feeding clamp moves forward for feeding and the main scale depth groove at the positioning clamp is machined, so that the feeding structure at the right side is prevented from being influenced by dust generated by machining the groove, the service life is prolonged, and the damage probability is reduced.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is an overall top view of the present invention.

Fig. 3 is an overall plan view of the present invention with a lift gate.

FIG. 4 is a schematic view of the structure of the lift gate and ball screw drive of the present invention.

In the figure: 1. a feeding clamp; 11. a substrate; 12. a limiting chute; 13. a limiting clamping plate; 14. a card slot; 2. positioning a clamp; 21. a fixed table; 22. positioning a groove; 23. a cylinder; 24. a material pushing plate; 25. briquetting; 26. a guide plate; 3. a screw rod conveying mechanism; 31. a guide rail; 32. a first ball screw; 33. a first nut; 34. a sliding foot; 4. a pushing mechanism; 41. a second ball screw; 42. pushing the plate; 43. an inverted U-shaped push rod; 44. a second nut; 5. a linkage mechanism; 51. a sprocket set; 52. a rack; 53. a gear; 6. a lift gate; 61. a door frame; 62. a roller shutter door; 7. and (6) winding the rope.

Detailed Description

The present application will now be described in further detail with reference to the drawings, it should be noted that the following detailed description is given for illustrative purposes only and is not to be construed as limiting the scope of the present application, as those skilled in the art will be able to make numerous insubstantial modifications and adaptations to the present application based on the above disclosure.

In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention; in the description of the present invention, the meaning of "plurality" or "a plurality" is two or more unless otherwise specified.

Example 1

As shown in fig. 1-2, an automatic feeding clamp for caliper depth groove machining comprises a feeding clamp 1, a positioning clamp 2, a screw rod conveying mechanism 3, a pushing mechanism 4 and a linkage mechanism 5; wherein,

the feeding clamp 1 is driven by a screw rod conveying mechanism 3 to drive the main ruler to reciprocate back and forth on one side of the positioning clamp 2; the feeding clamp 1 comprises a substrate 11, a limiting sliding groove 12 formed in the upper surface of the substrate 11 and arranged along the length direction of the substrate 11, and two limiting clamping plates 13 mounted on the substrate 11 and symmetrically arranged along the limiting sliding groove 12, wherein a ruler body of the main ruler is clamped into the limiting sliding groove 12 through a gap between the two limiting clamping plates 13 and slides in the limiting sliding groove 12, the gap between the two limiting clamping plates 13 is smaller than the length of the measuring claw, and a clamping groove 14 used for clamping the measuring claw of the main ruler is formed in one side wall of the bottom of each limiting clamping plate 13, which is close to the limiting sliding groove 12;

the positioning clamp 2 comprises a fixed table 21, a positioning groove 22 which is arranged on the upper surface of the fixed table 21 and is arranged along the length direction of the fixed table 21, an air cylinder 23 which is arranged on the fixed table 21, a material pushing plate 24 which is fixed on the rod end of the air cylinder 23 and extends into the positioning groove 22, a plurality of pressing blocks 25 which are arranged on the edge of the positioning groove 22 and one end of each pressing block extends to the upper part of the positioning groove 22, and guide plates 26 which are arranged on two sides of the inlet of the positioning groove 22, wherein the two guide plates 26 are arranged above the positioning groove 22, the distance between the two guide plates 26 is smaller than the length of a measuring claw, and the positioning clamp is used for limiting the position of the measuring claw when a main ruler slides along the positioning groove 22;

the screw rod conveying mechanism 3 comprises two guide rails 31 arranged side by side and a first ball screw 32 arranged in the guide rails 31, the substrate 11 is fixed on a first nut 33 in threaded connection with the first ball screw 32, and two sides of the bottom of the substrate 11 are fixedly provided with sliding feet 34 arranged on the guide rails 31 in a sliding manner;

the pushing mechanism 4 comprises a second ball screw 41, a push plate 42 and an inverted U-shaped push rod 43, the second ball screw 41 is driven by a motor, one end of the inverted U-shaped push rod 43 is mounted on a second nut 44 which is in threaded connection with the second ball screw 41, the push plate 42 is fixedly mounted at the other end of the inverted U-shaped push rod 43, the push plate 42 is attached to the measuring claw and slides in the clamping groove 14, and the front vertical rod and the rear vertical rod of the inverted U-shaped push rod 43 slide along the front side wall and the rear side wall of the limiting clamping plate 13 at the rear side;

the linkage mechanism 5 comprises a chain wheel set 51, a rack 52 and a gear 53, the rack 52 is fixed on the second nut 44 through a bracket and drives the gear 53 to rotate when moving along with the second nut 44, the rotating gear 53 drives the chain wheel set 51 to rotate, and the chain wheel set 51 drives the screw rod conveying mechanism 3; the gear 53 is fixed on the shell of the second ball screw 41 through a rotating shaft and a bearing, the chain wheel group 51 comprises a first chain wheel, a second chain wheel and a chain, the first chain wheel is fixed on the rotating shaft, the second chain wheel is fixed on the first ball screw 32, and the first chain wheel and the second chain wheel are driven through the chain;

pushing mechanism 4 promotes the main scale in the material loading anchor clamps 1 to positioning fixture 2 on, pushing mechanism 4 keeps away from positioning fixture 2 and removes and make straight reciprocating motion after breaking away from material loading anchor clamps 1, and drives lead screw conveying mechanism 3 through link gear 5 for lead screw conveying mechanism 3 drives material loading anchor clamps 1 reciprocating motion back and forth and carries out the material loading.

It should be noted that when the feeding clamp 1 is arranged on the front side of the screw rod conveying mechanism 3, the main ruler is fed manually, when the main ruler is fed, the ruler body is placed in alignment with the gap between the two limiting clamping plates 13, the measuring claw is attached to the right side walls of the two limiting clamping plates 13, and when the main ruler is placed in the limiting sliding groove 12 and clamped with the limiting sliding groove 12, the feeding preparation is made;

before the pushing mechanism 4 is started, the second nut 44 drives the inverted U-shaped push rod 43 and the push plate 42 to be positioned at the rightmost end of the second ball screw 41, and the rack 52 is meshed with the gear 53; starting a motor of the pushing mechanism 4, the second ball screw 41 drives the second nut 44 and the inverted U-shaped push rod 43 to move to the left side, namely to the direction close to the positioning fixture 2, at the same time, the moved second nut 44 simultaneously drives the rack 52 to move, the rack 52 is meshed with the gear 53, so that the counterclockwise rotation of the gear 53 is realized, the gear 53 drives the chain wheel set 51 to rotate through the rotating shaft after rotating, the chain wheel set 51 drives the first ball screw 32 to rotate counterclockwise, the first ball screw 32 drives the feeding fixture 1 and the main ruler to move to the rear side through the first nut 33 until the limiting chute 12 is collinear with the positioning groove 22, at the moment, the rack 52 is separated from the gear 53, the push plate 42 also moves to one side of the measuring claw and is attached to the measuring claw, the second ball screw 41 is continuously driven to drive the second nut 44 and the inverted U-shaped push rod 43 to continuously move to the left side, at the second nut 44 can drive the inverted U-shaped push rod 43 and the push plate 42 to move to the left side, the push plate 42 gradually pushes the measuring claw to move the whole main ruler to the left into the positioning groove 22, finally the second ball screw 41 is driven in a reverse direction to drive the inverted U-shaped push rod 43 and the push plate 42 to move towards the right side to be separated from the feeding clamp 1, the left side continues to move, at the moment, the rack 52 is in contact with the gear 53 and drives the gear 53 to rotate clockwise, the gear 53 drives the first ball screw 32 to rotate clockwise through the chain wheel group 51, and the first nut 33 can drive the feeding clamp 1 to move forwards to a feeding station for feeding again;

the front side and the rear side of the main ruler body conveyed into the positioning fixture 2 are limited by the positioning grooves 22, the top of the ruler body is limited by the pressing block 25, the measuring claw is limited by the guide plate 26, and finally the cylinder 23 is started to push the two ruler bodies of the material pushing plate 24 to be only pressed in the positioning grooves 22, so that the deep groove machining operation can be carried out.

In addition, in order to shorten the reciprocating distance of the push plate 42 on the right side of the loading clamp 1, namely, shorten the length of the whole device, the gear ratio of the first chain wheel and the second chain wheel of the chain wheel set 51 can be designed to be larger than 1, so that when the rotating shaft rotates, the first ball screw 32 can be driven to rotate rapidly, and the long-distance reciprocating movement of the loading clamp 1 is realized.

The whole feeding clamp can realize the forward and backward movement feeding of the feeding clamp 1 and the pushing of the main ruler blanking into the positioning clamp 2 only by one motor, has simple structure, low equipment cost, energy saving and environmental protection, is matched with a smart linkage mechanism 5, has smooth whole feeding and blanking processes, and greatly accelerates the processing efficiency; in addition, the mechanical structure of the whole feeding clamp is centralized on the rear side of the feeding clamp 1, the feeding station is arranged on the front side, the safety of workers can be well guaranteed, and the occupied area of the whole feeding clamp is small.

As shown in fig. 3-4, a lifting door 6 is arranged between the feeding clamp 1 and the positioning clamp 2, the lifting door 6 includes a door frame 61 and a rolling door 62 installed in the door frame 61 through a rotating shaft and a coil spring, the rotating shaft is in transmission connection with the first ball screw 32 through a rolling rope 7, and when the first ball screw 32 drives the feeding clamp 1 to move back and forth, the rolling rope 7 is respectively rolled/uncoiled, so that the rotating shaft rotates forward and backward to close and open the rolling door 62.

It should be noted that, when the deep groove processing is performed at the station of the positioning fixture 2, in order to avoid the influence of processing debris and the like on the feeding fixture 1, the pushing mechanism 4, the screw rod conveying mechanism 3 and the linkage mechanism 5, a lifting door 6 is arranged between the feeding fixture 1 and the positioning fixture 2, the lifting door 6 is of a roller shutter type, the rolling door 62 is rolled/unwound by a rotating shaft, and the force is stored by a coil spring when the rolling/unwinding is performed; when the first ball screw 32 drives the feeding clamp 1 to move forwards to the feeding station, the main ruler at the position of the positioning clamp 2 can be subjected to deep groove processing, the first ball screw 32 drives the winding rope 7 to wind clockwise, so that the rotating shaft rotates clockwise to unwind, the unwinding of the rolling door 62 is closed, and the feeding clamp 1 and the positioning clamp 2 are isolated; on the contrary, when the first ball screw 32 drives the feeding clamp 1 to move backwards to one side of the positioning clamp 2, the first ball screw 32 drives the rolling rope 7 to roll anticlockwise, and at the moment, the rotating shaft is not pulled by the rolling rope 7, rotates anticlockwise under the acting force of the coil spring, rolls and opens the rolling door 62, and conveniently pushes the main ruler in the feeding clamp 1 into the positioning clamp 2;

except that overhead door 6, can also set up the cover body in the 2 outsides of positioning fixture, overhead door 6 is installed on the right side wall of the cover body, can realize whole positioning fixture 2's sealed like this when overhead door 6 closes, and degree of depth groove processing tool and dust collecting equipment can install at cover body inner chamber top, process in the cover body, prevent that the dust from splashing and influencing the right side structure.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (8)

1. The utility model provides a caliber rule degree of depth groove processing is with autoloading anchor clamps which characterized in that: comprises a feeding clamp (1), a positioning clamp (2), a screw rod conveying mechanism (3), a pushing mechanism (4) and a linkage mechanism (5); wherein,

the feeding clamp (1) is driven by the screw rod conveying mechanism (3) to drive the main scale to reciprocate back and forth on one side of the positioning clamp (2);

pushing mechanism (4) promote the main scale in material loading anchor clamps (1) to positioning fixture (2) on, pushing mechanism (4) keep away from positioning fixture (2) and remove and do straight reciprocating motion after breaking away from material loading anchor clamps (1), and drive lead screw conveying mechanism (3) through link gear (5) for lead screw conveying mechanism (3) drive material loading anchor clamps (1) reciprocating motion back and forth carries out the material loading.

2. The automatic feeding clamp for processing the depth groove of the caliper according to claim 1, wherein: the feeding clamp (1) comprises a base plate (11), a limiting sliding groove (12) formed in the upper surface of the base plate (11) and arranged along the length direction of the base plate (11), and two limiting clamping plates (13) which are arranged on the base plate (11) and symmetrically arranged along the limiting sliding groove (12), wherein a main ruler body is clamped into a gap between the two limiting clamping plates (13) and slides in the limiting sliding groove (12), the gap between the two limiting clamping plates (13) is smaller than the length of a measuring claw, and a clamping groove (14) used for clamping the measuring claw of the main ruler is formed in one side wall, close to the limiting sliding groove (12), of the bottom of each of the two limiting clamping plates (13).

3. The automatic feeding clamp for processing the depth groove of the caliper according to claim 2, wherein: positioning fixture (2) include fixed station (21), set up locating slot (22) that set up in fixed station (21) upper surface and along fixed station (21) length direction, install cylinder (23) on fixed station (21), be fixed in cylinder (23) rod end and extend to scraping wings (24) in locating slot (22), install in a plurality of briquetting (25) that locating slot (22) edge and one end extend to locating slot (22) top and set up deflector (26) in locating slot (22) entrance both sides, two deflectors (26) set up the interval that is less than measuring claw length in locating slot (22) top and between for measuring claw position when spacing main scale slides along locating slot (22).

4. The automatic feeding clamp for machining the depth groove of the caliper according to claim 3, wherein: screw rod conveying mechanism (3) are including two guide rails (31) that set up side by side and install ball screw (32) No. one in guide rail (31), base plate (11) are fixed in on threaded connection nut (33) on ball screw (32), fixed being equipped with in base plate (11) bottom both sides slide foot (34) that set up on guide rail (31).

5. The automatic feeding clamp for machining the depth groove of the caliper according to claim 4, wherein: pushing mechanism (4) are including No. two ball screw (41), push pedal (42), type of falling U push rod (43), No. two ball screw (41) are by motor drive, type of falling U push rod (43) one end is installed on No. two nuts (44) on threaded connection No. two ball screw (41), push pedal (42) fixed mounting is in type of falling U push rod (43) other end, push pedal (42) and measurement claw laminating slide in draw-in groove (14), two montants slide along both sides wall around spacing cardboard (13) of rear side around type of falling U push rod (43).

6. The automatic feeding clamp for machining the depth groove of the caliper according to claim 5, wherein: link gear (5) are including sprocket group (51), rack (52) and gear (53), rack (52) are fixed in No. two nuts (44) through the support on to following No. two nuts (44) and drive when removing gear (53) rotate, pivoted gear (53) drive sprocket group (51) rotate, sprocket group (51) drive lead screw conveying mechanism (3).

7. The automatic feeding clamp for machining the depth groove of the caliper according to claim 6, wherein: gear (53) are fixed in on the shell of No. two ball screw (41) through pivot and bearing, sprocket group (51) are including a sprocket, No. two sprockets and chain, a sprocket is fixed in the pivot, No. two sprockets are fixed in on ball screw (32), a sprocket and No. two sprockets pass through chain drive.

8. The automatic feeding clamp for machining the depth groove of the caliper according to claim 4, wherein: be provided with between material loading anchor clamps (1), the positioning fixture (2) and go up and down door (6), go up and down door (6) including door frame (61) and install rolling slats door (62) in door frame (61) through pivot and coil spring, be connected through rolling up rope (7) transmission between pivot and ball screw (32), when ball screw (32) drive material loading anchor clamps (1) back-and-forth movement, rolling up/put rolling up rope (7) respectively for the pivot forward and reverse rotation carries out closing and opening of rolling slats door (62).

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