CN113927513A - Precision machining clamping tool with protection function - Google Patents

Abstract

The invention provides a clamping tool with a protection function for precision machining, which comprises a box body, wherein the box body is in a cuboid shape, two through holes are symmetrically arranged above the damping plate, a movable bracket is arranged in each through hole, when the precision machine to be machined needs to be processed, the precision machine to be machined is placed on the damping plate, the height of the clamping plate is adjusted by the lifting mechanism to be parallel to the precision machine to be processed, and then the movable bracket is driven by the two-way moving mechanism to drive the clamping plate to move oppositely, so that the two clamping plates fix the precision machine to be processed, in the process, when the clamping plate is contacted with the precision machine to be processed, the clamping degree of the clamping plate can be observed through the elastic component, thereby being not easy to cause the situation that the precision machine is damaged due to the untight clamping or the over-tight clamping, in the course of working, insert different round holes through the gag lever post and carry out angle modulation with treating the processing precision machinery.

Description

Precision machining clamping tool with protection function

Technical Field

The invention belongs to the technical field related to precision machining, and particularly relates to a clamping tool with a protection function for precision machining.

Background

The machining process is a process of changing the overall dimension or performance of a workpiece through a mechanical device, and can be divided into cutting machining and pressure machining according to the difference of machining modes, precision machining is one type of machining, and is a machining process for machining workpieces to reach the line and position tolerance required by drawings, and the workpiece can change the performance characteristics and the overall configuration of the workpiece to a certain extent when the machining process is carried out.

The precision machining is an important component of modern mechanical machining and manufacturing technology, is one of important indexes for measuring the level of national high-tech manufacturing industry, and with the development of computer and information technology, higher requirements are put forward on the manufacturing technology, so that not only extremely high size and form and position precision are required to be obtained, but also extremely high surface quality is required to be obtained, and under the market demands, the ultra-precision machining technology is rapidly developed, and various processes and new methods are continuously developed.

Present precision machining centre gripping equipment is installed fixedly usually, can only carry out the centre gripping to the spare part of single specification to can not adjust precision machinery's height and the angle of processing in a flexible way when the centre gripping, more importantly, current centre gripping equipment often does not set up the buffer who protects its structure, and some precision machinery's inner structure is fragile, when placing or centre gripping to it, causes the harm to its inner structure easily.

Disclosure of Invention

The invention provides a clamping tool with a protection function for precision machining, and aims to solve the problems that the existing clamping equipment can only clamp parts with single specification, the height and the machining angle of a workpiece cannot be flexibly adjusted during clamping, and a buffer device for protecting the structure of the workpiece is not arranged.

The invention is realized in such a way that the clamping tool for precision machining with the protection function comprises a box body, wherein the box body is in a cuboid shape, two through holes are symmetrically formed in the upper part of the box body, movable supports are arranged in the through holes, a limiting plate is arranged between the two movable supports, and the clamping tool for precision machining with the protection function further comprises:

the movable box is arranged at the side end of the movable support through a lifting mechanism, a clamping plate is rotatably arranged at the side end of the movable support, the clamping plate is used for clamping and fixing the precision machine to be processed, a plurality of groups of round holes are formed in the circumference of the side end of the movable box, a limiting rod is movably arranged above the movable box, the tail end of the limiting rod is matched with the round holes and used for adjusting the clamping angle of the clamping plate by replacing different round holes, so that a worker does not need to repeatedly clamp and operate the precision machine during processing, and an elastic assembly used for facilitating the worker to know the clamping degree of the precision machine to be processed by the clamping plate is further arranged in the movable box;

the bidirectional moving mechanism is arranged in the box body and is used for driving the movable support to move oppositely so as to fix the two clamping plates to be processed or release the fixation;

the damping plate, the damping plate sets up through the buffering subassembly activity limiting plate top for bear and wait to process precision machinery, just be provided with logical groove on the limiting plate, it is right to lead to the groove be used for the guide bar of damping plate side below installation carries on spacingly, the buffering subassembly is used for treating to process precision machinery and places when damping plate is last to its effect that produces elastic buffer to make it difficult follow damping plate and drop placing the in-process.

Furthermore, the lifting mechanism comprises a sliding block movably arranged in a through groove of the movable support and a threaded component arranged in the movable support far away from the sliding block, and the through groove limits the movable range of the sliding block;

the thread assembly comprises a screw rod rotatably mounted in a through groove of the movable support, a thread sleeve matched with the screw rod and a lifting knob fixed at the tail end of the screw rod, and the thread sleeve is connected with the movable box;

the slider with keep away from the threaded sleeve the activity box is connected, two connect through sleeve component between the activity box, sleeve component divide into two sections L shape poles, and one section is solid pole, one section is hollow rod, and respectively fixed mounting is in two the activity box below.

Furthermore, the bidirectional moving mechanism comprises an occlusion component arranged in the box body and a self-locking component used for locking the position of the movable bracket;

the meshing assembly comprises rack plates symmetrically fixed at the bottom ends of the two movable brackets and gears meshed with the two groups of rack plates, and the gears are rotatably installed in the box body;

the self-locking assembly comprises a worm wheel fixedly mounted at the tail end of the gear rotating shaft, a worm matched with the worm wheel and a clamping knob mounted at the tail end of the worm.

Furthermore, the elastic component comprises a convex block respectively fixed on the threaded sleeve and the side end of the sliding block, a guide rod penetrating through the convex block and arranged on the inner wall of the movable box, and a first spring sleeved on the periphery of the guide rod, wherein the first spring is connected with the convex block and the movable box, and the movable box is sleeved on the convex block.

Furthermore, the buffering component comprises two cranks rotatably mounted at the lower end of the damping plate, two slide rods arranged at the tail ends of the two cranks and limiting grooves symmetrically arranged between the two limiting plates, and second springs connected with the slide rods and the limiting plates are further mounted in the limiting grooves.

Compared with the prior art, the invention has the beneficial effects that:

when the precision machine to be processed needs to be processed, the precision machine to be processed is placed on the damping plate, the damping plate moves above the limiting plate through the buffering component, the height of the clamping plate is adjusted by the lifting mechanism to be parallel to the precision machine to be processed, and then the movable bracket is driven by the two-way moving mechanism to drive the clamping plate to move oppositely, so that the two clamping plates fix the precision machine to be processed, in the process, when the clamping plate is contacted with the precision machine to be processed, the clamping degree of the clamping plate can be observed through the elastic component, thereby being not easy to cause the situation that the precision machine is damaged due to the untight clamping or the over-tight clamping, in the processing process, the angle of the precision machine to be processed is adjusted by inserting the limiting rod into different round holes, so that workers can adjust the angle to continue processing without releasing the fixation of the workers, therefore, the processing efficiency is improved, and the situations of mechanical falling and the like during angle change are avoided;

in summary, through the mutual matching of the mechanisms and the parts, on one hand, the precision machinery of various specifications is clamped, and the height and the machining angle of the precision machinery can be adjusted in the machining process;

on the other hand, through the cooperation of buffer unit and elastic component, make precision machinery can obtain effectual protection in the course of working, so make the promotion that the efficiency of centre gripping frock work is showing, consequently, this precision machining with protect function is with centre gripping frock is suitable for using widely.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

FIG. 2 is a schematic view of the connection between the crank and the damping plate according to the present invention.

Fig. 3 is a sectional view of the connection between the movable bracket and the box body provided by the invention.

Fig. 4 is an enlarged view at a in fig. 1.

Fig. 5 is an enlarged view of fig. 3 at B.

Fig. 6 is an enlarged view at C in fig. 3.

Reference numerals:

1-box body; 2-a movable support; 3-a damping plate; 4-clamping plate; 5-a limiting plate; 6-a slide block; 7-a screw rod; 8-a sleeve; 9-a first spring; 10-a shock-absorbing box; 11-a limiting rod; 12-a crank; 13-a connecting rod; 14-a slide bar; 15-a second spring; 16-a limiting groove; 17-a rack plate; 18-gear wheel; 19-a worm gear; 20-a worm; 21-a lifting knob; 22-grip knob.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In order to effectively explain embodiments of the present invention, the embodiments of the present application will be described in detail below with reference to the accompanying drawings.

Referring to fig. 1 to 6, the present invention provides a clamping tool with a protection function for precision machining, so as to solve the problems that the existing clamping equipment can only clamp a single-specification component, the height of a workpiece and the machining angle cannot be flexibly adjusted during clamping, and a buffer device for protecting the structure is not provided.

A clamping tool with a protection function for precision machining comprises a box body 1, wherein the box body 1 is cuboid and is symmetrically provided with two through holes above, movable supports 2 are arranged in the through holes, and a limiting plate 5 is arranged between the two movable supports 2;

the side end of the movable support 2 is provided with a movable box 10 through a lifting mechanism, the side end of the movable support is rotatably provided with a clamping plate 4, the clamping plate 4 is used for clamping and fixing a precision machine to be processed, the periphery of the side end of the movable support is provided with a plurality of groups of round holes, a limiting rod 11 is movably arranged above the movable box 10, the tail end of the limiting rod 11 is matched with the round holes and is used for adjusting the clamping angle of the clamping plate 4 by replacing different round holes so that a worker does not need to repeatedly clamp and operate during processing machinery, the lifting mechanism comprises a sliding block 6 movably arranged in a through groove of the movable support 2 and a threaded component arranged in the movable support 2 far away from the sliding block 6, and the through groove limits the moving range of the sliding block 6;

the threaded assembly comprises a screw rod 7 rotatably mounted in a through groove of the movable support 2, a threaded sleeve 8 matched with the screw rod 7 and a lifting knob 21 fixed at the tail end of the screw rod 7, and the threaded sleeve 8 is connected with the movable box 10;

the slider 6 with keep away from the screw sleeve 8 the activity box 10 is connected, two connect through sleeve subassembly 13 between the activity box 10, sleeve subassembly 13 divide into two sections L shape poles, and one section is solid pole, one section is hollow rod, and respectively fixed mounting is in two activity box 10 below.

When the height of the support plate 4 needs to be adjusted, the screw rod 7 drives the threaded sleeve 8 to move in the through groove of the movable support 2 by rotating the lifting knob 21, the threaded sleeve 8 drives the two movable boxes 10 to move through the sleeve component 13, in the process, the sliding block 6 moves along with the movable boxes 10, and when the two clamp plates 4 are driven to move oppositely through the bidirectional movement mechanism, the solid rod in the sleeve component 13 moves in the hollow rod.

The bidirectional moving mechanism is arranged in the box body 1 and is used for driving the movable support 2 to move oppositely so as to fix the two clamping plates 4 to be processed or release the fixation, and the bidirectional moving mechanism comprises an occlusion component arranged in the box body 1 and a self-locking component used for locking the position of the movable support 2;

the meshing component comprises rack plates 17 symmetrically fixed at the bottom ends of the two movable brackets 2 and gears 18 meshed with the two groups of rack plates 17, and the gears 18 are rotatably arranged in the box body 1;

the self-locking assembly comprises a worm wheel 19 fixedly mounted at the tail end of the rotating shaft of the gear 18, a worm 20 matched with the worm wheel 19 and a clamping knob 22 mounted at the tail end of the worm 20.

When the precision machine to be machined needs to be clamped and fixed, the worm 20 drives the worm wheel 19 to rotate by rotating the clamping knob 22, and then the two groups of rack plates 17 are driven to move oppositely by the gear 18, and in the process, the movable support 2 drives the clamping plate 4 to fix the precision machine to be machined due to the self-locking characteristic of the worm wheel 19 and the worm 20.

Still be provided with in the activity box 10 and be used for being convenient for the workman to know splint 4 treats the tight degree of clamp of processing precision machinery and observes the elastic component, the elastic component is including fixing respectively threaded sleeve 8 with lug on the 6 sides of slider, run through the lug is installed guide arm and cover on the activity box 10 inner wall are established first spring 9 of guide arm periphery, first spring 9 connect the lug with activity box 10, just activity box 10 registrates on the lug.

When the clamping knob 22 is rotated to drive the clamping plate 4 to move to be attached to the precision machine to be machined, the clamping plate 4 drives the movable box 10 to compress the first spring 9, so that the guide rod moves in the through groove of the lug, at the moment, the movable box 10 moves along the lug, and the clamping degree of the clamping plate 4 to the precision machine to be machined at the moment can be observed according to the moving distance of the movable box 10.

Limiting plate 5 is last to be provided with damping plate 3 through the buffering subassembly activity for bear and treat processing precision machinery, just be provided with logical groove on the limiting plate 5, it is right to lead to the groove be used for the guide bar of 3 side below installations of damping plate carries on spacingly, the buffering subassembly is used for treating processing precision machinery and places when damping plate 3 is last to its effect that produces elastic buffer to make it difficult follow damping plate 3 and drop placing the in-process.

The buffer assembly comprises two cranks 12 rotatably arranged at the lower end of the damping plate 3, two slide rods 14 arranged at the tail ends of the cranks 12 and two limiting grooves 16 symmetrically arranged between the limiting plates 5, and second springs 15 connected with the slide rods 14 and the limiting plates 5 are further arranged in the limiting grooves 16.

When the precision machine to be processed is placed on the damping plate 3, the two cranks 12 make the sliding rod 14 move in the limiting groove 16 by pressing the sliding rod 14 downwards, and compress the second spring 15, so that the vibration of the precision machine is reduced in the placing process, and the internal structure of the precision machine is protected.

When the precision machine to be processed needs to be processed, the precision machine to be processed is placed on the damping plate 3, the damping plate 3 moves above the limiting plate 5 through the buffering assembly, the height of the clamping plate 4 is adjusted to be parallel to the precision machine to be processed through the lifting mechanism, the movable support 2 is driven by the bidirectional moving mechanism to drive the clamping plate 4 to move oppositely, so that the precision machine to be processed is fixed by the two clamping plates 4, in the process, when the clamping plate 4 is in contact with the precision machine to be processed, the clamping degree of the clamping plate 4 can be observed through the elastic assembly, the precision machine is not easy to be damaged due to loose clamping or over-tight clamping, in the processing process, the angle of the precision machine to be processed is adjusted by inserting the limiting rods 11 into different round holes, so that a worker can adjust the angle to continue processing without releasing the fixation of the precision machine, and the processing efficiency is improved, the phenomenon that the machine falls off when the angle is changed is avoided, and the machine is fixed through the bidirectional moving mechanism after the machining is finished;

in summary, through the mutual matching of the mechanisms and the parts, on one hand, the precision machinery of various specifications is clamped, and the height and the machining angle of the precision machinery can be adjusted in the machining process;

on the other hand, through the cooperation of buffer unit and elastic component, make precision machinery can obtain effectual protection in the course of working, so make the promotion that the efficiency of centre gripping frock work is showing, consequently, this precision machining with protect function is with centre gripping frock is suitable for using widely.

Taking an embodiment combining all the features described in the present application as an example, when a precision machine to be processed needs to be processed, the precision machine to be processed is placed on the damping plate 3, the damping plate 3 moves in the limiting groove 16 by the downward pressure of the two cranks 12 on the sliding rod 14, so as to move above the limiting plate 5, the screw 7 drives the threaded sleeve 8 to move in the through groove of the movable bracket 2 by rotating the lifting knob 21, the threaded sleeve 8 drives the two movable boxes 10 to move by the sleeve component 13, the height of the clamping plate 4 is adjusted to be parallel to the precision machine to be processed, the worm 20 drives the worm wheel 19 to rotate by rotating the clamping knob 22, the two sets of rack plates 17 are driven by the gear 18 to move in opposite directions, the movable bracket 2 is driven to drive the clamping plate 4 to move in opposite directions, so as to fix the precision machine to be processed by the two clamping plates 4, in the process, when the clamping plate 4 is in contact with the precision machine to be processed, the tight degree of clamp of splint 4 this moment is observed to the distance that the accessible removed from activity box 10 to difficult the appearance leads to the circumstances that precision machinery damaged because the centre gripping is not tight or the centre gripping is too tight, in the course of working, treat processing precision machinery through inserting different round holes with gag lever post 11 and carry out angle adjustment, so that the workman need not to relieve and to its fixed angle continuation processing that can adjust, thereby the efficiency of processing has been improved, and also avoid appearing the appearance of the circumstances such as mechanical drop when changing the angle.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. The utility model provides a centre gripping frock for precision machining with protect function, a serial communication port, includes box body (1), box body (1) is the cuboid form, and the top symmetry is provided with two through-holes, be provided with movable support (2) in the through-hole, two install limiting plate (5) between movable support (2), the centre gripping frock for precision machining with protect function still includes:

the movable box (10) is arranged at the side end of the movable support (2) through a lifting mechanism, a clamping plate (4) is rotatably arranged at the side end of the movable box (10), the clamping plate (4) is used for clamping and fixing a precision machine to be machined, a plurality of groups of round holes are formed in the circumference of the side end of the clamping plate, a limiting rod (11) is movably arranged above the movable box (10), the tail end of the limiting rod (11) is matched with the round holes and used for adjusting the clamping angle of the clamping plate (4) through replacing different round holes so that a worker does not need to repeat clamping operation when machining the machine, and an elastic component used for enabling the worker to know the clamping degree of the clamping plate (4) to the precision machine to be machined is arranged in the movable box (10);

the bidirectional moving mechanism is arranged in the box body (1) and is used for driving the movable bracket (2) to move oppositely so as to fix the two clamping plates (4) to be processed or release the fixation;

shock attenuation board (3), shock attenuation board (3) are in through buffering subassembly activity setting limiting plate (5) top for bear and treat processing precision machinery, just be provided with logical groove on limiting plate (5), it is right to lead to the groove be used for the guide bar of shock attenuation board (3) side below installation carries on spacingly, the buffering subassembly is used for treating processing precision machinery and places when shock attenuation board (3) are gone up the effect that produces elastic buffer to it to make it difficult dropping from shock attenuation board (3) placing the in-process.

2. The clamping tool with the protection function for the precision machining according to claim 1, wherein the lifting mechanism comprises a sliding block (6) movably arranged in a through groove of one movable support (2) and a threaded assembly arranged in the movable support (2) far away from the sliding block (6), and the through groove limits the movable range of the sliding block (6).

3. The clamping tool with the protection function for the precision machining is characterized in that the threaded assembly comprises a screw rod (7) rotatably installed in a through groove of the movable support (2), a threaded sleeve (8) matched with the screw rod (7) and a lifting knob (21) fixed to the tail end of the screw rod (7), and the threaded sleeve (8) is connected with the movable box (10).

4. The clamping tool with the protection function for the precision machining is characterized in that the sliding block (6) is connected with the movable box (10) far away from the threaded sleeve (8), the two movable boxes (10) are connected through a sleeve component (13), the sleeve component (13) is divided into two sections of L-shaped rods, one section of the L-shaped rod is a solid rod, the other section of the L-shaped rod is a hollow rod, and the two sections of the L-shaped rod are fixedly installed below the two movable boxes (10) respectively.

5. The clamping tool for precision machining with the protection function according to claim 1, characterized in that the bidirectional moving mechanism comprises an engaging component arranged in the box body (1) and a self-locking component for locking the position of the movable bracket (2).

6. The clamping tool for precision machining with the protection function according to claim 5, wherein the meshing assembly comprises rack plates (17) symmetrically fixed on the bottom ends of the two movable brackets (2) and gears (18) meshed with the two sets of rack plates (17), and the gears (18) are rotatably installed in the box body (1).

7. The clamping tool with the protection function for the precision machining is characterized in that the self-locking assembly comprises a worm wheel (19) fixedly installed at the tail end of a rotating shaft of the gear (18), a worm (20) matched with the worm wheel (19) and a clamping knob (22) installed at the tail end of the worm (20).

8. The clamping tool with the protection function for the precision machining of claim 4, wherein the elastic component comprises a convex block fixed on the side end of the threaded sleeve (8) and the sliding block (6) respectively, a guide rod penetrating through the convex block and mounted on the inner wall of the movable box (10), and a first spring (9) sleeved on the periphery of the guide rod, the first spring (9) is connected with the convex block and the movable box (10), and the movable box (10) is sleeved on the convex block.

9. The clamping tool with the protection function for the precision machining is characterized in that the buffering assembly comprises two cranks (12) rotatably mounted at the lower end of the damping plate (3), slide rods (14) arranged at the tail ends of the two cranks (12) and limiting grooves (16) symmetrically arranged between the two limiting plates (5), and second springs (15) connecting the slide rods (14) and the limiting plates (5) are further mounted in the limiting grooves (16).

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