CN220330666U - Clamping device - Google Patents

Abstract

The utility model relates to the technical field of clamps, in particular to a clamping device which comprises a machine body and a clamping assembly, wherein the clamping assembly comprises a base, a cylinder, a plurality of guide rods, a plurality of limiting blocks and a clamping part; when the alloy piece is cut, the alloy piece is fixed on the clamping component, the machine body is driven to longitudinally move by the control cylinder, and the machine body drives the clamping component and the alloy piece to longitudinally move, so that the height position of the alloy piece can be adjusted; when the machine body moves, the guide rod can provide guide for the machine body, so that the deviation of the machine body is avoided, the limiting block can limit the ascending height of the machine body, and the phenomenon that the ascending height of the machine body is overlarge due to the damage of the air cylinder is avoided; the height position of the alloy piece can be adjusted after the alloy piece is clamped, and different cutting requirements can be met.

Description

Clamping device

Technical Field

The utility model relates to the technical field of clamps, in particular to a clamping device.

Background

The clamping device is needed to be used for fixing during the cutting processing of the hard alloy, but the common clamping device is only used for fixing one end of the alloy piece in the using process, and when the other end of the alloy piece deviates during cutting, the cutting precision of the alloy piece is easily affected.

The prior art CN212371663U at present discloses a clamping device for hard alloy cutting processing, including main part mechanism, clamping mechanism and sweeps collection mechanism, main part mechanism upper surface one end is fixed to be provided with clamping mechanism, and clamping mechanism bottom is fixed to be provided with sweeps collection mechanism, is carrying out the in-process of centre gripping to the alloy piece, can fix the both ends of alloy piece simultaneously, can make avoid the alloy piece other end to take place to rock when cutting to the alloy piece to will effectively promote the cutting precision to the alloy piece.

However, by adopting the mode, the height position of the alloy piece cannot be adjusted after the alloy piece is clamped, different cutting requirements cannot be met, and the application range is small.

Disclosure of Invention

The utility model aims to provide a clamping device which can adjust the height position of an alloy piece after clamping the alloy piece and can meet different cutting requirements.

In order to achieve the above object, the present utility model provides a clamping device, comprising a machine body and a clamping assembly, wherein the clamping assembly comprises a base, a cylinder, a plurality of guide rods, a plurality of limiting blocks and a clamping part;

the air cylinder is fixedly connected with the base and is positioned at the top of the base; the machine body is fixedly connected with the cylinder output rod and is positioned at the top of the cylinder; the guide rods are fixedly connected with the base respectively, are connected with the machine body in a sliding manner respectively, and are positioned at the top of the base respectively; the limiting blocks are fixedly connected with the guide rods respectively and are positioned at the tops of the guide rods respectively; the clamping component is arranged at the top of the machine body.

The clamping component comprises a motor, a connecting shaft, a first chuck and a supporting piece; the motor is fixedly connected with the machine body and is positioned at the top of the machine body; the connecting shaft is fixedly connected with the output end of the motor and is positioned at the side edge of the motor; the first chuck is fixedly connected with the connecting shaft and is positioned at the side edge of the connecting shaft; the supporting piece is arranged at the top of the machine body.

The supporting piece comprises a mounting seat, a rotary table, a hydraulic cylinder and a second chuck; the mounting seat is fixedly connected with the machine body and is positioned at the top of the machine body; the turntable is rotationally connected with the mounting seat and is positioned at the inner side of the mounting seat; the hydraulic cylinder is fixedly connected with the turntable and is positioned at the side edge of the turntable; the second clamping head is fixedly connected with the hydraulic cylinder output rod and is positioned at the side edge of the hydraulic cylinder.

Wherein the clamping member further comprises a plurality of locking bolts; the locking bolts are respectively connected with the first clamping head in a threaded mode and are respectively positioned on the side edges of the first clamping head.

Wherein the clamping member further comprises a plurality of wear pads; the anti-wear pads are fixedly connected with the locking bolts respectively and are located on the side edges of the locking bolts respectively.

According to the clamping device, when the alloy piece is cut, the alloy piece is fixed on the clamping component, the machine body is driven to longitudinally move by controlling the air cylinder, and the machine body drives the clamping component and the alloy piece to longitudinally move, so that the height position of the alloy piece can be adjusted; when the machine body moves, the guide rod can provide guide for the machine body to prevent the machine body from shifting, and the limiting block can limit the lifting height of the machine body to prevent the lifting height of the machine body from being overlarge due to the damage of the air cylinder; through the mode, the height position of the alloy piece can be adjusted after the alloy piece is clamped, and different cutting requirements can be met.

Drawings

In order to more clearly illustrate the embodiments of the present application 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.

Fig. 1 is a schematic overall structure of a first embodiment of the present utility model.

Fig. 2 is an overall cross-sectional view of a first embodiment of the present utility model.

Fig. 3 is an overall cross-sectional view of a second embodiment of the present utility model.

101-organism, 102-clamping assembly, 103-base, 104-cylinder, 105-guide bar, 106-stopper, 107-clamping part, 108-motor, 109-connecting axle, 110-first chuck, 111-support piece, 112-mount pad, 113-carousel, 114-pneumatic cylinder, 115-second chuck, 116-lock bolt, 201-wear pad.

Detailed Description

The first embodiment of the application is as follows:

referring to fig. 1-2, fig. 1 is a schematic overall structure of a first embodiment of the present utility model, and fig. 2 is a cross-sectional overall view of the first embodiment of the present utility model.

The utility model provides a clamping device, which comprises a machine body 101 and a clamping assembly 102, wherein the clamping assembly 102 comprises a base 103, a cylinder 104, a plurality of guide rods 105, a plurality of limiting blocks 106 and a clamping part 107; the clamping member 107 includes a motor 108, a connecting shaft 109, a first collet 110, a holding member 111, and a plurality of locking bolts 116; the supporting piece 111 comprises a mounting seat 112, a rotary table 113, a hydraulic cylinder 114 and a second clamping head 115; through the scheme, the height position of the alloy piece can be adjusted after the alloy piece is clamped, so that different cutting requirements can be met.

For this embodiment, the body 101 is configured to support the clamping assembly 102.

The cylinder 104 is fixedly connected with the base 103 and is positioned at the top of the base 103; the machine body 101 is fixedly connected with the output rod of the air cylinder 104 and is positioned at the top of the air cylinder 104; the guide rods 105 are fixedly connected with the base 103 respectively, are connected with the machine body 101 in a sliding manner respectively, and are positioned at the top of the base 103 respectively; the limiting blocks 106 are respectively and fixedly connected with the guide rods 105 and are respectively positioned at the tops of the guide rods 105; the clamping member 107 is disposed on top of the body 101. When the alloy piece is cut, the alloy piece is fixed on the clamping part 107, the machine body 101 is driven to longitudinally move by controlling the air cylinder 104, and the machine body 101 drives the clamping part 107 and the alloy piece to longitudinally move, so that the height position of the alloy piece can be adjusted; when the machine body 101 moves, the guide rod 105 can provide a guide for the machine body 101 to avoid the deviation of the machine body 101, and the limiting block 106 can limit the lifting height of the machine body 101 to avoid the overlarge lifting height of the machine body 101 caused by the damage of the air cylinder 104; through the mode, the height position of the alloy piece can be adjusted after the alloy piece is clamped, and different cutting requirements can be met.

Secondly, the motor 108 is fixedly connected with the machine body 101 and is positioned at the top of the machine body 101; the connecting shaft 109 is fixedly connected with the output end of the motor 108 and is positioned at the side edge of the motor 108; the first clamping head 110 is fixedly connected with the connecting shaft 109 and is positioned at the side edge of the connecting shaft 109; the supporting member 111 is disposed on the top of the body 101. The inner side of the first chuck 110 is provided with a slot hole adapted to the alloy piece, one end of the alloy piece is inserted into the first chuck 110, the abutting piece 111 is controlled to abut against the other end of the alloy piece, the motor 108 is started to drive the connecting shaft 109 to rotate, the connecting shaft 109 drives the first chuck 110 and the alloy piece to rotate, and then the alloy piece can be cut.

Meanwhile, the mounting seat 112 is fixedly connected with the machine body 101 and is positioned at the top of the machine body 101; the turntable 113 is rotatably connected with the mounting seat 112 and is positioned on the inner side of the mounting seat 112; the hydraulic cylinder 114 is fixedly connected with the turntable 113 and is positioned at the side edge of the turntable 113; the second clamping head 115 is fixedly connected with the output rod of the hydraulic cylinder 114 and is positioned at the side edge of the hydraulic cylinder 114. The mounting seat 112 is used for supporting the turntable 113, slotted holes matched with the alloy piece are formed in the inner sides of the first clamping head 110 and the second clamping head 115, one end of the alloy piece is inserted into the first clamping head 110, the hydraulic cylinder 114 is controlled to drive the second clamping head 115 to be close to the alloy piece, the second clamping head 115 supports the other end of the alloy piece, the motor 108 is started to drive the connecting shaft 109 to rotate, the connecting shaft 109 drives the first clamping head 110 and the alloy piece to rotate, and then the alloy piece can be cut.

In addition, a plurality of locking bolts 116 are respectively screwed with the first clamping heads 110 and are respectively positioned at the side edges of the first clamping heads 110. The locking bolt 116 is turned, so that the locking bolt 116 abuts against the alloy piece in the first chuck 110, the alloy piece can be further fixed, and the fixing effect on the alloy piece is improved.

When the utility model is used for cutting an alloy piece, one end of the alloy piece is inserted into the first chuck 110, the hydraulic cylinder 114 is controlled to drive the second chuck 115 to be close to the alloy piece, the second chuck 115 supports the other end of the alloy piece, the motor 108 is started to drive the connecting shaft 109 to rotate, the connecting shaft 109 drives the first chuck 110 and the alloy piece to rotate, then the alloy piece can be cut, the air cylinder 104 is controlled to drive the machine body 101 to longitudinally move, and the machine body 101 drives the clamping part 107 and the alloy piece to longitudinally move, so that the height position of the alloy piece can be adjusted; when the machine body 101 moves, the guide rod 105 can provide a guide for the machine body 101 to avoid the deviation of the machine body 101, and the limiting block 106 can limit the lifting height of the machine body 101 to avoid the overlarge lifting height of the machine body 101 caused by the damage of the air cylinder 104; through the mode, the height position of the alloy piece can be adjusted after the alloy piece is clamped, and different cutting requirements can be met.

The second embodiment of the present application is:

on the basis of the first embodiment, please refer to fig. 3, wherein fig. 3 is an overall cross-sectional view of a second embodiment of the present utility model.

The present utility model provides a clamping device, wherein the clamping member 107 further comprises a plurality of wear pads 201.

For this embodiment, a plurality of wear pads 201 are respectively fixedly connected to a plurality of locking bolts 116, and are respectively located at the sides of a plurality of locking bolts 116. The locking bolt 116 is turned, so that the locking bolt 116 drives the anti-wear pad 201 to move and then to be abutted against the alloy piece in the first chuck 110, and the alloy piece can be further fixed, so that the fixing effect on the alloy piece is improved.

When the utility model is used for cutting an alloy piece, one end of the alloy piece is inserted into the first chuck 110, the hydraulic cylinder 114 is controlled to drive the second chuck 115 to be close to the alloy piece, the second chuck 115 supports the other end of the alloy piece, the locking bolt 116 is rotated, the locking bolt 116 drives the anti-abrasion pad 201 to move and then supports the alloy piece in the first chuck 110, the alloy piece can be further fixed, the motor 108 is started to drive the connecting shaft 109 to rotate, the connecting shaft 109 drives the first chuck 110 and the alloy piece to rotate, then the alloy piece can be cut, the machine body 101 is driven to longitudinally move by controlling the cylinder 104, and the machine body 101 drives the clamping part 107 and the alloy piece to longitudinally move, so that the height position of the alloy piece can be adjusted; when the machine body 101 moves, the guide rod 105 can provide a guide for the machine body 101 to avoid the deviation of the machine body 101, and the limiting block 106 can limit the lifting height of the machine body 101 to avoid the overlarge lifting height of the machine body 101 caused by the damage of the air cylinder 104; through the mode, the height position of the alloy piece can be adjusted after the alloy piece is clamped, and different cutting requirements can be met.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present application and is not intended to limit the scope of the claims hereof, as it is to be understood by those skilled in the art that all or part of the process of implementing the described embodiment may be practiced otherwise than as specifically described and illustrated by the appended claims.

Claims (5)

1. A clamping device comprises a machine body and is characterized in that,

the clamping assembly is also included;

the clamping assembly comprises a base, an air cylinder, a plurality of guide rods, a plurality of limiting blocks and a clamping part;

the air cylinder is fixedly connected with the base and is positioned at the top of the base; the machine body is fixedly connected with the cylinder output rod and is positioned at the top of the cylinder; the guide rods are fixedly connected with the base respectively, are connected with the machine body in a sliding manner respectively, and are positioned at the top of the base respectively; the limiting blocks are fixedly connected with the guide rods respectively and are positioned at the tops of the guide rods respectively; the clamping component is arranged at the top of the machine body.

2. A clamping device as claimed in claim 1, characterized in that,

the clamping component comprises a motor, a connecting shaft, a first chuck and a supporting piece; the motor is fixedly connected with the machine body and is positioned at the top of the machine body; the connecting shaft is fixedly connected with the output end of the motor and is positioned at the side edge of the motor; the first chuck is fixedly connected with the connecting shaft and is positioned at the side edge of the connecting shaft; the supporting piece is arranged at the top of the machine body.

3. A clamping device as claimed in claim 2, characterized in that,

the supporting piece comprises a mounting seat, a turntable, a hydraulic cylinder and a second chuck; the mounting seat is fixedly connected with the machine body and is positioned at the top of the machine body; the turntable is rotationally connected with the mounting seat and is positioned at the inner side of the mounting seat; the hydraulic cylinder is fixedly connected with the turntable and is positioned at the side edge of the turntable; the second clamping head is fixedly connected with the hydraulic cylinder output rod and is positioned at the side edge of the hydraulic cylinder.

4. A clamping device as claimed in claim 3, characterized in that,

the clamping member further includes a plurality of locking bolts; the locking bolts are respectively connected with the first clamping head in a threaded mode and are respectively positioned on the side edges of the first clamping head.

5. A clamping device as claimed in claim 4, characterized in that,

the clamping member further comprises a plurality of wear pads; the anti-wear pads are fixedly connected with the locking bolts respectively and are located on the side edges of the locking bolts respectively.