CN213739736U - Micro-nano printing glass needle head clamp - Google Patents

Abstract

The utility model relates to a receive printing glass syringe needle anchor clamps a little, including glass needle, grip block and can dismantle the anchor clamps body of fixing in grip block one end, the glass needle can be dismantled and fix at anchor clamps originally internally, wears to be equipped with the wire electrode in the glass needle. The anchor clamps body includes centering rod, electrode plug and regulating part, and electrode plug can dismantle the top of fixing at centering rod, and regulating part elastic sliding sets up the one end of keeping away from electrode plug at centering rod. The back is removed towards the direction of keeping away from the electrode plug to the regulating part, and the glass needle chucking is originally internal at anchor clamps, and after the direction removal of regulating part orientation electrode plug, the glass needle slides and sets up at this internally at anchor clamps. The clamp has the advantages that the glass needle is convenient to disassemble and assemble, the glass needle can be quickly and simply loosened and clamped, the glass needle can be conveniently and manually replaced, the clamping and positioning accuracy is increased, and the working efficiency is improved.

Description

Micro-nano printing glass needle head clamp

Technical Field

The utility model belongs to the technical field of the anchor clamps technique and specifically relates to a receive printing glass syringe needle anchor clamps a little.

Background

With the development of 3D printing technology, micro-nano 3D printing technology is in the horizontal world, and the defects that in the past, 3D printing precision is not high, printing materials are limited and the like are effectively overcome. The micro-nano 3D printing technology can improve the printing precision to 2 mu m to the maximum, meet the design requirements of various products with complicated special structural characteristics, enable related research and development personnel to further design structures and functions in a tiny space, and avoid the trouble that the prior art has design but is difficult to process and manufacture.

In the prior art, an electrochemical method is usually used for printing micro-nano 3D metal, so that the processing of some micro-nano devices can be solved, and the forming of nano-sized 3D materials is realized. However, the existing glass printing needle clamp is inconvenient to disassemble and assemble, and the phenomenon that a glass needle is loosened easily after long-time use results in inaccurate clamping and positioning, so that the working efficiency of 3D printing is reduced to a great extent.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing a receive printing glass syringe needle anchor clamps a little, it can be quick simple and convenient loosen and press from both sides tight glass needle, the artifical glass needle of changing of being convenient for has increased the accuracy of centre gripping location simultaneously, improves work efficiency.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

a micro-nano printing glass needle head clamp comprises a glass needle, a clamping plate and a clamp body detachably fixed at one end of the clamping plate, wherein the glass needle is detachably fixed in the clamp body, and an electrode wire penetrates through the glass needle;

the clamp body comprises a centering rod, an electrode plug and an adjusting part, the electrode plug is detachably fixed at the top end of the centering rod, and the adjusting part is elastically and slidably arranged at one end, far away from the electrode plug, of the centering rod;

the adjusting part moves towards and is far away from the direction of the electrode plug, the glass needle is clamped in the clamp body, the adjusting part moves towards the direction of the electrode plug, and then the glass needle slides and is arranged in the clamp body.

Through above-mentioned technical scheme, before utilizing the glass needle to carry out 3D printing, fix the anchor clamps body on the grip block earlier, make glass needle chucking at anchor clamps originally internally towards bottom pulling regulating part, avoided the glass needle to take place not hard up phenomenon, increased the accuracy of centre gripping location to the stability that the glass needle printed has been improved, the operation of being convenient for.

When the glass needle needs to be replaced, the adjusting part is pushed towards the direction of the electrode plug, so that the clamping force on the glass needle in the adjusting part disappears, the glass needle can slide in the clamp body, and the damaged glass needle can be conveniently pulled out and replaced. The clamp enables the glass needle to be conveniently disassembled and assembled, and has strong economic popularization value.

The present invention may be further configured in a preferred embodiment as: the end, far away from the electrode plug, of the centering rod is fixedly connected with a clamping part, the clamping part comprises an anti-falling clamping pipe and an umbrella-shaped clamping pipe which is fixedly connected to one end of the anti-falling clamping pipe in an integrated forming mode, and the glass needle penetrates through the anti-falling clamping pipe and the umbrella-shaped clamping pipe;

the adjusting part comprises an adjusting pipe, a locking spring and a locking ring matched with the umbrella-shaped clamping pipe, one end of the centering rod is inserted into the adjusting pipe and is in sliding fit with the inner wall of the adjusting pipe, and the locking ring is fixed at the bottom of the inner groove of the adjusting pipe;

the locking spring is arranged in the adjusting pipe and sleeved outside the anti-falling clamping pipe, and the locking spring elastically abuts against and is tightly arranged between one end face of the centering rod and the locking ring.

Through the technical scheme, when the glass needle needs to be taken down, upwards promote the control tube, make the centering rod move down for the control tube, locking spring pressurized between centering rod and the locking ring contracts accumulation elastic force, locking ring and the separation of umbrella type centre gripping pipe simultaneously, the internal diameter grow of umbrella type centre gripping pipe, make the clamp force of umbrella type centre gripping pipe to the glass needle disappear, thereby be convenient for take out the glass needle from preventing falling in the card pipe, and prevent falling setting up of card pipe and make the glass needle difficult when unclamping drop, the practicality has been improved.

After the glass needle is installed in the centering rod, external force applied to the adjusting pipe is released, the locking spring naturally restores to drive the adjusting pipe to move downwards on the centering rod, and meanwhile, the locking ring extrudes the umbrella-shaped clamping pipe to enable the inner diameter of the head of the umbrella-shaped clamping pipe to be reduced, so that the umbrella-shaped clamping pipe can clamp the glass needle inside, the phenomenon that the glass needle is loosened in use is avoided, and the accuracy of clamping and positioning the glass needle is improved.

The present invention may be further configured in a preferred embodiment as: the one end that the centering rod was kept away from to the control tube can dismantle fixedly connected with direction mouth, the glass needle is worn to establish behind the anchor clamps body by the direction mouth is worn out.

Through the technical scheme, the guide nozzle not only plays a role in guiding the glass needle, so that the glass needle is automatically centered after being clamped tightly, the positioning precision is improved, and the sealing property in the glass needle is ensured.

The present invention may be further configured in a preferred embodiment as: the centering rod is provided with a ring groove for inserting one end of the adjusting pipe, and an elastic ring is fixed on the outer wall of one end of the adjusting pipe, which is far away from the guide nozzle;

when the adjusting pipe moves upwards and is inserted in the annular groove, the elastic ring is elastically abutted to the inner wall of the annular groove, and when the downward moving part of the adjusting pipe is separated from the annular groove, the elastic ring naturally restores to protrude out of the outer wall of the adjusting pipe.

Through above-mentioned technical scheme, upwards promote the control tube and make the control tube insert and establish in the annular of centering rod one end, utilize the elasticity of elastic ring to make the control tube fix on centering rod temporarily, control tube and centering rod keep the relatively stable state, are convenient for change the glass needle on the anchor clamps. When the glass needle is clamped, the elastic ring naturally recovers to protrude the outer side wall of the adjusting pipe, so that the adjusting pipe is kept in a stable state, the adjusting pipe can be pushed only under certain thrust, and the working stability of the glass needle during printing is ensured.

The present invention may be further configured in a preferred embodiment as: the electrode plug comprises an insulating shell, a conductive copper sheet, a conductive tube and a banana plug inserted in the conductive tube, and the banana plug is connected with an electrode lead;

the insulation shell is detachably fixed on the centering rod, the banana plug is fixed on the insulation shell through the conductive copper sheet, and one end of the electrode wire penetrates out of the glass needle and then is connected with the conductive copper sheet.

Through above-mentioned technical scheme, the electrode wire is connected the back with external power supply, and the electric current conducts behind banana plug and contact tube on the conductive copper sheet, thereby conductive copper sheet is connected with the wire electrode and has realized switching on of electric current, and the wire electrode is inserted and is established in the glass needle and the contact of the metal ion solution in the glass needle for the glass needle can carry out 3D and print under the circumstances that the electric current switched on.

The present invention may be further configured in a preferred embodiment as: the clamping plate is provided with a conical hole, and the middle part of the centering rod is provided with a centering and positioning surface matched with the conical hole.

Through the technical scheme, the centering rod can automatically position and center when inserted into the conical hole, so that the glass needle always keeps a vertical state, and the stability of the fixture body fixed on the clamping plate is improved.

To sum up, the utility model discloses a following at least one useful technological effect:

1. before utilizing the glass needle to carry out 3D printing, fix the anchor clamps body on the grip block earlier, make the glass needle chucking at the anchor clamps originally internally towards bottom pulling regulating part, avoided the glass needle to take place not hard up phenomenon, increased the accuracy of centre gripping location to the stability of glass needle printing, the operation of being convenient for has been improved.

When the glass needle needs to be replaced, the adjusting part is pushed towards the direction of the electrode plug, so that the clamping force on the glass needle in the adjusting part disappears, the glass needle can slide in the clamp body, and the damaged glass needle can be conveniently pulled out and replaced. The clamp enables the glass needle to be conveniently disassembled and assembled, and has strong economic popularization value.

2. When the glass needle needs to be taken down, the adjusting pipe is upwards pushed, the centering rod moves downwards relative to the adjusting pipe, the locking spring between the centering rod and the locking ring is compressed to store elastic force, meanwhile, the locking ring is separated from the umbrella-shaped clamping pipe, the inner diameter of the umbrella-shaped clamping pipe is enlarged, the clamping force of the umbrella-shaped clamping pipe on the glass needle disappears, the glass needle is conveniently taken out of the anti-falling clamping pipe, the glass needle is not prone to falling when being loosened due to the arrangement of the anti-falling clamping pipe, and the practicability is improved.

After the glass needle is installed in the centering rod, external force applied to the adjusting pipe is released, the locking spring naturally restores to drive the adjusting pipe to move downwards on the centering rod, and meanwhile, the locking ring extrudes the umbrella-shaped clamping pipe to enable the inner diameter of the head of the umbrella-shaped clamping pipe to be reduced, so that the umbrella-shaped clamping pipe can clamp the glass needle inside, the phenomenon that the glass needle is loosened in use is avoided, and the accuracy of clamping and positioning the glass needle is improved.

3. The adjusting pipe is pushed upwards to be inserted into the annular groove at one end of the centering rod, the adjusting pipe is temporarily fixed on the centering rod by utilizing the elasticity of the elastic ring, and the adjusting pipe and the centering rod are kept in a relatively stable state, so that the glass needle can be conveniently replaced on the clamp. When the glass needle is clamped, the elastic ring naturally recovers to protrude the outer side wall of the adjusting pipe, so that the adjusting pipe is kept in a stable state, the adjusting pipe can be pushed only under certain thrust, and the working stability of the glass needle during printing is ensured.

Drawings

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

Fig. 2 is a cross-sectional view of the present invention.

Reference numerals: 1. a glass needle; 11. a wire electrode; 2. a clamping plate; 21. a tapered hole; 3. a clamp body; 31. a centering rod; 311. a ring groove; 312. centering and positioning the surface; 32. an electrode plug; 321. an insulating housing; 322. a conductive copper sheet; 323. a conductive tube; 324. banana plugs; 33. an adjustment section; 331. an adjusting tube; 332. a locking spring; 333. locking a ring; 4. a clamping portion; 41. the pipe is prevented from falling and being clamped; 42. an umbrella-shaped clamping tube; 5. a guide nozzle; 6. an elastic ring.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, for the utility model discloses a receive printing glass syringe needle anchor clamps a little, including glass needle 1, grip block 2 and can dismantle the anchor clamps body 3 of fixing in grip block 2 one end, glass needle 1 can be dismantled and fix in anchor clamps body 3, wears to be equipped with wire electrode 11 in the glass needle 1. The clamp body 3 comprises a centering rod 31, an electrode plug 32 and an adjusting part 33, wherein the electrode plug 32 is detachably fixed at the top end of the centering rod 31, and the adjusting part 33 is elastically and slidably arranged at one end of the centering rod 31 far away from the electrode plug 32.

When the adjustment portion 33 is moved in a direction away from the electrode plug 32, the glass needle 1 is clamped in the jig body 3, and when the adjustment portion 33 is moved in a direction toward the electrode plug 32, the glass needle 1 is slidably disposed in the jig body 3. Before utilizing glass needle 1 to carry out 3D printing, fix anchor clamps body 3 on grip block 2 earlier, orientation bottom pulling regulating part 33 makes 1 chucking of glass needle in anchor clamps body 3, has avoided glass needle 1 to take place not hard up phenomenon, has increased the accuracy of centre gripping location to the stability of having improved 1 prints of glass needle, the operation of being convenient for.

When the glass needle 1 needs to be replaced, the adjusting part 33 is pushed towards the electrode plug 32, so that the clamping force on the glass needle 1 in the adjusting part 33 disappears, the glass needle 1 can slide in the clamp body 3, and the damaged glass needle 1 can be conveniently drawn out for replacement. The clamp enables the glass needle 1 to be conveniently disassembled and assembled, and has strong economic popularization value.

Further, referring to fig. 2, one end of the centering rod 31 far away from the electrode plug 32 is fixedly connected with a clamping portion 4, the clamping portion 4 comprises an anti-falling clamping tube 41 and an umbrella-shaped clamping tube 42 fixedly connected to one end of the anti-falling clamping tube 41 in an integrated manner, and the glass needle 1 is inserted into the anti-falling clamping tube 41 and the umbrella-shaped clamping tube 42.

The adjusting part 33 comprises an adjusting tube 331, a locking spring 332 and a locking ring 333 matched with the umbrella-shaped clamping tube 42, one end of the centering rod 31 is inserted in the adjusting tube 331 and is in sliding fit with the inner wall of the adjusting tube 331, and the locking ring 333 is fixed at the bottom of the groove in the adjusting tube 331. The locking spring 332 is disposed in the adjusting tube 331 and sleeved outside the anti-falling tube 41, and the locking spring 332 elastically abuts between an end surface of the centering rod 31 and the locking ring 333.

Referring to fig. 2, a metal ion solution is disposed in the glass needle 1, the electrode plug 32 includes an insulating housing 321, a conductive copper sheet 322, a conductive tube 323, and a banana plug 324 inserted in the conductive tube 323, and the banana plug 324 is connected with an electrode lead. The insulation shell 321 is detachably fixed on the centering rod 31, the banana plug 324 is fixed on the insulation shell 321 through the conductive copper sheet 322, and one end of the electrode wire 11 penetrates out of the glass needle 1 and then is connected with the conductive copper sheet 322.

After the electrode lead is connected with an external power supply, current is conducted on the conductive copper sheet 322 through the banana plug 324 and the conductive tube 323, the conductive copper sheet 322 is connected with the electrode wire 11, so that the current conduction is realized, the electrode wire 11 is inserted into the glass needle 1 and is in contact with a metal ion solution in the glass needle 1, and the glass needle 1 can be subjected to 3D printing under the condition of current conduction.

Wherein, the one end that the centering rod 31 was kept away from to control tube 331 can dismantle fixedly connected with direction mouth 5, and glass needle 1 wears to establish behind the anchor clamps body 3 and wears out by direction mouth 5. The guide mouth 5 not only plays a role in guiding the glass needle 1, so that the glass needle 1 is automatically centered after being clamped, the positioning precision is improved, and the sealing property in the glass needle 1 is ensured.

Referring to fig. 2, the centering rod 31 is provided with a circular groove 311 for inserting one end of the adjusting tube 331, and an elastic ring 6 is fixed on an outer wall of one end of the adjusting tube 331 far away from the guide nozzle 5. When the adjusting pipe 331 moves upwards and is inserted into the ring groove 311, the elastic ring 6 elastically abuts against the inner wall of the ring groove 311, and when the downward moving part of the adjusting pipe 331 is separated from the ring groove 311, the elastic ring 6 naturally restores to protrude out of the outer wall of the adjusting pipe 331.

The adjusting tube 331 is pushed upwards so that the adjusting tube 331 is inserted into the ring groove 311 at one end of the centering rod 31, the adjusting tube 331 is temporarily fixed on the centering rod 31 by the elastic force of the elastic ring 6, the adjusting tube 331 and the centering rod 31 keep a relatively stable state, and the glass needle 1 is conveniently replaced on the clamp. When the glass needle 1 is clamped, the elastic ring 6 naturally recovers to protrude the outer side wall of the adjusting tube 331, so that the adjusting tube 331 is kept in a stable state, the adjusting tube 331 can be pushed only under certain pushing force, and the working stability of the glass needle 1 during printing is ensured.

Further, referring to fig. 2, a tapered hole 21 is formed in the clamping plate 2, and a centering and positioning surface 312 matched with the tapered hole 21 is disposed at a middle portion of the centering rod 31. The centering rod 31 can automatically position and center when inserted into the tapered hole 21, so that the glass needle 1 is always kept in a vertical state, and the stability of fixing the clamp body 3 on the clamping plate 2 is improved.

The implementation principle of the embodiment is as follows: when the glass needle 1 needs to be taken down, the adjusting tube 331 is pushed upwards, so that the centering rod 31 moves downwards relative to the adjusting tube 331, the locking spring 332 between the centering rod 31 and the locking ring 333 is compressed to store elastic force, meanwhile, the locking ring 333 is separated from the umbrella-shaped clamping tube 42, the inner diameter of the umbrella-shaped clamping tube 42 is increased, the clamping force of the umbrella-shaped clamping tube 42 on the glass needle 1 disappears, the glass needle 1 is convenient to be drawn out from the anti-falling clamping tube 41, the glass needle 1 is not easy to fall off due to the arrangement of the anti-falling clamping tube 41, and the practicability is improved.

After the glass needle 1 is installed in the centering rod 31, the external force applied on the adjusting tube 331 is released, the locking spring 332 naturally restores to drive the adjusting tube 331 to move downwards on the centering rod 31, and meanwhile, the locking ring 333 extrudes the umbrella-shaped clamping tube 42 to reduce the inner diameter of the head of the umbrella-shaped clamping tube 42, so that the umbrella-shaped clamping tube 42 can clamp the glass needle 1 inside, the phenomenon that the glass needle 1 is loosened in use is avoided, and the clamping and positioning accuracy of the glass needle 1 is improved.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (6)

1. A micro-nano printing glass needle head clamp is characterized in that: the clamp comprises a glass needle (1), a clamping plate (2) and a clamp body (3) detachably fixed at one end of the clamping plate (2), wherein the glass needle (1) is detachably fixed in the clamp body (3), and an electrode wire (11) penetrates through the glass needle (1);

the clamp body (3) comprises a centering rod (31), an electrode plug (32) and an adjusting part (33), the electrode plug (32) is detachably fixed at the top end of the centering rod (31), and the adjusting part (33) is elastically and slidably arranged at one end, far away from the electrode plug (32), of the centering rod (31);

under the natural state, glass needle (1) chucking is in anchor clamps body (3), when regulation portion (33) move towards electrode plug (32)'s direction, glass needle (1) slide and set up in anchor clamps body (3).

2. The micro-nano printing glass needle head clamp according to claim 1, characterized in that: one end, far away from the electrode plug (32), of the centering rod (31) is fixedly connected with a clamping part (4), the clamping part (4) comprises an anti-falling clamping pipe (41) and an umbrella-shaped clamping pipe (42) which is fixedly connected to one end of the anti-falling clamping pipe (41) in an integrated forming mode, and the glass needle (1) penetrates through the anti-falling clamping pipe (41) and the umbrella-shaped clamping pipe (42);

the adjusting part (33) comprises an adjusting pipe (331), a locking spring (332) and a locking ring (333) matched with the umbrella-shaped clamping pipe (42), one end of the centering rod (31) is inserted into the adjusting pipe (331) and is in sliding fit with the inner wall of the adjusting pipe (331), and the locking ring (333) is fixed at the bottom of an inner groove of the adjusting pipe (331);

the locking spring (332) is arranged in the adjusting pipe (331) and sleeved on the outer side of the anti-falling clamping pipe (41), and the locking spring (332) elastically abuts against the space between one end face of the centering rod (31) and the locking ring (333).

3. The micro-nano printing glass needle head clamp according to claim 2, characterized in that: the adjusting pipe (331) is far away from one end of the centering rod (31) and is detachably and fixedly connected with a guide nozzle (5), and the glass needle (1) penetrates through the clamp body (3) and then penetrates out of the guide nozzle (5).

4. The micro-nano printing glass needle head clamp according to claim 3, characterized in that: a ring groove (311) for inserting one end of the adjusting pipe (331) is formed in the centering rod (31), and an elastic ring (6) is fixed on the outer wall of one end, far away from the guide nozzle (5), of the adjusting pipe (331);

when adjusting pipe (331) rebound and inserting and establishing in annular (311), elasticity circle (6) with the inner wall elasticity of annular (311) is supported tightly, adjust pipe (331) lapse part and break away from when annular (311), elasticity circle (6) are recovered the protrusion naturally the outer wall of adjusting pipe (331).

5. The micro-nano printing glass needle head clamp according to claim 1, characterized in that: a metal ion solution is arranged in the glass needle (1), the electrode plug (32) comprises an insulating shell (321), a conductive copper sheet (322), a conductive tube (323) and a banana plug (324) inserted in the conductive tube (323), and the banana plug (324) is connected with an electrode lead;

the insulation shell (321) is detachably fixed on the centering rod (31), the banana plug (324) is fixed on the insulation shell (321) through the conductive copper sheet (322), and one end of the electrode wire (11) penetrates out of the glass needle (1) and then is connected with the conductive copper sheet (322).

6. The micro-nano printing glass needle head clamp according to claim 1, characterized in that: the clamping plate (2) is provided with a tapered hole (21), and the middle part of the centering rod (31) is provided with a centering and positioning surface (312) matched with the tapered hole (21).

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