CN210548914U - Micro-nano manufacturing equipment for conducting strip structure of sealing mould - Google Patents

Abstract

The utility model discloses a sealed mould conducting strip structure receives manufacturing equipment a little, including fixed station, slide rail and slider, fixed station upper end middle part is equipped with conveying mechanism, fixed station upper end edge is equipped with the support shell, support shell left and right sides wall lower part and be equipped with export and entry respectively, support shell left side wall middle part is equipped with destatic mechanism, support shell left and right sides wall upper portion symmetry and be equipped with first motor cover, the inside first motor that is equipped with of first motor cover. The utility model has reasonable structural design, is provided with the conveying mechanism, is favorable for carrying out intermittent conveying on the current-conducting plate, carries out micro-nano laser cutting operation in the conveying process, and is convenient and rapid; the static electricity removing mechanism is arranged, so that static electricity removing treatment on the current conducting plate is facilitated, and the influence on the quality of the current conducting plate due to the adsorption of external dust is avoided; set up gear, rack, screw rod and slide bar, be favorable to carrying out steady movement to laser cutting ware, improve laser cutting's precision, promote work efficiency.

Description

Micro-nano manufacturing equipment for conducting strip structure of sealing mould

Technical Field

The utility model relates to a receive the manufacture equipment field a little, specifically a sealed mould conducting strip structure receives manufacture equipment a little.

Background

The micro-nano manufacturing technology refers to the design, processing, assembly, integration and application technology of parts with millimeter, micron and nano-scale dimensions and parts or systems formed by the parts. The traditional macro mechanical manufacturing technology cannot meet the requirements of high-precision manufacturing and assembling processing of the micro machines and the micro systems, and the micro-nano manufacturing technology and method must be researched and applied. The micro-nano manufacturing technology is a basic means and an important basis for manufacturing a micro sensor, a micro actuator, a micro structure and a functional micro-nano system. The micro-nano manufacturing technology is more and more concerned at home and abroad, and with the continuous development of the micro-nano technology, many application fields put forward more requirements on the micro-nano manufacturing technology.

Most of the existing conducting strip structures of the sealing die are manufactured and produced by adopting laser micro-nano cutting, and a common laser micro-nano cutting device is low in stability, low in working efficiency and low in laser cutting precision in the working process and is not beneficial to use; meanwhile, in the production process, static electricity is easily generated on the conducting strip, so that surrounding dust is adsorbed, and the production quality of the conducting strip is influenced.

Therefore, the technical personnel in the field provide a micro-nano manufacturing device for a conducting strip structure of a sealing die, so as to solve the problems in the background technology.

Disclosure of Invention

An object of the utility model is to provide a sealed mould conducting strip structure receives manufacture equipment a little to solve the problem that proposes in the above-mentioned background art.

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

a micro-nano manufacturing device of a conducting strip structure of a sealing die comprises a fixed table, a slide rail and a slide block, wherein a conveying mechanism is arranged in the middle of the upper end of the fixed table, a supporting shell is arranged at the edge of the upper end of the fixed table, the lower parts of the left side wall and the right side wall of the supporting shell are respectively provided with an outlet and an inlet, a static removing mechanism is arranged in the middle of the left side wall of the supporting shell, first motor covers are symmetrically arranged on the upper parts of the left side wall and the right side wall of the supporting shell, a first motor is arranged in each first motor cover, a motor shaft of each first motor penetrates through the supporting shell and is sleeved with a gear, the slide rail is symmetrically arranged at the center of the upper part of the inner wall of the supporting shell in a left-right mode, the slide rail is in sliding connection with the slide block, a, the motor shaft of the second motor penetrates through the supporting seat and is connected with one end of the screw rod through the coupler, the sliding rod and the side wall of the screw rod are sleeved with the moving sleeve, the middle of the lower end of the moving sleeve is provided with the laser cutter, the left side of the lower end of the moving sleeve is provided with the camera, racks are arranged at the upper ends of the supporting seat and the moving block, and the racks are meshed with the gears.

As a further aspect of the present invention: the conveying mechanism comprises a support frame, a driving roller, a conveying belt and a first wheel disc, the support frame is symmetrically arranged at the front side and the rear side of the upper end of the fixed table, a driving roller and a driven roller are respectively arranged between the supporting frames from left to right, the driving roller and the driven roller are mutually connected through a conveying belt, a cover body is arranged at the left part of the front side wall of the supporting frame at the front side, a third motor cover is arranged at the right part of the front side wall of the cover body, a third motor is arranged in the third motor cover, a motor shaft of the third motor penetrates through the cover body and is sleeved with a first wheel disc, the rear side wall of the first wheel disc is provided with convex blocks in bilateral symmetry, the front end of the driving roller extends into the cover body and is sleeved with a second wheel disc, four grooves are arranged on the side wall of the second wheel disc at equal intervals, the lug is matched with the groove, and the first wheel disc is meshed with the second wheel disc.

As a further aspect of the present invention: the static electricity removing mechanism comprises a shell, a sliding plate, a connecting rod, a sliding block and a supporting rod, wherein the shell is arranged in the middle of the left side wall of the supporting shell, a supporting sleeve is arranged at the left end part of the inner side of the shell, an air cylinder is arranged in the middle of the supporting sleeve, a connecting block is arranged at the end part of the air cylinder, a sliding groove is arranged in the middle of the connecting block, a sliding groove is arranged in the middle of the lower end part of the inner side of the shell, the sliding groove is in sliding connection with the sliding block, a fixing rod is arranged at the upper end of the sliding block, the fixing rod is connected with the lower end of the connecting block, the sliding groove is in sliding connection with the left end part of the connecting rod, a moving seat is arranged at the other end part of the connecting rod, the, the other end tip of bracing piece is equipped with the fixing base, the fixing base lower extreme is equipped with the ion fan, and the width of ion fan is the same with the width of conveyer belt.

As a further aspect of the present invention: the length of the rack is the same as that of the sliding rail, a supporting seat is arranged at the center of the lower end of the rack on the left side, a moving block is arranged at the center of the lower end of the rack on the right side, and the length of the sliding rail is half of the width of the inner wall of the supporting shell.

As a further aspect of the present invention: the camera is in the type of FT-U236, the types of the first motor, the second motor and the third motor are YD160L-4/2, the type of the air cylinder is SC50, the type of the ion fan is BL-201, and the type of the laser cutter is HL-1610S.

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

the utility model has reasonable structural design, is provided with the conveying mechanism, is favorable for carrying out intermittent conveying on the current-conducting plate, carries out micro-nano laser cutting operation in the conveying process, and is convenient and rapid; the static electricity removing mechanism is arranged, so that static electricity removing treatment on the current conducting plate is facilitated, and the influence on the quality of the current conducting plate due to the adsorption of external dust is avoided; set up gear, rack, screw rod and slide bar, be favorable to carrying out steady movement to laser cutting ware, improve laser cutting's precision, promote work efficiency.

Drawings

Fig. 1 is a schematic structural diagram of micro-nano manufacturing equipment for a conducting strip structure of a sealing mould.

Fig. 2 is a schematic structural diagram of a sealed mold conducting strip structure micro-nano manufacturing equipment.

Fig. 3 is a schematic view of a top view structure of a conveying mechanism in the micro-nano manufacturing equipment for the conducting strip structure of the sealing die.

Fig. 4 is a schematic side view of a first wheel disc and a second wheel disc in a micro-nano manufacturing device for a conducting strip structure of a sealing die.

Fig. 5 is a schematic structural diagram of a static electricity removing mechanism in the micro-nano manufacturing equipment for the conducting strip structure of the sealing mould.

In the figure: the device comprises a fixed table 1, a conveying mechanism 2, a support frame 201, a driving roller 202, a conveying belt 203, a driven roller 204, a cover body 205, a third motor 206, a third motor cover 207, a first wheel disc 208, a second wheel disc 209, a groove 210, a bump 211, an outlet 3, a static electricity removing mechanism 4, a shell 401, a support sleeve 402, an air cylinder 403, a fixed rod 404, a sliding block 405, a sliding groove 406, a moving seat 407, a sliding plate 408, a support rod 409, an ion fan 410, a fixed seat 411, an opening 412, a connecting rod 413, a sliding groove 414, a connecting block 415, a support shell 5, a screw 6, a sliding rod 7, a first motor cover 8, a first motor 9, a gear 10, a sliding block 11, a sliding rail 12, a moving block 13, an inlet 14, a laser cutter 15, a camera 16, a moving sleeve 17, a support.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 5, in the embodiment of the present invention, a micro-nano manufacturing apparatus for a conducting strip structure of a sealing mold comprises a fixing table 1, a sliding rail 12 and a sliding block 11, wherein a conveying mechanism 2 is arranged in the middle of the upper end of the fixing table 1, a supporting shell 5 is arranged at the edge of the upper end of the fixing table 1, an outlet 3 and an inlet 14 are respectively arranged at the lower parts of the left and right side walls of the supporting shell 5, a static electricity removing mechanism 4 is arranged in the middle of the left side wall of the supporting shell 5, first motor covers 8 are symmetrically arranged at the upper parts of the left and right side walls of the supporting shell 5, a first motor 9 is arranged inside the first motor covers 8, a motor shaft of the first motor 9 passes through the supporting shell 5 and is sleeved with a gear 10, the sliding rail 12 is symmetrically arranged at the center of the upper part of the inner wall of the supporting, the laser cutting machine is characterized in that a second motor 19 is arranged inside the supporting seat 18, a moving block 13 is arranged on the inner side wall of the sliding block 11 and located on the right side, a sliding rod 7 and a screw 6 are sequentially arranged between the supporting seat 18 and the moving block 13 from top to bottom, a motor shaft of the second motor 19 penetrates through the supporting seat 18 and is connected with one end of the screw 6 through a coupler, a moving sleeve 17 is sleeved on the side walls of the sliding rod 7 and the screw 6, a laser cutter 15 is arranged in the middle of the lower end of the moving sleeve 17, a camera 16 is arranged on the left side of the lower end of the moving sleeve 17, racks 20 are arranged at the upper.

The conveying mechanism 2 comprises a supporting frame 201, a driving roller 202, a conveying belt 203 and a first wheel disc 208, the supporting frame 201 is symmetrically arranged on the front side and the rear side of the upper end of the fixed table 1, the driving roller 202 and a driven roller 204 are respectively arranged between the supporting frames 201 from left to right, the driving roller 202 and the driven roller 204 are mutually connected through the conveying belt 203, a cover body 205 is arranged on the left portion of the front side wall of the supporting frame 201 on the front side, a third motor cover 207 is arranged on the right portion of the front side wall of the cover body 205, a third motor 206 is arranged inside the third motor cover 207, a motor shaft of the third motor 206 penetrates through the cover body 205 and is sleeved with the first wheel disc 208, convex blocks 211 are symmetrically arranged on the left and right side of the rear side wall of the first wheel disc 208, the front end of the driving roller 202 extends into the cover body 205 and is sleeved with a second wheel disc 209, four grooves 210 are arranged, the first disc 208 and the second disc 209 are intermeshed with each other.

The static eliminating mechanism 4 comprises a shell 401, a sliding plate 408, a connecting rod 413, a sliding block 405 and a supporting rod 409, wherein the shell 401 is arranged in the middle of the left side wall of the supporting shell 5, the left end part of the inner side of the shell 401 is provided with a supporting sleeve 402, the middle part of the supporting sleeve 402 is provided with an air cylinder 403, the end part of the air cylinder 403 is provided with a connecting block 415, the middle part of the connecting block 415 is provided with a sliding groove 414, the middle part of the lower end of the inner side of the shell 401 is provided with a sliding groove 406, the sliding groove 406 is slidably connected with the sliding block 405, the upper end of the sliding block 405 is provided with a fixing rod 404, the fixing rod 404 is connected with the lower end of the connecting block 415, the sliding groove 414 is slidably connected with the left end part of the connecting rod 413, the other end part of the connecting rod 413 is provided with a moving, an opening 412 is formed in the middle of the right side wall of the shell 401, the supporting rod 409 penetrates through the opening 412, a fixing seat 411 is arranged at the end of the other end of the supporting rod 409, an ion fan 410 is arranged at the lower end of the fixing seat 411, and the width of the ion fan 410 is the same as that of the conveyor belt 203.

The length of the rack 20 is the same as that of the slide rail 12, a support seat 18 is arranged at the center of the lower end of the rack 20 on the left side, a moving block 13 is arranged at the center of the lower end of the rack 20 on the right side, and the length of the slide rail 12 is half of the width of the inner wall of the support shell 5.

The type of the camera 16 is FT-U236, the types of the first motor 9, the second motor 19 and the third motor 206 are YD160L-4/2, the type of the air cylinder 403 is SC50, the type of the ion fan 410 is BL-201, and the type of the laser cutter 15 is HL-1610S.

The utility model discloses a theory of operation is:

the utility model relates to a sealed mould conducting strip structure is received manufacturing equipment a little, will seal the mould conducting strip and place on the conveyer belt 203 surface of conveying mechanism 2 through the external manipulator, later through the starting of external controller third motor 206, third motor 206 drives the first rim plate 208 that the motor shaft cover was established and rotates, intermeshing between the lug 211 of first rim plate 208 and the recess 210 of second rim plate 209 to drive roll 202 and rotate, drive the sealed mould conducting strip on conveyer belt 203 surface to left side intermittent type nature removal; after entering the interior of the supporting shell 5, starting the first motor 9, the second motor 19, the camera 16 and the laser cutter 15, observing the specific position of the conducting strip through the camera 16, and driving the screw 6 and the gear 10 to rotate under the action of the first motor 9 and the second motor 19, so as to adjust the position of the laser cutter 15, and cutting the conducting strip to obtain a proper conducting strip structural shape; according to the transport time, when being about to carry to the ionic wind machine 410 below of destaticizing mechanism 4, start cylinder 403, cylinder 403 drives connecting block 415 along spout 414 position to the right side steady movement, connecting block 415 middle part is equipped with spout 414, sliding connection between spout 414 and the connecting rod 413, thereby make and remove seat 407 along sliding plate 408 downstream, thereby drive bracing piece 409 and ionic wind machine 410 downstream together, adjust the distance between ionic wind machine 410 and the conducting strip, avoid because the static elimination that the distance problem leads to is incomplete, ionic wind machine 410 rotates and gets rid of the static on the conducting strip surface after the cutting, avoid adsorbing external dust, influence the quality of conducting strip.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (4)

1. The utility model provides a sealed mould conducting strip structure is received manufacturing equipment a little, includes fixed station (1), slide rail (12) and slider (11), its characterized in that: the automatic cleaning device is characterized in that a conveying mechanism (2) is arranged in the middle of the upper end of the fixed table (1), a supporting shell (5) is arranged at the edge of the upper end of the fixed table (1), an outlet (3) and an inlet (14) are respectively arranged on the lower portions of the left side wall and the right side wall of the supporting shell (5), a static removing mechanism (4) is arranged in the middle of the left side wall of the supporting shell (5), first motor covers (8) are symmetrically arranged on the upper portions of the left side wall and the right side wall of the supporting shell (5), a first motor (9) is arranged inside the first motor covers (8), a motor shaft of the first motor (9) penetrates through the supporting shell (5) and is sleeved with a gear (10), sliding rails (12) are symmetrically arranged on the left side and the center of the upper portion of the inner wall of the supporting shell (5), the sliding rails (12) are connected with the sliding block (11, a moving block (13) is arranged on the inner side wall of the sliding block (11) on the right side, a sliding rod (7) and a screw rod (6) are sequentially arranged between the supporting seat (18) and the moving block (13) from top to bottom, a motor shaft of the second motor (19) penetrates through the supporting seat (18) and is connected with one end of the screw rod (6) through a coupler, a moving sleeve (17) is sleeved on the side walls of the sliding rod (7) and the screw rod (6), a laser cutter (15) is arranged in the middle of the lower end of the moving sleeve (17), a camera (16) is arranged on the left side of the lower end of the moving sleeve (17), racks (20) are arranged at the upper ends of the supporting seat (18) and the moving block (13; the conveying mechanism (2) comprises support frames (201), a driving roller (202), a conveying belt (203) and a first wheel disc (208), the support frames (201) are symmetrically arranged on the front side and the rear side of the upper end of the fixed table (1), the driving roller (202) and the driven roller (204) are arranged between the support frames (201) from left to right respectively, the driving roller (202) and the driven roller (204) are connected with each other through the conveying belt (203), a cover body (205) is arranged on the left portion of the front side wall of the support frame (201) on the front side, a third motor cover (207) is arranged on the right portion of the front side wall of the cover body (205), a third motor (206) is arranged inside the third motor cover (207), a motor shaft of the third motor (206) penetrates through the cover body (205) and is sleeved with the first wheel disc (208), bumps (211) are symmetrically arranged on the left and right portions of the rear side wall of the first wheel disc (208), the front end of the driving roller (202), the side wall of the second wheel disc (209) is provided with four grooves (210) at equal intervals, the convex blocks (211) and the grooves (210) are matched with each other, and the first wheel disc (208) and the second wheel disc (209) are meshed with each other.

2. The sealed mould conducting strip structure micro-nano manufacturing equipment of claim 1 is characterized in that: the static electricity removing mechanism (4) comprises a shell (401), a sliding plate (408), a connecting rod (413), a sliding block (405) and a supporting rod (409), wherein the shell (401) is arranged in the middle of the left side wall of the supporting shell (5), a supporting sleeve (402) is arranged at the left end part of the inner side of the shell (401), an air cylinder (403) is arranged in the middle of the supporting sleeve (402), a connecting block (415) is arranged at the end part of the air cylinder (403), a sliding groove (414) is arranged in the middle of the connecting block (415), a sliding groove (406) is arranged in the middle of the lower end part of the inner side of the shell (401), the sliding groove (406) is in sliding connection with the sliding block (405), a fixing rod (404) is arranged at the upper end of the sliding block (405), the fixing rod (404) is connected with the lower end of the connecting block (415) in an interconnecting manner, the sliding groove (, the novel conveying belt is characterized in that the sliding plate (408) is arranged on the right side of the inner wall of the shell (401), the sliding plate (408) is connected with the moving seat (407) in a sliding mode, a supporting rod (409) is arranged on the right side wall of the moving seat (407), an opening (412) is formed in the middle of the right side wall of the shell (401), the supporting rod (409) penetrates through the opening (412), a fixed seat (411) is arranged at the end portion of the other end of the supporting rod (409), an ion fan (410) is arranged at the lower end of the fixed seat (411), and the width of the ion fan (410) is the same.

3. The sealed mould conducting strip structure micro-nano manufacturing equipment of claim 1 is characterized in that: the length of the rack (20) is the same as that of the sliding rail (12), a supporting seat (18) is arranged at the center of the lower end of the rack (20) on the left side, a moving block (13) is arranged at the center of the lower end of the rack (20) on the right side, and the length of the sliding rail (12) is half of the width of the inner wall of the supporting shell (5).

4. The sealed mould conducting strip structure micro-nano manufacturing equipment of claim 1 is characterized in that: the type of the camera (16) is FT-U236, the types of the first motor (9), the second motor (19) and the third motor (206) are YD160L-4/2, the type of the air cylinder (403) is SC50, the type of the ion fan (410) is BL-201, and the type of the laser cutter (15) is HL-1610S.

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