CN112481572A - Tin dipping treatment equipment for medical product accessory core wires - Google Patents

Abstract

The invention relates to a tin dipping treatment device for a core wire of a medical product accessory, which comprises a workbench, a tin containing pool and a dipping mechanism, wherein the lower end of the workbench is arranged on the existing working ground, the tin containing pool is symmetrically arranged on the left and right sides of the upper end surface of the workbench, and the dipping mechanism is arranged at the rear end of the upper end surface of the tin containing pool.

Description

Tin dipping treatment equipment for medical product accessory core wires

Technical Field

The invention relates to the technical field of core wire processing, in particular to tin dipping treatment equipment for a core wire of a medical product accessory.

Background

The medical apparatus refers to instruments, equipment, appliances, in-vitro diagnostic reagents, calibrators, materials and other similar or related articles directly or indirectly used for human bodies, including required computer software, the medical apparatus industry relates to a plurality of industries such as medicine, machinery, electronics, plastics and the like, the medical apparatus is divided into a first type, a second type and a third type, wherein the first type of medical apparatus comprises an extrusion surgical knife, the second type of medical apparatus comprises diagnostic instruments or equipment, the diagnostic instruments and equipment comprise a plurality of large and small spare parts, wherein the display photography recording system, a panel control system, a transmitting/receiving unit, a keyboard, a power supply device, a connecting data wire and the like are included, the connecting data wire plays an important role in the use of the equipment and the instruments, an inner core of the connecting data wire generally comprises a plurality of copper core wires, the integral surface area formed by the plurality of copper core wires is larger, monofilament copper is easy to oxidize to generate copper rust to influence the connection stability, so the inner core of the connection data wire needs to be subjected to tin dipping treatment in the forming process, but the following problems can occur in the tin dipping process of the core wire:

1. the mode of carrying out successive tin dipping on a single core wire or carrying out synchronous tin dipping treatment on a small number of core wires has lower overall working efficiency and is easy to increase the working load, meanwhile, in the clamping process of the core wires, the tin dipping sections are easy to generate deformation phenomena such as bending and the like and are easy to generate uneven tin dipping phenomena, and the clamping degree of the core wires is lower and the core wires are easy to slide so as to generate the phenomenon of over-limit tin dipping range;

2. in the process of synchronously tin-dipping a plurality of core wires, tin connection phenomenon is easy to occur between the adjacent core wires, the immersion depth of the core wires in tin liquor is not effectively and accurately controlled, so that the phenomenon of excessive tin dipping or insufficient tin dipping is easy to occur, and when partition treatment is adopted between the adjacent core wires, the tin liquor is easy to adhere to the surface of the partition structure, but cannot be treated in time.

Disclosure of Invention

Technical scheme (I)

In order to achieve the purpose, the invention adopts the following technical scheme that the tin dipping treatment equipment for the core wire of the medical product accessory comprises a workbench, a tin containing pool and a dipping mechanism, wherein the lower end of the workbench is installed on the existing working ground, the tin containing pool is symmetrically installed on the left and right sides of the upper end surface of the workbench, and the dipping mechanism is installed at the rear end of the upper end surface of the tin containing pool.

The dipping mechanism comprises a back plate, a first electric sliding block, a bottom plate, a U-shaped block, clamping rubber, an electric push rod, a connecting plate, a round rod, a clamping jaw and a torsion spring, wherein the lower end face of the back plate is connected with the rear end of the upper end face of a tin containing pool, a block groove is formed in the middle of the front end face of the back plate, the first electric sliding block is installed in the block groove in a sliding fit mode, the bottom plate is installed at the front end of the first electric sliding block, the U-shaped blocks are installed on the front end face of the bottom plate in an equidistant mode from left to right, the clamping rubber is symmetrically installed on the left inner side wall and the right inner side wall of each U-shaped block, the middle of the clamping rubber is of an inwards concave arc structure, the electric push rod is installed at the right end face of the lower end face of each U-shaped block, the connecting plate is installed at the lower end of the connecting, the clamping jaws are of a staggered arrangement structure, torsion springs are symmetrically arranged at the upper end and the lower end of a round rod in a rotating connection mode, one end of each torsion spring is connected with the horizontal end face of the round rod, the other end of each torsion spring and the connecting end of each clamping jaw are connected with the round rod, the adjacent clamping jaws are opened manually, core wires are clamped between the adjacent clamping rubbers and between the adjacent clamping jaws, the core wire tin-stained sections are positioned below the clamping jaws, the torsion springs are synchronously twisted during the opening process of the clamping jaws, the torsion springs generate torsional force, the clamping jaws are loosened, the core wires are clamped by the clamping jaws under the restoring action of the torsion springs, the connecting plates are driven by the electric push rods to move downwards, the connecting plates drive the clamping jaws to synchronously move through the round rods, the clamping jaws can straighten the core wire tin-stained sections, the clamping jaws drive the clamping jaws to reset through the electric push rods again after straightening, the bottom plate drives type U type piece synchronous motion, presss from both sides and adorns the tight heart yearn of rubber clamp and follows type U type piece synchronous motion, until heart yearn tin dipping section dip in the tin liquid in flourishing tin pond, submergence second to a minute after, drive type U type piece through electronic slider once more and reset, heart yearn tin dipping section and flourishing tin pond are kept away from mutually, later take off the heart yearn through artifical mode, follow-up heart yearn tin dipping is handled and is repeated above-mentioned operation.

As a preferred technical scheme of the invention, the left side and the right side of the first electric slide block are symmetrically provided with the die returning plates, the rear end surfaces of the die returning plates are connected with the front end surface of the back plate, the bottom plate is positioned between the die returning plates, the positioning plates are arranged between the die returning plates in a sliding fit manner, the positioning plates are positioned below the first electric slide block and positioned at the rear side of the electric push rod, the upper ends of the positioning plates are symmetrically connected with the pull ropes in a left-right manner, the upper ends of the pull ropes are wound on the outer side ends of the winding core, the inner side ends of the winding core are connected with the round through holes in a sliding fit manner, the round through holes are arranged at the upper ends of the vertical plates, the clamping blocks are symmetrically arranged in the front-back direction at the inner side ends of the winding core, the clamping blocks are connected with the limiting grooves in a sliding fit manner, then rotate through artifical mode and roll up the core, it drives the stay cord and carries out synchronous unwrapping wire or receive the line motion to roll up the core, the unwrapping wire in-process, the locating plate is along returning the profiled sheeting downstream under the drive of stay cord, the locating plate moves behind the corresponding distance, make the fixture block card again go into spacing recess through artifical mode in, it is in non-rotatable state to roll up the core this moment, the locating plate obtains fixedly, drive the bottom plate downstream in-process when electronic slider, when bottom plate touching locating plate, electronic slider stop motion, the heart yearn tin dipping section is in time submergence tin liquid completely, the locating plate, roll up the core, spacing effect can be played in order to realize controlling the submergence depth of heart yearn tin dipping section to the motion of electronic slider No. one between stay cord and the fixture block to cooperation.

As a preferred technical scheme of the invention, the lower end face of the back plate is provided with the partition plates at equal intervals from left to right, the partition plates are positioned below the block grooves, the partition plates are positioned between every two adjacent U-shaped blocks and positioned above the tin containing pool, and the partition plates can play a role of preventing tin connection between the adjacent core wires in the process of resetting the U-shaped blocks driven by a first electric slide block after the core wires are dipped with tin liquid, so that the tin dipping forming quality of the core wires is improved.

According to a preferable technical scheme of the invention, the left side and the right side of the rear end of the partition board are symmetrically provided with the scraping plates, the front ends of the scraping plates are connected with the side end face of the partition board in a sliding fit mode, every two adjacent scraping plates are in a V-shaped structure, the sharp angle of the V-shaped structure faces the front side, the lower end face of each scraping plate is connected with the upper end face of the substrate, the substrate is positioned below the partition board, the left end and the right end of the substrate are symmetrically provided with the second electric sliding blocks, the second electric sliding blocks are connected with the inner side wall of the tin containing pool in a sliding fit mode, after one batch of core wire tin dipping treatment is finished, the substrate is driven to move forwards through the second electric sliding blocks, the substrate drives the scraping plates to move synchronously, and the scraping plates can synchronously clean the partition board and treat the surface tin dipping liquid so as to avoid the phenomenon that the partition.

According to a preferred technical scheme, the upper end face of the base plate is provided with a rectangular groove, the front end face of the base plate is provided with a storage groove, the rectangular groove is communicated with the storage groove, a receiving drawer is installed in the storage groove in a sliding fit mode, tin liquid scraped by the scraper can fall into the receiving drawer, so that the tin liquid in the tin storage tank is prevented from being polluted by the scraped tin liquid, and meanwhile, the receiving drawer is convenient for workers to disassemble and clean the receiving drawer in time.

As a preferred technical scheme of the invention, the clamping jaw is of an inwards concave arc structure, the inner side end of the clamping jaw is provided with the thin sponge layer, and the thin sponge layer can protect the core wire to avoid deformation phenomena such as scratches on the surface of the core wire and simultaneously has the function of friction and smoothness on the surface of the core wire.

As a preferred technical scheme of the invention, the outer side end face of the hollow square is carved with a dimension line, the dimension line is positioned at the front side of the positioning plate, the moving distance of the positioning plate can be accurately controlled according to the actual immersion length of the core wires on the basis of the dimension line, and the recording of the moving distance data can be realized to improve the uniformity and the processing speed between the processing of a plurality of batches of core wires.

(II) advantageous effects

1. According to the tin dipping treatment equipment for the core wire of the medical product accessory, the tin dipping treatment is carried out on the core wire of the medical product accessory by adopting the design concept of a multi-station structure, the multi-station synchronous treatment function of the arranged dipping mechanism can greatly improve the working efficiency of the tin dipping treatment of the core wire, and the structure with the straightening function in the dipping mechanism can play a role in avoiding uneven tin dipping due to the bending state of a tin dipping section of the core wire and can play a role in assisting in clamping the core wire so as to avoid the phenomenon that the core wire slides down to cause the over-limit of the tin dipping range;

2. the positioning plate, the winding core, the pull rope and the clamping block are matched to limit the movement of the first electric sliding block, the moving distance of the positioning plate can be accurately controlled according to the actual immersion length of the core wire on the basis of a dimension line so as to control the immersion depth of a tin dipping section of the core wire, and the moving distance data can be recorded so as to improve the uniformity and the processing speed among multi-batch core wire processing;

3. the scraping plate, the second electric sliding block and the receiving drawer are matched to synchronously clean the partition plate, and tin liquid adhered to the surface of the partition plate can be treated, so that the phenomenon that the partition plate is connected with core wires due to the fact that the tin liquid adhered to the surface of the partition plate is gradually increased is avoided, and meanwhile, the movable mounting structure of the receiving drawer can facilitate workers to timely disassemble and clean the movable mounting structure of the receiving drawer;

4. the partition plate can play a role in preventing the phenomenon of tin connection between adjacent core wires, thereby improving the quality of tin-dipping molding of the core wires.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a first cross-sectional view of the present invention;

FIG. 3 is a left side view of the present invention;

FIG. 4 is a second cross-sectional view of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 1 according to the present invention in the X direction;

FIG. 6 is an enlarged view of a portion of the invention in the direction Y of FIG. 1;

FIG. 7 is an enlarged view of the invention in the Z-direction of FIG. 2;

FIG. 8 is an enlarged view of the M-direction portion of FIG. 3 in accordance with the present invention;

fig. 9 is an enlarged view of the invention from the N-direction of fig. 4.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways, which are defined and covered by the claims.

As shown in fig. 1 to 9, a tin dipping treatment device for a core wire of a medical product fitting comprises a workbench 1, a tin containing pool 2 and a dipping mechanism 3, wherein the lower end of the workbench 1 is installed on the existing working ground, the tin containing pool 2 is installed on the upper end face of the workbench 1 in bilateral symmetry, and the dipping mechanism 3 is installed at the rear end of the upper end face of the tin containing pool 2.

The left side and the right side of the first electric slider 31 are symmetrically provided with a pair of circular-arc plates 310, the rear end face of each circular-arc plate 310 is connected with the front end face of the back plate 30, the bottom plate 32 is positioned between the circular-arc plates 310, a positioning plate 311 is arranged between the circular-arc plates 310 in a sliding fit manner, the positioning plate 311 is positioned below the first electric slider 31 and is positioned at the rear side of the electric push rod 35, the upper end of the positioning plate 311 is bilaterally and symmetrically connected with a pull rope 312, the upper end of the pull rope 312 is wound on the outer side end of the winding core 313, the inner side end of the winding core 313 is connected with a circular through hole in a sliding fit manner, the circular through hole is arranged at the upper end of the vertical plate 314, the inner side end of the winding core 313 is symmetrically provided with clamping blocks 315, the clamping blocks 315 are connected with limiting grooves in a sliding fit, at the moment, the inner side end of the winding core 313 is still connected with the round through hole, then the winding core 313 is manually rotated, the winding core 313 drives the pull rope 312 to synchronously pay off or take up, during the paying off process, the positioning plate 311 is driven by the pulling rope 312 to move downwards along the clip plate 310, and during the wire-rewinding process, the positioning plate 311 is driven by the pulling rope 312 to move upward along the clip plate 310, and after the positioning plate 311 moves a corresponding distance, the fixture block 315 is manually clamped into the limiting groove again, the winding core 313 is in a non-rotatable state, the positioning plate 311 is fixed, when the bottom plate 32 touches the positioning plate 311 during the downward movement of the bottom plate 32 driven by the first electric slider 31, no. one electronic slider 31 stop motion, the heart yearn tin sticky section just in time submerges the tin liquid completely, and the cooperation between locating plate 311, roll core 313, stay cord 312 and the fixture block 315 can play limiting displacement to the motion of an electronic slider 31 in order to realize controlling the immersion depth of heart yearn tin sticky section.

The outer side end face of the square-shaped plate 310 is carved with a dimension line, the dimension line is positioned at the front side of the positioning plate 311, the moving distance of the positioning plate 311 can be accurately controlled according to the actual immersion length of the core wires on the basis of the dimension line, and the data of the moving distance can be recorded so as to improve the uniformity and the processing speed among multi-batch core wire processing.

The dipping mechanism 3 comprises a back plate 30, a first electric sliding block 31, a bottom plate 32, a U-shaped block 33, clamping rubber 34, an electric push rod 35, a connecting plate 36, a round rod 37, a clamping jaw 38 and a torsion spring 39, wherein the lower end face of the back plate 30 is connected with the rear end of the upper end face of the tin containing pool 2, a block groove is formed in the middle of the front end face of the back plate 30, the first electric sliding block 31 is installed in the block groove in a sliding fit mode, the bottom plate 32 is installed at the front end of the first electric sliding block 31, the U-shaped blocks 33 are installed on the front end face of the bottom plate 32 at equal intervals from left to right, the clamping rubber 34 is symmetrically installed on the left inner side wall and the right inner side wall of the U-shaped blocks 33, the middle of the clamping rubber 34 is of an inwards concave arc structure, the electric push rod 35 is installed at the right end of the lower end face of the U-shaped block 33, the connecting plate, the clamping jaws 38 are positioned below the clamping rubber 34, the clamping jaws 38 are rotatably connected with the round rod 37, the clamping jaws 38 are of a staggered arrangement structure, torsion springs 39 are symmetrically installed at the upper end and the lower end of the round rod 37 in a rotating connection mode, one end of each torsion spring 39 is connected with the horizontal end face of the round rod 37, the other end of each torsion spring 39 is connected with the end, connected with the clamping jaws 38, of the round rod 37, the adjacent clamping jaws 38 are opened manually, then the core wires are clamped between the adjacent clamping rubbers 34 and between the adjacent clamping jaws 38, the tin-stained sections are positioned below the clamping jaws 38, the torsion springs 39 are synchronously twisted during the opening process of the clamping jaws 38, the torsion springs 39 generate torsional force, then the clamping jaws 38 are loosened, the clamping jaws 38 clamp the core wires under the restoring effect of the torsion springs 39, the connecting plates 36 are driven by the electric push rods 35 to move downwards, the connecting plates 36 drive the clamping jaws 38 to synchronously move through the round rods 37, and the clamping jaws 38 can straighte, after the clamping jaw 38 finishes straightening, the clamping jaw 38 is driven to reset through the electric push rod 35 again, then the bottom plate 32 is driven to move downwards through the first electric slide block 31, the bottom plate 32 drives the U-shaped block 33 to move synchronously, the clamping rubber 34 clamps the core wire to move synchronously along with the U-shaped block 33 until the tin dipping section of the core wire is dipped into tin liquid in the tin containing pool 2, after 30 seconds to one minute of immersion, the U-shaped block 33 is driven to reset through the first electric slide block 31 again, the core wire tin dipping section is separated from the tin containing pool 2, then the core wire is taken down manually, the subsequent core wire tin dipping treatment is repeated, the straightening function of the clamping jaw 38 can achieve the purpose of avoiding uneven tin dipping caused by the bending state of the core wire tin dipping section, meanwhile, the clamping jaw 38 can play a role of assisting in clamping and fixing the core wire so as to avoid the phenomenon that the core wire slips off to cause the tin dipping range to be over-limited, and the multi-station synchronous processing function of the dipping mechanism 3 can greatly improve the working efficiency of tin dipping processing of the core wire.

The lower terminal surface of backplate 30 turn right from a left side and install baffle 301, baffle 301 is located the below of a recess, baffle 301 is located between two liang of adjacent type U type pieces 33, and baffle 301 is located the top of flourishing tin pond 2, the heart yearn is stained with after getting the tin liquid and drive type U type piece 33 to the in-process that resets through an electronic slider 31, baffle 301 can play the effect that prevents to appear continuous tin phenomenon between the adjacent heart yearn, and then improves the fashioned quality of heart yearn tinning.

The left side and the right side of the rear end of the clapboard 301 are symmetrically provided with scrapers 302, the front end of each scraper 302 is connected with the side end surface of the clapboard 301 in a sliding fit way, every two adjacent scrapers 302 are in a V-shaped structure, the sharp angle of the V-shaped structure faces to the front side, the lower end face of the scraping plate 302 is connected with the upper end face of the substrate 303, the substrate 303 is positioned below the partition plate 301, the left end and the right end of the substrate 303 are symmetrically provided with a second electric sliding block 304, the second electric sliding block 304 is connected with the inner side wall of the tin containing pool 2 in a sliding fit mode, after the tin dipping treatment of a batch of core wires is finished, the second electric slide block 304 drives the base plate 303 to move forward, the base plate 303 drives the scraper 302 to move synchronously, the scraper 302 can carry out the treatment of the sticky tin liquid on the synchronous cleaning surface of the clapboard 301, so as to avoid the tin connection between the partition board 301 and the core wire due to the gradually increased amount of the tin-adhering liquid on the surface.

The up end of base plate 303 seted up the rectangle recess, the preceding terminal surface of base plate 303 has been seted up and has been put the thing recess, the rectangle recess with put and communicate with each other between the thing recess, put and install through sliding fit mode in the thing recess and accept steamer tray 305, tin liquid that scraper blade 302 struck off can fall into and accept in steamer tray 305 to avoid scraping tin liquid and cause the pollution to the tin liquid that holds in tin pond 2, accept simultaneously that the workman can in time dismantle and clear up it by the movable mounting structure of steamer tray 305.

Clamping jaw 38 be indent circular arc structure, the medial extremity of clamping jaw 38 is installed and is had thin sponge layer, thin sponge layer can play the effect of protection to the heart yearn to avoid deformation phenomena such as mar to appear on its surface, can play the effect that the friction is in the same direction as sliding to the heart yearn surface again simultaneously.

When the positioning device works, the winding core 313 is manually pulled outwards until the clamping blocks 315 are completely separated from the limiting grooves, the inner side end of the winding core 313 is still connected with the round through hole, then the winding core 313 is manually rotated, the winding core 313 drives the pull rope 312 to synchronously pay off or take up, in the pay-off process, the positioning plate 311 is driven by the pull rope 312 to move downwards along the clip-shaped plate 310, in the take-up process, the positioning plate 311 is driven by the pull rope 312 to move upwards along the clip-shaped plate 310, the moving distance of the positioning plate 311 is accurately controlled according to the actual immersion length of the core wire on the basis of a dimension line, then the clamping blocks 315 are manually clamped into the limiting grooves again, at the moment, the winding core 313 is in a non-rotatable state, the positioning plate 311 is fixed, the adjacent clamping jaws 38 are manually opened, and then the core wire is clamped between the adjacent rubbers 34 and between, the core wire tin-stained section is positioned below the clamping jaw 38, the torsion spring 39 is synchronously twisted in the opening process of the clamping jaw 38, the torsion spring 39 generates torsion force, then the clamping jaw 38 is loosened, the clamping jaw 38 clamps the core wire under the restoring effect of the torsion spring 39, then the electric push rod 35 drives the connecting plate 36 to move downwards, the connecting plate 36 drives the clamping jaw 38 to synchronously move through the round rod 37, the clamping jaw 38 can straighten the core wire tin-stained section, after the straightening of the clamping jaw 38 is completed, the electric push rod 35 drives the clamping jaw 38 to reset again, then the electric slide block 31 drives the bottom plate 32 to move downwards, the bottom plate 32 drives the U-shaped block 33 to synchronously move, the clamping rubber 34 clamps the core wire to synchronously move along with the U-shaped block 33, when the electric slide block 31 drives the bottom plate 32 to move downwards, the electric slide block 31 stops moving when the positioning plate 32 touches the positioning plate 311, and the core wire tin-stained section is just completely immersed in the tin liquid, 30 seconds to a minute after the submergence, drive type U type piece 33 through electronic slider 31 once more and reset, heart yearn tin dipping section and flourishing tin pond 2 phase-separation, in this process, baffle 301 can play the effect that prevents to appear tin phenomenon even between the adjacent heart yearn, later take off the heart yearn through the manual mode, follow-up heart yearn tin dipping is handled and is repeated above-mentioned operation, after a batch heart yearn tin dipping is handled, drive base plate 303 through electronic slider 304 No. two and move forward, base plate 303 drives scraper blade 302 synchronous motion, scraper blade 302 can carry out synchronous clean surface tin-sticking liquid to baffle 301 and handle, in order to avoid baffle 301 to take place tin phenomenon even because of the surface tin-sticking liquid volume increases gradually and between with the heart yearn.

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 (7)

1. The utility model provides a medical product accessory heart yearn tin dipping treatment facility, includes workstation (1), flourishing tin bath (2) and is stained with and get mechanism (3), its characterized in that: the lower end of the workbench (1) is arranged on the existing working ground, the tin containing pools (2) are symmetrically arranged on the left and right sides of the upper end surface of the workbench (1), and the dipping mechanisms (3) are arranged at the rear ends of the upper end surfaces of the tin containing pools (2);

the dipping mechanism (3) comprises a back plate (30), a first electric sliding block (31), a bottom plate (32), a U-shaped block (33), clamping rubber (34), an electric push rod (35), a connecting plate (36), a round rod (37), a clamping jaw (38) and a torsion spring (39), the lower end face of the back plate (30) is connected with the rear end of the upper end face of the tin containing pool (2), a block groove is formed in the middle of the front end face of the back plate (30), the first electric sliding block (31) is installed in the block groove in a sliding fit mode, the bottom plate (32) is installed at the front end of the first electric sliding block (31), the U-shaped blocks (33) are installed on the front end face of the bottom plate (32) in an equidistance mode from left to right, the clamping rubber (34) are symmetrically installed on the left inner side wall and right side wall of the U-shaped blocks (33), the middle of the clamping rubber (34) is of an inwards concave arc structure, connecting plate (36) are installed to the lower extreme of electric putter (35), round bar (37) are installed to the left end of connecting plate (36), the middle part longitudinal symmetry of round bar (37) is provided with clamping jaw (38), clamping jaw (38) are located the below of pressing from both sides dress rubber (34), rotate between clamping jaw (38) and round bar (37) and be connected, and clamping jaw (38) are the staggered arrangement structure, torsional spring (39) are installed through rotating the connected mode symmetry in the upper and lower both ends of round bar (37), the one end of torsional spring (39) links to each other with the horizontal terminal surface of round bar (37), the other end and the clamping jaw (38) of torsional spring (39) link to each other the end with round bar (37) and are connected.

2. The medical product accessory core wire tin dipping processing device as set forth in claim 1, wherein: the left side and the right side of the first electric slider (31) are symmetrically provided with a pair of mould returning plates (310), the rear end face of each mould returning plate (310) is connected with the front end face of the back plate (30), the bottom plate (32) is positioned between the mould returning plates (310), a positioning plate (311) is arranged between the mould returning plates (310) in a sliding fit mode, the positioning plate (311) is positioned below the first electric slider (31), the positioning plate (311) is positioned at the rear side of the electric push rod (35), the upper end of the positioning plate (311) is bilaterally and symmetrically connected with pull ropes (312), the upper ends of the pull ropes (312) are wound on the outer side end of the winding core (313), the inner side end of the winding core (313) is connected with a round through sliding fit mode, the round through hole is formed in the upper end of the vertical plate (314), clamping blocks (315) are symmetrically arranged in the front and back of the inner side, the limiting groove is arranged on the outer side end face of the vertical plate (314).

3. The medical product accessory core wire tin dipping processing device as set forth in claim 1, wherein: the tin bath device is characterized in that the lower end face of the back plate (30) is provided with partition plates (301) in an equidistance from left to right, the partition plates (301) are located below the block grooves, the partition plates (301) are located between every two adjacent U-shaped blocks (33), and the partition plates (301) are located above the tin bath (2).

4. The medical product accessory core wire tin dipping processing device according to claim 3, wherein: the left and right sides symmetry of the rear end of baffle (301) be provided with scraper blade (302), link to each other through sliding fit between the front end of scraper blade (302) and the side end face of baffle (301), be V type structure between two liang of adjacent scraper blades (302), and the closed angle of V type structure is towards the front side, the lower terminal surface of scraper blade (302) links to each other with the up end of base plate (303), base plate (303) are located the below of baffle (301), No. two electronic slider (304) are installed to the left and right sides both ends symmetry of base plate (303), No. two electronic slider (304) link to each other through the inside wall of sliding fit mode with flourishing tin bath (2).

5. The medical product accessory core wire tin dipping processing device according to claim 4, wherein: the upper end face of base plate (303) seted up the rectangle recess, the preceding terminal surface of base plate (303) has seted up puts the thing recess, the rectangle recess with put and communicate with each other between the thing recess, put and install through sliding fit mode in the thing recess and accept steamer tray (305).

6. The medical product accessory core wire tin dipping processing device as set forth in claim 1, wherein: the clamping jaw (38) is of an inwards concave arc structure, and a thin sponge layer is arranged at the inner side end of the clamping jaw (38).

7. The medical product accessory core wire tin dipping processing device as set forth in claim 2, wherein: the outer side end face of the circular plate (310) is carved with a dimension line, and the dimension line is positioned on the front side of the positioning plate (311).

Images