CN219194011U - Wire winding mechanism of wire bonding machine for production of silica gel sleeve - Google Patents

Abstract

The utility model relates to a winding mechanism of a wire bonding machine for producing silica gel sleeves, which comprises an operation table and a winding machine, wherein the winding machine is fixed on the upper surface of the operation table, two side plates are fixed on the upper surface of the operation table through bolts, a transverse plate is fixed between one opposite sides of the two side plates, a wire arranging mechanism for driving wires to move left and right is arranged on the upper surface of the transverse plate, a tightening mechanism for tightening the wires is arranged on the lower surface of the transverse plate, the wire arranging mechanism comprises a driving assembly and a wire arranging assembly, and the driving assembly comprises a rotating motor fixed on the upper surface of the transverse plate. This wire winding mechanism of wire bonding machine for silica gel sleeve pipe production drives the movable rod and the link that are connected through rotating electrical machines's output shaft and moves about, drives the inside wire rod of link simultaneously and moves about, when the winder is rotatory promptly, can be with the orderly outside of arranging of wire rod at the drum.

Description

Wire winding mechanism of wire bonding machine for production of silica gel sleeve

Technical Field

The utility model relates to the technical field of wire bonding machines, in particular to a wire winding mechanism of a wire bonding machine for producing a silica gel sleeve.

Background

The silica gel sleeve is a double-wall silicon rubber insulating sleeve, the inside of the silica gel sleeve is a glass fiber sleeve coated with a silicon rubber insulating layer, and the inside of the silica gel sleeve is an inner fiber outer rubber sleeve formed by high-temperature treatment of silicon rubber.

The twisting part comprises a driving wheel fixedly connected with a motor rotor part, the driving wheel is in transmission connection with the winding forming part through a driving wheel, a tangential belt is tensioned between the driving wheel and the driving wheel, and a plurality of twisting spindles with spindles are tightly attached to the outer surface of the tangential belt.

When the wire is rolled, the positions of the wires are kept unchanged all the time, namely, when the wire coil rotates, the collected wires are all piled up together, so that the two sides of the wire coil are low-lying and the middle is convex, and a large space is wasted on the wire coil, so that a winding mechanism of the wire bonding machine for producing the silica gel sleeve is provided, and the technical problem is solved.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a winding mechanism of a wire bonding machine for producing a silica gel sleeve, which has the advantages of orderly wire arrangement and the like, and solves the problems of low-lying and convex middle sides of a wire coil caused by the fact that all collected wires are piled together.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the winding mechanism of the wire bonding machine for producing the silica gel sleeve comprises an operation table and a wire winding machine, wherein the wire winding machine is fixed on the upper surface of the operation table, two side plates are fixed on the upper surface of the operation table through bolts, a transverse plate is fixed between one opposite sides of the two side plates, a wire arranging mechanism for driving wires to move left and right is arranged on the upper surface of the transverse plate, and a tightening mechanism for tightening the wires is arranged on the lower surface of the transverse plate;

the wire arrangement mechanism comprises a driving assembly and a wire arrangement assembly, the driving assembly comprises a rotating motor fixed on the upper surface of a transverse plate, half teeth are fixed on the outer side of an output shaft of the rotating motor, a reciprocating tooth sleeve is meshed on the outer side of each half tooth, transverse rods are fixed on the left side and the right side of each reciprocating tooth sleeve, sleeves are movably sleeved on the outer sides of the two transverse rods, and supporting rods with one ends fixed on the upper surface of the transverse plate are fixed on the outer sides of the two sleeves.

Further, the two side plates are symmetrically distributed on the left side and the right side of the vertical central axis of the operating platform.

Further, the two cross bars are symmetrically distributed on the left side and the right side of the reciprocating tooth sleeve, and the inner diameter of the sleeve is matched with the outer diameter of the cross bars.

Further, the winding displacement subassembly is still including fixing in the horizontal pole outside and the bottom all runs through and extends to the connecting rod of diaphragm lower surface, two be fixed with the movable rod between the opposite one side of connecting rod, the outside of movable rod is fixed with the string of loops.

Further, the inside of diaphragm has offered the lateral shifting groove that supplies the connecting rod to control the removal, two the connecting rod clearance fit respectively is in the inside of two lateral shifting grooves.

Further, the tight mechanism is including fixing the installation piece that is two in diaphragm lower surface quantity, two the mounting hole has all been seted up to the inside of installation piece, two the inside of mounting hole is equal sliding connection has the movable block, two the opposite one side of movable block is connected with first roller through the bearing rotation, two the second roller that is connected with first roller laminating through the bearing rotation between the opposite one side of installation piece, two the upper surface of movable block all is fixed with the spring of one side fixed at the mounting hole inner chamber roof.

Further, the length and the outer diameter of the first grinding roller are equal to the length and the outer diameter of the second grinding roller respectively, and the wire is placed between the opposite sides of the first grinding roller and the second grinding roller.

Compared with the prior art, the technical scheme of the application has the following beneficial effects:

1. this wire winding mechanism of wire bonding machine for silica gel sleeve pipe production drives the movable rod and the link that are connected through rotating electrical machines's output shaft and moves about, drives the inside wire rod of link simultaneously and moves about, when the winder is rotatory promptly, can be with the orderly outside of arranging of wire rod at the drum.

2. This wire winding mechanism of wire bonding machine is used in silica gel sleeve pipe production promotes the movable block that is connected with it and moves down through the elasticity effect of two springs, drives simultaneously and rolls the roller down with the first that is connected and remove to roll between the opposite one side of roller with first roller and second with the wire rod centre gripping, ensure that the wire rod is in the state of tightening when the rolling, thereby effectually avoid running the condition of line.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of a wire arranging mechanism according to the present utility model;

FIG. 3 is a schematic view of the tightening mechanism of the present utility model.

In the figure: the wire winding machine comprises a console 1, a wire winding machine 2, a side plate 3, a transverse plate 4, a wire arranging mechanism 5, a rotating motor 501, half teeth 502, a reciprocating tooth sleeve 503, a transverse rod 504, a sleeve 505, a supporting rod 506, a connecting rod 507, a moving rod 508, a wire hanging ring 509, a tightening mechanism 6, a mounting block 601, a mounting hole 602, a moving block 603, a first grinding roller 604, a second grinding roller 605 and a spring 606.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1, a winding mechanism of a wire bonding machine for producing silica gel sleeves in this embodiment includes an operation table 1 and a winding machine 2, the winding machine 2 is fixed on an upper surface of the operation table 1, the winding machine 2 is in the prior art, a driving motor inside the winding machine 2 drives a winding roll connected with the winding machine to rotate, so that an outside wire is wound, so that a plurality of side plates 3 are fixed on the upper surface of the operation table 1 through bolts, a transverse plate 4 is fixed between opposite sides of the two side plates 3, a wire arranging mechanism 5 for driving the wire to move left and right is arranged on the upper surface of the transverse plate 4, and a tightening mechanism 6 for tightening the wire is arranged on the lower surface of the transverse plate 4.

Referring to fig. 2, in order to play a role of orderly arranging wires, the wire arranging mechanism 5 in this embodiment includes a driving assembly and a wire arranging assembly, the driving assembly includes a rotating motor 501 fixed on the upper surface of the transverse plate 4, a half tooth 502 is fixed on the outer side of an output shaft of the rotating motor 501, the output shaft of the rotating motor 501 rotates to drive the half tooth 502 connected with the rotating motor to rotate, a reciprocating tooth sleeve 503 is meshed on the outer side of the half tooth 502, transverse rods 504 are fixed on both left and right sides of the reciprocating tooth sleeve 503, when the half tooth 502 rotates clockwise, the half tooth 502 is meshed with racks on the top wall of an inner cavity of the reciprocating tooth sleeve 503, at this time, the reciprocating tooth sleeve 503 is driven to move rightwards, at this time, two transverse rods 504 connected with the reciprocating tooth sleeve are movably sleeved with sleeves 505, and support rods 506 with one ends fixed on the upper surface of the transverse plate 4 are fixed on the outer sides of the two sleeves 505.

The two side plates 3 are symmetrically distributed on the left and right sides of the vertical central axis of the operating platform 1, the two cross bars 504 are symmetrically distributed on the left and right sides of the reciprocating tooth sleeve 503, and the inner diameter of the sleeve 505 is matched with the outer diameter of the cross bars 504.

The flat cable assembly further comprises connecting rods 507 which are fixed on the outer side of the cross rod 504, the bottom ends of the connecting rods extend to the lower surface of the cross plate 4 in a penetrating mode, moving rods 508 are fixed between the opposite sides of the two connecting rods 507, wire hanging rings 509 are fixed on the outer sides of the moving rods 508, the connecting rods 507 connected with the moving rods are driven to move rightwards through the cross rod 504, and at the moment, the wire hanging rings 509 on the outer sides of the moving rods 508 drive wires inside to move rightwards.

It can be understood that when the half tooth 502 is engaged with the rack of the bottom wall of the inner cavity of the reciprocating tooth sleeve 503, the reciprocating tooth sleeve 503 is driven to move leftwards, and meanwhile, the moving rod 508 and the wire hanging ring 509 connected with the reciprocating tooth sleeve are driven to move leftwards.

The transverse moving groove for the connecting rod 507 to move left and right is formed in the transverse plate 4, and the two connecting rods 507 are respectively in clearance fit with the inner parts of the two transverse moving grooves.

Therefore, the above-mentioned wire arranging mechanism 5 drives the moving rod 508 and the wire hanging ring 509 connected with the moving rod to move left and right through the rotation of the output shaft of the rotating motor 501, and simultaneously drives the wires inside the wire hanging ring 509 to move left and right, namely, when the wire winder 2 rotates, the wires can be orderly arranged outside the wire coil.

Referring to fig. 3, in order to ensure that the wire is in a tight state, the tightening mechanism 6 in this embodiment includes two mounting blocks 601 fixed on the lower surface of the transverse plate 4, mounting holes 602 are formed in the two mounting blocks 601, the mounting blocks 601 slide up and down in the mounting holes 602, moving blocks 603 are slidably connected in the two mounting holes 602, a first grinding roller 604 is rotatably connected to one side of the two moving blocks 603 opposite to each other through a bearing, a second grinding roller 605 attached to the first grinding roller 604 is rotatably connected to one side of the two mounting blocks 601 through a bearing, the wire passes through the space between the first grinding roller 604 and the second grinding roller 605, springs 606 with one side fixed on the top wall of the inner cavity of the mounting hole 602 are fixed on the upper surfaces of the two moving blocks 603, and the first grinding roller 604 and the second grinding roller 605 are rotated under the action of friction force while the wire is wound.

The length and the external diameter of first roller 604 are equal with the length and the external diameter of second roller 605 respectively, and the wire rod is placed between the opposite one side of first roller 604 and second roller 605, extrudes the wire rod through first roller 604 and second roller 605, ensures that the wire rod is in the state of tightening when the rolling to the effectual condition of avoiding running the line.

Therefore, the tightening mechanism 6 pushes the moving block 603 connected with the tightening mechanism to move downwards under the action of the elasticity of the two springs 606, and drives the first rolling roller 604 connected with the tightening mechanism to move downwards, so that the wire is clamped between the opposite sides of the first rolling roller 604 and the second rolling roller 605, and the wire is ensured to be in a tight state during winding.

The working principle of the embodiment is as follows:

(1) When the wire rod winding device is used, firstly, a wire rod passes through the space between the first rolling roller 604 and the second rolling roller 605, the moving block 603 connected with the wire rod winding device is pushed to move downwards under the action of the elasticity of the two springs 606, and meanwhile, the first rolling roller 604 connected with the wire rod winding device is driven to move downwards, so that the wire rod is clamped between one side opposite to the first rolling roller 604 and the second rolling roller 605, meanwhile, the wire rod is penetrated out of the wire hanging ring 509, one end of the wire rod is connected with the wire winder 2, a winding roll connected with the wire rod winding device is driven to rotate through a driving motor in the wire winder 2, so that the wire rod on the outer side is wound, and when the wire rod is wound, the wire rod is extruded through the first rolling roller 604 and the second rolling roller 605 under the action of friction force, the wire rod is ensured to be in a tight state when the wire rod is wound, and the wire rod is effectively prevented from running.

(2) When the wire coiling machine 2 is used for coiling the wire, a control switch of the rotary motor 501 is turned on, an output shaft of the rotary motor 501 rotates to drive a half tooth 502 connected with the half tooth 502 to rotate, namely, when the half tooth 502 rotates clockwise, the half tooth 502 is meshed with a rack of the inner cavity top wall of the reciprocating tooth sleeve 503, the reciprocating tooth sleeve 503 is driven to move rightwards at the moment, two cross bars 504 connected with the half tooth 502 are driven to move rightwards along with the connecting rod 507 and the moving rod 508 connected with the half tooth, the wire hanging ring 509 outside the moving rod 508 is driven to move rightwards at the moment, namely, when the half tooth 502 is meshed with the rack of the inner cavity bottom wall of the reciprocating tooth sleeve 503, the reciprocating tooth sleeve 503 is driven to move leftwards at the moment, namely, the moving rod 508 and the wire hanging ring 509 connected with the half tooth 502 are driven to move leftwards through the rotation of the output shaft of the rotary motor 501, and the wire inside the wire hanging ring 509 is driven to move leftwards and rightwards at the moment, namely, when the wire coiling machine 2 rotates, the wire can be orderly arranged outside a wire coil.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a wire winding mechanism of wire bonding machine for silica gel sleeve production, includes operation panel (1) and winder (2), its characterized in that: the wire winder (2) is fixed on the upper surface of the operation table (1), two side plates (3) are fixed on the upper surface of the operation table (1) through bolts, a transverse plate (4) is fixed between one opposite sides of the two side plates (3), a wire arranging mechanism (5) for driving wires to move left and right is arranged on the upper surface of the transverse plate (4), and a tightening mechanism (6) for tightening the wires is arranged on the lower surface of the transverse plate (4);

wherein, winding displacement mechanism (5) include drive assembly and winding displacement subassembly, drive assembly is including fixing rotating electrical machines (501) at diaphragm (4) upper surface, the outside of rotating electrical machines (501) output shaft is fixed with half tooth (502), the outside meshing of half tooth (502) has reciprocal tooth cover (503), the left and right sides of reciprocal tooth cover (503) all is fixed with horizontal pole (504), two the outside of horizontal pole (504) all movable sleeve is equipped with sleeve (505), two the outside of sleeve (505) all is fixed with bracing piece (506) of one end fixed at diaphragm (4) upper surface.

2. The wire winding mechanism of a wire bonding machine for producing silicone casings according to claim 1, wherein: the two side plates (3) are symmetrically distributed on the left side and the right side of the vertical central axis of the operating platform (1).

3. The wire winding mechanism of a wire bonding machine for producing silicone casings according to claim 1, wherein: the two cross bars (504) are symmetrically distributed on the left side and the right side of the reciprocating tooth sleeve (503), and the inner diameter of the sleeve (505) is matched with the outer diameter of the cross bars (504).

4. The wire winding mechanism of a wire bonding machine for producing silicone casings according to claim 1, wherein: the flat cable assembly further comprises connecting rods (507) which are fixed on the outer sides of the cross rods (504) and the bottom ends of the connecting rods penetrate through and extend to the lower surface of the cross plate (4), moving rods (508) are fixed between two opposite sides of the connecting rods (507), and hanging wire rings (509) are fixed on the outer sides of the moving rods (508).

5. The wire winding mechanism of a wire bonding machine for producing silicone casings according to claim 1, wherein: the inside of diaphragm (4) is offered and is supplied connecting rod (507) horizontal migration groove that moves about, two connecting rod (507) clearance fit respectively in the inside of two horizontal migration grooves.

6. The wire winding mechanism of a wire bonding machine for producing silicone casings according to claim 1, wherein: the tight mechanism (6) is including fixing installation piece (601) that is two in diaphragm (4) lower surface quantity, two installation hole (602) have all been seted up to the inside of installation piece (601), two equal sliding connection in inside of installation hole (602) has movable block (603), two one side that movable block (603) is relative is connected with first roller (604) through the bearing rotation, two be connected with second roller (605) of first roller (604) laminating through the bearing rotation between one side that installation piece (601) is relative, two the upper surface of movable block (603) all is fixed with spring (606) of one side fixed at mounting hole (602) inner chamber roof.

7. The wire winding mechanism of a wire bonding machine for silicone sleeve production according to claim 6, wherein: the length and the outer diameter of the first grinding roller (604) are respectively equal to those of the second grinding roller (605), and the wire is placed between the opposite sides of the first grinding roller (604) and the second grinding roller (605).

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