CN210393225U - A coil device for after tinned copper wire processing - Google Patents

Abstract

The utility model provides a coiling device used after processing of tinned copper wires, which comprises a supporting base plate, a supporting column, a deep groove ball bearing, a winding driving motor, a driving wheel, a connecting V belt, a driven wheel, a rotating shaft, an L-shaped clamping seat, an adjustable positioning chuck structure, a copper wire head bonding tank structure, a tinned copper wire carrier roller structure capable of lubricating oil, a coiling control switch, a propelling screw lever, a shaping sleeve and a hand-holding handle, wherein the supporting column is respectively bolted at the left side and the right side of the upper surface of the supporting column; the deep groove ball bearing is embedded in the lower side of the support column. The utility model discloses the setting of spacing dish, regulation siphunculus, roller bearing and positioning fixture block is favorable to carrying out the joint fixed with the rim plate of coiling the copper wire, prevents to drop in the line coiling process; the bonding glue storage jar, the setting of sealed lid and rubber bag is favorable to playing sealed protection's effect, prevents revealing of glue solution to conveniently extrude the rubber bag and make the outflow of glue solution.

Description

A coil device for after tinned copper wire processing

Technical Field

The utility model belongs to the technical field of the tinned copper wire is made, especially, relate to a coil device for after tinned copper wire processing.

Background

Copper is widely used in the fields of electronic information, lubrication, catalysis, metallurgy, and the like because of its excellent properties and low price. However, copper is very easily oxidized in air, and the finer the particle size, the more severe the oxidation. In order to improve the oxidation resistance of copper, the surface of copper can be coated with inert metal. The inert metal layer is coated, so that the oxidation resistance of the copper can be remarkably improved, and the conductivity of the copper can be well maintained. Although tin is not an inert metal and is more reactive than copper, tin is stable in air at normal temperature, and a dense oxide film is generated on the surface of tin to prevent the tin from being oxidized continuously. Thus, tin plating the copper surface may improve the oxidation resistance of the copper to some extent. The tin-plated copper has good stability, conductivity, wear resistance, corrosion resistance and electromagnetic shielding property, and has good application prospect.

In addition, the Chinese patent publication No. CN208843473U discloses a take-up device for producing an anaerobic copper wire, which comprises a left support plate and a right support plate, wherein a moving mechanism, a traction mechanism and a winding mechanism are sequentially arranged between the left support plate and the right support plate along the conveying direction of the anaerobic copper wire, the moving mechanism comprises a lead screw, a moving motor and a moving part, one end of the lead screw is arranged at the inner side of the right support plate, the other end of the lead screw is connected with the input end of a moving coupling, and the output end of the moving coupling is connected with the output shaft of the moving motor.

But the coiling device that is used for after the processing of tinned copper wire still has the difference that is not convenient for adjust according to copper wire storage plate length and presss from both sides tightly, and the problem of the protection can not lubricate that the copper wire broken end is fixed inconvenient and can not be carried out.

Therefore, the invention is very necessary to invent a coiling device used after the processing of the tinned copper wire.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a coil device for after tinned copper wire processing to solve current a coil device for after tinned copper wire processing and be not convenient for adjust according to the difference of copper wire storage disc length and press from both sides tightly, the problem of protection is lubricated to fixed inconvenient and can not carried out of copper wire broken end. A coiling device used after processing of a tinned copper wire comprises a supporting base plate, supporting columns, a deep groove ball bearing, a winding driving motor, a driving wheel, a connecting V-shaped belt, a driven wheel, a rotating shaft, an L-shaped clamping seat, an adjustable positioning chuck structure, a copper wire head bonding tank structure, a tinned copper wire carrier roller structure capable of lubricating oil, a coiling control switch, a propelling wire lever, a shaping sleeve and a hand-holding handle, wherein the supporting columns are respectively bolted at the left side and the right side of the upper surface of each supporting column; the deep groove ball bearing is embedded in the lower side position inside the supporting column; the winding driving motor is connected to the left side of the upper surface of the supporting base plate through a bolt; the driving wheel key is connected to an output shaft of the winding driving motor; the connecting V belt is respectively sleeved on the outer surfaces of the driving wheel and the driven wheel; the driven wheel is connected with the left end of the rotating shaft in a key mode; the rotating shaft is movably inserted into an inner ring of a deep groove ball bearing arranged on the left side; the L-shaped clamping seat is connected to the upper part of the front surface of the supporting column through a bolt; the adjustable positioning chuck structure is respectively arranged at the top ends of the rotating shaft and the pushing wire lever; the copper wire head bonding tank structure is arranged at the upper part of the right side of the support column arranged at the left side; the tinned copper wire carrier roller structure capable of lubricating oil is arranged in the L-shaped clamping seat; the coiling control switch is embedded in the middle of the lower part of the front surface of the support column arranged on the left side; the pushing wire lever penetrates through the sizing sleeve and is inserted into an inner ring of a deep groove ball bearing arranged on the right side; the shaping sleeve is connected to the lower part of the right side of the supporting column arranged on the right side through a screw; the hand grab handle screw is connected to the right end of the pushing wire lever; the adjustable positioning chuck structure comprises a limiting disc, an adjusting through pipe, a roller bearing, a positioning fixture block and a buffer rubber pad, wherein the limiting disc is connected to the right end of the adjusting through pipe through a screw; the roller bearing is embedded in the middle of the inside of the adjusting through pipe; the positioning fixture block is connected to the right side of the limiting disc through screws, and meanwhile, a buffering rubber cushion is sleeved on the outer surface of the positioning fixture block.

Preferably, the copper wire head bonding tank structure comprises a connecting and fixing plate, a serpentine rod, a bonding glue storage tank, a sealing cover and a rubber bag, wherein one end of the serpentine rod is connected to the middle position of the right side of the connecting and fixing plate through a screw, and the other end of the serpentine rod is connected to the middle position of the left side of the bonding glue storage tank in a bonding mode through a glue; the sealing cover is buckled at the upper end of the adhesive storage tank; the rubber bag is connected with the lower part of the adhesive glue storage tank in a gluing mode and communicated with the inside of the adhesive glue storage tank.

Preferably, the tinned copper wire carrier roller structure capable of lubricating comprises a supporting carrier roller, limit stops, a lubricating sponge strip and a wire arc-shaped plate, wherein the limit stops are respectively adsorbed at the left side and the right side of the upper surface of the supporting carrier roller; the lubricating sponge strip is clamped in a gap between the support carrier roller and the lead arc-shaped plate; and the wire arc-shaped plate is connected to the middle position of the lower part of the front surface of the supporting carrier roller through a screw.

Preferably, the rotating shaft is in interference fit with an inner ring of the deep groove ball bearing; the driven wheel is arranged on the left side of the supporting column.

Preferably, the pushing wire lever is in interference fit with an inner ring of the deep groove ball bearing; the hand grab handle is arranged on the right side of the support column.

Preferably, the limiting disc is a circular PVC plastic disc; the roller bearings are respectively sleeved at the top ends of the rotating shaft and the propelling wire lever.

Preferably, the limiting disc and the limiting disc are oppositely arranged; the buffering rubber cushion is a circular rubber cushion.

Preferably, a flow guide pipe is embedded in the lower part of the rubber bag; and the middle position of the left side of the flow guide pipe is in threaded connection with an adjusting valve.

Preferably, the connecting and fixing piece is a round stainless steel sheet; the connecting and fixing piece is connected with the supporting column through bolts.

Preferably, the limit stop specifically adopts a rectangular magnet block; the supporting carrier roller is clamped on the inner side of the L-shaped clamping seat.

Preferably, a fixing screw is arranged at the intersection of the pushing wire lever and the sizing sleeve.

Preferably, the coiling control switch is electrically connected with a winding driving motor; the winding driving motor is a motor with the model number of FZ 730.

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

1. the utility model discloses in, spacing dish, adjust the siphunculus, the setting of roller bearing and positioning fixture block is favorable to carrying out the joint with the rim plate of coiling the copper wire and fixes, prevents to coil the in-process slippage.

2. The utility model discloses in, the setting of buffering cushion, be favorable to playing the effect of buffering at the spacing in-process of joint, protect spacing dish and coil the safety of copper wire rim plate.

3. The utility model discloses in, the setting of connection stationary blade and serpentine rod, be favorable to carrying out the regulation of angle, satisfy the needs of splicing to different position copper line broken ends.

4. The utility model discloses in, bonding glue storage jar, the setting of sealed lid and rubber bag is favorable to playing the effect of sealed protection, prevents revealing of glue solution to make the outflow of glue solution convenient extrusion rubber bag.

5. The utility model discloses in, honeycomb duct and adjusting valve's setting, be favorable to playing the effect of water conservancy diversion to adjust flow and velocity of flow.

6. The utility model discloses in, the support roll, limit stop, the setting of lubricating sponge strip and wire arc is favorable to playing the effect of lifting and dredging to the copper wire to carry out the lubricating maintenance to the copper wire surface.

7. The utility model discloses in, support bed plate, support column, deep groove ball bearing and roller bearing's setting, be favorable to playing the effect of supporting the helping hand, guarantee to coil the operation and effectively go on, improve work efficiency.

8. The utility model discloses in, the setting of propulsion silk lever, design sleeve pipe and hand grab handle, be favorable to carrying out the regulation about to adjust the distance between spacing dish and the spacing dish, satisfy different width and coil the fixed needs of rim plate.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the adjustable positioning chuck structure of the present invention.

Fig. 3 is a schematic structural diagram of the copper wire head bonding tank structure of the present invention.

Fig. 4 is a schematic structural diagram of the tinned copper wire carrier roller structure of the present invention capable of lubricating oil.

In the figure:

1. a support bed plate; 2. a support pillar; 3. a deep groove ball bearing; 4. winding the driving motor; 5. a drive wheel; 6. connecting the V belt; 7. a driven wheel; 8. a rotating shaft; 9. an L-shaped card holder; 10. an adjustable positioning chuck structure; 101. a limiting disc; 102. adjusting a through pipe; 103. a roller bearing; 104. positioning a fixture block; 105. a cushion rubber pad; 11. a copper wire head is bonded with the tank structure; 111. connecting a fixing sheet; 112. a serpentine rod; 113. a bonding glue storage tank; 114. a sealing cover; 115. a rubber bladder; 1151. a flow guide pipe; 1152. adjusting the valve; 12. a tinned copper wire carrier roller structure capable of lubricating oil; 121. supporting the carrier roller; 122. a limit stop block; 123. lubricating the sponge strips; 124. a wire arc plate; 13. a coiling control switch; 14. a push wire lever; 15. shaping the sleeve; 16. a handle.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in fig. 1 to 2, the utility model provides a coiling device for after processing of tinned copper wire, which comprises a supporting base plate 1, a supporting column 2, a deep groove ball bearing 3, a winding driving motor 4, a driving wheel 5, a connecting V belt 6, a driven wheel 7, a rotating shaft 8, an L-shaped clamping seat 9, an adjustable positioning chuck structure 10, a copper wire head bonding tank structure 11, a tinned copper wire carrier roller structure 12 capable of lubricating oil, a coiling control switch 13, a propelling wire lever 14, a shaping sleeve 15 and a hand-holding handle 16, wherein the supporting column 2 is respectively bolted on the left side and the right side of the upper surface of the supporting column 2; the deep groove ball bearing 3 is embedded in the lower side position inside the supporting column 2; the winding driving motor 4 is connected to the left side of the upper surface of the supporting base plate 1 through a bolt; the driving wheel 5 is connected with an output shaft of the winding driving motor 4 in a key way; the connecting V belt 6 is respectively sleeved on the outer surfaces of the driving wheel 5 and the driven wheel 7; the driven wheel 7 is connected with the left end of the rotating shaft 8 in a key mode; the rotating shaft 8 is movably inserted into the inner ring of the deep groove ball bearing 3 arranged on the left side; the L-shaped clamping seat 9 is connected to the upper part of the front surface of the supporting column 2 through a bolt; the adjustable positioning chuck structure 10 is respectively arranged at the top ends of the rotating shaft 8 and the pushing wire lever 14; the copper wire head bonding tank structure 11 is arranged at the upper part of the right side of the support column 2 arranged at the left side; the tinned copper wire carrier roller structure 12 capable of lubricating oil is arranged in the L-shaped clamping seat 9; the coiling control switch 13 is embedded in the middle of the lower part of the front surface of the support column 2 arranged on the left side; the pushing wire lever 14 penetrates through the sizing sleeve 15 and is inserted into the inner ring of the deep groove ball bearing 3 arranged on the right side; the shaping sleeve 15 is in screw connection with the lower part of the right side of the support column 2 arranged on the right side; the hand grab handle 16 is connected to the right end of the pushing wire lever 14 through a screw; the adjustable positioning chuck structure 10 comprises a limiting disc 101, an adjusting through pipe 102, a roller bearing 103, a positioning fixture block 104 and a buffer rubber pad 105, wherein the limiting disc 101 is connected to the right end of the adjusting through pipe 102 through a screw; the roller bearing 103 is embedded in the middle of the inner part of the regulating through pipe 102; the positioning fixture block 104 is connected to the right side of the limiting disc 101 through screws, and the outer surface of the positioning fixture block is sleeved with a buffer rubber pad 105.

As shown in fig. 3, in the above embodiment, specifically, the copper wire head bonding tank structure 11 includes a connecting fixing plate 111, a serpentine rod 112, a bonding glue storage tank 113, a sealing cover 114 and a rubber bag 115, one end of the serpentine rod 112 is screwed to the middle position of the right side of the connecting fixing plate 111, and the other end is glued to the middle position of the left side of the bonding glue storage tank 113; the sealing cover 114 is buckled at the upper end of the adhesive storage tank 113; the rubber bladder 115 is bonded to the lower portion of the bonding glue storage tank 113 and communicates with the inside thereof.

As shown in fig. 4, in the above embodiment, specifically, the oil-wettable tinned copper wire carrier roller structure 12 includes a supporting carrier roller 121, a limit stop 122, an oil-wettable sponge strip 123 and a wire arc-shaped plate 124, where the limit stop 122 is respectively adsorbed at the left and right sides of the upper surface of the supporting carrier roller 121; the lubricating sponge strips 123 are clamped in a gap between the supporting carrier roller 121 and the wire arc-shaped plate 124; the wire arc plate 124 is screwed to the middle position of the lower part of the front surface of the supporting roller 121.

In the above embodiment, specifically, the rotating shaft 8 is arranged in interference fit with the inner ring of the deep groove ball bearing 3; the driven wheel 7 is arranged on the left side of the supporting column 2.

In the above embodiment, specifically, the pushing wire lever 14 is arranged in interference fit with the inner ring of the deep groove ball bearing 3; the hand grab handle 16 is arranged at the right side of the support column 2.

In the above embodiment, specifically, the limiting disc 101 specifically adopts a circular PVC plastic disc; the roller bearings 103 are respectively sleeved on the rotating shaft 8 and the top end of the propelling wire lever 14.

In the above embodiment, specifically, the limiting disc 101 and the limiting disc 101 are arranged oppositely; the buffer rubber pad 105 is a circular rubber pad.

In the above embodiment, specifically, the lower portion of the rubber bag 115 is embedded with the flow guide tube 1151; and the middle position of the left side of the guide pipe 1151 is in threaded connection with an adjusting valve 1152.

In the above embodiment, the connection fixing piece 111 is specifically made of a round stainless steel sheet; the connecting and fixing piece 111 is connected with the supporting column 2 through bolts.

In the above embodiment, the limit stopper 122 is a rectangular magnet block; the supporting carrier roller 121 is clamped on the inner side of the L-shaped clamping seat 9.

In the above embodiment, specifically, the intersection of the pushing wire lever 14 and the sizing sleeve 15 is provided with a fixing screw.

In the above embodiment, specifically, the winding control switch 13 is electrically connected to the winding driving motor 4; the winding driving motor 4 is a motor with the model number of FZ 730.

Principle of operation

When the utility model is used, firstly, the positioning through hole of the wheel disc wound with the copper wire is clamped in the positioning fixture block 104, and the hand grab handle 16 is rotated anticlockwise, so that the propelling wire lever 14 rotates in the shaping sleeve 15, and the limiting disc 101 arranged on the right side is driven to be close to the right side of the wheel disc and is mutually clamped with the positioning fixture block 104; then, the fixing screws at the positions of the pushing wire lever 14 and the shaping sleeve 15 are screwed down to fix the pushing wire lever 14; finally, copper wires to be coiled are wound on the upper portions of the lubricating sponge strips 123 and the upper portions of the wire arc-shaped plates 124 and are connected to the surfaces of the wheel discs through screws, an external power supply is connected, the winding driving motor 4 is started through the coiling control switch 13 to drive the driving wheels 5 to rotate, the driven wheels 7 are driven to rotate through the rotating shafts 8 and the limiting discs 101 under the action of the connecting V-shaped belt 6, the driving wheels are driven to rotate, the copper wires are coiled on the wheel discs, and the copper wires are cut off through copper wire pliers after the coiling operation is completed; the snake-shaped rod 112 is broken off to adjust the position of the bonding glue storage tank 113, the adjusting valve 1152 is screwed, and the rubber bag 115 is extruded, so that glue in the bonding glue storage tank 113 is dripped to the broken end of the copper wire through the guide pipe 1151, the bonding and fixing effects are achieved, and the scattering of the copper wire is prevented.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (10)

1. The utility model provides a coiling device for after tinned copper wire processing, characterized in that, this coiling device for after tinned copper wire processing, including support base plate (1), support column (2), deep groove ball bearing (3), winding driving motor (4), drive wheel (5), connect V area (6), from driving wheel (7), rotation axis (8), L type cassette (9), adjustable location chuck structure (10), copper wire head bonding tank structure (11), tinned copper wire bearing roller structure (12) that can moisten oil, coiling control switch (13), impel wire lever (14), design sleeve pipe (15) and hand grab handle (16), support column (2) bolted connection respectively in the upper surface left and right sides position of support column (2); the deep groove ball bearing (3) is embedded in the lower side position inside the supporting column (2); the winding driving motor (4) is connected to the left side of the upper surface of the supporting base plate (1) through a bolt; the driving wheel (5) is connected to the output shaft of the winding driving motor (4) in a key way; the connecting V belt (6) is respectively sleeved on the outer surfaces of the driving wheel (5) and the driven wheel (7); the driven wheel (7) is connected with the left end of the rotating shaft (8) in a key way; the rotating shaft (8) is movably inserted into an inner ring of the deep groove ball bearing (3) arranged on the left side; the L-shaped clamping seat (9) is connected to the upper part of the front surface of the supporting column (2) through a bolt; the adjustable positioning chuck structure (10) is respectively arranged at the top ends of the rotating shaft (8) and the pushing wire lever (14); the copper wire head bonding tank structure (11) is arranged at the upper part of the right side of the supporting column (2) arranged on the left side; the tinned copper wire carrier roller structure (12) capable of lubricating oil is arranged in the L-shaped clamping seat (9); the coiling control switch (13) is embedded in the middle of the lower part of the front surface of the support column (2) arranged on the left side; the pushing wire lever (14) penetrates through the sizing sleeve (15) and is inserted into the inner ring of the deep groove ball bearing (3) arranged on the right side; the shaping sleeve (15) is in screw connection with the lower part of the right side of the supporting column (2) arranged on the right side; the hand grab handle (16) is connected to the right end of the push wire lever (14) through a screw; the adjustable positioning chuck structure (10) comprises a limiting disc (101), an adjusting through pipe (102), a roller bearing (103), a positioning clamping block (104) and a buffer rubber pad (105), wherein the limiting disc (101) is connected to the right end of the adjusting through pipe (102) through a screw; the roller bearing (103) is embedded in the middle position inside the adjusting through pipe (102); the positioning fixture block (104) is connected to the right side of the limiting disc (101) through screws, and meanwhile, the outer surface of the positioning fixture block is sleeved with a buffer rubber pad (105).

2. The coiling device used after the processing of the tinned copper wire is characterized in that the copper wire head bonding tank structure (11) comprises a connecting and fixing piece (111), a serpentine rod (112), a bonding glue storage tank (113), a sealing cover (114) and a rubber bag (115), wherein one end of the serpentine rod (112) is in screwed connection with the middle position of the right side of the connecting and fixing piece (111), and the other end of the serpentine rod is in glued connection with the middle position of the left side of the bonding glue storage tank (113); the sealing cover (114) is buckled at the upper end of the adhesive storage tank (113); the rubber bag (115) is glued to the lower part of the adhesive storage tank (113) and is communicated with the inside of the adhesive storage tank.

3. The coiling device for the processed tinned copper wire as claimed in claim 1, wherein the oilable tinned copper wire carrier roller structure (12) comprises a supporting carrier roller (121), limit stops (122), an oiling sponge strip (123) and a wire arc-shaped plate (124), wherein the limit stops (122) are respectively adsorbed at the left side and the right side of the upper surface of the supporting carrier roller (121); the lubricating sponge strip (123) is clamped in a gap between the support carrier roller (121) and the wire arc-shaped plate (124); the wire arc-shaped plate (124) is connected to the middle position of the lower part of the front surface of the supporting roller (121) through a screw.

4. The coiling device for the processed tinned copper wire is characterized in that the rotating shaft (8) is in interference fit with the inner ring of the deep groove ball bearing (3); the driven wheel (7) is arranged on the left side of the supporting column (2).

5. The coiling device for the processed tinned copper wire is characterized in that the pushing wire lever (14) is in interference fit with the inner ring of the deep groove ball bearing (3); the hand grab handle (16) is arranged on the right side of the support column (2).

6. The coiling device for the processed tinned copper wire is characterized in that the limiting disc (101) is a circular PVC plastic disc; the roller bearings (103) are respectively sleeved at the top ends of the rotating shaft (8) and the propelling wire lever (14).

7. The coiling device for the processed tinned copper wire is characterized in that a flow guide pipe (1151) is embedded in the lower part of the rubber bag (115); the middle position of the left side of the draft tube (1151) is in threaded connection with an adjusting valve (1152).

8. The coiling device for processed tinned copper wires as claimed in claim 2, characterized in that the connecting and fixing pieces (111) are made of round stainless steel sheets; the connecting and fixing piece (111) is connected with the supporting column (2) through a bolt.

9. The coiling device for the processed tinned copper wire is characterized in that the limit stop (122) is a rectangular magnet block; the supporting carrier roller (121) is clamped on the inner side of the L-shaped clamping seat (9).

10. The coiling device for processed tinned copper wires as claimed in claim 1, characterized in that the intersection of the push wire lever (14) and the sizing sleeve (15) is provided with a set screw.

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