CN207811917U - A kind of tin plating roller linkage - Google Patents

Abstract

The utility model is related to tinning stack fields, it is intended to provide a kind of tin plating roller linkage, its key points of the technical solution are that including pot, tin plating electrolyte is housed in the pot, it further include driving device, pan feeding guide wheel, discharge guide wheel, first roller and second tin roller, the side wall of pot opposite face is equipped with baffle, pan feeding guide wheel is disposed therein in a block baffle, the guide wheel that discharges is arranged in another block baffle, first roller is rotationally connected with by the first roller bearing in pot, second tin roller is rotationally connected with by the second roller bearing in pot, driving device drives the first roller and second tin roller rotation.By using above-mentioned technical proposal, first roller and second tin roller rotation drive copper wire rotation, the copper wire for impregnating tin plating electrolyte is passed through into the guide wheel export that discharges, entire tin plating process is not involved with gas tank, even if tin plating roller linkage local environment temperature is higher, the phenomenon that explosion will not occur, the possibility that the life security to reduce staff is on the hazard.

Description

A kind of tin plating roller linkage

Technical field

The utility model is related to tinning stack field, more particularly to a kind of tin plating roller linkage.

Background technology

Copper wire tin-plating is widely used in electric wire, cable, and in production of enamel wire, tin coating is bright silvery white, can increase copper Weldability and dicoration, do not influence electric conductivity, can be used for electronics industry, household goods, food packaging etc..It is anti-oxidation, It is beautiful to increase coppersmith part.It is not required to electroplating device, only needs to impregnate, it is convenient and simple, thick tin can be plated.

Currently, the Chinese patent that publication No. is CN102618811A discloses copper strips tinning stack, it is characterised in that：Its Including tinning furnace, hose, the tinning furnace connects the hose, and the hose connects gas tank, tin is equipped in the tinning furnace Liquid pool.

Although this copper strips tinning stack copper wire can be carried out it is tin plating, since gas tank is heated explosive, if plating Environment temperature when tin residing for copper strips tinning stack is higher, then easily causes gas tank explosion, make the life security of staff It is on the hazard.

Utility model content

The utility model is to provide a kind of tin plating roller linkage, can reduce the life security of staff by The possibility of threat.

The above-mentioned technical purpose of the utility model technical scheme is that：

A kind of tin plating roller linkage, including pot, the pot is interior to be equipped with tin plating electrolyte, further includes driving dress Set, pan feeding guide wheel, discharging guide wheel, the first roller and second tin roller, the side wall of the pot opposite face is equipped with baffle, described Pan feeding guide wheel is disposed therein one end of a block baffle, and the discharging guide wheel is arranged in one end of another block baffle, and described first Roller is rotationally connected with by the first roller bearing in pot, and the second tin roller is rotationally connected with pot by the second roller bearing Interior, driving device includes motor, the first transmission mechanism, the second transmission mechanism and third transmission mechanism, first transmission mechanism Including the first driving gear and the first driven gear, the motor is arranged on pot, and first driving gear passes through the Two transmission shafts are arranged on pot, are rotatablely connected between the second driving shaft and pot, and the output shaft of the motor connects Second driving shaft is connect, first driven gear is arranged by the first transmission shaft on baffle, first transmission shaft and baffle Between be rotatablely connected, first driving gear is engaged with the first driven gear, second transmission mechanism include second actively Gear and the second driven gear, second driving gear are arranged on the first transmission shaft, and the second driven gear setting exists On first roller bearing, second driving gear is engaged with the second driven gear, the size of the second driving gear and the first driving tooth Wheel it is equal in magnitude, the third transmission mechanism include the first drive sprocket, the first driven sprocket and the first chain, described first Drive sprocket is arranged on the first transmission shaft, and first driven sprocket is arranged on the second roller bearing, and first chain is arranged On the first drive sprocket and the first driven sprocket, and first chain is by the first drive sprocket and the first driven sprocket Tightly, the size of first drive sprocket and the first driven sprocket is equal in magnitude.

By using above-mentioned technical proposal, copper wire is wrapped in by pan feeding guide wheel on the first roller and second tin roller, is made Copper wire is immersed in tin plating electrolyte, starts motor, and motor drives the second driving gear and the first drive chain by the first transmission mechanism The rotation of wheel rotation, the second driving gear drives the rotation of the second driven gear, to drive the rotation of the first roller, the first drive chain Wheel is rotated by first the first driven gear of chain-driving, and the first driven sprocket drives second tin roller rotation, the first roller and the Two rollers rotate simultaneously drives copper wire rotation, and the copper wire for having impregnated tin plating electrolyte is passed through the guide wheel export that discharges, entire tin plating process It is not involved with gas tank, even if tin plating roller linkage local environment temperature is higher, the phenomenon that explosion will not occur, from And the possibility that the life security for reducing staff is on the hazard.

Further setting：First roller includes two the first rotating discs and several first rotating rollers, described in two First rotating disc is arranged on the first roller bearing, and the both ends of first rotating roller are connected to the first rotating disc, and described first Rotating roller annular array is on the first rotating disc, and there are gaps between adjacent first rotating roller；The second tin roller includes two A second rotating disc and several second rotating rollers, two second rotating discs are arranged on the second roller bearing, and described second The both ends of rotating roller are connected to the second rotating disc, and the second rotating roller annular array is on the second rotating disc, and adjacent There are gaps between two rotating rollers.

By using above-mentioned technical proposal, tin plating electrolyte is full of in the gap of the first rotating roller and the second rotating roller, by copper wire After being wrapped in the first rotating roller and the second rotating roller, copper wire can be made to be contacted with tin plating electrolyte more abundant, make the leaching of copper wire It is more preferable to steep effect, to improve the tin plating effect of copper wire, and in the soaking process of copper wire, even if tin plating roller linkage institute It is higher to locate environment temperature, the phenomenon that explosion will not occur, the possibility that the life security to reduce staff is on the hazard Property.

Further setting：Deceleration mechanism is equipped between the motor and the first transmission mechanism, the deceleration mechanism is for subtracting The rotating speed of slow second driving shaft.

By using above-mentioned technical proposal, deceleration mechanism reduces the rotating speed of second driving shaft, to slow down the first transmission shaft Rotating speed, and then slow down the rotating speed of the second driving gear and the first drive sprocket, the spin down of the second driving gear passes through The spin down of two the first rollers of driven gear guide post, the slowing down of the first drive sprocket rotating speed are made first driven by the first chain The spin down of sprocket wheel, to slow down the rotating speed of second tin roller, the rotating speed of the first roller and the spin down of second tin roller can Increase copper wire and be immersed in the time in tin plating electrolyte, to improve the tin plating effect of copper wire.

Further setting：The deceleration mechanism includes the second drive sprocket, the second driven sprocket and the second chain, and described the Two drive sprockets are arranged on the output shaft of motor, and second driven sprocket is arranged on second driving shaft, described second from Movable sprocket is more than the second drive sprocket, and second chain is set on the second drive sprocket and the second driven sprocket, and described Second chain is tensioned by the second drive sprocket and the second driven sprocket.

By using above-mentioned technical proposal, the setting of deceleration mechanism can reduce the rotating speed of the first roller and second tin roller, To increase the time that copper wire is immersed in tin plating electrolyte, make adequately to contact between copper wire and tin plating electrolyte, to improve copper wire Tin plating effect.

Further setting：The bottom of the pot is equipped with discharge pipe, and the discharge pipe is equipped with manually-operated gate.

By using above-mentioned technical proposal, compared with being taken out tin plating electrolyte by the notch of pot, staff can be with The tin plating electrolyte in pot is discharged by discharge pipe directly, improves the speed of tin plating electrolyte in emptying pot.

Further setting：It is additionally provided with wire element in the pot, the wire element includes lead frame and wire column, The lead frame is arranged between the first roller and second tin roller, and the wire column is arranged on lead frame.

By using above-mentioned technical proposal, wire column can lead the copper wire between the first roller and second tin roller To avoiding copper wire from being intertwined during the motion, influence the post-processing speed of copper wire.

Further setting：It is detachably connected between the lead frame and wire column, the lead frame is equipped with card hole, described Wire column inlay card is in card hole.

It by using above-mentioned technical proposal, is detachably connected between lead frame and wire column, the convenient replacement to wire column.

Further setting：The gag lever post for being limited to copper wire is additionally provided on the baffle.

By using above-mentioned technical proposal, copper wire, the copper wire after immersion is pulled to ride upon on discharging guide wheel and with first The rotation of roller and second tin roller progressively disengages tin plating electrolyte, and gag lever post can limit copper wire, avoids discharging guide wheel and the Copper wire between one roller is fallen in tin plating electrolyte again after being come out in tin plating electrolyte.

Further setting：The supporting rod for being used to support copper wire is additionally provided in the pot.

By using above-mentioned technical proposal, after copper wire is wound on the first roller and second tin roller, copper wire is in pot Two layers of distribution, supporting rod can be supported the upper layer copper wire being immersed in tin plating electrolyte, avoid upper layer copper wire from generating sagging Trend causes upper layer copper wire and underlying copper line to be intertwined.

Further setting：The both ends of the limiting slot notch are also erected with the support beam for being used to support copper wire.

By using above-mentioned technical proposal, the support close to pan feeding guide wheel can set up the copper wire before immersion, keep away The edge for exempting from copper wire and pot contradicts, and copper wire is caused to be worn；After the support beam of close discharging guide wheel can be to immersion Copper wire limited, avoid dropping into tin plating electrolyte again from the copper wire moved out in tin plating electrolyte.

In conclusion the utility model has the advantages that：

1, it is not involved with gas tank in tin plating roller linkage, it is relatively low to the temperature requirement of working environment, even if plating Tin roller linkage local environment temperature is higher, the phenomenon that explosion will not occurs, to reduce the life peace of staff The possibility being on the hazard entirely；

2, the setting of deceleration mechanism can slow down the rotating speed of the first roller and second tin roller, to increase copper wire and tin plating electrolyte Time of contact, improve the tin plating effect of copper wire；

3, the setting of wire element can be oriented to the copper wire in the first roller and second tin roller, and copper wire is avoided to transport It is intertwined during dynamic, influences processing speed of the later stage to copper wire.

Description of the drawings

Fig. 1 is the structural schematic diagram for embodying the utility model in the present embodiment；

Fig. 2 is the structural schematic diagram for embodying position relationship between discharge pipe and pot in the present embodiment；

Fig. 3 is the structural schematic diagram for embodying position relationship between the first roller and pot in the present embodiment；

Fig. 4 is the portions the A schematic enlarged-scale view for embodying wire element in Fig. 3；

Fig. 5 is the structural schematic diagram for embodying driving device in the present embodiment；

Fig. 6 is the structural schematic diagram for embodying the first transmission mechanism in the present embodiment；

Fig. 7 is the portions the B schematic enlarged-scale view for embodying deceleration mechanism in Fig. 1；

Fig. 8 is the portions the C schematic enlarged-scale view for embodying the first roller in Fig. 3；

Fig. 9 is the portions the D schematic enlarged-scale view for embodying second tin roller in Fig. 3.

In figure, 1, pot；2, pan feeding guide wheel；3, discharge guide wheel；4, the first roller；41, the first rotating disc；42, first Rotating roller；5, second tin roller；51, the second rotating disc；52, the second rotating roller；6, driving device；61, the first transmission mechanism；611、 First driving gear；612, the first driven gear；62, the second transmission mechanism；621, the second driving gear；622, the second driven tooth Wheel；63, third transmission mechanism；631, the first drive sprocket；632, the first driven sprocket；633, the first chain；64, motor；7、 First roller bearing；8, the second roller bearing；9, second driving shaft；10, baffle；11, the first transmission shaft；12, deceleration mechanism；121, the second master Movable sprocket；122, the second driven sprocket；123, the second chain；13, discharge pipe；14, manually-operated gate；15, wire element；151, it leads Coil holder；152, wire column；16, card hole；17, gag lever post；18, supporting rod；19, support beam.

Specific implementation mode

The utility model is described in further detail below in conjunction with attached drawing.

Embodiment：A kind of tin plating roller linkage as depicted in figs. 1 and 2, including driving device 6, pan feeding guide wheel 2, goes out Expect guide wheel 3, the first roller 4, second tin roller 5, deceleration mechanism 12 and the pot 1 equipped with tin plating electrolyte；The opposing sidewalls of pot 1 On be additionally provided with baffle 10, pan feeding guide wheel 2 is disposed therein one end of a block baffle 10, and discharging guide wheel 3 is arranged in another block baffle 10 one end, baffle 10 is equipped with the gag lever post 17 for being limited to the copper wire after immersion, and gag lever post 17 is set as two The bottom of root, pot 1 is equipped with convenient for the discharge pipe 13 of discharge tin plating electrolyte, and discharge pipe 13 is equipped with what control discharge pipe 13 opened and closed Manually-operated gate 14, as shown in Figure 3 and Figure 4, the first roller 4 are rotationally connected with by the first roller bearing 7 on the inner wall of pot 1, the Two rollers 5 are rotationally connected with by the second roller bearing 8 on the inner wall of pot 1, are additionally provided between the first roller 4 and second tin roller 5 Supporting rod 18 and wire element 15, wire element 15 include lead frame 151 and wire column 152, the both ends of lead frame 151 with it is tin plating The side wall of slot 1 is connected, and is detachably connected between lead frame 151 and wire column 152, convenient for being carried out more to damaged wire column 152 It changes, lead frame 151 is equipped with card hole 16, and 152 inlay card of wire column is in card hole 16, as shown in figure 5, the both ends of 1 notch of pot It is erected with support beam 19, the support beam 19 close to pan feeding guide wheel 2 can be supported unsoaked copper wire, avoid not The copper wire of immersion contradicts during entering tin plating electrolyte with the edge of pot 1, and unsoaked generations is caused to be worn, it is close go out The support beam 19 of material guide wheel 3 limits the copper wire after immersion, and copper wire is avoided to be fallen again after being moved out in tin plating electrolyte It returns in tin plating electrolyte；Driving device 6 includes motor 64, the first transmission mechanism 61, the second transmission mechanism 62 and third transmission mechanism 63, As shown in Figure 6 and Figure 7, the first transmission mechanism 61 includes the first driving gear 611 and the first driven gear 612, the second driver Structure 62 includes 621 and second driven gear 622 of equal-sized second driving gear, and third transmission mechanism 63 includes the first active Sprocket wheel 631, the first driven sprocket 632 and the first chain 633, the first drive sprocket 631 and 632 size phase of the first driven sprocket Include the second drive sprocket 121, the second driven sprocket 122 and the second chain 123, the second driven sprocket 122 Deng, deceleration mechanism 12 More than the second drive sprocket 121, motor 64 is arranged on pot 1, the second drive sprocket of output axis connection 121 of motor 64, Second driven sprocket 122 is arranged by second driving shaft 9 on pot 1, and is rotated between second driving shaft 9 and pot 1 Connection, the second chain 123 are nested on the second drive sprocket 121 and the second driven sprocket 122, and the second sprocket wheel is by the second drive chain Wheel 121 and the second driven sprocket 122 are tensioned, and the first driving gear 611 is arranged on second driving shaft 9, the first driven gear 612 It is arranged on baffle 10 by the first transmission shaft 11, and is rotatablely connected between the first transmission shaft 11 and baffle 10, the first driving tooth Wheel 611 and the first driven gear 612 are intermeshed, and the second driving gear 621 is arranged on the first transmission shaft 11, the second driven tooth Wheel 622 is arranged on the first roller bearing 7, and the second driving gear 621 is engaged with the second driven gear 622, and the first drive sprocket 631 is set It sets on the first transmission shaft 11, the first driven sprocket 632 is arranged on the second roller bearing 8, and the first chain 633 is nested in first actively On sprocket wheel 631 and the first driven sprocket 632, and the first chain 633 is opened by the first drive sprocket 631 and the first driven sprocket 632 Tightly.

Motor 64 drives the second drive sprocket 121 to rotate in the operating condition, and the second drive sprocket 121 passes through the second chain 123 drive the rotation of the second driven sprocket 122, the second driven sprocket 122 that second driving shaft 9 is driven to rotate, and second driving shaft 9 turns It is dynamic that the rotation of the first driving gear 611, the first driving gear 611 is driven to drive the first driven gear engaged in rotation 612 rotations, the rotation of the first driven gear 612 drive the rotation of the first transmission shaft 11, to drive the second driving gear 621 and the One drive sprocket 631 rotates, and the rotation of the second driving gear 621 drives the second driven gear 622 engaged to rotate, and second Driven gear 622 drives the rotation of the first roller 4, the first drive sprocket 631 to pass through the first chain in rotation by the first roller bearing 7 633 drive the rotation of the first driven sprocket 632, the first driven sprocket 632 to drive second tin roller 5 to rotate by the second roller bearing 8, and first Roller 4 and second tin roller 5 rotate the copper wire movement for driving and being wrapped on the first roller 4 and second tin roller 5 simultaneously.

As shown in Figure 8 and Figure 9, the first roller 4 includes the first rotating disc 41 and several first rotating rollers 42, the first rotation The number of disk 41 is two, and two the first rotating discs 41 are arranged on the first roller bearing 7, the both ends of the first rotating roller 42 respectively with First rotating disc 41 is connected, and 42 circular array of the first rotating roller, on the edge of the first rotating disc 41, adjacent first rotates There are gaps between roller 42, so that tin plating electrolyte can penetrate the first roller 4, copper wire are made to contact more abundant, this reality with tin plating electrolyte It applies in example, the number of the first rotating roller 42 is set as 12；Second tin roller 5 includes the second rotating disc 51 and several second turn The number of dynamic roller 52, the second rotating disc 51 is two, and two the second rotating discs 51 are arranged on the second roller bearing 8, the second rotation The both ends of roller 52 are connected with the second rotating disc 51 respectively, and 52 circular array of the second rotating roller is at the edge of the second rotating disc 51 On, there are gaps between adjacent second rotating roller 52 makes copper wire be connect with tin plating electrolyte so that tin plating electrolyte can penetrate second tin roller 5 Tactile is more abundant, and in the present embodiment, the number of the second rotating roller 52 is set as 12.

After copper wire is wrapped on the first roller 4 and second tin roller 5, the tin plating electrolyte in pot 1 can pass through the first rotation The gap between gap and the second rotating roller 52 between roller 42, makes copper wire more fully be contacted with tin plating electrolyte, copper wire is plating It is more preferable that effect is impregnated in tin liquor, to improve the tin plating effect of copper wire.

Implementation process：When to copper wire tin-plating, copper wire is set to ride in the support beam 19 of pan feeding guide wheel 2, and pass through Copper wire is wrapped on the first roller 4 and second tin roller 5 by pan feeding guide wheel 2, and copper wire is after around the first roller 4 and second tin roller 5 Around 17 Da of gag lever post on discharging guide wheel 3, and copper wire is in 17 top of gag lever post, and copper wire rides over after the guide wheel 3 that discharges and leans on The support beam 19 of nearly discharging guide wheel 3, completes the preparation before copper wire tin-plating.

After completing the preparation before copper wire tin-plating, start motor 64, motor 64 drives first to pass by deceleration mechanism 12 Motivation structure 61 rotates, and the rotation of the first rotating mechanism drives the second transmission mechanism 62 and third transmission mechanism 63 to rotate, second turn The rotation of motivation structure drives the rotation of the first roller 4, the rotation of third transmission mechanism 63 that second tin roller 5 is driven to rotate, the first roller 4 It is rotated together with second tin roller 5 and drives copper wire movement, the copper wire after immersion is moved along discharging guide wheel 3, will be impregnated to realize The purpose that copper wire afterwards is taken out of from tin plating electrolyte, staff handle the copper wire after immersion.

The above embodiments are only the explanation to the utility model, are not limitations of the present invention, ability Field technique personnel can as needed make the present embodiment the modification of not creative contribution after reading this specification, but As long as all being protected by Patent Law in the right of the utility model.

Claims (10)

1. a kind of tin plating roller linkage, including pot (1), the pot (1) is interior to be equipped with tin plating electrolyte, and feature exists In：Further include driving device (6), pan feeding guide wheel (2), discharging guide wheel (3), the first roller (4) and second tin roller (5), the plating The side wall of molten tin bath (1) opposite face is equipped with baffle (10), and the pan feeding guide wheel (2) is disposed therein the one of a block baffle (10) End, in one end of another block baffle (10), first roller (4) is turned by the first roller bearing (7) for discharging guide wheel (3) setting Dynamic to be connected in pot (1), the second tin roller (5) is rotationally connected with by the second roller bearing (8) in pot (1), driving Device (6) includes motor（64）, the first transmission mechanism (61), the second transmission mechanism (62) and third transmission mechanism (63), it is described First transmission mechanism (61) includes the first driving gear (611) and the first driven gear (612), the motor（64）Setting is being plated On molten tin bath (1), first driving gear (611) is arranged by second driving shaft (9) on pot (1), and described second passes It is rotatablely connected between moving axis (9) and pot (1), the motor（64）Output axis connection second driving shaft (9), described first Driven gear (612) is arranged by the first transmission shaft (11) on baffle (10), first transmission shaft (11) and baffle (10) Between be rotatablely connected, first driving gear (611) is engaged with the first driven gear (612), second transmission mechanism (62) include the second driving gear (621) and the second driven gear (622), the second driving gear (621) setting is first On transmission shaft (11), second driven gear (622) is arranged on the first roller bearing (7), second driving gear (621) with Second driven gear (622) engages, the size of the second driving gear (621) and equal in magnitude, the institute of the first driving gear (611) It states third transmission mechanism (63) and includes the first drive sprocket (631), the first driven sprocket (632) and the first chain (633), it is described First drive sprocket (631) is arranged on the first transmission shaft (11), and first driven sprocket (632) is arranged in the second roller bearing (8) on, first chain (633) is set on the first drive sprocket (631) and the first driven sprocket (632), and described One chain (633) is tensioned by the first drive sprocket (631) and the first driven sprocket (632), first drive sprocket (631) Size and the first driven sprocket (632) it is equal in magnitude.

2. a kind of tin plating roller linkage according to claim 1, it is characterised in that：First roller (4) includes Two the first rotating discs (41) and several first rotating rollers (42), two first rotating discs (41) are arranged at the first rolling On axis (7), the both ends of first rotating roller (42) are connected to the first rotating disc (41), and first rotating roller (42) annular Array is on the first rotating disc (41), and there are gaps between adjacent first rotating roller (42)；The second tin roller (5) includes two A second rotating disc (51) and several second rotating rollers (52), two second rotating discs (51) are arranged at the second roller bearing (8) on, the both ends of second rotating roller (52) are connected to the second rotating disc (51), and second rotating roller (52) circular array It is listed on the second rotating disc (51), and there are gaps between adjacent second rotating roller (52).

3. a kind of tin plating roller linkage according to claim 1, it is characterised in that：The motor（64）It is passed with first Deceleration mechanism (12) is equipped between motivation structure (61), the deceleration mechanism (12) is used to slow down the rotating speed of second driving shaft (9).

4. a kind of tin plating roller linkage according to claim 3, it is characterised in that：The deceleration mechanism (12) includes Second drive sprocket (121), the second driven sprocket (122) and the second chain (123), the second drive sprocket (121) setting In motor（64）Output shaft on, second driven sprocket (122) is arranged on second driving shaft (9), and described second is driven Sprocket wheel (122) is more than the second drive sprocket (121), and second chain (123) is set in the second drive sprocket (121) and second On driven sprocket (122), and second chain (123) is by the second drive sprocket (121) and the second driven sprocket (122) Tightly.

5. a kind of tin plating roller linkage according to claim 1, it is characterised in that：The bottom of the pot (1) Equipped with discharge pipe (13), the discharge pipe (13) is equipped with manually-operated gate (14).

6. a kind of tin plating roller linkage according to claim 1, it is characterised in that：It is also set in the pot (1) It includes lead frame (151) and wire column (152) to have wire element (15), the wire element (15), and the lead frame (151) sets It sets between the first roller (4) and second tin roller (5), the wire column (152) is arranged on lead frame (151).

7. a kind of tin plating roller linkage according to claim 6, it is characterised in that：The lead frame (151) with lead Terminal is detachably connected between (152), and the lead frame (151) is equipped with card hole (16), and wire column (152) inlay card is in card In hole (16).

8. a kind of tin plating roller linkage according to claim 7, it is characterised in that：It is additionally provided on the baffle (10) Gag lever post (17) for being limited to copper wire.

9. a kind of tin plating roller linkage according to claim 8, it is characterised in that：It is also set in the pot (1) It is useful for the supporting rod (18) of support copper wire.

10. a kind of tin plating roller linkage according to claim 9, it is characterised in that：The two of the limiting slot notch End is also erected with the support beam (19) for being used to support copper wire.