CN114082584A - Enameled wire surface lubricant batch coating device - Google Patents

Abstract

The invention relates to a batch coating device, in particular to a batch coating device for a lubricant on the surface of an enameled wire. There is a need to design a batch coating apparatus for a lubricant on the surface of an enameled wire, which can simultaneously coat six rolls of enameled wires with a liquid lubricant, has high working efficiency, and takes less time. The utility model provides an enameled wire surface lubricant is coating device in batches, includes base, support frame and trough of belt inlet pipe etc. and the rigid coupling has the support frame in the middle of the base top rear side, and the fixed trough of belt inlet pipe that has worn to connect in support frame upper portion front side bottom. According to the invention, six rolls of enameled wires are sleeved on the discharging mechanism, the discharging mechanism is pulled to straighten the enameled wires, the electrothermal spiral plate is started to scrape the pasty lubricant and heat and melt the pasty lubricant into the liquid lubricant, the driving mechanism is started, the driving mechanism drives the cylinder to rotate forward, and the felt rotates forward to coat the liquid lubricant on the six rolls of enameled wires.

Description

Enameled wire surface lubricant batch coating device

Technical Field

The invention relates to a batch coating device, in particular to a batch coating device for a lubricant on the surface of an enameled wire.

Background

In the enameled wire production process, generally, a plurality of processes are required to be carried out to completely manufacture the enameled wire, wherein a liquid lubricant is required to be coated on the surface of the enameled wire, so that the surface friction coefficient of the enameled wire is reduced, and the subsequent winding collection treatment is also facilitated.

Chinese patent with the patent application number of CN202010989787.4 discloses an enameled wire lubricant coating device, which comprises a coating groove, wherein the interior of the coating groove is divided into a plurality of functional grooves, the functional grooves comprise a first functional groove, a second functional groove and a third functional groove which are sequentially arranged, and the adjacent functional grooves are communicated through holes; a lubricant supply mechanism connected to the first functional groove through a pipe; and the roller coating mechanism is arranged above the third functional groove. According to the technical scheme, the coating groove is divided into the functional grooves, the buffer effect when the lubricant pump is pumped is achieved, the problem that the lubricant is uneven in coating due to the fact that the liquid level of the inlet is instantly increased when the lubricant is pumped into the coating groove is avoided, the above patent can only coat the liquid lubricant on the surface of the enameled wire once, but the working efficiency is low, and a large amount of time is required to be spent.

Therefore, it is required to design and develop a batch coating apparatus of surface lubricant for enamel wire capable of simultaneously coating six coils of enamel wire with liquid lubricant, with high working efficiency, and with less time consumption.

Disclosure of Invention

In order to overcome the defects that the working efficiency is low and a large amount of time is needed because the liquid lubricant can be coated on one enameled wire at a time, the invention provides the batch coating device for the surface lubricant of the enameled wire, which can coat the liquid lubricant on six enameled wires at the same time, has high working efficiency and takes less time.

The invention is realized by the following technical approaches:

a batch coating device for lubricant on the surface of an enameled wire comprises a base, a support frame, a cylinder, a grooved feed pipe, a felt, porous pipes, an electric heating spiral plate, a storage battery, a discharging mechanism and a driving mechanism, wherein the support frame is fixedly connected in the middle of the rear side of the top of the base, the grooved feed pipe is fixedly connected to the bottom end of the front side of the upper portion of the support frame in a penetrating manner, the cylinder is rotatably connected in the penetrating manner to the bottom end of the rear side of the upper portion of the support frame in a penetrating manner, the circle center of the front side of the cylinder is fixedly connected to the rear end of the grooved feed pipe, the cylinder is communicated with the grooved feed pipe, the electric heating spiral plate capable of heating and melting the lubricant is installed in the circle center of the rear side of the cylinder, the storage battery is installed in the middle of the lower portion of the rear side of the cylinder, the storage battery is connected with the electric heating spiral plate through a circuit, seven rows of porous pipes are uniformly communicated in the circumferential direction at intervals, the number of each row of porous pipes is three, and the felt capable of coating the liquid lubricant on the surface of the enameled wire is connected between the tail ends of the three porous pipes, the discharging mechanism is installed at the outer top of the base, an operator can sleeve six enameled wires on the discharging mechanism, the driving mechanism is installed on the discharging mechanism, after the enameled wires are placed, the driving mechanism is started, and the driving mechanism can drive the enameled wires to move rightwards to be coated with the liquid lubricant through the discharging mechanism.

Further, drop feed mechanism is including L type frame, fastening bolt, u type rack, six water chestnut actuating levers, cylinder and first gear, the slidingtype L type frame that is connected with of base outer top bilateral symmetry, both sides all have fastening bolt through the bilateral symmetry cross-under of screw thread rotary type around the L type frame lower part, the fastening bolt bottom contacts with the base is inboard, left side upper portion and right side upper portion all the rigid coupling have u type rack in the L type frame of left side, six water chestnut actuating levers have been placed between two recesses of u type rack, the fixed cover in six water chestnut actuating lever middle parts is equipped with the cylinder, both ends all the rigid coupling have first gear around the six water chestnut actuating lever of left side, first gear and actuating mechanism contact.

Further, the driving mechanism comprises a second gear, a double-shaft motor, a transmission assembly, a tension pulley and an elastic part, the double-shaft motor is fixedly connected to the middle of the bottom in the left L-shaped frame, the second gear is fixedly connected to the rear side of a rear output shaft of the double-shaft motor and the front end of a front output shaft, the second gear is meshed with the first gear, the transmission assembly is connected between the rear end of the rear output shaft of the double-shaft motor and the rear end of the cylinder, the transmission assembly comprises two belt pulleys and a flat belt, one belt pulley is fixedly sleeved at the rear end of the rear output shaft of the double-shaft motor, the other belt pulley is fixedly sleeved at the rear end of the cylinder, the flat belt is wound between the two belt pulleys, the tension pulley is slidably mounted at the lower part of the left side of the outer rear side of the support frame, the tension pulley is in contact with the transmission assembly, and the elastic part is connected between the bottom of the tension pulley and the lower part of the left side of the outer rear side of the support frame.

Further comprises a material pushing mechanism which can push the pasty lubricant to move, the material pushing mechanism comprises an L-shaped fixing plate, a screw rod, an n-shaped plate and a guide sleeve, the device comprises an n-type rod, a first spring, a pushing plate and a half nut, wherein an n-type plate is connected in a sliding mode in the middle of the top of a support frame, the first spring is symmetrically connected between the inner top of the n-type plate and the outer top of the support frame in a front-back mode, guide sleeves are symmetrically and fixedly connected with the front-back side of the outer top of the n-type plate, the n-type rod is connected in a sliding mode between the two guide sleeves in a front-back mode, the pushing plate used for pushing a paste lubricant to move is fixedly connected to the bottom end of the front side of the n-type rod, the pushing plate is contacted with a feed pipe with a groove, the half nut is fixedly connected to the bottom end of the rear side of the n-type rod, an L-type fixing plate is fixedly connected to the middle of the upper portion of the rear side of a base, a lead screw used for driving the half nut to move is fixedly connected to the upper portion of the inner rear side of the L-type fixing plate, and the front end of the lead screw is fixedly connected to the rear end of a barrel.

Further comprises an auxiliary mechanism for coating the whole surface of the enameled wire with a liquid lubricant, wherein the auxiliary mechanism comprises an n-shaped frame, a u-shaped plate and a sponge roller, the leading wheel, driving band and second spring, the cross-under of slidingtype has the u template in the middle of the base top, the cross-under of rotary type has the sponge roller that is used for carrying out comprehensive coating liquid emollient to the enameled wire between the both sides upper portion around the u template, even spaced is connected with three second springs between bottom in the u template and the base in the top, the outside both sides face lower part all the rotary type is connected with the leading wheel around the u template, the base is also all connected with the leading wheel of rotary type around both sides face upper portion left and right sides, the outside left surface lower part of left side L type frame and the outside right flank lower part of right side L type frame all rigid coupling have n type frame, the symmetry rigid coupling has the driving band around left side n type frame right flank lower part, three leading wheel and right side n type frame left surface lower part fixed connection are walked around to the driving band tail end.

Further, still including the brush material mechanism that is used for promoting the liquid lubricant removal on the felt, brush material mechanism is including the runner, fixed frame, the brush, the third spring, act as go-between, first magnet and second magnet, the runner is equipped with along the fixed cover of circumference to the outer rear side of barrel, the runner is located the transmission assembly front side, runner leading flank eccentric position rigid coupling has the second magnet, the rigid coupling has fixed frame between the n template bottom both ends, the brush that is used for promoting the liquid lubricant on the felt is placed to fixed frame inward slip formula, be connected with the third spring between brush trailing flank upper portion and the fixed frame in the trailing flank, brush trailing flank upper portion intermediate junction is acted as go-between, it has first magnet to act as go-between the tail end and run through fixed frame rear flank middle part rigid coupling.

Further, still including triggering the board, L type gag lever post and fourth spring, the outer top left and right sides of base all rigid coupling has the trigger board, trigger the board and be close to L type frame, both sides are close to the cross-under that the position of six water chestnut actuating levers all slidingtype is had and is used for the spacing L type gag lever post to six water chestnut actuating levers around the u type rack, L type gag lever post lower part and trigger the contact of board left surface upper portion, be connected with the fourth spring between left surface upper portion and the left side u type rack inboard in the L type gag lever post of left side, also be connected with the fourth spring between right side upper portion and the right side u type rack inboard in the L type gag lever post of right side.

Further, including handle, fifth spring and cardboard, the opening of the outer top left and right sides middle part of base all even spaced has twenty draw-in grooves, and slidingtype being connected with between the both sides around in the L type frame is used for the spacing cardboard of L type frame, and the cardboard bottom is located the draw-in groove, and the rigid coupling has the handle in the middle of the outer top of cardboard, and both sides all are connected with the fifth spring with L type frame is inboard around the outer top of cardboard.

Compared with the prior art, the invention has the remarkable improvements that:

1. six rolls of enameled wires are sleeved on the discharging mechanism, the discharging mechanism is pulled to straighten the enameled wires, the electrothermal spiral plate is started to scrape the pasty lubricant, the pasty lubricant is heated and melted into the liquid lubricant, the driving mechanism is started again, the driving mechanism drives the cylinder to rotate positively, and the felt rotates positively to coat the liquid lubricant on the six rolls of enameled wires, so that the working efficiency is high and the time spent is short.

2. When the double-shaft motor is started, the barrel rotates forwards to drive the pushing mechanism to operate, the pushing mechanism can slowly push the pasty lubricant to move backwards and be scraped by the electric heating spiral plate, and therefore an operator does not need to push the pasty lubricant to move backwards by hands, and the electric heating spiral plate type lubricating device is convenient and fast.

3. Under the effect of complementary unit, can make sponge roller and enameled wire contact, partial liquid lubricant then drops to the sponge roller on, the sponge roller also coats liquid lubricant on the enameled wire, so, can be to the comprehensive liquid lubricant that coats of enameled wire.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a partial perspective view of the present invention.

Fig. 3 is a schematic perspective view of a grooved feed tube of the present invention.

Fig. 4 is a schematic perspective view of a hexa-rhomb drive rod according to the present invention.

Fig. 5 is a schematic perspective view of a second embodiment of the present invention.

Fig. 6 is a third perspective view of the present invention.

Fig. 7 is an enlarged schematic view of part a of the present invention.

Fig. 8 is a first partial sectional structural view of the present invention.

FIG. 9 is a second partial sectional structural schematic of the present invention.

Fig. 10 is an enlarged view of part B of the present invention.

Fig. 11 is a third partial sectional structural view of the present invention.

Fig. 12 is an enlarged schematic view of part C of the present invention.

Fig. 13 is a fourth partial cross-sectional structural schematic of the present invention.

Fig. 14 is an enlarged view of the portion D of the present invention.

FIG. 15 is a schematic view of a fifth partial cross-sectional structure of the present invention.

FIG. 16 is a sixth partial cross-sectional structural view of the present invention.

Wherein: 1-base, 2-support frame, 3-cylinder, 4-grooved feed pipe, 5-felt, 6-perforated pipe, 7-electric heating spiral plate, 71-storage battery, 8-discharge mechanism, 81-L-shaped frame, 82-fastening bolt, 83-u-shaped frame, 84-hexagonal diamond driving rod, 85-roller, 86-first gear, 9-driving mechanism, 91-second gear, 92-double-shaft motor, 93-transmission component, 94-tension wheel, 95-elastic component, 10-material-pushing mechanism, 101-L-shaped fixing plate, 102-lead screw, 103-n-shaped plate, 104-guide sleeve, 105-n-shaped rod, 106-first spring, 107-material-pushing plate, 108-half nut and 11-auxiliary mechanism, 111-n-shaped frame, 112-u-shaped plate, 113-sponge roller, 114-guide wheel, 115-driving belt, 116-second spring, 12-brushing mechanism, 121-rotating wheel, 122-fixing frame, 123-hairbrush, 124-third spring, 125-pull wire, 126-first magnet, 127-second magnet, 13-trigger plate, 14-L-shaped limiting rod, 15-fourth spring, 16-handle, 17-fifth spring, 18-clamping plate and 19-clamping groove.

Detailed Description

The invention is further explained by combining the drawings in the specification and the embodiments of the invention are given by combining the drawings in the specification.

Example (b): a batch coating device for a lubricant on the surface of an enameled wire.

Referring to fig. 1-9, the device comprises a base 1, a support frame 2, a cylinder 3, a trough feeding pipe 4, a felt 5, a perforated pipe 6, an electric heating spiral plate 7, a storage battery 71, a discharging mechanism 8 and a driving mechanism 9, wherein the support frame 2 is installed in the middle of the rear side of the top of the base 1 in a bolt connection mode, the trough feeding pipe 4 is fixedly penetrated and connected to the bottom of the front side of the upper portion of the support frame 2, the cylinder 3 is rotatably penetrated and connected to the bottom of the rear side of the upper portion of the support frame 2, the center position of the front side of the cylinder 3 is fixedly connected to the rear end of the trough feeding pipe 4, the cylinder 3 is communicated with the trough feeding pipe 4, the electric heating spiral plate 7 is installed at the center position of the rear side inside the cylinder 3, when a paste lubricant is put into the trough feeding pipe 4 and contacted with the electric heating spiral plate 7, the electric heating spiral plate 7 rotates to scrape the paste lubricant into the cylinder 3 to be heated and melted into a liquid lubricant, the storage battery 71 is installed at the middle of the lower portion of the outer rear side of the cylinder 3, the storage battery 71 is connected with the electric heating spiral plate 7 through a circuit, the storage battery 71 can supply power to the electric heating spiral plate 7, the barrel 3 is communicated with seven rows of porous pipes 6 at equal intervals along the circumferential direction, the number of each row of porous pipes 6 is three, the tail ends of each row of three porous pipes 6 are connected with the felt 5, when the molten liquid lubricant drops onto the felt 5, the felt 5 can coat the liquid lubricant on the surface of an enameled wire, the discharging mechanism 8 is installed at the outer top of the base 1, an operator can sleeve six rolls of enameled wires on the discharging mechanism 8, the driving mechanism 9 is installed on the discharging mechanism 8, after the enameled wires are placed, the driving mechanism 9 is started, and the driving mechanism 9 can drive the enameled wires to be coated with the liquid lubricant moving rightwards through the discharging mechanism 8.

The discharging mechanism 8 comprises an L-shaped frame 81, fastening bolts 82, a u-shaped placing frame 83, a hexagonal prism driving rod 84, a roller 85 and a first gear 86, the L-shaped frame 81 is connected to the outer top of the base 1 in a bilateral sliding mode, the fastening bolts 82 are connected to the front side and the rear side of the lower portion of the L-shaped frame 81 in a threaded rotating mode in a bilateral symmetry penetrating mode, the bottom end of each fastening bolt 82 is in contact with the inner side of the base 1, the u-shaped placing frame 83 is mounted on the upper portion of the left side face in the left L-shaped frame 81 and the upper portion of the right side face in the right L-shaped frame 81 in a bolt connection mode, the hexagonal prism driving rod 84 is placed between two grooves of the u-shaped placing frame 83, the roller 85 is fixedly sleeved in the middle of the hexagonal prism driving rod 84, an operator can sleeve six rolls of enameled wires on the right roller 85, the first gear 86 is mounted at the front end and the rear end of the hexagonal prism driving rod 84 on the left side in a welding connection mode, the first gear 86 is in contact with the driving mechanism 9, when the driving mechanism 9 is activated, the driving mechanism 9 can drive the first gear 86 to rotate reversely.

The driving mechanism 9 comprises a second gear 91, a double-shaft motor 92, a transmission component 93, a tension pulley 94 and an elastic part 95, the double-shaft motor 92 is installed in the middle of the bottom in the left L-shaped frame 81 in a bolt connection mode, the second gear 91 is fixedly connected to the rear side of a rear output shaft and the front end of a front output shaft of the double-shaft motor 92, the second gear 91 is meshed with the first gear 86, when the double-shaft motor 92 is started, the second gear 91 can drive the first gear 86 to rotate reversely, the transmission component 93 is connected between the rear end of the rear output shaft of the double-shaft motor 92 and the rear end of the barrel 3, the transmission component 93 consists of two belt pulleys and a flat belt, one belt pulley is fixedly sleeved at the rear end of the rear output shaft of the double-shaft motor 92, the other belt pulley is fixedly sleeved at the rear end of the barrel 3, the flat belt is wound between the two belt pulleys, the tension pulley 94 is slidably installed at the lower part of the left rear side outside the support frame 2, the tension wheel 94 is in contact with the transmission component 93, and an elastic component 95 is connected between the bottom of the tension wheel 94 and the lower part of the left side of the outer rear side surface of the support frame 2.

Firstly, an operator sleeves six rolls of enameled wires on a discharging mechanism 8, pulls the head ends of the six rolls of enameled wires to move leftwards to be bundled on the left side of the discharging mechanism 8, pulls the discharging mechanism 8 to move outwards to straighten the enameled wires, namely, a pasty lubricant is put into a feeding pipe 4 with a groove, pushes the pasty lubricant to move backwards to a barrel body 3 to be contacted with an electric heating spiral plate 7, the electric heating spiral plate 7 is started, the electric heating spiral plate 7 rotates to scrape the pasty lubricant down for heating and melting, the pasty lubricant is heated and melted into a liquid lubricant, the liquid lubricant flows into a porous pipe 6, the liquid lubricant in the porous pipe 6 falls on a felt 5, the operator can continuously push the pasty lubricant to move backwards, the driving mechanism 9 can be started, the driving mechanism 9 operates to drive the discharging mechanism 8 to operate, the driving mechanism 9 also drives the barrel body 3 to rotate forwards, the barrel body 3 drives the felt 5 to rotate forwards through the porous pipe 6, the felt 5 positively rotates to coat the liquid lubricant on the enameled wire, meanwhile, the discharging mechanism 8 operates to drive the enameled wire to move leftwards, the enameled wire moves leftwards to enable the rest part to be coated with the liquid lubricant, the discharging mechanism 8 operates to roll the enameled wire coated with the lubricant, the operation is repeated, the liquid lubricant can be continuously coated on the enameled wire, and meanwhile, six enameled wires are coated with the liquid lubricant, and the working efficiency is high. After the six enameled wires are coated with the liquid lubricant, the driving mechanism 9 is closed, the driving mechanism 9 stops driving the discharging mechanism 8 to operate, the driving mechanism 9 also stops driving the cylinder 3 to rotate positively, the cylinder 3 stops driving the electric heating spiral plate 7 to rotate positively, the cylinder 3 also stops driving the felt 5 to rotate positively through the porous pipe 6, the electric heating spiral plate 7 is closed, and the enameled wires coated with the liquid lubricant are taken down from the discharging mechanism 8.

Firstly, an operator takes the right hexagonal rod drive 84 off the right u-shaped rack 83, then sleeves six enameled wires on the right roller 85, after the enameled wires are sleeved, puts the right hexagonal rod drive 84 back on the right u-shaped rack 83, pulls the head ends of the six enameled wires to be bundled on the left roller 85, then twists the fastening bolt 82 to reversely rotate and move upwards through the screw thread, the fastening bolt 82 moves upwards to be separated from the inner side of the base 1, then loosens the L-shaped rack 81, stops twisting the fastening bolt 82, pulls the L-shaped rack 81 to move outwards, the L-shaped rack 81 moves outwards to drive the u-shaped rack 83 to move outwards, the u-shaped rack 83 moves outwards to drive the hexagonal rod drive 84 to move outwards, the hexagonal rod drive 84 moves outwards to drive the roller 85 to move outwards, the left roller 85 and the right roller 85 move outwards to straighten the enameled wires, so that the enameled wires are coated with a better liquid lubricant, when the enameled wire is straightened, the pulling of the L-shaped frame 81 to move outwards is stopped, the fastening bolt 82 is twisted to rotate forwards and move downwards through threads, the fastening bolt 82 moves downwards to reset and contact with the inner side of the base 1, the L-shaped frame 81 is fixed by the fastening bolt 82, the driving mechanism 9 is started, the driving mechanism 9 operates to drive the first gear 86 to rotate backwards, the first gear 86 rotates backwards to drive the left-side hexagonal prism driving rod 84 to rotate backwards, the left-side hexagonal prism driving rod 84 rotates backwards to drive the left-side roller 85 to rotate backwards, the left-side roller 85 rotates backwards to drive the enameled wire to move leftwards, the enameled wire moves leftwards to drive the right-side roller 85 to rotate backwards, the rest part of the enameled wire is coated with the liquid lubricant, and the enameled wire coated with the liquid lubricant is wound up when the left-side roller 85 rotates backwards. After the six enameled wires are coated with the liquid lubricant, the driving mechanism 9 is closed, the driving mechanism 9 stops driving the first gear 86 to rotate reversely, the first gear 86 stops driving the left roller 85 to rotate reversely through the left hexagonal rod 84, the left hexagonal rod 84 can be taken down, the hexagonal rod 84 is taken down, the left roller 85 is also taken down, the enameled wires coated with the liquid lubricant are taken down from the left roller 85, the left hexagonal rod 84 is put back on the left u-shaped rack 83, the twisted fastening bolt 82 rotates reversely and is separated from the base 1 through upward movement of the threads, the L-shaped rack 81 is pushed to move inwards to reset, the roller 85 is also driven to move inwards to reset, and the twisted fastening bolt 82 rotates forwards and is reset through downward movement of the threads to fix the L-shaped rack 81.

When an operator pulls the L-shaped frame 81 to move outwards, the left L-shaped frame 81 also drives the double-shaft motor 92 to move outwards, the double-shaft motor 92 moves outwards to drive the transmission component 93 to move outwards, the transmission component 93 moves outwards to drive the tension pulley 94 to move upwards, the elastic part 95 is stretched, after the enameled wire is straightened, the operator stops pulling the L-shaped frame 81 to move outwards, the double-shaft motor 92 also stops driving the transmission component 93 to move outwards, the transmission component 93 stops driving the tension pulley 94 to move upwards, and when the head end of the enameled wire is tied on the left roller 85, the double-shaft motor 92 can be started, the double-shaft motor 92 rotates forwards to drive the transmission component 93 to rotate forwards, the transmission component 93 rotates forwards to drive the cylinder 3 to rotate forwards, so that the felt 5 rotates forwards to smear the liquid lubricant on the enameled wire, meanwhile, the double-shaft motor 92 also drives the second gear 91, and the second gear 91 drives the first gear 86 to rotate backwards, so that the left-side drum 85 winds up the enamel wire coated with the liquid lubricant. After the six enameled wires are coated with the liquid lubricant, the double-shaft motor 92 is turned off, the double-shaft motor 92 stops driving the transmission component 93 to rotate forwardly, the transmission component 93 stops driving the cylinder 3 to rotate forwardly, the felt 5 stops rotating forwardly, meanwhile, the double-shaft motor 92 stops driving the second gear 91 to rotate forward, the second gear 91 stops driving the first gear 86 to rotate backward, the left roller 85 stops rotating backward, namely, the left hexagonal prism driving rod 84 is taken down to process the enameled wire coated with the liquid lubricant, after the enameled wire coated with the liquid lubricant is taken down from the left roller 85, the left hexagonal prism driving rod 84 is put back to the left u-shaped rack 83, the L-shaped frame 81 is pushed to move inwards to reset, the double-shaft motor 92 drives the transmission assembly 93 to move inwards to reset, and the tension wheel 94 moves downwards to reset to tighten the transmission assembly 93 under the action of the elastic part 95.

Referring to fig. 1, 5, 6, 8, 9, 10, 11 and 12, the device further includes a material pushing mechanism 10, the material pushing mechanism 10 includes an L-shaped fixing plate 101, a lead screw 102, an n-shaped plate 103, guide sleeves 104, n-shaped rods 105, first springs 106, material pushing plates 107 and half nuts 108, the n-shaped plate 103 is slidably connected in the middle of the top of the supporting frame 2, the first springs 106 are symmetrically connected in front and back between the inner top of the n-shaped plate 103 and the outer top of the supporting frame 2, the guide sleeves 104 are symmetrically connected in front and back by welding the outer top of the n-shaped plate 103, the n-shaped rods 105 are slidably connected between the two guide sleeves 104, the material pushing plates 107 are mounted at the bottom of the front side of the n-shaped rods 105 by welding, the material pushing plates 107 are in contact with the grooved material feeding pipe 4, when the material pushing plates 107 move into the grooved material feeding pipe 4, the material pushing plates 107 can push the lubricant paste into the cylinder 3 to be heated and melted, the rear bottom end of the n-shaped rod 105 is fixedly connected with a half nut 108, the middle of the upper portion of the rear side of the base 1 is provided with an L-shaped fixing plate 101 in a welding connection mode, the middle of the upper portion of the inner rear side of the L-shaped fixing plate 101 is fixedly connected with a screw rod 102, the front end of the screw rod 102 is fixedly connected with the rear end of the barrel 3, and when the half nut 108 moves downwards to be meshed with the screw rod 102, the screw rod 102 rotates to drive the half nut 108 to move backwards.

The device also comprises an auxiliary mechanism 11, wherein the auxiliary mechanism 11 comprises an n-shaped frame 111, a u-shaped plate 112, a sponge roller 113, a guide wheel 114, a driving belt 115 and a second spring 116, the u-shaped plate 112 is connected in a sliding mode in the middle of the top of the base 1 in a penetrating mode, the sponge roller 113 is connected between the upper portions of the front side and the rear side of the u-shaped plate 112 in a penetrating mode in a rotating mode, when the sponge roller 113 moves upwards to be in contact with an enameled wire, the sponge roller 113 can be used for coating the enameled wire with liquid lubricant comprehensively, three second springs 116 are connected between the inner bottom of the u-shaped plate 112 and the inner top of the base 1 at even intervals, the lower portions of the front side and the rear side of the outside of the u-shaped plate 112 are connected with the guide wheel 114 in a rotating mode, the guide wheel 114 is connected on the left side and the right side of the upper portion of the front side and the rear side of the base 1 in a rotating mode, the lower portion of the left side of the L-shaped frame 81 and the right side of the L-shaped frame 81 are both installed with the n-shaped frame 111 in a bolt connection mode, the lower part of the right side surface of the left n-shaped frame 111 is symmetrically and fixedly connected with driving belts 115 in a front-back mode, the tail end of each driving belt 115 rounds three guide wheels 114 and is fixedly connected with the lower part of the left side surface of the right n-shaped frame 111, and when the n-shaped frame 111 moves outwards, the n-shaped frame 111 can tighten the driving belts 115, so that the sponge roller 113 moves upwards to be in contact with the enameled wires.

The automatic cloth brushing machine further comprises a cloth brushing mechanism 12, the cloth brushing mechanism 12 comprises a rotating wheel 121, a fixed frame 122, a brush 123, a third spring 124, a pull wire 125, a first magnet 126 and a second magnet 127, the rotating wheel 121 is fixedly sleeved on the outer rear side of the barrel 3 along the circumferential direction, the rotating wheel 121 is positioned on the front side of the transmission component 93, the second magnet 127 is fixedly connected at the eccentric position of the front side of the rotating wheel 121, the fixed frame 122 is installed between the two ends of the bottom of the n-shaped plate 103 in a welding connection mode, the brush 123 is slidably placed in the fixed frame 122, when the brush 123 moves downwards to be in contact with the felt 5, the brush 123 can push the liquid lubricant on the felt 5, the third spring 124 is connected between the upper part of the rear side of the brush 123 and the inner rear side of the fixed frame 122, the pull wire 125 is connected in the middle of the upper part of the rear side of the brush 123, the tail end of the pull wire penetrates through the middle part of the rear side of the fixed frame 122 to be fixedly connected with the first magnet 126, when the first magnet 126 moves downwards to be in contact with the second magnet 127, the forward rotation of the second magnet 127 is accomplished to drive the forward rotation of the first magnet 126.

Initially, the first spring 106 is in a stretching state, when the pasty lubricant is put into the grooved feed pipe 4, the n-type rod 105 is pulled to move forward, the n-type rod 105 moves forward to drive the material pushing plate 107 and the half nut 108 to move forward, when the material pushing plate 107 moves forward to be separated from the grooved feed pipe 4, the n-type rod 105 stops being pulled to move forward, the n-type rod 105 is loosened, the n-type plate 103 moves downward to drive the guide sleeve 104 to move downward due to the action of the first spring 106, the guide sleeve 104 moves downward to drive the n-type rod 105 to move downward, the n-type rod 105 moves downward to drive the material pushing plate 107 and the half nut 108 to move downward, the material pushing plate 107 moves downward to correspond to the grooved feed pipe 4, and the half nut 108 moves downward to be engaged with the screw rod 102, when the double-shaft motor 92 is started, the cylinder 3 further drives the screw rod 102 to rotate forward, the screw rod 102 drives the half nut 108 to move backward, and the half nut 108 moves backward to drive the n-type rod 105 to move backward, the n-type rod 105 moves backwards to drive the material pushing plate 107 to move backwards, the material pushing plate 107 moves backwards into the grooved material inlet pipe 4, the material pushing plate 107 is in contact with the pasty lubricant, the material pushing plate 107 drives the pasty lubricant to move backwards slowly, when the material pushing plate 107 moves backwards to the maximum stroke, the n-type rod 105 can be pulled to move upwards, the n-type rod 105 moves upwards to drive the n-type plate 103 to move upwards through the guide sleeve 104, the first spring 106 is stretched, the n-type rod 105 moves upwards to drive the material pushing plate 107 and the half nut 108 to move upwards, the material pushing plate 107 moves upwards to be separated from the contact with the grooved material inlet pipe 4, the half nut 108 moves upwards to be separated from the mesh with the screw rod 102, the n-type rod 105 is pulled to move forwards to drive the material pushing plate 107 and the half nut 108 to move forwards to reset, the n-type rod 105 is loosened, the n-type plate 103 drives the n-type rod 105 to move downwards for a certain distance through the guide sleeve 104 due to the action of the first spring 106, the n-shaped rod 105 drives the material pushing plate 107 to move downwards to contact with the grooved material inlet pipe 4 again, so that the next pasty lubricant can be put into the grooved material inlet pipe 4, and the process is repeated, so that the pasty lubricant can be continuously and slowly pushed to move backwards. When the dual-shaft motor 92 is turned off, the cylinder 3 stops driving the screw rod 102 to rotate forward. Therefore, the paste lubricant does not need to be pushed by an operator to move backwards by hands, and the method is convenient and fast.

When an operator pulls the L-shaped frame 81 to move outwards, the L-shaped frame 81 also drives the n-shaped frame 111 to move outwards, the left and right n-shaped frames 111 move outwards to drive the driving belt 115 to move outwards, so that the driving belt 115 is straightened, the driving belt 115 is straightened to drive the middle guide wheel 114 to move upwards, the middle guide wheel 114 moves upwards to drive the u-shaped plate 112 to move upwards, the second spring 116 is compressed, the u-shaped plate 112 moves upwards to drive the sponge roller 113 to move upwards, the sponge roller 113 moves upwards to be in contact with the enameled wire, the sponge roller 113 is matched with the felt 5 to completely wrap the enameled wire, the L-shaped frame 81 is stopped being pulled, and the sponge roller 113 stops moving upwards, when the felt 5 rotates forwards to coat the liquid lubricant on the enameled wire, part of the liquid lubricant drops onto the sponge roller 113, the enameled wire moves leftwards to drive the sponge roller 113 to rotate backwards, and the sponge roller 113 rotates backwards to coat the enameled wire with the liquid lubricant comprehensively. When the liquid lubricant is coated on all six enameled wires, the enameled wires coated with the liquid lubricant can be processed by separating the enameled wires from the sponge roller 113, when an operator pushes the L-shaped frame 81 to move inward, the L-shaped frame 81 drives the n-shaped frame 111 to move inward, the n-shaped frame 111 moves inward to release the driving belt 115, the u-shaped plate 112 moves downward to reset and drives the sponge roller 113 to move downward to reset due to the action of the second spring 116, the u-shaped plate 112 also drives the middle guide wheel 114 to move downward to reset, after the L-shaped frame 81 moves inward to reset, the L-shaped frame 81 stops being pushed, and the L-shaped frame 81 stops driving the n-shaped frame 111 to move inward. Thus, the enameled wire can be coated with the liquid lubricant on the whole surface.

When the n-shaped plate 103 moves downwards, the n-shaped plate 103 also drives the fixing frame 122 to move downwards, the fixing frame 122 moves downwards to drive the brush 123 to move downwards, the brush 123 moves downwards to be in contact with the felt 5, meanwhile, the fixing frame 122 also drives the pull wire 125 to move downwards, the pull wire 125 moves downwards to drive the first magnet 126 to move downwards, the first magnet 126 moves downwards to be in contact with the second magnet 127 and is attracted, at the moment, the half nut 108 is meshed with the screw rod 102, when the double-shaft motor 92 is started, the cylinder 3 rotates forwards and also drives the rotating wheel 121 to rotate forwards, the rotating wheel 121 rotates forwards to drive the second magnet 127 to rotate forwards, the second magnet 127 rotates forwards to drive the first magnet 126 to rotate forwards, the first magnet 126 rotates forwards to drive the pull wire 125 to rotate forwards, the pull wire 125 drives the brush 123 to move backwards, the third spring 124 is compressed, the brush 123 moves backwards to push the liquid lubricant on the felt 5, and the felt 5 can be completely attached with the liquid lubricant, the positive rotation of the felt 5 can better coat the enameled wire with the liquid lubricant, when the brush 123 moves backwards to the maximum stroke, the brush 123 stops moving backwards, the first magnet 126 also stops positive rotation through the pull wire 125, the second magnet 127 continues to rotate forwards and is separated from the contact with the first magnet 126, due to the action of the third spring 124, the brush 123 moves forwards and resets to push the liquid lubricant on the felt 5 once again, the brush 123 moves forwards and resets to drive the first magnet 126 to move and reset through the pull wire 125, and the liquid lubricant on the felt 5 can be pushed by the back and forth movement of the brush 123 repeatedly, so that the felt 5 can be completely coated with the liquid lubricant by the liquid lubricant. After the six enameled wires are coated with the liquid lubricant, the dual-shaft motor 92 is turned off, the barrel 3 stops driving the rotating wheel 121 to rotate forward, the rotating wheel 121 stops driving the second magnet 127 to rotate forward, and the brush 123 stops moving forward and backward. In this way, it is avoided that the liquid lubricant does not adhere to the position of the felt 5 in contact with the enameled wire to be coated.

Referring to fig. 1, 13, 14, 15 and 16, the device further includes a trigger plate 13, an L-shaped limit rod 14 and a fourth spring 15, the trigger plate 13 is installed on the left side and the right side of the outer top of the base 1 in a bolt connection manner, the trigger plate 13 is close to an L-shaped frame 81, the L-shaped limit rod 14 is slidably connected to the positions, close to the hexagonal rod 84, of the front side and the rear side of the u-shaped frame 83 in a penetrating manner, when the L-shaped limit rod 14 moves inward, the L-shaped limit rod 14 can limit the hexagonal rod 84, the lower portion of the L-shaped limit rod 14 contacts with the upper portion of the left side of the trigger plate 13, the fourth spring 15 is connected between the upper portion of the left side in the left L-shaped limit rod 14 and the inner side of the left u-shaped frame 83, and the fourth spring 15 is also connected between the upper portion of the right side in the right L-shaped limit rod 14 and the inner side of the right u-shaped frame 83.

Still including handle 16, fifth spring 17 and cardboard 18, it has twenty draw-in grooves 19 all to open evenly spaced in the middle part of the outer top left and right sides of base 1, slidingtype being connected with cardboard 18 between the front and back both sides in the L type frame 81, 18 bottom positions of cardboard are in draw-in groove 19, when cardboard 18 inserts in draw-in groove 19, cardboard 18 can realize spacing to L type frame 81, handle 16 is installed through welded connection's mode in the middle of 18 outer tops of cardboard, 18 outer top front and back both sides all with L type frame 81 inboards between be connected with fifth spring 17.

Initially, the fourth spring 15 is in a stretching state, when an operator pulls the L-shaped frame 81 to move outward, the u-shaped placing frame 83 moves outward and also drives the L-shaped limiting rod 14 to move outward through the fourth spring 15, the L-shaped limiting rod 14 moves outward and is separated from contact with the trigger plate 13, and due to the action of the fourth spring 15, the L-shaped limiting rod 14 moves inward for a certain distance to limit the position of the hexagonal prism driving rod 84. When an operator pushes the L-shaped frame 81 to move inwards for resetting, the u-shaped placing frame 83 moves inwards for resetting and drives the L-shaped limiting rod 14 to move inwards for resetting through the fourth spring 15, the L-shaped limiting rod 14 moves inwards for resetting to be in contact with the trigger plate 13, the trigger plate 13 drives the L-shaped limiting rod 14 to move outwards for a certain distance, the fourth spring 15 is stretched, and the L-shaped limiting rod 14 moves outwards for a certain distance without limiting the six-diamond driving rod 84. Therefore, the problem that the enameled wire is wound due to the fact that the hexagonal prism driving rod 84 falls down from the u-shaped placing frame 83 in the reverse rotation mode can be avoided.

Firstly, an operator twists a fastening bolt 82 to reversely move upwards to be separated from contact with the base 1, the L-shaped frame 81 is loosened, when the head ends of six enameled wires are tied on a left-side roller 85, the handle 16 can be pulled to move upwards, the handle 16 moves upwards to drive a clamping plate 18 to move upwards, a fifth spring 17 is compressed, the clamping plate 18 moves upwards to be separated from contact with a clamping groove 19, the handle 16 is stopped being pulled, the L-shaped frame 81 can be pulled to move outwards, the enameled wires are straightened, the L-shaped frame 81 stops being pulled to move outwards, the handle 16 is loosened, due to the action of the fifth spring 17, the clamping plate 18 moves downwards to be inserted into the clamping groove 19, the clamping plate 18 is matched with the clamping groove 19 to fix the L-shaped frame 81, and the clamping plate 18 resets to drive the handle 16 to move downwards to reset. When the L-shaped frame 81 needs to be pushed to move inwards for resetting, the handle 16 is pulled to move upwards again according to the operation to drive the clamping plate 18 to move upwards, the fifth spring 17 is compressed, the clamping plate 18 moves upwards to be separated from the contact with the clamping groove 19, the L-shaped frame 81 can be pushed to move inwards for resetting, the handle 16 is loosened, and the clamping plate 18 moves downwards to reset and is inserted into the clamping groove 19 to fix the L-shaped frame 81 under the action of the fifth spring 17. Therefore, an operator does not need to twist the fastening bolt 82 to fix and loosen the L-shaped frame 81, and time and labor are saved.

Finally, it is necessary to state that: the above-mentioned contents are only used to help understanding the technical solution of the present invention, and should not be interpreted as limiting the scope of the present invention; insubstantial modifications and adaptations of the invention as described above will occur to those skilled in the art and are intended to be within the scope of the invention as claimed.

Claims (8)

1. A batch coating device for lubricants on the surfaces of enameled wires comprises a base (1), a support frame (2), a cylinder body (3), a feeding pipe (4) with a groove, a felt (5), a perforated pipe (6), an electric heating spiral plate (7) and a storage battery (71), wherein the support frame (2) is fixedly connected in the middle of the rear side of the top of the base (1), the feeding pipe (4) with the groove is fixedly connected to the bottom end of the front side of the upper part of the support frame (2) in a penetrating manner, the cylinder body (3) is rotatably connected to the bottom end of the rear side of the upper part of the support frame (2) in a penetrating manner, the circle center position of the front side of the cylinder body (3) is fixedly connected with the rear end of the feeding pipe (4) with the groove, the cylinder body (3) is communicated with the feeding pipe (4) with the groove, the electric heating spiral plate (7) capable of heating and melting pasty lubricants is installed in the circle center position of the inner rear side of the cylinder body (3), the storage battery (71) is installed in the middle of the lower part of the outer rear side of the cylinder body (3), and the electric heating spiral plate (7) is connected by a circuit, the cylinder body (3) is communicated with seven rows of porous pipes (6) at even intervals along the circumferential direction, the number of each row of porous pipes (6) is three, felt (5) capable of coating liquid lubricant on the surface of an enameled wire is connected between the tail ends of each row of three porous pipes (6), the automatic winding machine is characterized by further comprising a discharging mechanism (8) and a driving mechanism (9), the discharging mechanism (8) used for placing six rolls of enameled wires is installed at the outer top of the base (1), and the driving mechanism (9) is installed on the discharging mechanism (8).

2. The batch coating device for the lubricant on the surface of the enameled wire according to claim 1, characterized in that the discharging mechanism (8) comprises an L-shaped frame (81), fastening bolts (82), a u-shaped placing frame (83), a hexagonal rod drive (84), a roller (85) and a first gear (86), the L-shaped frame (81) is connected with the outer top of the base (1) in a bilateral symmetry sliding manner, the fastening bolts (82) are respectively penetrated and connected on the front and back sides of the lower part of the L-shaped frame (81) through the bilateral symmetry of a screw rotation type, the bottom end of the fastening bolt (82) is contacted with the inner side of the base (1), the U-shaped placing frame (83) is fixedly connected on the upper part of the inner left side surface of the left L-shaped frame (81) and the upper part of the inner right side surface of the right L-shaped frame (81), the hexagonal rod drive (84) is placed between two grooves of the U-shaped placing frame (83), the roller (85) is fixedly sleeved in the middle part of the hexagonal rod drive (84), a first gear (86) is fixedly connected to the front end and the rear end of the left hexagonal rod (84), and the first gear (86) is in contact with the driving mechanism (9).

3. The batch coating device for the lubricant on the surface of the enameled wire as claimed in claim 2, wherein the driving mechanism (9) comprises a second gear (91), a double-shaft motor (92), a transmission component (93), a tension wheel (94) and an elastic member (95), the double-shaft motor (92) is fixedly connected to the middle of the inner bottom of the left L-shaped frame (81), the second gear (91) is fixedly connected to the rear side of the rear output shaft and the front end of the front output shaft of the double-shaft motor (92), the second gear (91) is meshed with the first gear (86), the transmission component (93) is connected between the rear end of the rear output shaft of the double-shaft motor (92) and the rear end of the barrel (3), the transmission component (93) consists of two belt pulleys and a flat belt, one belt pulley is fixedly sleeved on the rear end of the rear output shaft of the double-shaft motor (92), the other belt pulley is fixedly sleeved on the rear end of the barrel (3), the flat belt is around between two belt pulleys, and support frame (2) outside trailing flank left side lower part is slidingtype installs take-up pulley (94), and take-up pulley (94) and drive assembly (93) contact are connected with elastic component (95) between take-up pulley (94) bottom and support frame (2) outside trailing flank left side lower part.

4. The batch coating device for the lubricant on the surface of the enameled wire according to claim 3, characterized in that the batch coating device further comprises a material pushing mechanism (10) capable of pushing the paste lubricant to move, the material pushing mechanism (10) comprises an L-shaped fixing plate (101), a screw rod (102), an n-shaped plate (103), guide sleeves (104), an n-shaped rod (105), a first spring (106), a material pushing plate (107) and half nuts (108), the n-shaped plate (103) is slidably connected in the middle of the top of the supporting frame (2) in a penetrating manner, the first spring (106) is symmetrically connected between the inner top of the n-shaped plate (103) and the outer top of the supporting frame (2) in a front-back manner, the guide sleeves (104) are symmetrically fixedly connected in a front-back manner, the n-shaped rod (105) is slidably connected between the two guide sleeves (104), the material pushing plate (107) for pushing the paste lubricant to move is fixedly connected to the bottom of the front side of the n-shaped rod (105), the material pushing plate (107) is in contact with the feeding pipe (4) with the groove, the bottom end of the rear side of the n-shaped rod (105) is fixedly connected with a half nut (108), an L-shaped fixing plate (101) is fixedly connected in the middle of the upper portion of the rear side face of the base (1), a lead screw (102) used for driving the half nut (108) to move is fixedly connected in the middle of the upper portion of the inner rear side face of the L-shaped fixing plate (101), and the front end of the lead screw (102) is fixedly connected with the rear end of the cylinder body (3).

5. The batch coating device for the lubricant on the surface of the enameled wire according to claim 4, characterized in that it further comprises an auxiliary mechanism (11) for coating the enameled wire with the liquid lubricant on the whole, the auxiliary mechanism (11) comprises an n-shaped frame (111), a u-shaped plate (112), a sponge roller (113), a guide wheel (114), a driving belt (115) and a second spring (116), the u-shaped plate (112) is slidably connected in the middle of the top of the base (1), the sponge roller (113) for coating the enameled wire with the liquid lubricant on the whole is rotatably connected between the upper parts of the front and back sides of the u-shaped plate (112), three second springs (116) are uniformly connected between the inner bottom of the u-shaped plate (112) and the inner top of the base (1) at intervals, the guide wheels (114) are connected to the lower parts of the front and back side surfaces of the u-shaped plate (112), and the guide wheels (114) are rotatably connected to the left and right sides of the front and back upper parts of the base (1), the lower part of the outer left side surface of the left L-shaped frame (81) and the lower part of the outer right side surface of the right L-shaped frame (81) are fixedly connected with n-shaped frames (111), driving belts (115) are symmetrically and fixedly connected with the lower part of the right side surface of the left n-shaped frame (111) in a front-back mode, and the tail ends of the driving belts (115) are fixedly connected with the lower part of the left side surface of the right n-shaped frame (111) by bypassing three guide wheels (114).

6. The batch coating device for the lubricant on the surface of the enameled wire according to claim 5, characterized in that it further comprises a brushing mechanism (12) for pushing the liquid lubricant on the felt (5) to move, the brushing mechanism (12) comprises a rotating wheel (121), a fixed frame (122), a brush (123), a third spring (124), a pull wire (125), a first magnet (126) and a second magnet (127), the rotating wheel (121) is fixedly sleeved on the outer rear side of the cylinder (3) along the circumferential direction, the rotating wheel (121) is positioned on the front side of the transmission component (93), the second magnet (127) is fixedly connected at the eccentric position of the front side of the rotating wheel (121), the fixed frame (122) is fixedly connected between the two ends of the bottom of the n-shaped plate (103), the brush (123) for pushing the liquid lubricant on the felt (5) is slidably placed in the fixed frame (122), the third spring (124) is connected between the upper part of the rear side of the brush (123) and the inner rear side of the fixed frame (122), the middle of the upper part of the rear side of the hairbrush (123) is connected with a pull wire (125), and the tail end of the pull wire (125) penetrates through the middle part of the rear side of the fixed frame (122) and is fixedly connected with a first magnet (126).

7. An enameled wire surface lubricant batch application device as claimed in claim 6, characterized in that it further comprises a trigger plate (13), l type gag lever post (14) and fourth spring (15), base (1) outer top left and right sides all rigid coupling has trigger plate (13), trigger plate (13) are close to L type frame (81), the cross-under that both sides are close to the position of six water chestnut actuating lever (84) all slidingtype around u type rack (83) has L type gag lever post (14) that is used for spacing six water chestnut actuating lever (84), L type gag lever post (14) lower part and trigger plate (13) left surface upper portion contact, be connected with fourth spring (15) between left surface upper portion and left side u type rack (83) inboard in left side L type gag lever post (14), also be connected with fourth spring (15) between right side upper portion and right side u type rack (83) inboard in right side L type gag lever post (14).

8. The batch coating device for the lubricant on the surface of the enameled wire as claimed in claim 7, further comprising a handle (16), a fifth spring (17) and a clamping plate (18), wherein the middle parts of the left side and the right side of the outer top of the base (1) are uniformly provided with twenty clamping grooves (19) at intervals, the clamping plate (18) used for limiting the L-shaped frame (81) is connected between the front side and the rear side of the inner part of the L-shaped frame (81) in a sliding manner, the bottom end of the clamping plate (18) is positioned in the clamping grooves (19), the handle (16) is fixedly connected in the middle of the outer top of the clamping plate (18), and the fifth spring (17) is connected between the front side and the rear side of the outer top of the clamping plate (18) and the inner side of the L-shaped frame (81).

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