CN112029934A - Equipment capable of uniformly dyeing leather - Google Patents

Abstract

The invention discloses equipment capable of uniformly dyeing leather, which comprises a machine shell, wherein a driving cavity is arranged on the right side of the machine shell, a driving mechanism is arranged in the driving cavity, a friction body moving cavity with a downward opening is further arranged below the right side of the machine shell, a polishing mechanism is arranged in the friction body moving cavity, a dyeing cavity with a lower opening is arranged on the left side of the machine shell, and a dyeing mechanism is arranged in the dyeing cavity.

Description

Equipment capable of uniformly dyeing leather

Technical Field

The invention relates to the field of leather, in particular to equipment capable of uniformly dyeing leather.

Background

Leather products are valuable, hard to preserve and hard to color, advanced, most common, most widely used and most diversified clothes making raw materials.

When leather is dyed, the leather is usually dyed manually, the machine is used for dyeing directly, the condition of uneven dyeing always occurs, the artificial dyeing needs to be sprayed with water, a layer of coagulant is smeared after a dyeing agent is smeared, normal-temperature air drying is carried out, redundant dyeing of the coagulant is ground, and time and labor are wasted.

Disclosure of Invention

The technical problem to be solved by the invention is to provide equipment capable of uniformly dyeing leather, which can solve the problems of nonuniform machine dyeing and time and labor waste of artificial dyeing of the leather, and can realize automation of uniform dyeing of the leather.

The invention is realized by the following technical scheme.

The invention relates to equipment capable of uniformly dyeing leather, which comprises a shell, wherein a driving cavity is arranged on the right side of the shell, a driving mechanism is arranged in the driving cavity, a friction body moving cavity with a downward opening is further arranged below the right side of the shell, a polishing mechanism is arranged in the friction body moving cavity, a dyeing cavity with a lower opening is arranged on the left side of the shell, a dyeing mechanism is arranged in the dyeing cavity, the dyeing mechanism comprises a dyeing machine body conversion action cavity which is arranged on the right side of the dyeing cavity and communicated with the dyeing cavity, a dyeing machine body moving cavity communicated with the dyeing machine body conversion action cavity is further arranged on the right side of the dyeing machine body conversion action cavity, a dyeing machine body with the left end passing through the dyeing machine body conversion action cavity and colored in the dyeing cavity is arranged in the dyeing machine body moving cavity, a dyeing machine body movement control groove is arranged in the right end face of the dyeing machine, the dyeing machine body motion control block right end face is fixedly connected with a dyeing machine body motion spring, the other end of the dyeing machine body motion spring is fixed on the right cavity wall of a dyeing machine body motion cavity, the right end face of the dyeing machine body motion control block is also fixedly connected with two friction body motion pull ropes, the right end face of the dyeing machine body motion control block is also fixedly connected with a conveyor belt motion control pull rope, a dyeing machine body action wheel is further arranged on the left side of the part in the dyeing machine body conversion action cavity, a leather dyeing wheel rotation cavity is arranged in the left side of the dyeing machine body, leather dyeing wheel motion cavities are respectively arranged in the upper cavity wall and the lower cavity wall of the leather dyeing wheel rotation cavity, a dyeing wheel rotation shaft is arranged in the leather dyeing wheel rotation cavity, the upper end and the lower end of the dyeing wheel rotation shaft penetrate through the leather dyeing wheel motion cavities and are, the leather dyeing wheel motion control device is characterized in that a leather dyeing wheel motion control groove is formed in the lower end face of the leather dyeing wheel, a leather dyeing wheel motion block is arranged in the leather dyeing wheel motion control groove, a leather dyeing wheel motion spring is fixedly connected to the lower end of the leather dyeing wheel motion block, and the other end of the leather dyeing wheel motion spring is fixed to the lower cavity wall of the leather dyeing wheel motion cavity.

Furthermore, a leather dyeing wheel rotating spline is arranged in the middle of the dyeing wheel rotating shaft, a leather dyeing wheel rotating spline is connected to the wall of the lower cavity of the leather dyeing wheel rotating cavity in a rotating mode, the leather dyeing wheel rotating spline is connected with the dyeing wheel rotating shaft spline, a dyeing transmission shaft with the right end extending into the driven cavity of the dyeing machine body through the dyeing machine body moving cavity is further arranged in the leather dyeing wheel rotating cavity, the left end of the dyeing transmission shaft is fixedly connected with a leather dyeing wheel driven wheel meshed with the leather dyeing wheel rotating spline, a leather dyeing wheel driven gear is fixed on the right end face of the dyeing transmission shaft, the dyeing mechanism further comprises a dyeing top block cavity arranged above the dyeing cavity and communicated with the dyeing cavity, a dyeing top block with the lower end extending into the dyeing cavity is arranged in the dyeing top block cavity, and a dyeing top block spring is fixedly connected to the upper end face of the dyeing top block, the other end of the dyeing top block spring is fixedly connected to the upper cavity wall of the dyeing top block cavity, the upper end face of the dyeing top block is also fixedly provided with a dyeing top block pull rope, the dyeing mechanism further comprises a leather dyeing top block control cavity arranged in the upper front wall of the dyeing body conversion action cavity, a leather dyeing top block control ball is arranged in the leather dyeing top block control cavity, the lower end of the leather dyeing top block control ball extends into the dyeing body conversion action cavity, the rear end of the leather dyeing top block control ball is rotatably connected with a leather dyeing top block control block, the upper end face of the leather dyeing top block control block is fixedly connected with a leather dyeing top block control spring, the other end of the leather dyeing top block control spring is fixed to the upper cavity wall of the leather dyeing top block control cavity, the lower end face of the leather dyeing top block control block is also fixedly provided with a dyeing top block pull rope, and the polishing mechanism comprises a friction piece moving, the friction body moving block is characterized in that a friction body moving spring is fixed on the upper end face of the friction body moving block, the other end of the friction body moving spring is fixed on the upper cavity wall of the friction body moving cavity, and two friction body moving pull ropes are fixedly connected to the lower end face of the friction body moving block.

Furthermore, a friction body rotating groove which is communicated up and down is further formed in the friction body moving block, a friction body which is connected with the friction body rotating groove in a rotating mode and the lower end of the friction body rotating groove extends out of the cavity is arranged in the friction body rotating groove, a friction body rotating shaft which is fixedly connected with the upper end face of the friction body is further arranged in the friction body rotating groove, a friction body moving spline bevel gear is connected to the upper end of the friction body moving cavity in a spline mode, the driving mechanism comprises a friction body moving transmission cavity which is arranged on the left side of the driving cavity and communicated with the driving cavity, the driving mechanism further comprises a dyeing machine body driven cavity which is arranged on the left side of the friction body moving transmission cavity and communicated with the friction body moving transmission cavity, a driving motor is arranged in the driving cavity, a dyeing driving shaft is in power connection with the left end face of the driving motor, the left end of the dyeing driving shaft penetrates through the friction body moving transmission cavity and a friction body driving quasi gear meshed with the friction body movement spline bevel gear is fixed in the middle of the dyeing driving shaft, the friction body motion spline bevel gear is rotationally connected to the lower cavity wall of the friction body motion transmission cavity, a dyeing machine body rotation control shaft is also arranged above the driven cavity of the dyeing machine body, the right end of the dyeing machine body rotation control shaft is fixedly connected with a dyeing machine body rotation control sliding gear meshed with the leather dyeing wheel driving gear, a dyeing machine body rotation control groove is arranged in the left end surface of the dyeing machine body rotation control sliding gear, a dyeing machine body rotation control block is arranged in the dyeing machine body rotation control groove, the dyeing machine rotation control device is characterized in that a dyeing machine rotation control spring is fixedly connected to the left end face of the dyeing machine rotation control block, the other end of the dyeing machine rotation control spring is fixed to the left end face of the driven cavity of the upper dyeing machine, and a dyeing machine rotation control electromagnet is further arranged on the left cavity wall of the driven cavity of the dyeing machine.

Furthermore, a dyeing machine body rotating wheel arranged in a dyeing machine body rotating cavity is fixed at the left end of the dyeing machine body rotating control shaft, the lower cavity wall of the dyeing machine body rotating cavity is communicated with the dyeing machine body moving cavity, a conveyor belt driving shaft cavity communicated with the driving cavity is also arranged at the right end of the driving cavity, a conveyor belt driving shaft is also connected with the right end surface of the driving motor in a power mode, the right end of the conveyor belt driving shaft extends into the conveyor belt driving shaft cavity, a conveyor belt driving sliding gear is fixedly connected with the right end of the conveyor belt driving sliding gear, a conveyor belt movement control groove with an opening at the left end is arranged in the left end surface of the conveyor belt driving sliding gear, a conveyor belt movement control block is arranged in the conveyor belt movement control groove, a conveyor belt movement control spring is fixedly connected with the left end surface of, the conveyor belt motion control mechanism is characterized in that a conveyor belt motion control pull rope is fixedly connected to the left end face of the conveyor belt motion control block, a conveyor belt motion control electromagnet is further arranged on the left cavity wall of the conveyor belt driving shaft cavity, and the driving mechanism further comprises a conveyor belt transmission rotating cavity arranged behind the conveyor belt driving shaft cavity.

Further, a conveyor belt transmission shaft with the rear end extending into the conveyor belt transmission rotating cavity is further arranged in the conveyor belt driving shaft cavity, a conveyor belt transmission bevel gear meshed with the conveyor belt driving sliding gear is fixedly connected to the front end face of the conveyor belt transmission shaft, a conveyor belt transmission belt wheel is further fixedly connected to the rear end face of the conveyor belt transmission shaft, a conveyor belt transmission belt is further connected to the conveyor belt transmission belt wheel in a friction manner, the driving mechanism further comprises a conveyor belt cavity which is arranged below the machine shell and communicated with the dyeing cavity and the friction body movement cavity in a left-right manner, the rear part of the right side of the conveyor belt cavity is communicated with the conveyor belt transmission rotating cavity, a conveyor belt driven belt with the rear end extending into the conveyor belt transmission rotating cavity is fixedly connected to the rear end face of the conveyor belt driven power shaft, friction connection has conveyer belt drive belt on the driven band pulley of conveyer belt, the driven power axle front end friction connection of conveyer belt has the conveyer belt, actuating mechanism still is including establishing casing left end face upper end conveyer belt supporting wheel rotates and supports, the conveyer belt supporting wheel rotates and supports and goes up to rotate and is connected with the conveyer belt supporting wheel, friction connection has on the conveyer belt supporting wheel the conveyer belt, still be equipped with the chamber of blowing of intercommunication with it in the conveyer belt chamber middle part upper chamber wall, the chamber top of blowing still is equipped with the air pump through the channel connection of dispelling the wind, the air pump upper end is connected with the wind-dispelling chamber of up end and external intercommunication, actuating mechanism still includes the society water sprayhead in the casing left side, actuating mechanism still is including establishing stripper on the conveyer belt chamber right side wall.

Further, the elasticity of the conveyor belt movement control spring is greater than the elasticity of the dyeing machine body movement spring.

The invention has the beneficial effects that: the device simple structure, the simple operation can spray water with the leather of putting into, later dye and solidify the paining of gluing, later polish off unnecessary dyeing solidification part after weathering, and the device can carry out the automatic beneficial effect of evenly dyeing to the leather.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic front view of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the structure A-A of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the structure B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the structure C-C shown in FIG. 1 according to an embodiment of the present invention;

FIG. 5 is an enlarged schematic view of structure D in FIG. 1 according to an embodiment of the present invention;

FIG. 6 is an enlarged schematic view of structure E in FIG. 1 according to an embodiment of the present invention;

fig. 7 is an enlarged schematic view of the structure F in fig. 1 according to the embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-7, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

With reference to the attached drawings 1-7, the device capable of uniformly dyeing leather comprises a casing 10, a driving cavity 79 is arranged on the right side of the casing, a driving mechanism 86 is arranged in the driving cavity 79, a friction body movement cavity 27 with a downward opening is further arranged below the right side of the casing 10, a polishing mechanism 87 is arranged in the friction body movement cavity 27, a dyeing cavity 11 with a lower opening is arranged on the left side of the casing 10, a dyeing mechanism 88 is arranged in the dyeing cavity 11, the dyeing mechanism 88 comprises a dyeing machine body conversion action cavity 17 arranged on the right side of the dyeing cavity 11 and communicated with the dyeing cavity, a dyeing machine body movement cavity 65 communicated with the dyeing machine body conversion action cavity 17 is further arranged on the right side of the dyeing machine body conversion action cavity 17, a dyeing machine body 35 in the dyeing cavity 11 is arranged at the left end of the dyeing machine body movement cavity 65, a dyeing machine body movement control groove 67 is arranged in the right end face of the dyeing machine body 35, a dyeing machine body motion control block 66 is arranged in the dyeing machine body motion control groove 67, the right end face of the dyeing machine body motion control block 66 is fixedly connected with a dyeing machine body motion spring 18, the other end of the dyeing machine body motion spring 18 is fixed on the right cavity wall of the dyeing machine body motion cavity 65, the right end face of the dyeing machine body motion control block 66 is also fixedly connected with two friction body motion pull ropes 25, the right end face of the dyeing machine body motion control block 66 is also fixedly connected with a conveying belt motion control pull rope 83, a dyeing machine body action wheel 36 is arranged on the left side of the part inside of the dyeing machine body conversion action cavity 17 in the dyeing machine body motion control groove, a leather dyeing color wheel rotating cavity 54 is arranged in the left side of the dyeing machine body 35, leather dyeing color wheel motion cavities 53 are arranged in the upper cavity wall and the lower cavity wall of the, both ends all pass about dyeing wheel rotating shaft 89 the leather is dyed the colour wheel and is moved chamber 53 and establish in dyeing chamber 11, both ends all are equipped with leather and dye colour wheel 50 about dyeing wheel rotating shaft 89, be equipped with leather and dye colour wheel motion control groove 62 in the leather dyeing wheel 50 lower terminal surface, be equipped with leather dyeing wheel motion piece 51 in the leather dyeing wheel motion control groove 62, leather dyeing wheel motion piece 51 lower extreme fixedly connected with leather dyes colour wheel motion spring 52, the leather is dyed colour wheel motion spring 52 other end and is fixed on the leather is dyed colour wheel motion chamber 53 lower chamber wall.

Beneficially, the middle portion of the dyeing wheel rotating shaft 89 is provided with a leather dyeing wheel rotating spline 56, the lower cavity wall of the leather dyeing wheel rotating cavity 54 is rotatably connected with a leather dyeing wheel rotating spline wheel 55, the leather dyeing wheel rotating spline wheel 55 is in spline connection with the dyeing wheel rotating shaft 89, the leather dyeing wheel rotating cavity 54 is further internally provided with a dyeing transmission shaft 34, the right end of which extends into the dyeing machine body driven cavity 76 through the dyeing machine body moving cavity 65, the left end of the dyeing transmission shaft 34 is fixedly connected with a leather dyeing wheel driven wheel 57 engaged with the leather dyeing wheel rotating spline wheel 55, the right end face of the dyeing transmission shaft 34 is fixedly provided with a leather dyeing wheel driven gear 70, the dyeing mechanism 88 further comprises a dyeing top block cavity 32 which is arranged above the dyeing cavity 11 and communicated with the dyeing top block cavity 32, and a dyeing top block 33, the lower end of which extends into the dyeing cavity 11, is arranged in the dyeing top block cavity 32, the utility model discloses a leather dyeing machine, including dyeing kicking block control block 60, leather dyeing kicking block control block 60, dyeing kicking block control block 60 up end fixedly connected with leather dyeing kicking block control spring 61, leather dyeing kicking block control spring 61 other end is fixed on the wall of leather dyeing kicking block control chamber 59 upper chamber, dyeing kicking block 33 up end still is fixed with dyeing kicking block stay cord 30, dyeing mechanism 88 still includes establishes leather dyeing kicking block control chamber 59 in the upper front wall of dyeing machine body conversion effect chamber 17, be equipped with the lower extreme in leather dyeing kicking block control chamber 59 and stretch into leather dyeing kicking block control ball 58 in dyeing machine body conversion effect chamber 17, leather dyeing kicking block control ball 58 rear end rotation is connected with leather dyeing kicking block control block 60, leather dyeing kicking block control block 60 up end fixedly connected with leather dyeing kicking block control spring 61, leather dyeing kicking block control spring 61 other end is fixed on the wall of leather, the lower end face of the leather dyeing top block control block 60 is further fixedly provided with a dyeing top block pull rope 30, the polishing mechanism 87 comprises a friction body moving block 26 arranged in the friction body moving cavity 27, the upper end face of the friction body moving block 26 is fixedly provided with a friction body moving spring 20, the other end of the friction body moving spring 20 is fixedly arranged on the upper cavity wall of the friction body moving cavity 27, and the lower end face of the friction body moving block 26 is further fixedly connected with two friction body moving pull ropes 25.

Advantageously, a friction body rotating groove 21 which is through up and down is further arranged in the friction body moving block 26, a friction body 24 which is connected with the friction body rotating groove 21 in a rotating manner and the lower end of which extends out of the cavity is arranged in the friction body rotating groove 21, a friction body rotating shaft 22 which is fixedly connected with the upper end face of the friction body 24 is further arranged in the friction body rotating groove 21, a friction body moving spline bevel gear 29 is connected with the upper end of the friction body moving cavity 27 in a spline manner, the driving mechanism 86 comprises a friction body moving transmission cavity 28 which is arranged at the left side of the driving cavity 79 and is communicated with the driving cavity, the driving mechanism 86 further comprises a dyeing machine driven cavity 76 which is arranged at the left side of the friction body moving transmission cavity 28 and is communicated with the driving cavity 79, a driving motor 81 is arranged in the driving cavity 79, the left end face of the driving motor 81 is connected with a dyeing driving shaft 72 in a power manner, and the left, a leather dyeing wheel driving gear 71 meshed with the leather dyeing wheel driven gear 70 is fixed at the left end of the dyeing driving shaft 72, a friction body driving quasi gear 80 meshed with the friction body movement spline bevel gear 29 is fixed at the middle part of the dyeing driving shaft 72, the friction body movement spline bevel gear 29 is rotationally connected to the lower cavity wall of the friction body movement transmission cavity 28, a dyeing machine body rotation control shaft 74 is further arranged above the dyeing machine body driven cavity 76, a dyeing machine body rotation control sliding gear 75 meshed with the leather dyeing wheel driving gear 71 is fixedly connected at the right end of the dyeing machine body rotation control shaft 74, a dyeing machine body rotation control groove 73 is arranged in the left end face of the dyeing machine body rotation control sliding gear 75, a dyeing machine body rotation control block 77 is arranged in the dyeing machine body rotation control groove 73, and a dyeing machine body rotation control spring 78 is fixedly connected to the left end face of the dyeing machine body rotation control block 77, the other end of the dyeing machine body rotation control spring 78 is fixed on the left end face of the driven cavity 76 of the upper dyeing machine body, and a dyeing machine body rotation control electromagnet 69 is further arranged on the left cavity wall of the driven cavity 76 of the dyeing machine body.

Advantageously, the left end of the dyeing machine body rotation control shaft 74 is fixedly provided with a dyeing machine body rotation wheel 63 arranged in the dyeing machine body rotation cavity 64, the lower cavity wall of the dyeing machine body rotation cavity 64 is communicated with the dyeing machine body movement cavity 65, the right end of the driving cavity 79 is further provided with a conveyor belt driving shaft cavity 38 communicated with the driving cavity, the right end surface of the driving motor 81 is further connected with a conveyor belt driving shaft 37 in a power mode, the right end of the conveyor belt driving shaft 37 extends into the conveyor belt driving shaft cavity 38, the right end of the conveyor belt driving shaft 37 is fixedly connected with a conveyor belt driving sliding gear 39, the left end surface of the conveyor belt driving sliding gear 39 is provided with a conveyor belt movement control groove 84 with an opening at the left end, the conveyor belt movement control groove 84 is provided with a conveyor belt movement control block 85, the, the other end of the conveyor belt motion control spring 68 is fixed on the left cavity wall of the conveyor belt driving shaft cavity 38, the left end face of the conveyor belt motion control block 85 is fixedly connected with a conveyor belt motion control pull rope 83, the left cavity wall of the conveyor belt driving shaft cavity 38 is also provided with a conveyor belt motion control electromagnet 82, and the driving mechanism 86 further comprises a conveyor belt transmission rotating cavity 46 arranged behind the conveyor belt driving shaft cavity 38.

Advantageously, a belt transmission shaft 42 with a rear end extending into the belt transmission rotation cavity 46 is further disposed in the belt transmission driving shaft cavity 38, a belt transmission bevel gear 40 engaged with the belt transmission driving sliding gear 39 is fixedly connected to a front end surface of the belt transmission shaft 42, a belt transmission pulley 41 is further fixedly connected to a rear end surface of the belt transmission shaft 42, a belt transmission belt 43 is further frictionally connected to the belt transmission pulley 41, the driving mechanism 86 further includes a belt cavity 16 disposed below the housing 10 and communicating with the dyeing cavity 11 and the friction body movement cavity 27, a rear portion of the right side of the belt cavity 16 communicates with the belt transmission rotation cavity 46, a belt driven pulley 44 is disposed in the belt cavity 16 and has a rear end extending into the belt transmission rotation cavity 46 and a rear end surface of the belt driven power shaft 45 without interference, a transmission belt 43 is connected to the transmission belt driven pulley 44 in a friction mode, a transmission belt 15 is connected to the front end of the transmission belt driven power shaft 45 in a friction mode, the driving mechanism 86 further comprises a belt supporting wheel rotating support 14 arranged at the upper end of the left end face of the machine shell 10, the conveyor belt supporting wheel rotating support 14 is rotatably connected with a conveyor belt supporting wheel 13, the conveyor belt 15 is connected with the conveyor belt supporting wheel 13 in a friction way, a blowing cavity 19 communicated with the upper cavity wall is also arranged in the upper cavity wall in the middle of the conveyor belt cavity 16, an air pump 49 connected through a wind-dispelling channel 47 is also arranged above the blowing cavity 19, the upper end of the air pump 49 is connected with a wind-dispelling and air-inlet cavity 48 with the upper end surface communicated with the outside, the driving mechanism 86 also comprises a water spray head 12 arranged in the left side of the machine shell 10, the drive mechanism 86 also includes a stripper plate 23 disposed on the right chamber wall of the conveyor belt chamber 16.

Advantageously, the belt motion control spring 68 has a spring force greater than the dye body motion spring 18.

Sequence of mechanical actions of the whole device:

1: in the initial state, the dyeing machine body 35 is located on the right side of the dyeing machine body motion cavity 65, the dyeing machine body motion spring 18 is compressed, the conveyor belt motion control rope 83 is tensioned, the conveyor belt motion control spring 68 is in an open state, the leather dyeing wheel motion spring 52 is in an extended state, the dyeing machine body action wheel 36 is in contact with the leather dyeing top block control ball 58, the leather dyeing top block control spring 61 on the upper end face of the leather dyeing top block control block 60 connected with the leather dyeing top block control ball 58 is compressed, the dyeing top block rope 30 is tensioned, the dyeing top block spring 31 is compressed, the dyeing top block 33 is located above the dyeing top block cavity 32, and the dyeing machine body rotation control electromagnet 69 is in a working state, so that the dyeing machine body rotation control spring 78 is in a compressed state, and the dyeing machine body rotation control electromagnet 69 does not work.

2: when the leather needs to be dyed, the leather is adhered on the conveyor belt 15, the driving motor 81 starts to work to drive the conveyor belt driving shaft 37, the conveyor belt driving sliding gear 39, the conveyor belt driving bevel gear 40, the conveyor belt driving shaft 42 and the conveyor belt driving belt wheel 41 to rotate, so that the conveyor belt driving belt 43 drives the conveyor belt driven belt wheel 44 and the conveyor belt driven power shaft 45 to rotate to enable the conveyor belt 15 to move, the leather on the conveyor belt starts to move towards the interior of the machine body, the process is step movement, the conveyor belt is controlled by the conveyor belt movement control electromagnet 82, the leather is used as a unit to step one by one, the driving motor 81 also drives the dyeing driving shaft 72, the friction body driving quasi gear 80 and the leather dyeing wheel driving gear 71 to rotate, the friction body driving quasi gear 80 rotates to drive the friction body movement bevel gear 29, the friction body rotating shaft 22 and the friction, the leather dyeing wheel driving gear 71 rotates to drive the leather dyeing wheel driven gear 70, the dyeing transmission shaft 34 and the leather dyeing wheel driven gear 57, so as to drive the leather dyeing wheel rotating spline wheel 55, the dyeing wheel rotating shaft 89 and the leather dyeing wheel 50 to rotate, when the leather starts to move and passes through the water spray head 12, the water spray head 12 sprays water to the leather, then when the leather moves to a dyeing area, the conveyor belt motion control electromagnet 82 starts to work, the conveyor belt driving sliding gear 39 is attracted to be disengaged from the conveyor belt transmission bevel gear 40, so as to stop the movement of the conveyor belt 15, at the moment, the water spray head 12 also stops working, when the conveyor belt driving sliding gear 39 is attracted, the conveyor belt motion control spring 68 is compressed, the conveyor belt motion control pull rope 83 is loosened, at the moment, the dyeing machine body 35 moves leftwards under the action of the dyeing machine body motion spring 18, the right end of the dyeing machine body is meshed with a rotating wheel 63 of the dyeing machine body, after the dyeing machine body 35 is moved to the left, under the action of a leather dyeing top block control spring 61 and a dyeing top block spring 31, a leather dyeing top block control block 60 drives a leather dyeing top block control ball 58 and a dyeing top block 33, so that the leather dyeing top block control ball 58 is in contact with a cam at the right end of the dyeing machine body 35 in a dyeing machine body conversion action cavity 17, the dyeing top block 33 is in contact with the leather dyeing wheel 50 and pushes the leather dyeing wheel 50 downwards, a dyeing wheel rotating shaft 89 is moved downwards to the lower end of the leather dyeing wheel 50 to be in contact with the leather for dyeing, after the dyeing is finished, a dyeing machine body rotation control electromagnet 69 stops working, the dyeing machine body rotation control sliding gear 75 is meshed with a leather wheel driving dyeing gear 71 under the action of a dyeing machine body rotation control sliding gear 78, and the leather dyeing machine body rotation control, The dyeing machine body rotation control shaft 74 and the dyeing machine body rotating wheel 63 rotate so that the dyeing machine body 35 rotates clockwise one hundred eighty degrees, then the dyeing machine body rotation control electromagnet 69 attracts the dyeing machine body rotation control sliding gear 75 again, the leather dyeing top block control ball 58 is jacked up again in the rotating process, so that the dyeing top block 33 contracts, the dyeing wheel rotating shaft 89 is reset, after the rotation is finished, the leather dyeing top block control ball 58 is lowered, the dyeing top block 33 pushes the dyeing wheel rotating shaft 89 again, the leather dyeing wheel 50 at the other end is contacted with the leather to perform coagulant coating, the rear conveyor belt motion control electromagnet 82 stops working, the conveyor belt motion control pull rope 83 is pulled under the action of the conveyor belt motion control spring 68 to reset the dyeing machine body 35 mechanism, the leather continues to move, and when the leather passes through the external blowing cavity 19, the leather is dried by natural wind guided by the air pump 49, when the leather reaches the position of the friction body movement cavity 27, the next leather is at the dyeing position, so that the conveyor belt movement control electromagnet 82 again attracts the conveyor belt driving sliding gear 39 to attract the conveyor belt movement control pull rope 83 to be released again, the dyeing machine body 35 moves leftwards again, the friction body movement pull rope 25 is pulled when the dyeing machine body 35 moves leftwards, the friction body movement block 26 is pulled to move downwards, the friction body 24 and the friction body rotation shaft 22 move downwards, the friction body rotation shaft 22 is still in splined engagement with the friction body movement transmission cavity 28 in the process, the friction body 24 moves downwards to be polished, when the conveyor belt movement control electromagnet 82 stops working again, the conveyor belt movement control pull rope 83 is tensioned again, the dyeing machine body 35 moves rightwards again to release the friction body movement pull rope 25, the friction body movement block 26 drives the friction body 24 and the friction body rotation shaft 22 to reset, and then the leather continues to move rightwards, and finally discharged by the discharge plate 23 at the right opening of the belt chamber 16.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides an equipment that can give leather uniform dyeing, includes the casing, its characterized in that: the dyeing machine comprises a shell, a machine body and a machine body, wherein a driving cavity is arranged on the right side of the shell, a driving mechanism is arranged in the driving cavity, a friction body movement cavity with a downward opening is further arranged below the right side of the shell, a polishing mechanism is arranged in the friction body movement cavity, a dyeing cavity with a lower opening is arranged on the left side of the shell, a dyeing mechanism is arranged in the dyeing cavity, the dyeing mechanism comprises a dyeing machine body conversion action cavity arranged on the right side of the dyeing cavity and communicated with the dyeing cavity, a dyeing machine body movement cavity communicated with the dyeing machine body conversion action cavity is further arranged on the right side of the dyeing machine body movement action cavity, a dyeing machine body with the left end passing through the dyeing machine body conversion action cavity and colored in the dyeing cavity is arranged in the dyeing machine body movement cavity, a dyeing machine body movement control groove is arranged in the right end face of the dyeing machine body, the other end of the dyeing machine body motion spring is fixed on the right cavity wall of the dyeing machine body motion cavity, the right end face of the dyeing machine body motion control block is also fixedly connected with two friction body motion pull ropes, the right end face of the dyeing machine body motion control block is also fixedly connected with a conveyor belt motion control pull rope, the dyeing machine body is arranged at the left side of the part in the dyeing machine body conversion cavity and is also provided with a dyeing machine body action wheel, a leather dyeing wheel rotation cavity is arranged in the left side of the dyeing machine body, leather dyeing wheel motion cavities are respectively arranged in the upper cavity wall and the lower cavity wall of the leather dyeing wheel rotation cavity, a dyeing wheel rotation shaft is arranged in the leather dyeing wheel rotation cavity, the upper end and the lower end of the dyeing wheel rotation shaft penetrate through the leather dyeing wheel motion cavities and are arranged in the dyeing cavity, leather dyeing wheels are respectively arranged at the, the leather dyeing wheel motion control groove is internally provided with a leather dyeing wheel motion block, the lower end of the leather dyeing wheel motion block is fixedly connected with a leather dyeing wheel motion spring, and the other end of the leather dyeing wheel motion spring is fixed on the lower cavity wall of the leather dyeing wheel motion cavity.

2. The apparatus for dyeing leather uniformly according to claim 1, characterized in that: the leather dyeing wheel rotating shaft is characterized in that a leather dyeing wheel rotating spline is arranged in the middle of the dyeing wheel rotating shaft, a leather dyeing wheel rotating spline is connected to the wall of the lower cavity of the leather dyeing wheel rotating cavity in a rotating mode, the leather dyeing wheel rotating spline is connected with the dyeing wheel rotating spline, a dyeing transmission shaft with the right end passing through the moving cavity of the dyeing machine body and extending into the driven cavity of the dyeing machine body is further arranged in the leather dyeing wheel rotating cavity, the left end of the dyeing transmission shaft is fixedly connected with a leather dyeing wheel driven wheel meshed with the leather dyeing wheel rotating spline, the right end face of the dyeing transmission shaft is fixedly provided with a leather dyeing wheel driven gear, the dyeing mechanism further comprises a dyeing top block cavity arranged above the dyeing cavity and communicated with the dyeing top block, the dyeing top block cavity is internally provided with a dyeing top block with the lower end extending into the dyeing cavity, and the upper end face of the, the other end of the dyeing top block spring is fixedly connected to the upper cavity wall of the dyeing top block cavity, the upper end face of the dyeing top block is also fixedly provided with a dyeing top block pull rope, the dyeing mechanism further comprises a leather dyeing top block control cavity arranged in the upper front wall of the dyeing body conversion action cavity, a leather dyeing top block control ball is arranged in the leather dyeing top block control cavity, the lower end of the leather dyeing top block control ball extends into the dyeing body conversion action cavity, the rear end of the leather dyeing top block control ball is rotatably connected with a leather dyeing top block control block, the upper end face of the leather dyeing top block control block is fixedly connected with a leather dyeing top block control spring, the other end of the leather dyeing top block control spring is fixed to the upper cavity wall of the leather dyeing top block control cavity, the lower end face of the leather dyeing top block control block is also fixedly provided with a dyeing top block pull rope, and the polishing mechanism comprises a friction piece moving, the friction body moving block is characterized in that a friction body moving spring is fixed on the upper end face of the friction body moving block, the other end of the friction body moving spring is fixed on the upper cavity wall of the friction body moving cavity, and two friction body moving pull ropes are fixedly connected to the lower end face of the friction body moving block.

3. The apparatus for dyeing leather uniformly according to claim 1, characterized in that: the friction body motion block is also internally provided with a friction body rotation groove which is communicated up and down, the friction body rotation groove is internally provided with a friction body which is rotationally connected with the friction body rotation groove and the lower end of which extends out of the cavity, the friction body rotation groove is also provided with a friction body rotation shaft which is fixedly connected with the upper end surface of the friction body, the upper end of the friction body motion cavity is in splined connection with a friction body motion spline bevel gear, the driving mechanism comprises a friction body motion transmission cavity which is arranged at the left side of the driving cavity and is communicated with the driving cavity, the driving mechanism also comprises a dyeing machine body driven cavity which is arranged at the left side of the friction body motion transmission cavity and is communicated with the friction body motion transmission cavity, a driving motor is arranged in the driving cavity, the left end surface of the driving motor is in power connection with a dyeing driving shaft, the left end of the dyeing driving shaft penetrates through the friction body motion transmission cavity and is arranged in the, a friction body driving quasi gear meshed with the friction body movement spline bevel gear is fixed in the middle of the dyeing driving shaft, the friction body motion spline bevel gear is rotationally connected to the lower cavity wall of the friction body motion transmission cavity, a dyeing machine body rotation control shaft is also arranged above the driven cavity of the dyeing machine body, the right end of the dyeing machine body rotation control shaft is fixedly connected with a dyeing machine body rotation control sliding gear meshed with the leather dyeing wheel driving gear, a dyeing machine body rotation control groove is arranged in the left end surface of the dyeing machine body rotation control sliding gear, a dyeing machine body rotation control block is arranged in the dyeing machine body rotation control groove, the dyeing machine rotation control device is characterized in that a dyeing machine rotation control spring is fixedly connected to the left end face of the dyeing machine rotation control block, the other end of the dyeing machine rotation control spring is fixed to the left end face of the driven cavity of the upper dyeing machine, and a dyeing machine rotation control electromagnet is further arranged on the left cavity wall of the driven cavity of the dyeing machine.

4. The apparatus for dyeing leather uniformly according to claim 1, characterized in that: the dyeing machine body rotation control shaft is characterized in that a dyeing machine body rotation wheel arranged in a dyeing machine body rotation cavity is fixed at the left end of the dyeing machine body rotation control shaft, the lower cavity wall of the dyeing machine body rotation cavity is communicated with a dyeing machine body motion cavity, a conveyor belt driving shaft cavity communicated with the driving cavity is further arranged at the right end of the driving cavity, a conveyor belt driving shaft is also in power connection with the right end surface of the driving motor, the right end of the conveyor belt driving shaft extends into the conveyor belt driving shaft cavity, a conveyor belt driving sliding gear is fixedly connected with the right end of the conveyor belt driving shaft, a conveyor belt motion control groove with an opening at the left end is arranged in the left end surface of the conveyor belt driving sliding gear, a conveyor belt motion control block is arranged in the conveyor belt motion control groove, a conveyor belt motion control, the conveyor belt motion control mechanism is characterized in that a conveyor belt motion control pull rope is fixedly connected to the left end face of the conveyor belt motion control block, a conveyor belt motion control electromagnet is further arranged on the left cavity wall of the conveyor belt driving shaft cavity, and the driving mechanism further comprises a conveyor belt transmission rotating cavity arranged behind the conveyor belt driving shaft cavity.

5. The apparatus for dyeing leather uniformly according to claim 1, characterized in that: the driving mechanism also comprises a conveyer belt cavity which is arranged below the shell and communicated with the dyeing cavity and the friction body movement cavity, the right rear side of the conveyer belt cavity is communicated with the conveyer belt transmission rotation cavity, a conveyer belt driven pulley is arranged in the conveyer belt cavity, the rear end of the conveyer belt driven power shaft, the rear end of which extends into the conveyer belt transmission rotation cavity, is not provided with an accident conveyer belt driven power shaft, the rear end of which is fixedly connected with the conveyer belt driven pulley, and the conveyer belt transmission shaft is in friction connection with the conveyer belt transmission rotation cavity, the conveyer belt is connected with the conveyer belt from the friction of driven power shaft front end, actuating mechanism is still including establishing casing left end face upper end conveyer belt supporting wheel rotates and supports, the conveyer belt supporting wheel rotates and supports and goes up to rotate and is connected with the conveyer belt supporting wheel, the friction is connected with on the conveyer belt supporting wheel the conveyer belt, still be equipped with the chamber of blowing of intercommunication with it in the conveyer belt chamber middle part upper chamber wall, the chamber top of blowing still is equipped with the air pump through the channel connection of dispelling the wind, the air pump upper end is connected with the wind-dispelling chamber of up end and external intercommunication, actuating mechanism still includes the society and is in sprinkler bead in the casing left side, actuating mechanism is still including establishing stripper on the conveyer belt chamber right side chamber wall.

6. The apparatus for dyeing leather uniformly according to claim 1, characterized in that: the elasticity of the conveyor belt movement control spring is greater than the elasticity of the dyeing machine body movement spring.

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