CN112680905A - Automatic even sizing apparatus of cloth of batching - Google Patents

Abstract

The invention discloses an automatic-batching uniform cloth sizing device, which comprises a processing machine body, wherein a cavity is arranged in the processing machine body, a sizing device is arranged in the cavity, the sizing device comprises a winding shaft which is in rotating fit with the leftmost rear wall of the cavity, clamping plates are mutually close to each other by mutually sucking through electromagnets, the clamped cloth moves, the rightward cloth can be uniformly sized in a slurry cavity, the sized cloth can be leveled and dried, then the cloth is cut and taken out of the cavity through the action of belt transmission, when the slurry in the slurry cavity is insufficient, the slurry proportioned in a mixing tank can flow into the slurry cavity, so that the slurry in the slurry cavity can be constantly kept sufficient, and when the slurry does not exist in the mixing tank, the starch and water can be automatically proportioned in the mixing tank and mixed through a mixing rod.

Description

Automatic even sizing apparatus of cloth of batching

Technical Field

The invention relates to the field of cloth processing, in particular to an automatic-batching cloth uniform sizing device.

Background

In the cloth processing production, the treatment of sizing is carried out on the cloth, most of the processes need manual proportioning of the slurry and then manual stirring, then the whole cloth is uniformly thrown into the slurry for sizing, the sizing mode can not evenly size the cloth, meanwhile, when a large batch of long cloth is encountered, the method consumes manpower and material resources extremely, and in a cloth processing factory, the sizing is fully automatic, but the sizing is still needed to be manually sized towards the cloth from time to time.

Disclosure of Invention

Aiming at the technical defects, the invention provides an automatic batching and uniform cloth sizing device which can overcome the defects.

The invention relates to an automatic-batching uniform cloth sizing device, which comprises a processing machine body, wherein a cavity is arranged in the processing machine body, a sizing device is arranged in the cavity, the sizing device comprises a winding shaft which is in rotating fit with the leftmost rear wall of the cavity, the winding shaft is fixedly connected in the cavity, a winding wheel is fixedly arranged on the bottom wall of the left end of the cavity, a slurry box is fixedly arranged on the bottom wall of the left end of the cavity, a second rotating shaft is in rotating fit with the rear wall of the slurry box, a second rotating wheel is fixedly connected in the slurry cavity, a first rotating shaft is arranged on the right side of the winding shaft in rotating fit with the rear wall of the cavity, the first rotating shaft is fixedly connected in the cavity, a fixed block is fixedly connected on the rear wall of the cavity, a fixed groove is arranged in the fixed block, the left and right communicating grooves are communicated with each other, and a limiting block is, the tail end of the lower side of the limiting block is fixedly connected with an engagement block, a sliding connection groove with a left opening is formed in the engagement block, clamping plates are symmetrically and slidably connected in the sliding connection groove in an up-and-down mode, a connecting spring is connected between the upper clamping plate and the lower clamping plate, an electromagnet is fixedly installed on the right side of the clamping plate, when the engagement block moves rightwards, the electromagnets are electrified and mutually attracted, so that the clamping plates clamp cloth and move rightwards, the cloth is uniformly sized in the size cavity under the matching of the reel, the second rotating wheel and the first rotating wheel, a transmission groove is formed in the upper end of the left side of the cavity, a mixing groove is formed in the upper end of the left side of the transmission groove, a starch groove is communicated with the upper side of the mixing groove, a water groove is formed in the right side of the starch groove, a size distribution device is arranged between the water groove and the mixing groove, and the size distribution device comprises, the right side of the mixing tank is provided with a bevel gear transmission tank, the right side of the bevel gear transmission tank is provided with a joining tank communicated with the water tank, a matching shaft is arranged on a wall body between the joining tank and the mixing tank in a rotating fit manner, the matching shaft is positioned in the mixing tank and fixedly connected with a batching block, a batching tank with an upward opening is arranged in the batching block, the matching shaft is positioned in the bevel gear transmission tank and fixedly connected with a fixed bevel gear, a transmission tank is arranged between the bevel gear transmission tank and the cavity, the transmission tank is in rotating fit with a joining shaft on the wall body between the bevel gear transmission tank, the joining shaft is positioned in the bevel gear transmission tank and is in spline connection with a spline bevel gear capable of being meshed with the fixed bevel gear, a ring connection tank is arranged in the spline bevel gear, the bottom wall of the bevel gear transmission tank is fixedly provided with a second electric push rod which can stretch and is rotatably connected with the, the cooperation axle is located join in marriage the inslot fixedly connected with transmission half-gear, join in marriage in the inslot slip have with transmission half-gear meshing's slip rack, slip rack with join in marriage and be connected with the linking spring between the groove diapire, join in marriage the groove with it has interface channel to communicate between the mixing tank, work as second liquid level sensor detects when the mixing tank does not have the thick liquid, it can drive to join in marriage the axle and rotate three hundred sixty degrees, thereby makes the batching groove pours quantitative starch into in the mixing tank, simultaneously the slip rack moves down, the basin towards pouring quantitative water into in the mixing tank mixes with starch.

Preferably, the sizing device further comprises a connecting plate fixedly connected with the right wall of the cavity, six groups of steam blocks are fixedly connected to the lower side of the connecting plate in an array manner, connecting shafts are symmetrically and rotationally connected to the top wall of the cavity in a left-right manner relative to the central end face of the connecting plate, connecting belt wheels are fixedly connected to the connecting shafts and the cavity, a connecting belt is connected between the left connecting belt wheel and the right connecting belt wheel, a limiting groove is arranged in the limiting block, a limiting pin fixedly connected with the connecting belt is slidably connected in the limiting groove, the connecting shaft on the right side extends upwards to the upper side of the cavity and is in power connection with a power motor embedded in the inner wall of the processing machine body, a butting shaft on the right side of the connecting shaft on the right side is in rotating fit with the top wall of the cavity, a belt wheel groove is arranged on the, the cavity right side rear wall is in running fit with extending shafts which are bilaterally symmetrical relative to the central end face of the connecting plate, the left extending shaft and the right extending shaft are located in the cavity and are connected through belt transmission, and the right extending shaft and the abutting shaft are located in the cavity and are connected through a bevel gear pair.

Preferably, the sizing device further comprises transition shafts which are in up-down symmetry and are in running fit with the rear wall of the fixing groove, the transition shafts are located in the fixing groove and are fixedly connected with the leveling wheels, the rear side of the communicating groove is communicated with the clamping plate, the left wall of the clamping plate is in running fit with the central shaft, the central shaft is in running fit with the connecting springs in a center symmetry mode, connecting blocks are connected between the connecting springs, the wall body of the clamping plate is in up-down symmetry and is communicated with one side of the vertical direction of the oil pipe, electromagnets are fixedly connected with the oil pipe in a sliding mode, the right wall of the cavity is communicated with the other side of the horizontal direction of the oil pipe, piston ejector rods which can be abutted to the connecting blocks are connected in the oil pipe in a sliding mode, and abutting springs are connected.

Preferably, the slurry preparation device further comprises a mixing shaft rotatably matched with the transmission groove and a wall body between the mixing grooves, four groups of mixing rods are fixedly connected in the mixing shaft in an array manner in the mixing groove, the connecting shaft on the left side and the connecting shaft are located in the transmission groove and are in belt transmission connection, and the connecting shaft and the mixing shaft are located in the transmission groove and are in belt transmission connection.

Preferably, the slurry distribution device further comprises a first liquid level sensor fixedly mounted on the right wall of the slurry cavity, a reciprocating groove communicated with the mixing groove is formed in the upper side of the left end of the transmission groove, a reciprocating block is slidably connected in the reciprocating groove, a rack groove is formed in the reciprocating block, fixed racks are fixedly connected to the front wall and the rear wall of the rack groove, a transmission shaft is matched with a floor wall between the transmission groove and the reciprocating groove, the transmission shaft is located in the transmission groove and is connected with a spline gear in a spline mode, a ring joint groove is formed in the spline gear, a first electric push rod which can stretch and is rotatably connected with the ring joint groove is fixedly mounted on the top wall of the left side of the transmission groove, the mixing shaft is located in the inner fixed connection and is provided with a rotating gear capable of being meshed with the spline gear, and the transmission shaft extends upwards to the inside of the rack groove and is fixedly connected with a rotating half gear capable of being, and a liquid inlet channel is communicated between the mixing tank and the slurry tank.

The invention has the beneficial effects that: thereby inhale mutually through the electro-magnet and make the grip block be close to each other, press from both sides tight cloth to having the removal, cloth right can be in the even sizing of thick liquid chamber, cloth after the sizing can be through leveling, dry, then cut out the back and be taken over the cavity through belt drive's effect, when the thick liquid in the thick liquid chamber is not enough, the thick liquid of ratio can flow into in the thick liquid chamber in the mixing tank, thereby make the thick liquid in the thick liquid chamber keep enough constantly, when there is not the thick liquid in the mixing tank, can automatic ratio starch and water mix through mixing rod in the mixing tank.

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.

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the overall structure of an automatic batching uniform sizing device for cloth;

FIG. 2 is an enlarged view of a portion of the structure at A in FIG. 1;

fig. 3 is an enlarged view of a portion of the structure at B in fig. 1;

FIG. 4 is a schematic view of the structure in the direction C-C of FIG. 3;

FIG. 5 is a schematic view of the structure in the direction D-D of FIG. 1;

fig. 6 is a schematic view of the structure in the direction of E-E in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, wherein for ease of description the orientations described hereinafter 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.

The invention relates to an automatic-batching uniform cloth sizing device, which comprises a processing machine body 10, wherein a cavity 70 is arranged in the processing machine body 10, a sizing device is arranged in the cavity 70, the sizing device comprises a winding shaft 27 which is in rotating fit with the leftmost back wall of the cavity 70, a reel 26 is fixedly connected in the cavity 70 by the winding shaft 27, a slurry tank 25 is fixedly arranged on the bottom wall of the left end of the cavity 70, a second rotating shaft 22 is in rotating fit with the back wall of the slurry tank 25, a second rotating wheel 23 is fixedly connected in the slurry chamber 24 by the second rotating shaft 22, a first rotating shaft 19 positioned on the right side of the winding shaft 27 is in rotating fit with the back wall of the cavity 70, the first rotating shaft 19 is fixedly connected in the cavity 70, a fixed block 62 is fixedly connected with the back wall of the cavity 70, and a fixed groove 63 is arranged in the fixed block 62, the left and right ends of the fixing groove 63 are communicated with communicating grooves 65, the front wall and the rear wall of the cavity 70 are connected with limiting blocks 60 in a sliding manner, the tail end of the lower side of each limiting block 60 is fixedly connected with an engaging block 68, a sliding groove 61 with a leftward opening is formed in the engaging block 68, clamping plates 66 are connected in the sliding groove 61 in a sliding manner in an up-and-down symmetrical manner, a connecting spring 67 is connected between the upper clamping plate and the lower clamping plate 66, an electromagnet 69 is fixedly mounted on the right side of each clamping plate 66, when the engaging block 68 moves rightwards, the electromagnet 69 is electrified and mutually attracted, so that the clamping plates 66 clamp cloth and move rightwards, the cloth is uniformly sized in the slurry cavity 24 under the matching of the reel 26, the second rotating wheel 23 and the first rotating wheel 21, the upper end of the left side of the cavity 70 is provided with a transmission groove 45, the upper end of the left side, the upper side of the mixing tank 74 is communicated with a starch tank 29, the right side of the starch tank 29 is provided with a water tank 30, a slurry distribution device is arranged between the water tank 30 and the mixing tank 74, the slurry distribution device comprises a second liquid level sensor 57 fixedly mounted with the bottom wall of the right side of the mixing tank 74, the right side of the mixing tank 74 is provided with a bevel gear transmission tank 52, the right side of the bevel gear transmission tank 52 is provided with a connecting tank 49 communicated with the water tank 30, the wall body between the connecting tank 49 and the mixing tank 74 is in rotating fit with a matching shaft 75, the matching shaft 75 is positioned in the mixing tank 74 and is fixedly connected with a material distribution block 33, the material distribution block 33 is internally provided with a material distribution tank 56 with an upward opening, the matching shaft 75 is positioned in the bevel gear transmission tank 52 and is fixedly connected with a fixed bevel gear 54, a transmission tank 45 is arranged between the bevel gear transmission tank 52 and the cavity 70, the transmission tank 45 is in rotating fit with a connecting shaft 46 with the, the engaging shaft 46 is positioned in the bevel gear transmission groove 52, a spline bevel gear 53 capable of being meshed with the fixed bevel gear 54 is connected with a spline, a ring connecting groove 55 is arranged in the spline bevel gear 53, a second electric push rod 47 which can stretch and is rotatably connected with the ring connecting groove 55 is fixedly arranged on the bottom wall of the bevel gear transmission groove 52, a transmission half gear 50 is fixedly connected with the engaging shaft 75 in the engaging groove 49, a sliding rack 51 meshed with the transmission half gear 50 is arranged in the engaging groove 49 in a sliding manner, an engaging spring 48 is connected between the sliding rack 51 and the bottom wall of the engaging groove 49, a connecting channel 76 is communicated between the engaging groove 49 and the mixing groove 74, and when the second liquid level sensor 57 detects that no slurry exists in the mixing groove 74, the engaging shaft 46 can drive the engaging shaft 75 to rotate by three hundred sixty degrees, so that the batching tank 56 pours a certain amount of starch into the mixing tank 74 while the sliding rack 51 moves downward and the water tank 30 pours a certain amount of water into the mixing tank 74 to be mixed with starch.

Advantageously, the sizing device further comprises a connecting plate 71 fixedly connected with the right wall of the cavity 70, six groups of steam blocks 18 are fixedly connected to the lower side of the connecting plate 71 in an array manner, connecting shafts 31 are rotationally connected to the top wall of the cavity 70 in a bilateral symmetry manner with respect to the central end face of the connecting plate 71, connecting belt wheels 72 are fixedly connected to the connecting shafts 31 and the cavity 70, a connecting belt 32 is connected between the left connecting belt wheel 72 and the right connecting belt wheel 72, a limiting groove 59 is formed in the limiting block 60, a limiting pin 58 fixedly connected with the connecting belt 32 is slidably connected in the limiting groove 59, the connecting shaft 31 on the right side extends upwards to the upper side of the cavity 70, a power motor 11 embedded in the inner wall of the processing machine body 10 is dynamically connected to the upper side of the cavity 70, a butting shaft 16 located on the right side of the connecting shaft 31, the connecting axle 31 that the butt joint axle 16 and the right side are located connect through the belt drive in the pulley groove 12, cavity 70 right side back wall normal running fit is about connecting plate 71 central end face bilateral symmetry's extension axle 17, and left and right the extension axle 17 is located connect through the belt drive in the cavity 70, the right side the extension axle 17 with the butt joint axle 16 is located connect through bevel gear pair in the cavity 70.

Advantageously, the sizing device further comprises a transition shaft 64 which is vertically symmetrical and is in running fit with the rear wall of the fixing groove 63, a leveling wheel 73 is fixedly connected in the fixing groove 63 of the transition shaft 64, a clamping plate 66 is communicated with the rear side of the communicating groove 65, the left wall of the clamping plate 66 is rotatably matched with a central shaft 78, the central shaft 78 is centrosymmetrically and rotatably matched with a connecting spring 67, a connecting block 68 is connected between the connecting springs 67, one side of the wall body of the clamping plate 66 in the vertical direction is vertically and symmetrically communicated with the oil pipe 14, an electromagnet 69 fixedly connected with the connecting spring 67 is slidably connected in the oil pipe 14, the right wall of the cavity 70 is communicated with the other side of the oil pipe 14 in the horizontal direction, a piston ejector rod 13 capable of being abutted against the joining block 68 is connected in the oil pipe 14 in a sliding mode, and an abutting spring 15 is connected between the piston ejector rod 13 and the right wall of the cavity 70.

Advantageously, the slurry preparation device further comprises a mixing shaft 34 rotatably fitted with the wall body between the transmission groove 45 and the mixing groove 74, four groups of mixing rods 35 are fixedly connected in an array mode in the mixing shaft 34 positioned in the mixing groove 74, the connecting shaft 31 on the left side and the connecting shaft 46 on the left side are positioned in the transmission groove 45 and are in belt transmission connection, and the connecting shaft 46 and the mixing shaft 34 are positioned in the transmission groove 45 and are in belt transmission connection.

Advantageously, the slurry preparation device further comprises a first liquid level sensor 20 fixedly mounted on the right wall of the slurry cavity 24, a reciprocating groove 44 communicated with the mixing groove 74 is arranged on the upper side of the left end of the transmission groove 45, a reciprocating block 36 is slidably connected in the reciprocating groove 44, a rack groove 37 is arranged in the reciprocating block 36, a fixed rack 77 is fixedly connected to the front wall and the rear wall of the rack groove 37, a transmission shaft 39 is arranged between the transmission groove 45 and the reciprocating groove 44 in a floor-occupied manner, a spline gear 41 is connected to the transmission shaft 39 in a spline manner in the transmission groove 45, a ring-shaped groove 40 is arranged in the spline gear 41, a first electric push rod 42 which can stretch and is rotatably connected with the ring-shaped groove 40 is fixedly mounted on the top wall of the left side of the transmission groove 45, a rotating gear 43 which can be meshed with the spline gear 41 is fixedly connected in the mixing shaft 34 in the gear 4, the transmission shaft 39 extends upwards to the rack groove 37, a rotary half gear 38 capable of being meshed with the fixed rack 77 is fixedly connected with the transmission shaft, and a liquid inlet channel 28 is communicated between the mixing groove 74 and the slurry tank 25.

The use steps herein are described in detail below with reference to fig. 1-6:

when the device is in an initial state, the abutting spring 15 is in a relaxed state, the sliding rack 51 seals the water tank 30, the reciprocating block 36 seals the mixing tank 74, the spline gear 41 is not meshed with the rotating gear 43, the fixed bevel gear 54 is not meshed with the spline bevel gear 53, the last tooth of the transmission half gear 50 is meshed with the sliding rack 51, and the engaging spring 48 is in a stretched state.

When the cloth needs to be ironed, the power motor 11 is started, the power motor 11 drives the right connecting shaft 31 to rotate, so that the left connecting shaft 31 rotates under the action of the connecting belt 32, the connecting block 68 moves left and right, when the connecting block 68 moves left and enters the communicating groove 65, the electromagnet 69 is electrified to enable the clamping plate 66 to approach, so that the cloth is clamped and moved right, when the cloth moves right, the winding shaft 27, the second rotating shaft 22 and the first rotating shaft 19 rotate, so that the cloth passes through the slurry cavity 24 to be uniformly sized under the coordination of the winding wheel 26, the second rotating wheel 23 and the first rotating wheel 21, the sized cloth passes through the leveling wheel 73 to be leveled, and then is dried by the steam block 18, when the connecting block 68 moves to the right side of the cavity 70 and abuts against the piston mandril 13, so that the oil pressure in the oil pipe 14 is increased, thereby make connecting spring 67 tailor the cloth, then link up piece 68 and move left, electro-magnet 69 cuts off the power supply, and under connecting spring 67's left side was encumbered, thereby make clamp plate 66 keep away from each other, the cloth loses and presss from both sides tight back and falls, and the connecting axle 31 rotation on right side can cut off the power supply and abut the axle 16 and rotate simultaneously, thereby rotate through bevel gear pair and cut off the power supply left and right extension axle 17 and rotate, thereby make the cloth shift out cavity 70 to the right, with this circulation.

With the continuous consumption of the slurry in the slurry cavity 24, when the first liquid level sensor 20 detects that the liquid level of the slurry is lower than the slurry cavity 24, the first electric push rod 42 extends to enable the spline gear 41 to be meshed with the rotating gear 43, so that the connecting shaft 31 on the left side drives the connecting shaft 46 to rotate through belt transmission, the connecting shaft 46 drives the mixing shaft 34 to rotate under the action of belt transmission, the mixing shaft 34 drives the spline gear 41 to rotate by three hundred sixty degrees, the rotating half gear 38 rotates by three hundred sixty degrees, the reciprocating block 36 moves rightwards first, the slurry flows into the slurry cavity 24 through the liquid inlet channel 28, and the slurry in the slurry cavity 24 is kept at a fixed scale.

When the second level sensor 57 detects that there is no slurry in the mixing tank 74, the second electric push rod 47 is extended to make the spline bevel gear 53 meshed with the fixed bevel gear 54, the left connecting shaft 31 drives the connecting shaft 46 to rotate through belt transmission, the fixed bevel gear 54 is driven to rotate three hundred sixty degrees to be disengaged, the batching tank 56 quantitatively adds starch in the starch tank 29 into the mixing tank 74 during the process that the batching block 33 rotates three hundred sixty degrees during the process that the fixed bevel gear 54 rotates three hundred sixty degrees, the matching shaft 75 drives the transmission half gear 50 to rotate, after the transmission half gear 50 rotates one tooth, the transmission half gear 50 is disengaged from the sliding rack 51, so that the sliding rack 51 moves downwards under the action of the connecting spring 48, the water tank 30 is opened, the connecting channel 76 is communicated, water in the water tank 30 flows into the mixing tank 74, then the driving half gear 50 is meshed with the sliding rack 51 again, the sliding rack 51 closes the water tank 30 again, so that the water in the water tank 30 quantitatively flows into the mixing tank 74 to be mixed with the starch, meanwhile, the connecting shaft 46 drives the mixing shaft 34 to rotate through belt driving, so that the mixing rod 35 continuously rotates to mix the water and the starch in the mixing tank 74,

the invention has the beneficial effects that: thereby inhale mutually through the electro-magnet and make the grip block be close to each other, press from both sides tight cloth to having the removal, cloth right can be in the even sizing of thick liquid chamber, cloth after the sizing can be through leveling, dry, then cut out the back and be taken over the cavity through belt drive's effect, when the thick liquid in the thick liquid chamber is not enough, the thick liquid of ratio can flow into in the thick liquid chamber in the mixing tank, thereby make the thick liquid in the thick liquid chamber keep enough constantly, when there is not the thick liquid in the mixing tank, can automatic ratio starch and water mix through mixing rod in the mixing tank.

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 (5)

1. The utility model provides an automatic even sizing apparatus of cloth of batching, includes the processing organism, its characterized in that: the processing machine is characterized in that a cavity is arranged in the processing machine body, a sizing device is arranged in the cavity, the sizing device comprises a winding shaft which is in running fit with the leftmost rear wall of the cavity, the winding shaft is positioned in the cavity and fixedly connected with a reel, a slurry box is fixedly arranged on the bottom wall of the left end of the cavity, the rear wall of the slurry box is in running fit with a second rotating shaft, the second rotating shaft is positioned in the slurry cavity and fixedly connected with a second rotating wheel, the rear wall of the cavity is in running fit with a first rotating shaft positioned on the right side of the winding shaft, the first rotating shaft is positioned in the cavity and fixedly connected with a first rotating wheel, the rear wall of the cavity is fixedly connected with a fixed block, a fixed groove is arranged in the fixed block, the left side and the right side of the fixed groove are communicated with a communicating groove, the front wall body and the, the linking block is internally provided with a sliding connection groove with a leftward opening, the sliding connection groove is internally and symmetrically connected with clamping plates in a sliding manner, a connecting spring is connected between the upper clamping plate and the lower clamping plate, the right side of the clamping plate is fixedly provided with an electromagnet, when the linking block moves rightwards, the electromagnets are electrified and mutually attracted, so that the clamping plates clamp and move rightwards, cloth is uniformly sized in the pulp cavity under the matching of the reel, the second rotating wheel and the first rotating wheel, the upper end of the left side of the cavity is provided with a transmission groove, the upper end of the left side of the transmission groove is provided with a mixing groove, the upper side of the mixing groove is communicated with a starch groove, the right side of the starch groove is provided with a water groove, a pulp distribution device is arranged between the water groove and the mixing groove, and the pulp distribution device comprises a second liquid level sensor fixedly installed on the bottom wall of, the right side of the mixing tank is provided with a bevel gear transmission tank, the right side of the bevel gear transmission tank is provided with a joining tank communicated with the water tank, a matching shaft is arranged on a wall body between the joining tank and the mixing tank in a rotating fit manner, the matching shaft is positioned in the mixing tank and fixedly connected with a batching block, a batching tank with an upward opening is arranged in the batching block, the matching shaft is positioned in the bevel gear transmission tank and fixedly connected with a fixed bevel gear, a transmission tank is arranged between the bevel gear transmission tank and the cavity, the transmission tank is in rotating fit with a joining shaft on the wall body between the bevel gear transmission tank, the joining shaft is positioned in the bevel gear transmission tank and is in spline connection with a spline bevel gear capable of being meshed with the fixed bevel gear, a ring connection tank is arranged in the spline bevel gear, the bottom wall of the bevel gear transmission tank is fixedly provided with a second electric push rod which can stretch and is rotatably connected with the, the cooperation axle is located join in marriage the inslot fixedly connected with transmission half-gear, join in marriage in the inslot slip have with transmission half-gear meshing's slip rack, slip rack with join in marriage and be connected with the linking spring between the groove diapire, join in marriage the groove with it has interface channel to communicate between the mixing tank, work as second liquid level sensor detects when the mixing tank does not have the thick liquid, it can drive to join in marriage the axle and rotate three hundred sixty degrees, thereby makes the batching groove pours quantitative starch into in the mixing tank, simultaneously the slip rack moves down, the basin towards pouring quantitative water into in the mixing tank mixes with starch.

2. The automatic batching cloth uniform sizing device according to claim 1, characterized in that: the sizing device also comprises a connecting plate fixedly connected with the right wall of the cavity, six groups of steam blocks are fixedly connected with the lower side of the connecting plate in an array manner, the top wall of the cavity is connected with connecting shafts in a bilateral symmetry manner relative to the central end surface of the connecting plate in a rotating manner, the connecting shafts and the cavity are fixedly connected with connecting belt wheels, a connecting belt is connected between the left connecting belt wheel and the right connecting belt wheel, a limiting groove is arranged in the limiting block, a limiting pin fixedly connected with the connecting belt is connected in the limiting groove in a sliding manner, the connecting shaft on the right side extends upwards to the upper side of the cavity in a power connection manner and is embedded in the inner wall of the processing machine body, a butting shaft positioned on the right side of the connecting shaft on the right side is rotatably matched with the top wall of the cavity, a belt wheel groove is, the cavity right side rear wall is in running fit with extending shafts which are bilaterally symmetrical relative to the central end face of the connecting plate, the left extending shaft and the right extending shaft are located in the cavity and are connected through belt transmission, and the right extending shaft and the abutting shaft are located in the cavity and are connected through a bevel gear pair.

3. An automatically proportioned uniform cloth sizing apparatus as claimed in claim 2 wherein: the sizing device further comprises transition shafts which are in vertical symmetry and are in running fit with the rear wall of the fixed groove, the transition shafts are located in the fixed groove and are fixedly connected with leveling wheels, the rear side of the communicating groove is communicated with a clamping plate, the left wall of the clamping plate is in running fit with a central shaft, the central shaft is in running fit with connecting springs in the central symmetry, connecting blocks are connected between the connecting springs, the wall body of the clamping plate is in vertical symmetry and is communicated with one side of the oil pipe in the vertical direction, an electromagnet is fixedly connected with the oil pipe in a sliding manner, the right wall of the cavity is communicated with the other side of the oil pipe in the horizontal direction, a piston ejector rod capable of being abutted against the connecting blocks is connected in the oil pipe in a sliding manner, and abutting springs are connected between the piston.

4. An automatically proportioned uniform cloth sizing apparatus as claimed in claim 3 wherein: the slurry preparation device further comprises a mixing shaft which is in running fit with the transmission groove and a wall body between the mixing grooves, the mixing shaft is positioned in the mixing groove and is fixedly connected with four groups of mixing rods in an array mode, the connecting shaft on the left side and the connecting shaft are positioned in the transmission groove and are in belt transmission connection, and the connecting shaft and the mixing shaft are positioned in the transmission groove and are in belt transmission connection.

5. An automatically proportioned uniform cloth sizing apparatus as claimed in claim 4 wherein: the slurry distribution device further comprises a first liquid level sensor fixedly mounted on the right wall of the slurry cavity, a reciprocating groove communicated with the mixing groove is formed in the upper side of the left end of the transmission groove, a reciprocating block is connected in the reciprocating groove in a sliding manner, a rack groove is formed in the reciprocating block, fixed racks are fixedly connected to the front wall and the rear wall of the rack groove, a transmission shaft is matched with the wall between the transmission groove and the reciprocating groove in an occupied manner, the transmission shaft is located in the transmission groove, a spline gear is connected to the spline gear in a spline manner, a ring joint groove is formed in the spline gear, a first electric push rod which can stretch and is rotatably connected with the ring joint groove is fixedly mounted on the top wall of the left side of the transmission groove, the mixing shaft is located in the inner fixed connection manner and can be meshed with the spline gear, and the transmission shaft extends upwards to the rack groove and is fixedly connected with a rotary half gear which, and a liquid inlet channel is communicated between the mixing tank and the slurry tank.

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