阅读说明：本技术 一种上浆机自动配料上料设备 (Automatic batching and feeding equipment of starching machine ) 是由 林金伟 温波 徐文金 于 2021-10-09 设计创作，主要内容包括：本发明涉及布料加工领域,具体是涉及一种上浆机自动配料上料设备,所述配料上料设备包括热水供应系统、粉末定量供应系统、配料桶、第一泵体、引料管、第一电动阀和总控制器,热水供应系统、粉末定量供应系统和配料桶设置在上浆机的一侧,配料桶内设置有搅拌腔和存浆腔,搅拌腔位于存浆腔的顶端,搅拌腔的底端与存浆腔的顶端通过第一电动阀连通,热水供应系统的热水输出口和粉末定量供应系统的粉末输出口均与搅拌腔连通；第一泵体设置在配料桶的底端,且第一泵体的输入口与存浆腔的底端连通；引料管一端与第一泵体的输出口连通,引料管另一端朝向上浆机的上浆口,本申请能够根据人工输入的纱线和上浆率信息,自行配比最适该批纱线浓度的浆液。(The invention relates to the field of cloth processing, in particular to automatic batching and feeding equipment of a sizing machine, which comprises a hot water supply system, a powder quantitative supply system, a batching barrel, a first pump body, a material guiding pipe, a first electric valve and a main controller, wherein the hot water supply system, the powder quantitative supply system and the batching barrel are arranged at one side of the sizing machine; the first pump body is arranged at the bottom end of the batching barrel, and an input port of the first pump body is communicated with the bottom end of the pulp storage cavity; draw material pipe one end and the delivery outlet intercommunication of the first pump body, draw the sizing opening of material pipe other end orientation starching machine, this application can be based on the yarn of manual input and starching rate information, the thick liquid of this batch of yarn concentration of optimum ratio by oneself.)

1. An automatic batching and feeding device of a sizing machine is applied to conveying slurry to a sizing opening of the sizing machine (1), the batching and feeding device comprises a hot water supply system (2) and a powder quantitative supply system (3), the hot water supply system (2) and the powder quantitative supply system (3) are arranged on one side of the sizing machine (1), and the automatic batching and feeding device is characterized by further comprising a batching barrel (4), a first pump body (5), a material guiding pipe (6), a first electric valve (7) and a master controller,

the mixing barrel (4) is arranged on the feeding side of the sizing machine (1) in the vertical direction, a stirring cavity and a slurry storage cavity are arranged in the mixing barrel (4), the stirring cavity is positioned at the top end of the slurry storage cavity, the bottom end of the stirring cavity is communicated with the top end of the slurry storage cavity through a first electric valve (7), and a hot water output port of the hot water supply system (2) and a powder output port of the powder quantitative supply system (3) are both communicated with the stirring cavity;

the first pump body (5) is arranged at the bottom end of the batching barrel (4), and an input port of the first pump body (5) is communicated with the bottom end of the pulp storage cavity;

one end of the material guiding pipe (6) is communicated with an output port of the first pump body (5), and the other end of the material guiding pipe (6) faces a sizing port of the sizing machine (1).

2. An automatic batching and feeding device of a sizing machine as claimed in claim 1, characterized by further comprising a first liquid level sensor (4a), a density sensor (4b) and a first flow valve (4c), wherein the first liquid level sensor (4a) is coaxially arranged at the top end of the stirring chamber, the detection end of the first liquid level sensor (4a) is vertically towards the bottom end of the stirring chamber, the detection probe of the density sensor (4b) penetrates through the batching barrel (4) and is arranged in the stirring chamber, and the hot water outlet of the hot water supply system (2) is communicated with the stirring chamber through the first flow valve (4 c).

3. An automatic batching and feeding device of a sizing machine as claimed in claim 1, characterized in that the automatic batching and feeding device further comprises a first servo motor (4e) and a rotating roller (4f), wherein the rotating roller (4f) is coaxially and rotatably arranged in the stirring cavity, a stirring rod (4f1) which is distributed along a coaxial spiral line of the rotating roller (4f) and radially extends along the rotating roller is arranged on the circumferential surface of the rotating roller (4f), the first servo motor (4e) is fixedly arranged on the batching barrel (4), and an output shaft of the first servo motor (4e) is coaxially and fixedly connected with the top end of the rotating roller (4 f).

4. An automatic batching and feeding device of a sizing machine as claimed in claim 1, characterized in that it further comprises a second level sensor (4g), said second level sensor (4g) is coaxially arranged at the top end of said pulp storage chamber, and the detection end of said second level sensor (4g) is vertically faced to the bottom end of said pulp storage chamber.

5. An automatic batching and feeding device of a sizing machine as claimed in claim 1, characterized by further comprising a communicating pipe (4h), wherein one end of the communicating pipe (4h) penetrates through the batching barrel (4) and is communicated with the top end of the pulp storage chamber.

6. An automatic batching and feeding equipment of a starching machine according to claim 1, characterized in that it also comprises a second electric valve (4i), the input port of the first pump body (5) being in communication with the bottom end of the stock chamber through the second electric valve (4 i).

7. An automatic batching and feeding device of a starching machine as claimed in claim 1, characterized in that it further comprises a moving mechanism, the material guiding pipe (6) is a hose, the moving mechanism comprises a setting plate (8a), a polished rod (8b), a first threaded rod (8c), a second servo motor (8d) and a moving plate (8e),

the placing plate (8a) is horizontally arranged on the feeding side of the sizing machine (1) along the axial direction of the conveying roller of the sizing machine (1), and the placing plate (8a) extends along the axial direction of the conveying roller of the sizing machine (1);

the polish rod (8b) and a conveying roller of the sizing machine (1) are coaxially arranged on the setting plate (8 a);

the first threaded rod (8c) and the polished rod (8b) are coaxially and rotatably arranged on the mounting plate (8 a);

the second servo motor (8d) is arranged at one end of the placing plate (8a), and an output shaft of the second servo motor (8d) is coaxially and fixedly connected with one end of the first threaded rod (8 c);

the moving plate (8e) is arranged on the polished rod (8b) in a sliding mode along the axial direction of the polished rod (8b), a thread lug which is screwed with the first threaded rod (8c) in a coaxial thread mode is arranged on the moving plate (8e), and one end of the material guiding pipe (6) is arranged on the moving plate (8e) and faces a sizing opening of the sizing machine (1).

8. A automatic batching and feeding device of a starching machine as claimed in claim 7, characterized in that said moving mechanism further comprises a hinged plate (8f), a sliding track (8g), a sliding block (8h), a second threaded rod (8i) and a connecting rod (8j),

one side of the hinged plate (8f) is arranged at the bottom end of the moving plate (8e) in a rotating mode along the radial direction of a conveying roller of the sizing machine (1), and one end of the material guiding pipe (6) vertically penetrates through the moving plate (8e) and is fixedly connected with the moving plate;

the sliding track (8g) extends along the radial direction of a conveying roller of the sizing machine (1) and is fixedly arranged at the bottom end of the moving plate (8 e);

the sliding block (8h) is arranged on the sliding track (8g) in a sliding manner along the length direction of the sliding track (8 g);

the second threaded rod (8i) is arranged on the placing plate (8a) in a rotating mode along the radial direction of a conveying roller of the sizing machine (1), and the second threaded rod (8i) is in threaded connection with the sliding block (8 h);

two ends of the connecting rod (8j) are respectively hinged with one side of the hinged plate (8f) and one side of the sliding block (8h) along the vertical direction.

9. A automatic batching and feeding equipment of a sizing machine according to claim 1, characterized by further comprising a second flow valve (6a), said second flow valve (6a) being arranged at the output of said guiding pipe (6).

10. An automatic batching and feeding device of a sizing machine as claimed in claim 1, characterized by further comprising a discharging head (9), wherein one end of the discharging head (9) is communicated with the output port of the feeding pipe (6), and the other end of the discharging head (9) is provided with a flat port extending along the axial direction of the feeding roller of the sizing machine (1).

Technical Field

The invention relates to the field of cloth processing, in particular to automatic batching and feeding equipment of a sizing machine.

Background

In the cloth processing production, the soft and smooth fabric is often encountered, so that the cloth needs to be subjected to sizing treatment to enable the cloth to become stiff so as to be convenient for cutting, the sizing is to perform the stiffening treatment on the cloth for the convenience of actual cutting operation on the basis that the soft cloth is kept in the original thread direction, namely, the stiffening is a means for preventing the cloth from disordering the thread direction so as to be convenient for operation.

Most of the processes are manually stirring after slurry is manually proportioned, then the whole cloth is uniformly thrown into the slurry for sizing, the sizing mode cannot evenly size the cloth, meanwhile, when a large batch of long cloth is met, manpower and material resources are extremely consumed by the method, and in a cloth processing factory, the size is fully automatic, but the size is still manually sized towards the cloth from time to time.

Chinese patent CN202110071053.2 discloses an automatic even sizing apparatus of batching's cloth, including the processing organism, be equipped with the cavity in the processing organism, be provided with sizing apparatus in the cavity, sizing apparatus include with cavity leftmost back wall normal running fit's spool, thereby it makes the pinch-off blades be close to each other to inhale mutually through the electro-magnet, press from both sides tight cloth to having the removal, cloth right can be in the thick liquid chamber even sizing, cloth after the sizing can be through leveling, the stoving, then be taken out the cavity through belt drive's effect after tailorring, when the thick liquid in the thick liquid chamber is not enough, the thick liquid of ratio can flow into the thick liquid chamber in the mixing tank, thereby make the thick liquid in the thick liquid chamber constantly keep sufficient, when there is not the thick liquid in the mixing tank, can automatic ratio starch and water mix through the mixing rod in the mixing tank.

The sizing device cannot automatically match the size of the most suitable batch of yarns according to the weight and the sizing rate of the yarns.

Disclosure of Invention

Based on this, it is necessary to provide an automatic batching and feeding device of a sizing machine, which aims at the problems of the prior art.

In order to solve the problems of the prior art, the invention adopts the technical scheme that:

an automatic batching and feeding device of a sizing machine is applied to conveying slurry to a sizing port of the sizing machine and comprises a hot water supply system, a powder quantitative supply system, a batching barrel, a first pump body, a material guiding pipe, a first electric valve and a main controller, wherein the hot water supply system and the powder quantitative supply system are arranged on one side of the sizing machine; the first pump body is arranged at the bottom end of the batching barrel, and an input port of the first pump body is communicated with the bottom end of the pulp storage cavity; one end of the material guiding pipe is communicated with the output port of the first pump body, and the other end of the material guiding pipe faces to the sizing port of the sizing machine.

Preferably, still include first level sensor, density sensor and first flow valve, first level sensor is coaxial to be set up at the top in stirring the chamber, and the vertical bottom towards stirring the chamber of first level sensor sense terminal, and density sensor's test probe runs through batching bucket and sets up in stirring the intracavity, and hot water supply system's hot water delivery outlet passes through first flow valve and stirs the chamber intercommunication.

Preferably, still include first servo motor and live-rollers, the setting of live-rollers coaxial rotation is in the stirring intracavity, and has along its coaxial helix distribution and along its radially extended puddler on the periphery of live-rollers, and first servo motor is fixed to be set up on the batching bucket, and the output shaft of first servo motor and the coaxial fixed connection in top of live-rollers.

Preferably, still include the second liquid level sensor, the coaxial setting of second liquid level sensor is at the top of depositing the thick liquid chamber, and the detection end of second liquid level sensor is vertical towards the bottom of depositing the thick liquid chamber.

Preferably, still including communicating pipe, the one end of communicating pipe runs through the batching bucket and with deposit the top intercommunication of thick liquid chamber.

Preferably, the device further comprises a second electric valve, and the input port of the first pump body is communicated with the bottom end of the slurry storage cavity through the second electric valve.

Preferably, the feeding device further comprises a moving mechanism, the material guiding pipe is a hose, the moving mechanism comprises a placing plate, a polished rod, a first threaded rod, a second servo motor and a moving plate, the placing plate is horizontally arranged on the feeding side of the sizing machine along the axial direction of the conveying roller of the sizing machine, and the placing plate extends along the axial direction of the conveying roller of the sizing machine; the polished rod and a conveying roller of the sizing machine are coaxially arranged on the setting plate; the first threaded rod and the polished rod are coaxially and rotatably arranged on the mounting plate; the second servo motor is arranged at one end of the placing plate, and an output shaft of the second servo motor is coaxially and fixedly connected with one end of the first threaded rod; the movable plate is arranged on the polished rod in a sliding mode along the axial direction of the polished rod, a thread lug which is in threaded connection with the first threaded rod in a coaxial mode is arranged on the movable plate, and one end of the material guiding pipe is arranged on the movable plate and faces a sizing opening of the sizing machine.

Preferably, the moving mechanism further comprises a hinged plate, a sliding track, a sliding block, a second threaded rod and a connecting rod, one side of the hinged plate is arranged at the bottom end of the moving plate in a radial rotating mode along a conveying roller of the sizing machine, and one end of the material guiding pipe vertically penetrates through the moving plate and is fixedly connected with the moving plate; the sliding track extends along the radial direction of a conveying roller of the sizing machine and is fixedly arranged at the bottom end of the moving plate; the sliding block is arranged on the sliding track in a sliding mode along the length direction of the sliding track; the second threaded rod is arranged on the placing plate in a rotating mode along the radial direction of a conveying roller of the sizing machine and is in threaded connection with the sliding block; two ends of the connecting rod are respectively hinged with the hinged plate and one side of the sliding block along the vertical direction.

Preferably, the device further comprises a second flow valve, and the second flow valve is arranged at the output port of the material guiding pipe.

Preferably, the material discharging device further comprises a material discharging head, one end of the material discharging head is communicated with an output port of the material guiding pipe, and the other end of the material discharging head is provided with a flat port extending along the axial direction of a conveying roller of the sizing machine.

Compared with the prior art, the beneficial effect of this application is:

1. according to the sizing machine, the hot water supply system, the powder quantitative supply system, the batching barrel, the first pump body, the material guiding pipe, the first electric valve and the main controller are arranged on one side of the sizing machine, so that the size with the optimal yarn concentration can be automatically proportioned according to the manually input yarn and sizing rate information, and the size can be continuously supplied to the sizing machine;

2. according to the slurry mixing device, the first liquid level sensor, the density sensor and the first flow valve are adopted, so that the master controller can accurately mix the contents of slurry and hot water in the stirring cavity, and the slurry with the optimal concentration can be conveniently mixed;

3. according to the slurry storage device, the first servo motor and the rotating roller can be used for fully mixing slurry and hot water in the stirring cavity, and the slurry can be accelerated from the stirring cavity to be discharged into the slurry storage cavity;

4. the volume of the slurry in the slurry storage cavity can be monitored in real time through the second liquid level sensor, so that the slurry can be timely supplemented into the slurry storage cavity through the stirring cavity;

5. according to the slurry storage device, the slurry storage cavity can be balanced with the external pressure through the communicating pipe, so that the first pump body can pump out slurry in the slurry storage cavity;

6. the bottom end of the pulp storage cavity can be closed in time through the second electric valve, so that the pulp in the pulp storage cavity is prevented from overflowing outwards;

7. according to the feeding device, one end of the feeding pipe can move relative to the other point of the feeding pipe along the axial direction of the feeding roller of the sizing machine through the feeding pipe and the moving mechanism which are hoses, so that the metal slurry can be conveniently injected into a sizing opening of the sizing machine;

8. the slurry supply angle of the output port of the material guiding pipe can be adjusted through the hinged plate, the sliding rail, the sliding block, the second threaded rod and the connecting rod, so that the slurry supply angle can be adapted to slurry outlets of different types of sizing machines;

9. the quantity of the slurry flowing through the output port of the material guiding pipe can be monitored in real time through the second flow valve, so that the main controller can control or adjust the supply and discharge quantity and the supply and discharge speed of the slurry;

10. this application sets up out the stub bar through the delivery outlet at the material guide pipe for the flat mouth that the axial of sizing machine conveying roller extended can evenly pour into the yarn with the thick liquid to the stub bar is followed to the ejection of compact head.

Drawings

FIG. 1 is a perspective view of the furnish feeding apparatus and the sizing machine of the embodiment in an operating state;

FIG. 2 is a top view of the furnish loading apparatus and the sizing machine of the embodiment in an operating state;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is a perspective cross-sectional view taken in the direction A-A of FIG. 2;

FIG. 5 is a perspective view of an ingredient charging apparatus of an embodiment;

FIG. 6 is a front view of the dispensing cartridge of the embodiment;

FIG. 7 is a cross-sectional view at section B-B of FIG. 6;

FIG. 8 is a side view of the dispensing cartridge of the embodiment;

FIG. 9 is a cross-sectional view at section C-C of FIG. 8;

FIG. 10 is a perspective view of a rotating roller of the embodiment;

FIG. 11 is a side view of the wicking pipe and translating mechanism of the embodiment;

FIG. 12 is a perspective view of the wicking pipe and translation mechanism of the embodiment;

FIG. 13 is an enlarged view of a portion of FIG. 12 at D;

FIG. 14 is a perspective view of a discharge head of an embodiment;

FIG. 15 is a side view of the moving plate and hinge plate of the embodiment.

The reference numbers in the figures are:

1-sizing machine; 2-a hot water supply system; 3-powder dosing system; 4-a batching barrel; 4 a-a first level sensor; 4 b-a density sensor; 4 c-a first flow valve; 4 d-pressure sensor; 4 e-a first servo motor; 4 f-a turning roll; 4f 1-stirring bar; 4 g-a second liquid level sensor; 4 h-communicating pipe; 4 i-second electrically operated valve; 5-a first pump body; 6-material guiding pipe; 6 a-a second flow valve; 7-a first electrically operated valve; 8 a-a setting plate; 8 b-a polish rod; 8 c-a first threaded rod; 8 d-a second servo motor; 8 e-moving the plate; 8 f-hinged plate; 8 g-sliding rail; 8 h-sliding block; 8 i-second threaded rod; 8 j-link; 9-discharging the stub bar.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

As shown in fig. 1, 2, 3, 4 and 5:

an automatic batching and feeding device of a sizing machine is applied to conveying slurry to a sizing port of the sizing machine 1, and comprises a hot water supply system 2, a powder quantitative supply system 3, a batching barrel 4, a first pump body 5, a material guiding pipe 6, a first electric valve 7 and a master controller, wherein the hot water supply system 2 and the powder quantitative supply system 3 are arranged on one side of the sizing machine 1, the batching barrel 4 is arranged on the feeding side of the sizing machine 1 along the vertical direction, a stirring cavity and a slurry storage cavity are arranged in the batching barrel 4, the stirring cavity is positioned at the top end of the slurry storage cavity, the bottom end of the stirring cavity is communicated with the top end of the slurry storage cavity through the first electric valve 7, and a hot water output port of the hot water supply system 2 and a powder output port of the powder quantitative supply system 3 are both communicated with the stirring cavity; the first pump body 5 is arranged at the bottom end of the batching barrel 4, and an input port of the first pump body 5 is communicated with the bottom end of the pulp storage cavity; one end of the material guiding pipe 6 is communicated with an output port of the first pump body 5, and the other end of the material guiding pipe 6 faces to a sizing port of the sizing machine 1.

Based on the above embodiment, the master controller is electrically connected to the hot water supply system 2, the powder quantitative supply system 3, the blending barrel 4, the first pump body 5 and the first electric valve 7, the master controller is internally provided with table data which can find out the optimal slurry weight and slurry concentration according to the net weight of the slurry and the optimal slurry volume and slurry density according to the slurry weight, a worker inputs the number of yarns, the specific number of yarns, the length of the yarns and the required sizing rate of the batch of yarns into the master controller, the master controller obtains the weight of the yarns by multiplying the number of the yarns by the specific number of the yarns and then multiplying by the length of the yarns, the master controller obtains the net weight of the slurry of the batch of yarns through the weight data of the yarns and the sizing rate, so as to find out the most suitable required size weight and size concentration of the batch of yarn by the size net weight lookup table, then looking up a table by the weight of the slurry to find out the most suitable required slurry volume and slurry density of the batch of yarns;

the proportioning barrel 4 closes the first electric valve 7 in advance before proportioning so that the stirring cavity and the pulp storage cavity are not communicated with each other, the master controller can put a certain amount of hot water and pulp into the stirring cavity through the hot water supply system 2 and the powder quantitative supply system 3 so that the hot water and the pulp are mixed in the stirring cavity, after the mixing and stirring are finished, the first electric valve 7 is started to keep the connected state, namely the pulp flows into the pulp storage cavity from the stirring cavity until the pulp completely flows into the pulp storage cavity, the first electric valve 7 is closed, the first pump body 5 is started to pump the pulp out from the pulp storage cavity and discharge the pulp to a pulp feeding port of the sizing machine 1 through a material guiding pipe 6, and simultaneously the controller controls the hot water supply system 2 and the powder quantitative supply system 3 to continuously put a certain amount of hot water and pulp into the stirring cavity so as to continue mixing in the stirring cavity, when the size in the size storage cavity is insufficient, the first electric valve 7 is opened, so that the size in the stirring cavity is automatically supplemented into the size storage cavity, and the automatic continuous size supply operation of the sizing machine 1 is realized.

As some optional embodiments of this application, the outside in stirring chamber and the deposit thick liquid chamber all is provided with first heat preservation, can prevent through first heat preservation when stirring thick liquid or storage thick liquid, and its stirring chamber and deposit thick liquid intracavity thick liquid cooling and cluster, avoid the unable starching mouth of being poured into the starching machine 1 of cluster thick liquid.

Further, the stirring chamber provided by the present application still has the defect that the total controller cannot control and adjust the slurry ratio in real time, and in order to solve this problem, as shown in fig. 7 and fig. 9:

still include first level sensor 4a, density sensor 4b and first flow valve 4c, the coaxial setting of first level sensor 4a is on the top of stirring the chamber, and the vertical bottom towards the stirring chamber of first level sensor 4a sense terminal, and density sensor 4 b's detection probe runs through batching bucket 4 and sets up in the stirring intracavity, and hot water supply system 2's hot water delivery outlet passes through first flow valve 4c and stirs the chamber intercommunication.

Based on above-mentioned embodiment, first level sensor 4a, density sensor 4b and first flow valve 4c all are connected with total controller electricity, because of the stirring chamber is the fixed structure of shape, the volume when the liquid level of the thick liquid in the stirring intracavity risees or reduces is certain, can detect the liquid level height of thick liquid through first level sensor 4a promptly, thereby calculate the thick liquid volume in the stirring intracavity by total controller, and can detect the density of thick liquid through density sensor 4b, and then can detect the net weight of thick liquid in the stirring chamber, so that total controller regulates and control the thick liquid density in the stirring intracavity in real time, so that starching.

As some optional embodiments of the application, the diameter of the stirring cavity is gradually increased from the communication port of the stirring cavity and the slurry storage cavity to the upper part, so that the technical problem that the mixed slurry is gathered at the bottom end of the stirring cavity and cannot be discharged into the slurry storage cavity is solved.

As some optional embodiments of this application, still include pressure sensor 4d, pressure sensor 4d sets up on batching bucket 4, and pressure sensor 4 d's sense terminal extends to the stirring intracavity, and pressure sensor 4d is connected with total controller electricity, can detect the pressure in the stirring intracavity through pressure sensor 4d to in pressure data information sends for total controller, so that total controller passes through feeding mode or feeding speed control and adjusts the pressure in the stirring intracavity, in order to prevent that stirring chamber pressure is too big and initiate the problem of frying the chamber.

Further, the stirring chamber provided by the present application still has the drawback of how to rapidly alleviate the slurry and hot water, and in order to solve this problem, as shown in fig. 7, 9 and 10:

still include first servo motor 4e and live-rollers 4f, the coaxial pivoted setting of live-rollers 4f is in the stirring intracavity, and has on the periphery of live-rollers 4f along its coaxial helix distribution and along its radial puddler 4f1 that extends, and first servo motor 4e is fixed to be set up on batching bucket 4, and the output shaft of first servo motor 4e and the coaxial fixed connection in top of live-rollers 4 f.

Based on the above embodiment, when the hot water supply system 2 and the powder quantitative supply system 3 inject a certain amount of hot water and slurry into the stirring cavity, the first servo motor 4e is started to rotate the output shaft thereof relative to the batching barrel 4, the output shaft of the first servo motor 4e is coaxially and fixedly connected with the rotating roller 4f, so that the rotating roller 4f can coaxially rotate in the stirring cavity, and the stirring rod 4f1 extends along the radial direction of the rotating roller 4f, so that the stirring rod 4f1 rotates along the circumferential direction, thereby continuously stirring the hot water and the slurry, and the stirring rod 4f1 is uniformly distributed on the circumferential surface of the rotating roller 4f along the coaxial spiral line, so that when the rotating roller 4f rotates forwards, the stirring rod 4f1 which is uniformly and spirally distributed can upwards stir the slurry at the bottom in the stirring cavity, thereby making the stirring more uniform, and when the rotating roller 4f rotates backwards, the stirring rod 4f1 which is uniformly and spirally distributed can accelerate and downwards move the slurry in the stirring cavity, thereby facilitating rapid discharge of the slurry from the agitation chamber.

Further, the liquid storage cavity provided by the present application still has a defect that the amount of the slurry inside the liquid storage cavity cannot be directly detected by the master controller, and in order to solve this problem, as shown in fig. 7 and fig. 9:

still include second liquid level sensor 4g, the coaxial setting of second liquid level sensor 4g is on the top of depositing the thick liquid chamber, and the vertical orientation of sense terminal of second liquid level sensor 4g deposits the bottom in thick liquid chamber.

Based on above-mentioned embodiment, second liquid level sensor 4g is connected with total controller electricity, and second liquid level sensor 4g can detect the liquid level height of depositing thick liquid in the thick liquid chamber, and then the capacity of thick liquid in the thick liquid chamber is deposited in real time monitoring when being convenient for control to in time supply thick liquid in to depositing thick liquid chamber through stirring the chamber, so that supply thick liquid in succession.

Further, the present application provides a slurry storage cavity still having the defect that when the first electric valve 7 is closed, the inside thereof is sealed with respect to the outside, and the first pump body 5 cannot pump slurry out of the sealed slurry storage cavity, in order to solve the problem, as shown in fig. 7 and 9:

still including communicating pipe 4h, the one end of communicating pipe 4h runs through batching bucket 4 and with deposit the top intercommunication in thick liquid chamber.

Based on above-mentioned embodiment, through running through proportioning barrel 4 and with depositing thick liquid chamber intercommunication communicating pipe 4h for when closing first motorised valve 7, can make through communicating pipe 4h deposit thick liquid chamber and ambient pressure and remain balanced state all the time, and then make first pump body 5 can follow and deposit the thick liquid of pumping in the thick liquid chamber, so that supply thick liquid.

Further, the slurry storage cavity provided by the present application still has the defect that when the first pump body 5 does not work, the slurry inside the slurry storage cavity is susceptible to gravity and overflows outwards, and in order to solve the problem, as shown in fig. 7 and 8:

the slurry storage device further comprises a second electric valve 4i, and the input port of the first pump body 5 is communicated with the bottom end of the slurry storage cavity through the second electric valve 4 i.

Based on the above embodiment, the second electrically operated valve 4i is electrically connected with the master controller, and the opening and closing of the second electrically operated valve 4i can be controlled through the master controller, so that the situation that the slurry in the slurry storage cavity overflows outwards through the first pump body 5 and the material guiding pipe 6 due to gravity when the first pump body 5 does not work can be prevented.

Further, since the sizing opening of the sizing machine 1 extends along the axial direction of the conveying roller, the input opening of the material guiding pipe 6 can only partially supply the sizing agent, and in order to solve the problem, as shown in fig. 11, 12 and 13:

the feeding device comprises a feeding pipe 6, a moving mechanism and a feeding device, wherein the feeding pipe is a hose, the moving mechanism comprises a placing plate 8a, a polished rod 8b, a first threaded rod 8c, a second servo motor 8d and a moving plate 8e, the placing plate 8a is horizontally arranged on the feeding side of the sizing machine 1 along the axial direction of a conveying roller of the sizing machine 1, and the placing plate 8a extends along the axial direction of the conveying roller of the sizing machine 1; the polish rod 8b and a conveying roller of the sizing machine 1 are coaxially arranged on the setting plate 8 a; the first threaded rod 8c and the polished rod 8b are coaxially and rotatably arranged on the mounting plate 8 a; the second servo motor 8d is arranged at one end of the placing plate 8a, and an output shaft of the second servo motor 8d is coaxially and fixedly connected with one end of the first threaded rod 8 c; the moving plate 8e is arranged on the polished rod 8b in a sliding manner along the axial direction of the polished rod 8b, a thread lug which is coaxially screwed with the first threaded rod 8c is arranged on the moving plate 8e, and one end of the material guiding pipe 6 is arranged on the moving plate 8e and faces to a sizing opening of the sizing machine 1.

Based on the above embodiment, since the material guiding pipe 6 is a flexible pipe, one end of the material guiding pipe 6 can move in the horizontal direction relative to the other end, the placing plate 8a is used for placing the polished rod 8b and the first threaded rod 8c, so that the output port of the material guiding pipe 6 is erected at the sizing port of the sizing machine 1, when the sizing is supplied, the second servo motor 8d is started, the output shaft thereof drives the first threaded rod 8c to synchronously rotate on the setting plate 8a, and as the moving plate 8e is arranged on the polished rod 8b along the axial direction in a sliding way, and moving plate 8e is screwed to first threaded rod 8c so that when first threaded rod 8c is rotated in the forward and reverse directions, the moving plate 8e can drive the output port of the material guiding pipe 6 to reciprocate along the horizontal direction at the sizing port of the sizing machine 1, and then be convenient for evenly pour into the starching mouth department along the horizontal direction with the thick liquid along the horizontal direction to be convenient for all with the confession thick liquid.

Further, the moving plate 8e provided by the present application drives one end of the material guiding pipe 6 to perform grouting on the sizing opening of the sizing machine 1 along the horizontal direction, and still has the defect that the movable plate cannot adapt to sizing openings of sizing machines 1 of different models, in order to solve the problem, as shown in fig. 13 and 15:

the moving mechanism further comprises a hinged plate 8f, a sliding track 8g, a sliding block 8h, a second threaded rod 8i and a connecting rod 8j, one side of the hinged plate 8f is arranged at the bottom end of the moving plate 8e in a rotating mode along the radial direction of the conveying roller of the starching machine 1, and one end of the material guiding pipe 6 vertically penetrates through the moving plate 8e and is fixedly connected with the same; the sliding rail 8g extends along the radial direction of the conveying roller of the sizing machine 1 and is fixedly arranged at the bottom end of the moving plate 8 e; the sliding block 8h is arranged on the sliding track 8g in a sliding manner along the length direction of the sliding track 8 g; the second threaded rod 8i is rotatably arranged on the placing plate 8a along the radial direction of the conveying roller of the sizing machine 1, and the second threaded rod 8i is in threaded connection with the sliding block 8 h; both ends of the link 8j are hinged to one side of the hinge plate 8f and the slide block 8h in the vertical direction, respectively.

Based on the above embodiment, when the output angle of the delivery outlet of the material guiding pipe 6 needs to be adjusted, the second threaded rod 8i is rotated, the sliding block 8h slides along the length direction and is arranged on the sliding track 8g, the second threaded rod 8i is screwed with the sliding block 8h in a threaded manner, the sliding block 8h can stably move on the sliding track 8g while the second threaded rod 8i is rotated, two ends of the connecting rod 8j are hinged with the hinged plate 8f and the sliding block 8h along one side of the vertical direction respectively, the hinged plate 8f is enabled to change the angle of the vertical direction relative to the moving plate 8e through transmission, and then the angle of the delivery outlet on the hinged plate 8f can be adjusted, so that the sizing outlets of different sizing machines 1 can be adapted.

Further, the total controller that this application provided still has the defect that can't detect the output volume of material pipe 6 delivery outlet thick liquid, in order to solve this problem, as shown in fig. 13:

the device also comprises a second flow valve 6a, and the second flow valve 6a is arranged at the output port of the material guiding pipe 6.

Based on the above embodiment, the second flow valve 6a is electrically connected with the main controller, and the amount of the slurry flowing through the output port of the material guiding pipe 6 can be monitored in real time through the second flow valve 6a, so that the main controller can control or adjust the supply amount and the supply speed of the slurry.

Further, the outlet of the slurry guiding pipe 6 provided by the present application still has the defect that the slurry cannot be uniformly supplied along the axial direction of the conveying roller of the sizing machine 1, and in order to solve the problem, as shown in fig. 13 and 14:

still include ejection of compact head 9, the one end of ejection of compact head 9 and the delivery outlet intercommunication of leading material pipe 6, the other end of ejection of compact head 9 is provided with the flat mouth of the axial extension of the conveying roller of edge starching machine 1.

Based on the above embodiment, the discharging head 9 is arranged at the output port of the material guiding pipe 6, so that the discharging head 9 can uniformly inject the slurry into the yarn along the flat port extending along the axial direction of the conveying roller of the sizing machine 1.

As some optional embodiments of the present application, the guiding pipe 6 further includes a second insulating layer on the outer circumferential surface thereof to prevent the first pump body 5 from pumping out the slurry, so that the slurry is cooled to reduce the sizing rate when flowing in the guiding pipe 6.

The above examples, which are intended to represent only one or more embodiments of the present invention, are described in greater detail and with greater particularity, and are not to be construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.