阅读说明：本技术 一种锦纶面料印染加工用印染原料储存罐及其使用方法 (Printing and dyeing raw material storage tank for printing and dyeing of nylon fabric and using method thereof ) 是由 陆爱丽 于 2021-06-28 设计创作，主要内容包括：本发明公开了一种锦纶面料印染加工用印染原料储存罐及其使用方法,具体涉及纺织领域,包括安装底座,安装底座的顶部固定安装有蓄水箱,蓄水箱的一侧连接安装有增压水泵,安装底座的顶部固有支撑柱,支撑柱的顶部固定有储存罐,储存罐的顶部开设安装有进料口,储存罐的顶部一侧开设安装有泄压阀,储存罐的顶部安装有线性电机,线性电机的底部连接安装有减速机。上述方案,电磁感应线圈缠绕于储存内罐的底部,从而进行产生的热量对储存内罐进行加热,通过保温网对其进行保温,在电磁感应线圈对储存内罐加热保温的同时,由导热条通过导热对储存内罐内部进一步增热,增加印染原料的保温时间与加热反应储存时间。(The invention discloses a printing and dyeing raw material storage tank for printing and dyeing of nylon fabric and a using method thereof, and particularly relates to the field of textiles. Above-mentioned scheme, electromagnetic induction coil twines in the bottom of storing the inner tank to the heat that produces heats storing the inner tank, keeps warm to it through the heat preservation net, when electromagnetic induction coil is to storing inner tank heating heat preservation, further heats up storing inner tank inside through the heat conduction by the heat conduction strip, increases the heat preservation time and the heating reaction save time of printing and dyeing raw materials.)

1. A printing and dyeing raw material storage tank for printing and dyeing of nylon fabric and a using method thereof comprise an installation base (1), wherein a water storage tank (2) is fixedly installed at the top of the installation base (1), and the printing and dyeing raw material storage tank is characterized in that a booster water pump (3) is connected and installed at one side of the water storage tank (2), a support column (4) is fixed at the top of the installation base (1), a storage tank (5) is fixed at the top of the support column (4), a feeding hole (6) is formed in the top of the storage tank (5), a pressure release valve (7) is formed in one side of the top of the storage tank (5), a linear motor (8) is installed at the top of the storage tank (5), a speed reducer (9) is connected and installed at the bottom of the linear motor (8), and the bottom of the speed reducer (9) is connected to an inner cavity of the storage tank (5);

the bottom of the storage tank (5) is connected with and mounted with a discharge valve (10), one side of the booster water pump (3) is connected with and mounted with a delivery water pipe (11), one side of the delivery water pipe (11) penetrates through the bottom of the storage tank (5) and is mounted on the surface of the storage tank (5), one side of the storage tank (5) is connected with a pressure detection meter (12), an inner storage tank (51) is mounted in the inner cavity of the storage tank (5), a heat insulation net (52) is laid on one side of the inner cavity of the storage tank (5), an electromagnetic induction coil (53) is arranged on the outer side of the inner storage tank (51), and a heat conduction strip (54) is fixed at the bottom of the inner cavity of the inner storage tank (51);

a transmission shaft (81) is rotatably installed in an inner cavity of the storage tank (5), the top of the transmission shaft (81) is rotatably installed at the output end of the speed reducer (9), the inside of the transmission shaft (81) is of a hollow structure, an installation sleeve (82) is fixedly sleeved on the surface of the transmission shaft (81), a connecting rod (83) is fixed on one side of the installation sleeve (82), a stirring paddle (84) is rotatably installed on one side of the connecting rod (83), a universal joint (111) is connected and installed at the bottom of the transmission shaft (81), and a plurality of annular nozzles (112) are formed in the surface of the transmission shaft (81);

the top of the discharge valve (10) is rotatably connected with an annular hand wheel (101), the bottom of the annular hand wheel (101) is provided with a clamping port (102), the interiors of the annular hand wheel (101) and the clamping port (102) are fixedly provided with a rotating rod (103), the outer side of the rotating rod (103) is sleeved with a protective sleeve (104), and the bottom of the protective sleeve (104) is connected with a connecting seat (105);

the bottom of connecting seat (105) is connected with joint chamber (106), the bottom in joint chamber (106) is fixed with ring flange (107), waterproof piece (108) are installed in the top connection of bleeder valve (10) inner chamber, waterproof piece (108) are fixed cup joints the surface in rotary rod (103), pressure spring (1061) is installed to the inner chamber in joint chamber (106), pressure spring (1061) activity is cup jointed in the surface of rotary rod (103).

2. The printing and dyeing raw material storage tank for printing and dyeing of nylon fabric as claimed in claim 1, characterized in that a water filling port is installed at the top of the water storage tank (2), a water level scale is installed on the surface of the water storage tank (2), and one side of the booster water pump (3) penetrates through the water storage tank (2) and is fixedly installed in the inner cavity of the water storage tank (2).

3. The printing and dyeing raw material storage tank for the printing and dyeing processing of the nylon fabric as claimed in claim 1, characterized in that a controller is mounted on the surface of the storage tank (5), a visual window is mounted on the surface of the storage tank (5), the output end of the controller is electrically connected with the input end of the booster water pump (3), and the controller and the visual window are symmetrically mounted on two sides of the surface of the storage tank (5) along the center line of the storage tank (5).

4. The printing and dyeing raw material storage tank for printing and dyeing of nylon fabric according to claim 1, characterized in that the heat-insulating net (52) is of a grid structure, the heat-insulating net (52) is made of aluminum silicate or rubber, the electromagnetic induction coils (53) are uniformly laid at the bottom of the electromagnetic induction coils (53) in a ring shape, the input ends of the electromagnetic induction coils (53) are electrically connected with the output end of the controller, the electromagnetic induction coils (53) are arranged in a plurality of numbers, the electromagnetic induction coils (53) are horizontally arranged adjacent to each other, the heat conduction strips (54) are arranged in a plurality of numbers, and the heat conduction strips (54) are radially and fixedly arranged at the bottom of the inner cavity of the storage tank (5).

5. The printing and dyeing raw material storage tank for printing and dyeing of nylon fabrics as claimed in claim 1, wherein the number of the connecting rods (83) and the number of the stirring blades (84) are several, the connecting rods (83) and the stirring blades (84) are symmetrically installed on two sides of the transmission shaft (81) along the center line of the transmission shaft (81), lubricating grease is coated on the connecting positions of the connecting rods (83) and the stirring blades (84), annular overflow holes (841) are formed in the surface of the stirring blades (84), the annular overflow holes (841) are symmetrically formed in two sides of the stirring blades (84) along the center line of the stirring blades (84), and the stirring blades (84) are of rectangular structures.

6. The printing and dyeing raw material storage tank for printing and dyeing of nylon fabric according to claim 1, characterized in that the annular hand wheel (101) is of an annular structure, the joint of the annular hand wheel (101) and the clamping interface (102) is subjected to waterproof treatment, annular threaded holes are formed in the surfaces of the connecting seat (105) and the clamping cavity (106), and the connecting seat (105) and the clamping cavity (106) are fixedly connected through a locking bolt.

7. The printing and dyeing raw material storage tank for printing and dyeing of nylon fabric according to claim 1, characterized in that a waterproof sealing ring is installed at the joint of the rotating rod (103), the waterproof block (108) and the flange disc (107), the rotating rod (103) is fixedly installed inside the abutting stopper (109) through the abutting stopper (109), and one side of the abutting stopper (109) is matched with the inner wall surface of the inner cavity of the discharge valve (10).

8. A printing and dyeing raw material storage tank for printing and dyeing nylon fabric and a using method thereof use the printing and dyeing raw material storage tank in claims 1-7, and is characterized by comprising the following steps:

s1: firstly, a controller is used for carrying out power supply transmission on a linear motor (8), the linear motor (8) is decelerated and rotated through a speed reducer (9) when being started, the output end of the speed reducer (9) rotates to drive a transmission shaft (81) to rotate, two sides of the transmission shaft (81) are connected and provided with connecting rods (83), one side of each connecting rod (83) is rotatably provided with a stirring paddle (84), the connecting rods (83) and the stirring paddles (84) are further driven to rotate, and the printing and dyeing raw materials are poured into a storage tank (5) through a feeding hole (6) to be stored;

s2: the controller transmits the required rated voltage to the electromagnetic induction coil (53), the electromagnetic induction coil (53) is wound at the bottom of the storage inner tank (51), so that the generated heat heats the inner storage tank (51) and keeps the temperature of the inner storage tank through the heat preservation net (52), when the electromagnetic induction coil (53) heats and preserves the temperature of the storage inner tank (51), the heat conduction strip (54) further heats the interior of the storage inner tank (51) through heat conduction, the transmission shaft (81) drives the connecting rod (83) and the stirring blade (84) to rotate and stir, the surface of the stirring blade (84) is provided with an annular overflow hole (841), when the printing and dyeing raw materials penetrate through the stirring paddle (84), the stirring paddle (84) and the connecting rod (83) are rotatably arranged, therefore, the connecting rod (83) rotates and simultaneously the stirring paddle (84) rotates and stirs in 360 degrees.

S3: when the holding vessel is idle to be cleared up, start booster pump (3) by the controller and carry out work, booster pump (3) are carried to delivery pipe (11) in with the water source pressure boost through one side, delivery pipe (11) run through holding vessel (5) and universal joint (111) and are connected the installation, universal joint (111) are connected the installation with transmission shaft (81), start linear motor (8) this moment and then drive transmission shaft (81) by speed reducer (9) and rotate, a plurality of annular nozzle (112) have been seted up on the surface of transmission shaft (81), carry out rotatory blowout through annular nozzle (112) by the water source in delivery pipe (11), and then wash inner tank (51) inner wall in storing.

S4: when equipment washs and finishes or needs printing and dyeing raw materials to empty, rotate annular hand wheel (101) to one side, annular hand wheel (101) pivoted drive rotary rod (103) simultaneously and rotate, the internally mounted of joint chamber (106) has pressure spring (1061), produce the dynamics of dislocation by pressure spring (1061), it is rotatory to twist waterproof piece (108) and butt fender piece (109) with this, the inner wall looks adaptation of butt fender piece (109) and bleeder valve (10), and then drive the butt and keep off piece (109) and rotate to one side, water source or printing and dyeing raw materials after will wasing are discharged by one side.

9. The printing and dyeing raw material storage tank for printing and dyeing processing of nylon fabric and the use method thereof according to claim 8, characterized in that in step S3, the annular nozzle (112) is in an annular nozzle-shaped structure, the inner wall of the storage inner tank (51) can be cleaned by pressurizing the water source in the delivery water pipe (11) through the booster water pump (3) and rotating the transmission shaft (81), the annular nozzle (112) is arranged between the mounting sleeves (82) at intervals, and the generated water flow can clean the whole transmission shaft (81).

Technical Field

The invention relates to the technical field of spinning, in particular to a printing and dyeing raw material storage tank for printing and dyeing of nylon fabric and a using method thereof.

Background

The spinning principle is a general name taken from spinning and weaving, but with the continuous development and improvement of a spinning knowledge system and a subject system, particularly after non-woven textile materials and three-dimensional compound weaving and other technologies are produced, the current spinning is not only traditional hand spinning and weaving, but also comprises non-woven fabric technology, modern three-dimensional weaving technology, modern electrostatic nano-web technology and other produced textiles for clothing, industry and decoration, wherein a nylon fabric becomes a great important research result in the textile industry, the nylon fabric is nylon, the nylon is developed by a scientist carrousers (Carothers) distinguished in the united states and a research group leading behind the scientists, the nylon is a first synthetic fiber appearing in the world, and the nylon is a description of polyamide fiber (nylon).

In the integration and use of the fabric, the printing and dyeing of the fabric becomes a key step, the printing and dyeing is also called dyeing and finishing, which means that a process taking chemical treatment as a main part is carried out on a textile material, the dyeing and finishing and the spinning, weaving or knitting production are carried out together to form the whole process of textile production, the dyeing and finishing comprises pretreatment, dyeing, printing and finishing, the quality of the dyeing and finishing has important influence on the use value of the textile, and the process of printing and dyeing the textile generally needs to use raw materials for storing textile printing and dyeing raw materials.

Most of the existing textile printing and dyeing raw materials are prepared by placing raw materials in plastic barrels or plastic long box bodies which are convenient to transport and carry, the raw materials which need to be heated and mixed all the time cannot be mixed and heated, most of the existing equipment is used for stirring the raw materials by heating gas or coal gas, but the cost generated by the gas is higher than other costs, chemical substances generated in the process of coal gas combustion can have certain quality influence on the stirred materials, and certain economic loss is brought to enterprises.

Disclosure of Invention

In order to overcome the above defects in the prior art, embodiments of the present invention provide a printing and dyeing raw material storage tank for printing and dyeing nylon fabric and a use method thereof, in which an electromagnetic induction coil is wound on the bottom of a storage inner tank, so as to heat the storage inner tank by the generated heat, and the storage inner tank is insulated by an insulation net, so as to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme that the printing and dyeing raw material storage tank for printing and dyeing of the polyamide fabric and the using method thereof comprise an installation base, wherein a water storage tank is fixedly installed at the top of the installation base, a booster water pump is connected and installed at one side of the water storage tank, a support column is fixed at the top of the installation base, the storage tank is fixed at the top of the support column, a feeding hole is formed in the top of the storage tank, a pressure release valve is formed in one side of the top of the storage tank, a linear motor is installed at the top of the storage tank, a speed reducer is connected and installed at the bottom of the linear motor, and the bottom of the speed reducer is connected to an inner cavity of the storage tank;

the bottom of the storage tank is connected with a discharge valve, one side of the booster water pump is connected with a conveying water pipe, one side of the conveying water pipe penetrates through the bottom of the storage tank and is installed on the surface of the storage tank, one side of the storage tank is connected with a pressure detection meter, an inner storage tank is installed in an inner cavity of the storage tank, a heat insulation net is laid on one side of the inner cavity of the storage tank, an electromagnetic induction coil is arranged on the outer side of the inner storage tank, and a heat conduction strip is fixed at the bottom of the inner cavity of the inner storage tank;

the inner cavity of the storage tank is rotatably provided with a transmission shaft, the top of the transmission shaft is rotatably arranged at the output end of the speed reducer, the interior of the transmission shaft is of a hollow structure, the surface of the transmission shaft is fixedly sleeved with an installation sleeve, one side of the installation sleeve is fixedly provided with a connecting rod, one side of the connecting rod is rotatably provided with a stirring paddle, the bottom of the transmission shaft is connected with a universal joint, and the surface of the transmission shaft is provided with a plurality of annular nozzles;

the top of the discharge valve is rotatably connected with an annular hand wheel, the bottom of the annular hand wheel is provided with a clamping port, a rotating rod is fixed inside the annular hand wheel and the clamping port, the outer side of the rotating rod is sleeved with a protective sleeve, and the bottom of the protective sleeve is connected with a connecting seat;

the bottom in connecting seat is connected with the joint chamber, the bottom in joint chamber is fixed with the ring flange, the top in bleeder valve inner chamber is connected and is installed waterproof piece, waterproof piece fixed cover connects in the surface of rotary rod, pressure spring is installed to the inner chamber in joint chamber, pressure spring activity cup joints in the surface of rotary rod.

Preferably, a water filling port is installed at the top of the water storage tank, a water level scale is installed on the surface of the water storage tank, and one side of the booster water pump penetrates through the inner cavity of the water storage tank and is fixedly installed on the water storage tank.

Preferably, the surface mounting of holding vessel has the controller, the surface of holding vessel is seted up and is installed the visual window, the output of controller and booster water pump's input electric connection, controller and visual window are installed in the both sides on holding vessel surface along the central line symmetry of holding vessel.

Preferably, the heat preservation net is the latticed structure, the heat preservation net constitutes for aluminium silicate or rubber material, electromagnetic induction coil is the bottom that the electromagnetic induction coil was evenly laid to the annular form, electromagnetic induction coil's input and the output electric connection of controller, electromagnetic induction coil's quantity is a plurality of, electromagnetic induction coil is the horizontal form installation between adjacent, the quantity of heat conduction strip is a plurality of, heat conduction strip is radial fixed mounting in the bottom of holding vessel inner chamber.

Preferably, the quantity of connecting rod and stirring paddle leaf is a plurality of, connecting rod and stirring paddle leaf are installed in the both sides of transmission shaft along the central line symmetry of transmission shaft, the junction of connecting rod and stirring paddle leaf scribbles lubricating grease, annular overflow hole has been seted up on stirring paddle leaf's surface, annular overflow hole is seted up in stirring paddle leaf's both sides along stirring paddle leaf's central line symmetry, stirring paddle leaf is the rectangle column structure.

Preferably, the annular hand wheel is the annular column structure, waterproof treatment is done to the junction of annular hand wheel and joint mouth, the annular screw hole has been seted up on the surface in connecting seat and joint chamber, connecting seat and joint chamber pass through locking bolt fixed connection.

Preferably, a waterproof sealing ring is installed at the joint of the rotating rod, the waterproof block and the flange disc, the rotating rod penetrates through the abutting stopper and is fixedly installed inside the abutting stopper, and one side of the abutting stopper is matched with the inner wall surface of the inner cavity of the discharge valve.

A printing and dyeing raw material storage tank for printing and dyeing nylon fabric and a using method thereof, wherein the printing and dyeing raw material storage tank in the claim is used, and the printing and dyeing raw material storage tank comprises the following steps:

s1: firstly, a linear motor is subjected to power supply transmission through a controller, the linear motor is decelerated and rotated through a speed reducer when being started, the output end of the speed reducer rotates to drive a transmission shaft to rotate, connecting rods are connected and mounted on two sides of the transmission shaft, a stirring paddle is rotatably mounted on one side of each connecting rod to drive the connecting rods and the stirring paddle to rotate, and the printing and dyeing raw materials are poured into a storage tank through a feeding hole to be stored;

s2: the controller transmits required rated voltage to electromagnetic induction coil, electromagnetic induction coil twines in the bottom of storing the inner tank, thereby the heat that produces heats the storage inner tank, keep warm to it through the heat preservation net, when electromagnetic induction coil heats heat preservation to the storage inner tank, further heat up the storage inner tank inside through heat conduction by the heat conduction strip, drive connecting rod and stirring paddle leaf and rotate the stirring by the transmission shaft, annular overflow hole has been seted up on stirring paddle leaf's surface, and then pierce through to stirring paddle leaf when printing and dyeing raw materials, stirring paddle leaf and connecting rod rotate the installation, from this the connecting rod when carrying out the rotation, stirring paddle leaf carries out 360 rotatory stirs.

S3: when the idle needs clearance of holding vessel, start booster water pump by the controller and carry out work, booster water pump carries the water source pressure boost to carrying in the water pipe through one side, carry the water pipe to run through holding vessel and universal joint connection installation, universal joint and transmission shaft connection installation, start linear motor and then drive the transmission shaft by the speed reducer and rotate this moment, a plurality of annular nozzle have been seted up on the surface of transmission shaft, carry out rotatory blowout through annular nozzle by carrying the water source in the water pipe, and then wash the inner tank wall of storage.

S4: when equipment washs and finishes or needs printing and dyeing raw materials to empty, rotate annular hand wheel to one side, drive the rotary rod when annular hand wheel pivoted and rotate, the internally mounted in joint chamber has pressure spring, produce the dynamics of dislocation by pressure spring, it is rotatory to keep off the piece with the butt of this waterproof piece of wrench movement, the butt keeps off the inner wall looks adaptation of piece and bleeder valve, and then drives the butt and keeps off the piece and rotate to one side, water source or printing and dyeing raw materials after will wasing are discharged by one side.

Preferably, in step S2, the annular nozzle is in an annular nozzle shape, the pressurized water pump pressurizes the water source in the delivery water pipe and rotates the transmission shaft, so as to clean the inner wall of the storage inner tank, the annular nozzle is arranged between the mounting sleeves at intervals, and the generated water flow can clean the transmission shaft as a whole.

The invention has the technical effects and advantages that:

1. in the scheme, the electromagnetic induction coil is wound at the bottom of the inner storage tank, so that the inner storage tank is heated by generated heat and is insulated by the heat insulation net, and the heat conduction strip further heats the inside of the inner storage tank by heat conduction while the electromagnetic induction coil heats and insulates the inner storage tank, so that the heat insulation time and the heating reaction storage time of the printing and dyeing raw materials are prolonged;

2. in the scheme, a controller starts a pressurizing water pump to work, the pressurizing water pump pressurizes and conveys a water source into a conveying water pipe through one side, the conveying water pipe penetrates through a storage tank and is connected and installed with a universal joint, the universal joint is connected and installed with a transmission shaft, a linear motor is started at the moment, the transmission shaft is driven by a speed reducer to rotate, a plurality of annular nozzles are formed in the surface of the transmission shaft, the water source in the conveying water pipe is rotationally sprayed out through the annular nozzles, and then the inner wall of the storage inner tank is cleaned;

3. in the above scheme, the annular hand wheel pivoted drives the rotary rod simultaneously and rotates, and the internally mounted in joint chamber has pressure spring, produces the dynamics of dislocation by pressure spring to this waterproof piece of wrench movement and butt fender piece rotate, and the butt keeps off the inner wall looks adaptation of piece and bleeder valve, and then drives the butt and keeps off the piece and rotate to one side, and the water source after will wasing or the printing and dyeing raw materials are discharged by one side, have saved the time that the valve was unloaded, have increased work efficiency.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the outer insulation structure of the present invention;

FIG. 3 is a schematic diagram of an electromagnetic coil according to the present invention;

FIG. 4 is a schematic view of a heat conducting strip structure according to the present invention;

FIG. 5 is a schematic view of a rotary stirring section according to the present invention;

FIG. 6 is a schematic view of the stirring blade structure of the present invention;

FIG. 7 is a schematic view of the discharge valve of the present invention;

fig. 8 is a schematic view of the internal structure of the discharge valve of the present invention.

The reference signs are:

1. installing a base; 2. a water storage tank; 3. a booster water pump; 4. a support pillar; 5. a storage tank; 6. a feed inlet; 7. a pressure relief valve; 8. a linear motor; 9. a speed reducer; 10. a discharge valve; 11. a water delivery pipe; 12. a pressure detection meter; 51. a storage inner tank; 52. a heat-preserving net; 53. an electromagnetic induction coil; 54. a heat conducting strip; 81. a drive shaft; 82. installing a sleeve; 83. a connecting rod; 84. a stirring paddle; 101. an annular hand wheel; 102. a card interface; 103. rotating the rod; 104. a protective sleeve; 105. a connecting seat; 106. a clamping cavity; 107. a flange plate; 108. a waterproof block; 109. abutting against the stopper; 111. a universal joint; 112. an annular nozzle; 841; an annular overflow aperture; 1061. a pressure spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention provides a printing and dyeing raw material storage tank for printing and dyeing of nylon fabric and a using method thereof as shown in attached drawings 1-8, the printing and dyeing raw material storage tank comprises an installation base 1, a water storage tank 2 is fixedly installed at the top of the installation base 1, a booster water pump 3 is connected and installed at one side of the water storage tank 2, a support column 4 is fixed at the top of the installation base 1, a storage tank 5 is fixed at the top of the support column 4, a feeding hole 6 is formed in the top of the storage tank 5, a pressure release valve 7 is formed in one side of the top of the storage tank 5, a linear motor 8 is installed at the top of the storage tank 5, a speed reducer 9 is connected and installed at the bottom of the linear motor 8, and the bottom of the speed reducer 9 is connected to an inner cavity of the storage tank 5;

the bottom of the storage tank 5 is connected with and mounted with a discharge valve 10, one side of the booster pump 3 is connected with and mounted with a conveying water pipe 11, one side of the conveying water pipe 11 penetrates through the bottom of the storage tank 5 and is mounted on the surface of the storage tank 5, one side of the storage tank 5 is connected with a pressure detection meter 12, an inner storage tank 51 is mounted in the inner cavity of the storage tank 5, a heat insulation net 52 is laid on one side of the inner cavity of the storage tank 5, an electromagnetic induction coil 53 is arranged on the outer side of the inner storage tank 51, and a heat conduction strip 54 is fixed at the bottom of the inner cavity of the inner storage tank 51;

a transmission shaft 81 is rotatably installed in the inner cavity of the storage tank 5, the top of the transmission shaft 81 is rotatably installed at the output end of the speed reducer 9, the interior of the transmission shaft 81 is of a hollow structure, an installation sleeve 82 is fixedly sleeved on the surface of the transmission shaft 81, a connecting rod 83 is fixedly arranged on one side of the installation sleeve 82, a stirring blade 84 is rotatably installed on one side of the connecting rod 83, a universal joint 111 is connected and installed at the bottom of the transmission shaft 81, and a plurality of annular nozzles 112 are formed in the surface of the transmission shaft 81;

the top of the discharge valve 10 is rotatably connected with an annular hand wheel 101, the bottom of the annular hand wheel 101 is provided with a clamping port 102, a rotating rod 103 is fixed inside the annular hand wheel 101 and the clamping port 102, the outer side of the rotating rod 103 is sleeved with a protective sleeve 104, and the bottom of the protective sleeve 104 is connected with a connecting seat 105;

the bottom of the connecting seat 105 is connected with a clamping cavity 106, a flange plate 107 is fixed at the bottom of the clamping cavity 106, a waterproof block 108 is connected and installed at the top of an inner cavity of the discharge valve 10, the waterproof block 108 is fixedly sleeved on the surface of the rotary rod 103, a pressure spring 1061 is installed in the inner cavity of the clamping cavity 106, the pressure spring 1061 is movably sleeved on the surface of the rotary rod 103, a water filling port is installed at the top of the water storage tank 2, a water level scale is installed on the surface of the water storage tank 2, one side of the booster water pump 3 penetrates through the water storage tank 2 and is fixedly installed in the inner cavity of the water storage tank 2, a controller is installed on the surface of the storage tank 5, a visual window is installed on the surface of the storage tank 5, the output end of the controller is electrically connected with the input end of the booster water pump 3, and the controller and the visual window are symmetrically installed on two sides of the surface of the storage tank 5 along the central line of the storage tank 5;

the annular hand wheel 101 is of an annular structure, the joint of the annular hand wheel 101 and the clamping interface 102 is subjected to waterproof treatment, annular threaded holes are formed in the surfaces of the connecting seat 105 and the clamping cavity 106, and the connecting seat 105 and the clamping cavity 106 are fixedly connected through a locking bolt;

a waterproof sealing ring is arranged at the joint of the rotating rod 103, the waterproof block 108 and the flange disc 107, the rotating rod 103 penetrates through the abutting stopper 109 and is fixedly arranged inside the abutting stopper 109, and one side of the abutting stopper 109 is matched with the inner wall surface of the inner cavity of the discharge valve 10;

a printing and dyeing raw material storage tank for printing and dyeing nylon fabric and a using method thereof, wherein the printing and dyeing raw material storage tank in claims 1-7 is used, and the printing and dyeing raw material storage tank comprises the following steps:

s1: firstly, a controller is used for carrying out power supply transmission on a linear motor 8, the linear motor 8 is decelerated and rotated through a speed reducer 9 when being started, the output end of the speed reducer 9 rotates to drive a transmission shaft 81 to rotate, two sides of the transmission shaft 81 are connected and provided with connecting rods 83, one side of each connecting rod 83 is rotatably provided with a stirring paddle 84, the connecting rods 83 and the stirring paddles 84 are further driven to rotate, and the printing and dyeing raw materials are poured into a storage tank 5 through a feeding hole 6 to be stored;

s2: required rated voltage transmission to electromagnetic induction coil 53 is transmitted to the controller, electromagnetic induction coil 53 twines in the bottom of storing inner tank 51, thereby the heat that produces heats storing inner tank 51, keep warm it through heat preservation net 52, when electromagnetic induction coil 53 heats storing inner tank 51 heat preservation, further heat up storing inner tank 51 inside through heat conduction by heat conduction strip 54, drive connecting rod 83 and stirring paddle blade 84 by transmission shaft 81 and carry out rotatory stirring, annular overflow hole 841 has been seted up on stirring paddle blade 84's surface, and then pierce through to stirring paddle blade 84 when printing and dyeing raw materials, stirring paddle blade 84 and connecting rod 83 rotate the installation, connecting rod 83 is when carrying out the rotation, stirring paddle blade 84 carries out 360 rotatory stirring.

S3: when the holding vessel is idle to be cleared up, start booster pump 3 by the controller and carry out work, booster pump 3 carries the water source pressure boost to carrying in water pipe 11 through one side, carry water pipe 11 to run through holding vessel 5 and universal joint 111 and connect the installation, universal joint 111 is connected the installation with transmission shaft 81, start linear electric motor 8 this moment and then drive transmission shaft 81 by speed reducer 9 and rotate, a plurality of annular nozzle 112 have been seted up on the surface of transmission shaft 81, carry out rotatory blowout through annular nozzle 112 by carrying the water source in the water pipe 11, and then wash jar 51 inner wall in the storage.

S4: when equipment washs and finishes or needs printing and dyeing raw materials to empty, rotate annular hand wheel 101 to one side, annular hand wheel 101 pivoted drives the rotary rod 103 simultaneously and rotates, the internally mounted of joint chamber 106 has pressure spring 1061, produce the dynamics of dislocation by pressure spring 1061, it is rotatory to keep off piece 109 with the butt with this waterproof piece 108 of wrench movement, the butt keeps off the inner wall looks adaptation of piece 109 and bleeder valve 10, and then drive the butt and keep off piece 109 and rotate to one side, water source or printing and dyeing raw materials after will wasing are discharged by one side.

In step S3, the annular nozzle 112 has an annular nozzle-like structure, the inner wall of the inner storage tank 51 can be cleaned by pressurizing the water source in the conveyance water pipe 11 by the pressurizing water pump 3 and rotating the drive shaft 81, the annular nozzle 112 is disposed between the mounting sleeves 82 at an interval, and the generated water flow can clean the entire drive shaft 81

As shown in fig. 2 to 6, the heat-insulating net 52 is a grid structure, the heat-insulating net 52 is made of aluminum silicate or rubber, the electromagnetic induction coils 53 are uniformly laid on the bottom of the electromagnetic induction coils 53 in a ring shape, the input end of the electromagnetic induction coils 53 is electrically connected with the output end of the controller, the number of the electromagnetic induction coils 53 is several, the electromagnetic induction coils 53 are horizontally installed between adjacent ones, the number of the heat-conducting strips 54 is several, and the heat-conducting strips 54 are radially and fixedly installed on the bottom of the inner cavity of the storage tank 5;

the number of the connecting rods 83 and the stirring blades 84 is several, the connecting rods 83 and the stirring blades 84 are symmetrically installed on two sides of the transmission shaft 81 along the center line of the transmission shaft 81, lubricating grease is coated on the joints of the connecting rods 83 and the stirring blades 84, annular overflow holes 841 are formed in the surface of the stirring blades 84, the annular overflow holes 841 are symmetrically arranged on two sides of the stirring blades 84 along the center line of the stirring blades 84, and the stirring blades 84 are of rectangular structures;

specifically, the controller transmits required rated voltage to electromagnetic induction coil 53, electromagnetic induction coil 53 twines in the bottom of storing inner tank 51, thereby the heat that produces heats storing inner tank 51, keep warm it through heat preservation net 52, when electromagnetic induction coil 53 heats heat preservation storing inner tank 51, further heat up storing inner tank 51 inside through heat conduction by heat conduction strip 54, drive connecting rod 83 and stirring paddle blade 84 by transmission shaft 81 and carry out rotatory stirring, annular overflow hole 841 has been seted up on stirring paddle blade 84's surface, and then pierce through to stirring paddle blade 84 when printing and dyeing raw materials, stirring paddle blade 84 and connecting rod 83 rotate the installation, connecting rod 83 is when carrying out the rotation, stirring paddle blade 84 carries out 360 rotatory stirring.

Finally, it should be noted that, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate relative positional relationships, and when the absolute position of the object to be described is changed, the relative positional relationships may be changed;

secondly, in the drawings of the disclosed embodiments of the invention, only the structures related to the disclosed embodiments are referred to, and other structures can refer to common designs, and under the condition of no conflict, the same embodiment and different embodiments of the invention can be combined with each other;

finally, the above description is only for the preferred embodiment of the present invention and should not be taken as limiting the invention, and any modifications, equivalents, improvements and the like which are within the spirit and principle of the present invention should be included in the protection scope of the present invention.