CN112593322B - Water heating device for monofilament post-stretching - Google Patents

Abstract

The application discloses a water heating device for post-stretching of monofilaments, which comprises a hot water tank, wherein the hot water tank is used for placing the monofilaments to be stretched; the hot water tank is fixedly arranged on one side of the hot water tank, and the hot water tank is movably arranged on one side opposite to the first tapping rod; the second sub-lead screw can move close to and far away from the first sub-lead screw. According to the technical scheme provided by the embodiment of the application, the two sub-screw rods are arranged to divide the single filaments, one sub-screw rod is fixed, the other sub-screw rod moves, the single filaments are divided by the fixed sub-screw rod, the moving sub-screw rod combs the single filaments, and the two sub-screw rods are combined, so that the single filaments are divided in the stretching process simply, the single filaments are stretched in a hot water bath, the doubling problem cannot occur, and the uniformity and stability of the single filaments are guaranteed.

Description

Water heating device for monofilament post-stretching

Technical Field

The present invention relates generally to the field of monofilament drawing and more particularly to a water heating apparatus for post-drawing of monofilaments.

Background

The monofilament needs to be stretched for many times in the preparation process, the existing monofilament post-stretching is carried out by adopting a water-bath heating mode, and a hot water heating device adopted by the method mainly comprises a hot water circulating overflow immersion type.

When the hot water circulation overflow immersion type device is used for stretching monofilaments and producing and stretching a plurality of monofilaments, front and back filament separation of the device is difficult, the filament separation operation time is long, raw material consumption is increased, the filament separation operation is difficult, and the quality of the monofilaments is reduced due to the problem of doubling; in addition, if the number of the divided monofilaments is small during each monofilament drawing, even if the division is simple, the efficiency is low, and the productivity is low.

Disclosure of Invention

In view of the above-mentioned deficiencies or inadequacies of the prior art, it would be desirable to provide a monofilament post-draw water heating apparatus

On the one hand, the water heating device for post-stretching the monofilaments comprises a hot water tank, wherein the hot water tank is used for placing the monofilaments to be stretched;

the wire dividing device comprises a first wire dividing rod and a second wire dividing rod, the first wire dividing rod is fixedly arranged on one side of the hot water tank, and the second wire dividing rod is movably arranged on one side opposite to the first wire dividing rod;

the second tapping rod can move close to and far away from the first tapping rod.

According to the technical scheme provided by the embodiment of the application, the two sub-screw rods are arranged to divide the single filaments, one sub-screw rod is fixed, the other sub-screw rod moves, the single filaments are divided by the fixed sub-screw rod, the moving sub-screw rod combs the single filaments, and the two sub-screw rods are combined, so that the single filaments are divided in the stretching process simply, the single filaments are stretched in a hot water bath, the doubling problem cannot occur, and the uniformity and stability of the single filaments are guaranteed.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

FIG. 1 is a front view of the apparatus in this embodiment;

fig. 2 is a schematic side view of the apparatus in this embodiment.

Reference numerals are as follows:

1-tap water inlet 2-tap water softener 3-first electromagnetic valve 4-liquid level meter

5-first water tank 6-second water tank 7-hot water pump 8-hot water tank

9-overflow water tank 10-first guide rail 11-first sub screw rod 12-second sub screw rod

13-first slider 14-second guide rail 15-second slider 16-sliding motor

17-communicating water pipe 18-through hole 19-static pressure water tank 20-steam heater

21-steam trap 22-electric heater 23-heat preservation cover 24-temperature sensor

A-a filament inlet end and B-a filament outlet end

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not to be construed as limiting the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Referring to fig. 1 and 2, the present embodiment provides a water heating device for post-stretching a monofilament, which includes a hot water tank 8, wherein the hot water tank 8 is used for placing the monofilament to be stretched;

the wire dividing device comprises a first wire dividing rod 11 and a second wire dividing rod 12, the first wire dividing rod 11 is fixedly arranged on one side of the hot water tank 8, and the second wire dividing rod 12 is movably arranged on one side opposite to the first wire dividing rod 11;

the second dispensing screw 12 is movable towards and away from the first dispensing screw 11.

In the embodiment, the two sub-screw rods are arranged to divide the single filaments, one sub-screw rod is fixed, the other sub-screw rod moves, the single filaments are divided through the fixed sub-screw rod, the moving sub-screw rod combs the single filaments, and the two sub-screw rods are combined, so that the single filaments are divided in the stretching process simply, the single filaments are stretched in a hot water bath, the doubling problem cannot occur, and the uniformity and stability of the single filaments are guaranteed.

The hot water tank is arranged in the embodiment, the single wire is stretched under the condition of a hot water bath, the wire separating device comprises a first wire separating rod and a second wire separating rod, the first wire separating rod is of a fixed structure, the second wire separating rod is of a movable structure, the initial position where the second movable wire separating rod is located is a wire inlet end A, the position where the first fixed wire separating rod is located is a wire outlet end B, the second wire separating rod combs and separates the single wire, the first wire separating rod separates the single wire at the fixed position, the single wire is heated and stretched in the hot water tank, other winding devices are arranged outside the wire outlet end B of the hot water tank to wind the single wire, the first wire separating rod at the wire outlet end can ensure that the single wire is not doubled, and the uniformity and the stability of the single wire are ensured.

Further, the wire dividing device further comprises at least one guide rail, and the guide rail is arranged along one side of the hot water tank 8 where the first wire dividing rod 11 or the second wire dividing rod 12 is not installed;

the guide rail is provided with a slide block, the second sub-screw rod 12 is fixedly connected with the slide block, and the slide block drives the second sub-screw rod 12 to slide along the guide rail.

The device is also provided with a guide rail, a sliding block capable of sliding along the guide rail is arranged on the guide rail, and the second sub-silk rod is driven to slide along the guide rail through the movement of the sliding block, so that the single silk is combed and divided in the process from the silk inlet end A to the silk outlet end B; the hot water tank in the application is generally a rectangular structure, the first sub-screw rod and the second sub-screw rod are arranged on two opposite sides, and the two sides which are not provided with the first sub-screw rod and the second sub-screw rod are used for arranging guide rails.

Further, the wire dividing device comprises a first guide rail 10 and a second guide rail 14, the first guide rail 10 and the second guide rail 14 are arranged on two opposite sides in the hot water tank 8,

the first guide rail 10 and the second guide rail 14 are disposed along a side surface of the hot water tank 8 where the first tapping rod 11 or the second tapping rod 12 is not installed.

Preferably, two guide rails, namely a first guide rail 10 and a second guide rail 14, are arranged in this embodiment, the first guide rail 10 and the second guide rail 14 are arranged on two opposite side surfaces of the hot water tank 8, a first slider 13 is arranged on the first guide rail 10, a second slider 15 is arranged on the second guide rail 14, both the first slider 13 and the second slider 15 are fixedly connected with a second tapping rod 12, the two sliders are connected to two ends of the second tapping rod 12, and the movement of the sliders drives the second tapping rod 12 to move; in the embodiment, the second sub-screw rod moves mainly to comb the monofilaments, and in the process, the second sub-screw rod needs to move slowly at a constant speed to ensure the quality of the monofilaments, so that the second sub-screw rod is driven to move by the movement of two ends of the second sub-screw rod to ensure the constant speed movement of the second sub-screw rod, the moving speed of the whole second sub-screw rod is uniform, and the combing of a plurality of monofilaments is also uniform.

Further, the wire dividing device further comprises a sliding motor 16, and the sliding motor 16 is connected to the sliding blocks 13 and 15 and is used for driving the sliding blocks to move along the guide rail.

In the embodiment, the sliding motor drives the sliding block to move, and further drives the second sub-screw rod to move; when the number of the guide rails is two in the above embodiment, the number of the sliding blocks is also two, and the first sliding block and the second sliding block are driven by the sliding motor to drive the second sub-screw rod to move.

Furthermore, a plurality of grooves are arranged on the surfaces of the first branch screw rod 11 and the second branch screw rod 12 side by side, and each groove is used for accommodating one monofilament.

The sub-feed screw in the embodiment is a rod member comprising a plurality of grooves, each groove is used for accommodating one monofilament, and the second sub-feed screw can move to comb a plurality of monofilaments at the same time.

Further, a plurality of grooves are uniformly formed on the surfaces of the first branch screw rod 11 and the second branch screw rod 12.

The grooves are preferably uniformly arranged on the surface of the yarn dividing rod, and in the yarn dividing carding process, the distances between adjacent monofilaments are the same, so that the yarn doubling phenomenon caused by the fact that the distance is far or close is avoided.

Further, the number of the grooves is 150-200.

The preferable arrangement of 150-200 grooves can divide hundreds of monofilaments at the same time, so that the monofilament stretching efficiency is improved, and the monofilament stretching quality is ensured.

The controller is used for starting the sliding motor after the monofilaments are placed on the second branch screw rod, and driving the sliding block and the second branch screw rod to move along the guide rail until the monofilaments move to the first branch screw rod.

The controller is used for controlling the starting and stopping of the sliding motor, namely controlling the movement and stopping of the second split screw rod, the single wire at one end of the hot water tank is a wire inlet end A, the single wire at the other end of the hot water tank is a wire outlet end B, enters the hot water tank and is lapped on the first split screw rod and the second split screw rod, each single wire is respectively placed in one groove, the first split screw rod is still, the second split screw rod moves along the length direction of the hot water tank under the driving of the sliding motor and moves until the wire outlet end stops, the single wire is heated and stretched in the hot water tank, and other winding devices are arranged outside the wire outlet end of the hot water tank to wind the single wire; before the next monofilament is fed, the second sub-screw rod is moved to the initial position, namely the filament feeding end, after the next monofilament is fed, the second sub-screw rod repeats the steps to comb and divide the monofilament, the movement is stable and slow, the stability of a monofilament filament path is ensured, and the condition of doubling can not be generated.

Further, the controller is also used for starting the sliding motor after the monofilament is stretched, and driving the sliding block and the second sub-lead screw to move along the guide rail until the monofilament returns to the initial position.

And after one carding is finished, the second sub-silk rod returns to the initial position, namely the silk feeding end A, so that the next movement is carried out to comb the monofilaments. In this embodiment, it is necessary to ensure that the second tapping rod moves smoothly and slowly, and no other influence is caused on the monofilament.

Further, the method also comprises the following steps: a static pressure water tank 19, the static pressure water tank 19 is arranged close to the hot water tank 8,

the water tank is characterized by comprising a communication water pipe 17, wherein the communication water pipe 17 is arranged in the hot water tank 8, the communication water pipe 17 is communicated with the static pressure water tank 19, and a plurality of through holes 18 are formed in the communication water pipe 17.

This embodiment is through setting up the static pressure water tank by the hot-water tank, communicates between static pressure water tank and the hot-water tank, transmits water to the hot-water tank in through this static pressure water tank, and it is steady to have guaranteed to carry out the rivers in the tensile hot-water tank of monofilament for the monofilament does not fold when tensile, guarantees the tensile quality of monofilament, and has higher homogeneity, thereby guarantees indexes such as breaking strength, elongation at break, the thermal contraction of monofilament.

Further, the communication water pipe 17 is arranged at a position close to the bottom of the hot water tank 8, and the communication water pipe 17 is horizontally arranged in the hot water tank.

The intercommunication water pipe is arranged at the position, close to the bottom, of the hot water tank in the embodiment, the flow velocity of water flow in the hot water tank is ensured to be small, the water flow is stable, turbulence cannot occur, and doubling of filaments cannot occur.

Furthermore, the through holes 18 are uniformly formed in the communication water pipe 17, and the through holes 8 face the side face of the hot water tank 8.

The water flow rate can be dispersed through the through holes, and the stability of water flow in the hot water tank is further ensured; the through hole in the embodiment is arranged towards the side face of the hot water tank, the influence of water flow in the through hole on the monofilaments on the hot water tank is small, the fluctuation of the water flow is further reduced, and the stability of the water flow in the hot water tank is ensured.

Further, the method also comprises the following steps: the first water tank 5 is connected to a tap water inlet 1, a first electromagnetic valve 3 is arranged between the first water tank 5 and the tap water inlet 1,

be equipped with level gauge 4 in the first water tank 5, level gauge 4 is used for detecting the liquid level height in the first water tank 5.

The first water tank in this embodiment is the liquid level control water tank, and first water tank is connected to the running water inlet, carries out the detection of real-time liquid level through the level gauge that sets up wherein, the liquid level height in further first water tank of control and the second water tank.

Further, the method also comprises the following steps: a second water tank 6, wherein the water inlet of the second water tank 6 is connected to the first water tank 5, the water outlet of the second water tank 6 is connected to the static pressure water tank 19,

a second electromagnetic valve is arranged between the first water tank 5 and the second water tank 6, a hot water pump 7 is arranged between the second water tank 6 and the static pressure water tank 19, and third electromagnetic valves are respectively arranged on two sides of the hot water pump 7.

The second water tank is circulating water tank in this embodiment, and the liquid level height in the second water tank is the same with the liquid level height in the first water tank, and the second water tank is connected to static pressure water tank to the centre sets up the hot-water pump, carries water to static pressure water tank in through the hot-water pump, and the pressurized water tank communicates with the hot water tank each other, and the static pressure water tank lower extreme is equipped with the intercommunication water pipe that stretches out the setting of static pressure water tank, and the intercommunication water pipe stretches into the hot water inslot and sets up, transmits the hot water in the static pressure water tank to the hot water inslot. Between first water tank and the second water tank, between second water tank and the hot-water pump, all be equipped with the solenoid valve between hot-water pump and the static pressure water tank, first water tank and second water tank still are equipped with the leakage fluid dram, also are equipped with the valve between first water tank and the second water tank and respective leakage fluid dram, can carry out the control of each structure respectively through a plurality of valves, overhauls different structures or device.

Furthermore, two opposite sides of the hot water tank 8 are respectively provided with an overflow water tank 9,

the overflow water tank 9 is further provided with a water outlet, the water outlet of the overflow water tank 9 is connected to the second water tank 6, and a drain valve 21 is arranged between the overflow water tank 9 and the second water tank 6.

In this embodiment, overflow water tanks are disposed on both sides of the hot water tank, the bottom of each overflow water tank is connected to the second water tank through a pipeline, the overflow water tanks are used for receiving and recycling water overflowing from the hot water tank, and the recycled water is received into the second water tank. A drain valve is arranged between the overflow water tank and the second water tank, so that the operation and the maintenance are convenient.

Further, the height of the hot water tank 8 on the side contacting the overflow water tank 9 is smaller than the height of the hot water tank on the side not contacting the overflow water tank 9.

In this embodiment, the water overflowing from the hot water tank is collected through the overflow water tank, and in order to ensure the cleanness of the outside of the hot water tank, the bottom of the hot water tank close to one side of the overflow water tank is highly arranged, so that the water in the hot water tank flows into the overflow water tank.

Furthermore, the bottom of the static pressure water tank 19 and the hot water tank 8 are provided with a steam heater 20 and/or an electric heater 22,

the steam heater 20 is further provided with a water outlet, and the water outlet of the steam heater 20 is connected to the second water tank 6.

In the embodiment, the monofilaments are stretched through the environment of a hot water bath, so that a water heating system is arranged, the water heating system comprises a steam heater and/or an electric heater and a temperature sensor, the steam heater and the electric heater are arranged at the bottom of a hot water tank, the temperature sensor is arranged in the hot water tank, an electromagnetic valve is arranged at an air inlet of the steam heater, the opening and closing of the electromagnetic valve are controlled according to the water temperature in the hot water tank detected by the temperature sensor, a drain valve is arranged at an air outlet of the steam heater and connected to a second water tank, and condensed water in a steam heating pipeline is discharged into the second water tank for recycling; the temperature sensor detects the water temperature in the hot water tank and controls the starting and stopping of the electric heater. When the steam heater and the electric heater exist simultaneously, the steam heater can be used frequently according to the field condition, the cost is low, and the electric heater is selected to be started for heating when the steam heater is overhauled.

Further, a temperature sensor 24 is further included, and the temperature sensor 24 is arranged in the static pressure water tank 19 and the hot water tank 8;

the controller is used for receiving the liquid level height detected by the liquid level meter 4 and controlling the first electromagnetic valve 3 to be opened and closed according to the liquid level height;

the controller is also used for receiving the temperature signal of the temperature sensor, and controlling the opening and closing of the second electromagnetic valve or controlling the starting and stopping of the electric heater according to the temperature signal.

In the embodiment, the monofilament needs to be stretched in a hot water environment, and the hot water temperature needs to be controlled, so that the temperature sensor is arranged to detect the water temperature in real time, and the detection is more accurate when the temperature sensor is arranged at a position close to the stretching position of the monofilament; the controller is further used for controlling the heating system to be started or stopped, and the corresponding second electromagnetic valve is further controlled to be opened or closed according to the liquid level meter.

Further, the tops of the hot water tank 8 and the static pressure water tank 19 are also provided with a heat preservation cover 23;

and a tap water softener 2 is also arranged between the first electromagnetic valve 3 and the tap water inlet 1.

Still set up the tap water softener between first water tank and the inlet tube, set up the solenoid valve between first water tank and the tap water softener, set up the level gauge in the first water tank, the level gauge is used for detecting the liquid level height in the first water tank and according to the break-make of liquid level height control solenoid valve, the tap water softener softens the water in the system, long-time use reduces the production of incrustation scale in other devices, guarantee the heat exchange efficiency of heater, improve equipment's life.

The water circulation system of the device has the following water flow working process: the water inlet is connected with common tap water, the tap water enters the tap water softener to be softened, then sequentially enters the first water tank and the second water tank, the liquid level of the first water tank is consistent with that of the second water tank, water in the second water tank is pumped to the static pressure water tank through the hot water pump, the water in the static pressure water tank flows into the hot water tank through the communicating water pipe, the water flow in the hot water tank fluctuates slowly, no turbulence is generated, the monofilaments are heated uniformly in the hot water tank, and the quality of the monofilaments is ensured; the water in the hot-water tank increases, overflows gradually, and the rivers that overflow flow to the overflow water tank, and the overflow water tank is connected to the second water tank and carries out reuse, forms hydrologic cycle, resources are saved.

The above description is only a preferred embodiment of the application and is illustrative of the principles of the technology employed. It will be appreciated by a person skilled in the art that the scope of the invention according to the present application is not limited to the specific combination of the above-mentioned features, but also covers other embodiments where any combination of the above-mentioned features or their equivalents is made without departing from the inventive concept. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.

Claims (8)

1. The water heating device for post-stretching the monofilaments is characterized by comprising a hot water tank, wherein the hot water tank is used for placing the monofilaments to be stretched;

the wire dividing device comprises a first wire dividing rod and a second wire dividing rod, the first wire dividing rod is fixedly arranged on one side of the hot water tank, and the second wire dividing rod is movably arranged on one side opposite to the first wire dividing rod;

the second sub-screw rod can move close to and far away from the first sub-screw rod;

the hot water tank is characterized by further comprising at least one guide rail, wherein the guide rail is arranged along one side of the hot water tank where the first split screw rod or the second split screw rod is not installed;

the guide rail is provided with a sliding block, the second sub-screw rod is fixedly connected with the sliding block, and the sliding block drives the second sub-screw rod to slide along the guide rail;

further comprising: a static pressure water tank arranged close to the hot water tank,

the water tank is communicated with the static pressure water tank, and a plurality of through holes are formed in the communicated water pipe.

2. The monofilament post-drawn water heating device according to claim 1, wherein said filament dividing means comprises a first rail and a second rail, said first rail and said second rail being provided at opposite sides in said hot water tank,

the first guide rail and the second guide rail are arranged along the side surface of the hot water tank where the first split screw rod or the second split screw rod is not installed.

3. The monofilament post-draw water heating apparatus of claim 2, wherein said filament separating means further comprises a slide motor connected to said slider for moving said slider along said guide rail.

4. The monofilament post-stretching water heating device according to claim 2, wherein said first tapping rod and said second tapping rod are provided with a plurality of grooves side by side on the surface thereof, each of said grooves being adapted to receive one monofilament.

5. The monofilament post-stretching water heating apparatus according to claim 4, wherein a plurality of said grooves are uniformly provided on the surfaces of said first and second divided screw bars.

6. The monofilament post-stretched water heating device according to claim 4, wherein the number of grooves is 150 to 200.

7. The water heating apparatus for monofilament post-stretching according to claim 3, further comprising a controller, wherein the controller is configured to activate the sliding motor after the monofilament is placed on the second branch screw, so as to drive the sliding block and the second branch screw to move along the guide rail until the first branch screw is reached.

8. The water heating apparatus for monofilament post-stretching of claim 7, wherein said controller is further configured to activate said slide motor after the monofilament is stretched, and to move said slide block and said second branch screw along said guide rail until the monofilament is returned to the initial position.

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