CN222119623U - A textile fiber cleaning machine - Google Patents

Abstract

The utility model relates to the technical field of textile fibers, and discloses a textile fiber cleaning machine, including a box, a feed trough, a blower, a through pipe, a storage box, a water tank, a water pump and a stirring rod, a feed trough is provided at the upper left of the box, a blower is provided at the right outer side of the feed trough, a storage box is provided at the left outer side of the feed trough, a through pipe is provided on the storage box, and the through pipe extends into the feed trough, a water tank is provided at the back of the box, a water pump is provided at the upper end of the water tank, a water guide pipe is provided on the water pump, and the other end of the water guide pipe extends into the interior of the box, a motor box is provided at the upper end of the box, a rotating shaft is provided at the lower end of the motor box, and the rotating shaft extends into the interior of the box, and a stirring rod is provided on the rotating shaft. The utility model can blow out part of the dust mixed in the textile fibers by providing a feed trough above the box, providing a storage box and a blower on the feed trough.

Description

Textile fiber cleaning machine

Technical Field

The utility model relates to the technical field of textile fibers, in particular to a textile fiber cleaning machine.

Background

In the field of fiber material cleaning treatment, in particular in the textile industry, cleaning textile fibers is an important link for ensuring the quality of fiber products. Conventional textile fiber cleaning devices typically employ water washing or mechanical cleaning, but have some problems.

When the conventional textile fiber cleaning equipment is used for processing textile fibers, fine impurities and dust in the fibers are difficult to thoroughly remove, and particularly, tiny particles such as fine fiber scraps, chemical residues and the like are deeply hidden in the fibers. These minor impurities may not only affect the quality of the fibers, but may also result in poor appearance of the finished product, reducing the market competitiveness of the product. Meanwhile, the traditional equipment often needs a large amount of water resources in the cleaning process, so that resource waste is caused, and the production cost is increased. In addition, the cleaning process of conventional equipment typically requires a long processing time, which consumes a significant amount of manpower and time costs.

To this end, we propose a textile fibre washing machine.

Disclosure of utility model

Technical problem to be solved

Aiming at the defects of the prior art, the utility model provides a textile fiber cleaning machine, which solves the problems.

Technical proposal

In order to achieve the above purpose, the textile fiber cleaning machine comprises a box body, a feed chute, an air blower, a through pipe, a storage box, a water tank, a water pump and a stirring rod, wherein the feed chute is arranged at the upper left side of the box body and is convenient for conveying textile fibers to be cleaned into the box body, the air blower is arranged at the outer right side of the feed chute, when the feed chute conveys the textile fibers, the air blower blows air to the textile fibers, part of dust mixed in the textile fibers can be blown into the through pipe, dust in the blown through pipe slides into the storage box, the left outer side of the feed chute is provided with the storage box, the through pipe is arranged on the storage box, the through pipe extends into the feed chute, the water tank is arranged at the rear side of the box body, the water pump is arranged at the upper end of the water tank, a water guide pipe is arranged on the water pump, when the textile fibers are conveyed into the box body, the water pump sucks water into the water guide pipe, the water guide pipe conveys the water into the box body, the other end of the water guide pipe extends into the box body, the motor of the water guide pipe extends into the rotating shaft of the box body, the motor is arranged at the left outer side of the box body, the rotating shaft is arranged at the rotating shaft of the motor, the rotating shaft is arranged at the upper end of the box, and the stirring rod is arranged at the rotating end of the motor, and the rotating shaft is arranged at the rotating shaft of the motor, and the rotating shaft is arranged at the end of the box, and after the rotating shaft and the rotating shaft is arranged at the rotating shaft and rotates, and the rotating shaft and rotates.

As a preferable technical scheme of the utility model, the front side of the box body is provided with a PLC1200 controller, the PLC1200 controller is provided with a control key, the left side of the PLC1200 controller is provided with an output pipe, the cleaned water can be output from the output pipe, the lower port of the output pipe is provided with threads, and the output pipe is screwed with a pipe cap.

As a preferable technical scheme of the utility model, the left side of the box body is provided with the cleaning door, the cleaning door is provided with the handle, and after the textile fiber cleaning work is finished, the cleaning door can be opened to take out the cleaned textile fiber.

As a preferable technical scheme of the utility model, a water feeding pipe is arranged at the upper left of the water tank so as to be convenient for feeding water into the water tank, an electromagnetic valve is arranged on the water guiding pipe and used for controlling the opening and closing of the water guiding pipe, an ejector is arranged at one end of the water feeding pipe, which is positioned in the tank body, and the ejector and the water feeding pipe are welded together.

As a preferable technical scheme of the utility model, the liquid level sensor is arranged on the right inner wall of the box body and used for monitoring the liquid level value in the box body, the vertical rod is welded at the inner top of the box body, when the stirring rod stirs textile fibers and water, the friction between the textile fibers and the water can be increased by the vertical rod, so that the textile fibers can be cleaned more cleanly, and the vertical rod is welded outside the rotation range of the stirring rod and does not interfere the work of the stirring rod.

As a preferable technical scheme of the utility model, the bottom of the box body is provided with a support column for supporting the device, and the bottom of the support column is provided with an anti-slip pad.

As a preferable technical scheme of the utility model, the air blower is provided with the air outlet, the air outlet extends into the feeding groove, the air outlet faces the through pipe, the through pipe is provided with the isolation window with smaller gap, the air blower can be prevented from blowing textile fibers into the through pipe, the diameter of the through pipe is larger than that of the air outlet, the through pipe is designed downwards in a forty-five-degree inclined manner, the air blower blows the textile fibers, part of dust doped in the textile fibers can be blown into the through pipe, and the dust blown into the through pipe slides into the storage box.

Advantageous effects

Compared with the prior art, the utility model provides a textile fiber cleaning machine, which has the following beneficial effects:

(1) Through being equipped with the air-blower in the right side outside of feed chute, the left side of feed chute is equipped with the storage tank, be equipped with the siphunculus on the storage tank, the siphunculus stretches into in the feed chute, be equipped with the air exit on the air-blower, the air exit stretches into the inside of feed chute, the air exit is right to the siphunculus, be equipped with the less isolation window in clearance on the siphunculus, the diameter of siphunculus is greater than the diameter of air exit, the siphunculus adopts forty-five degrees slope downward designs, the air-blower blows air-into textile fiber, can blow the siphunculus with the partial dust of doping in the textile fiber, in the dust slip in the blowing-in siphunculus, the result of use of the device has been improved.

Drawings

FIG. 1 is a schematic view of an isometric structure of the present utility model;

FIG. 2 is a schematic view of the structure of the upper and lower equiangular axes of the present utility model;

FIG. 3 is a schematic view of the left-side view of the present utility model;

Fig. 4 is a schematic view of the front cut-away structure of the present utility model.

In the figure, 1, a feed tank; 2, an isolation window, 3, a through pipe, 4, a storage box, 5, a box body, 6, an output pipe, 7, a pipe cap, 8, an air blower, 9, a motor box, 10, a water tank, 11, a water pump, 12, a water guide pipe, 13, an electromagnetic valve, 14, a water feeding pipe, 15, a cleaning door, 16, a handle, 17, a support column, 18, a vertical rod, 19, an ejector, 20, a rotating shaft, 21, a stirring rod, 22, a liquid level sensor, 23 and a PLC1200 controller.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the utility model provides a technical scheme that a textile fiber cleaning machine comprises a box body 5, a feed chute 1, an air blower 8, a through pipe 3, a storage box 4, a water tank 10, a water pump 11 and a stirring rod 21, wherein the feed chute 1 is arranged at the upper left of the box body 5, textile fibers to be cleaned are conveniently conveyed into the box body 5, the air blower 8 is arranged at the right outer side of the feed chute 1, when the feed chute 1 conveys the textile fibers, the air blower 8 blows the textile fibers, dust in the doped parts of the textile fibers can be blown into the through pipe 3, the dust blown into the through pipe 3 slides into the storage box 4, the storage box 4 is arranged at the left outer side of the feed chute 1, the through pipe 3 is arranged on the storage box 4, the through pipe 3 extends into the feed chute 1, the water tank 10 is arranged at the rear of the box body 5, the water pump 11 is arranged at the upper end of the water tank 10, the water pump 11 is arranged on the water pump 11, when the textile fibers are conveyed into the box body 5, the water in the water tank 10 is sucked into the water guide pipe 12, the water guide pipe 12 conveys the textile fibers into the box body 5, the water guide pipe 12 blows the textile fibers into the rotating shaft 20, the rotating shaft 20 is arranged at the other end of the water guide shaft 20, and the rotating shaft 20 is arranged at the end of the water guide shaft 20 extending into the box body 9, and the rotating shaft 20 is arranged at the end of the motor 5, and the rotating shaft 20 is arranged at the end of the rotating shaft 9 and is arranged at the end of the stirring shaft, and the rotating shaft 20 is arranged at the rotating shaft end of the motor.

In the utility model, the front surface of the box body 5 is provided with a PLC1200 controller 23, the PLC1200 controller 23 is provided with a control key, the left side of the PLC1200 controller 23 is provided with an output pipe 6, the cleaned water can be output from the output pipe 6, the lower port of the output pipe 6 is provided with threads, and the output pipe 6 is screwed with a pipe cap 7.

In the utility model, the cleaning door 15 is arranged on the left side of the box body 5, the handle 16 is arranged on the cleaning door 15, and when the cleaning work of the textile fibers is finished, the cleaning door 15 can be opened to take out the cleaned textile fibers.

In the utility model, a water adding pipe 14 is arranged at the upper left of the water tank 10, so that water can be conveniently added into the water tank 10, an electromagnetic valve 13 is arranged on the water guiding pipe 12 and used for controlling the opening and closing of the water guiding pipe 12, an ejector 19 is arranged at one end of the water adding pipe 14 positioned in the tank body 5, and the ejector 19 and the water adding pipe 14 are welded together.

According to the utility model, the liquid level sensor 22 is arranged on the right inner wall of the box body 5 and used for monitoring the liquid level value in the box body 5, the vertical rod 18 is welded at the inner top of the box body 5, when the stirring rod 21 stirs textile fibers and water, the friction between the textile fibers and the water can be increased by the vertical rod 18, so that the textile fibers can be cleaned more cleanly, and the vertical rod 18 is welded outside the rotation range of the stirring rod 21 and does not interfere the work of the stirring rod 21.

In the utility model, the bottom of the box body 5 is provided with a support column 17 for supporting the device, and the bottom of the support column 17 is provided with an anti-slip pad.

According to the utility model, the air blower 8 is provided with the air outlet, the air outlet extends into the feeding groove 1, the air outlet faces the through pipe 3, the through pipe 3 is provided with the isolation window 2 with a smaller gap, the air blower 8 can be prevented from blowing textile fibers into the through pipe 3, the diameter of the through pipe 3 is larger than that of the air outlet, the through pipe 3 is designed to be inclined downwards at forty-five degrees, the air blower 8 is used for blowing the textile fibers, part of dust doped in the textile fibers can be blown into the through pipe 3, and the dust blown into the through pipe 3 slides into the storage box 4.

When the textile fiber cleaning machine is used, when the feeding groove 1 is used for conveying textile fibers, the air blower 8 blows air to the textile fibers, part of dust doped in the textile fibers can be blown into the through pipe 3, the dust blown into the through pipe 3 slides into the storage box 4, when the textile fibers are conveyed to the box body 5, the water in the water tank 10 is sucked into the water guide pipe 12 by the water pump 11, the water is conveyed into the box body 5 by the water guide pipe 12, after the water addition is finished, the motor box 9 drives the rotating shaft 20 to rotate, the stirring rod 21 is driven to stir the textile fibers and the water, the textile fibers are cleaned, and after the textile fiber cleaning work is finished, the cleaning door 15 can be opened, and the cleaned textile fibers are taken out.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A textile fiber cleaning machine, comprising a housing (5), a feed trough (1), a blower (8), a through pipe (3), a storage box (4), a water tank (10), a water pump (11) and a stirring rod (21), characterized in that: the feed trough (1) is provided at the upper left of the housing (5), the blower (8) is provided at the right outer side of the feed trough (1), the storage box (4) is provided at the left outer side of the feed trough (1), the through pipe (3) is provided on the storage box (4), and the through pipe (3) extends into the feed trough (1), the water tank (10) is provided at the rear of the housing (5), the water pump (11) is provided at the upper end of the water tank (10), a water pipe (12) is provided on the water pump (11), the other end of the water pipe (12) extends into the interior of the housing (5), a motor box (9) is provided at the upper end of the housing (5), a rotating shaft (20) is provided at the lower end of the motor box (9), the rotating shaft (20) extends into the interior of the housing (5), and a stirring rod (21) is provided on the rotating shaft (20). 2. A textile fiber cleaning machine according to claim 1, characterized in that: a PLC1200 controller (23) is provided on the front of the box (5), control buttons are provided on the PLC1200 controller (23), an output pipe (6) is provided on the left side of the PLC1200 controller (23), a thread is provided at the lower end of the output pipe (6), and a pipe cap (7) is screwed on the output pipe (6). 3. A textile fiber cleaning machine according to claim 1, characterized in that a cleaning door (15) is provided on the left side of the box body (5), and a handle (16) is provided on the cleaning door (15). 4. A textile fiber cleaning machine according to claim 1, characterized in that: a water filling pipe (14) is provided on the upper left of the water tank (10), a solenoid valve (13) is provided on the water guide pipe (12), and an ejector (19) is provided at one end of the water filling pipe (14) located inside the box body (5), and the ejector (19) is welded together with the water filling pipe (14). 5. A textile fiber cleaning machine according to claim 1, characterized in that: a liquid level sensor (22) is provided on the right inner wall of the box body (5), and a vertical rod (18) is welded to the inner top of the box body (5), and the vertical rod (18) is welded outside the rotation range of the stirring rod (21). 6. A textile fiber cleaning machine according to claim 1, characterized in that a support column (17) is provided at the bottom of the box (5), and an anti-slip pad is provided at the bottom of the support column (17). 7. A textile fiber cleaning machine according to claim 1, characterized in that: the blower (8) is provided with an exhaust port, the exhaust port extends into the interior of the feed trough (1) and faces the through pipe (3), the through pipe (3) is provided with an isolation window (2) with a small gap, the diameter of the through pipe (3) is larger than the diameter of the exhaust port, and the through pipe (3) is designed to be inclined downward at forty-five degrees.