CN111172604A

CN111172604A - Circular blowing fan of chemical fiber equipment

Info

Publication number: CN111172604A
Application number: CN202010136384.5A
Authority: CN
Inventors: 吴海月
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-03-02
Filing date: 2020-03-02
Publication date: 2020-05-19

Abstract

The invention relates to the technical field of drying equipment, in particular to a circular blowing fan of chemical fiber equipment, which comprises a workbench, a main pipeline, a gas supply mechanism and an auxiliary transmission mechanism, wherein a support table is fixedly arranged beside the workbench, the main pipeline is fixedly arranged at the upper ends of the workbench and the support table and is communicated with the workbench and the support table, the gas supply mechanism is arranged below the main pipeline and is communicated with the main pipeline through a pipeline network, the auxiliary transmission mechanism is arranged on the workbench, an inner pipe is embedded in the main pipeline and is communicated with the main pipeline.

Description

Circular blowing fan of chemical fiber equipment

Technical Field

The invention relates to the technical field of drying equipment, in particular to a circular blowing fan of chemical fiber equipment.

Background

The chemical fiber is a chemical fiber, which is made of natural or synthetic polymer. Depending on the source of the raw material, the fiber can be classified into artificial fiber using a natural polymer as the raw material and synthetic fiber using a synthetic polymer as the raw material.

Chemical fibers are generally prepared by first forming a natural or synthetic polymeric or inorganic substance into a spinning melt or solution, then filtering, metering, extruding through a spinneret plate into a liquid stream, and then coagulating to form the fiber.

With the progress of society, the chemical fiber industry has had great development, and the demand of chemical fiber product is also bigger and bigger, and current chemical fiber drying device, its defect lies in that the chemical fiber filament drying is inhomogeneous, therefore, we need to design the ring of chemical fiber equipment and blow the fan.

Disclosure of Invention

The technical problem to be solved by the invention is to provide the circular blowing fan of the chemical fiber equipment, and the technical scheme solves the problem of uneven chemical fiber drying.

In order to solve the technical problems, the invention provides the following technical scheme:

the utility model provides a chemical fibre equipment's ring is bloied and is fanned, including workstation, trunk line, air feed mechanism, auxiliary transmission mechanism, the fixed brace table that is provided with in side of workstation, the fixed upper end that sets up at workstation and brace table of trunk line to trunk line and workstation, brace table intercommunication, air feed mechanism set up the below at the trunk line, and air feed mechanism passes through pipeline network and trunk line intercommunication, auxiliary transmission mechanism sets up on the workstation, the inner tube has still been inlayed to the inside of trunk line, inner tube and trunk line intercommunication.

As an optimal selection scheme of the circular blowing fan of the chemical fiber equipment, the air supply mechanism comprises a compressor and an air storage bottle, the compressor is fixedly arranged at the side of the supporting table, the compressor is fixedly arranged at the side of the workbench through a base plate, and the compressor is fixedly connected with the air storage bottle through a hose.

As an optimal scheme of the fan is bloied to ring of chemical fibre equipment, the pipeline network includes the gas receiver, first branch pipe, second branch pipe and third branch pipe, the gas receiver is fixed directly over the trunk line along the length direction level of trunk line, and the gas receiver is through a plurality of fixed intercommunications to fourth branch pipe and trunk line, the both ends of first branch pipe respectively with the fixed intercommunication of trunk line, the one end of second pipeline and the fixed intercommunication in middle part of first branch pipe, the other end of second branch pipe and the one end fixed connection of third branch pipe, the other end and the fixed intercommunication of gas bomb of third branch pipe.

As an optimal scheme of the circular blowing fan of the chemical fiber equipment, four rows of air inlets are uniformly formed in the inner pipe along the circumferential direction of the inner pipe, the four rows of air inlets are horizontally formed in the inner pipe along the length direction of the inner pipe, and each air inlet is obliquely formed in the inner pipe.

As an optimal scheme of a circular blowing fan of chemical fiber equipment, the auxiliary transmission mechanism comprises two L-shaped supports, the two supports are symmetrically and fixedly arranged on the workbench, and the upper ends of the two supports are respectively and rotatably provided with a pair of rollers for transmission.

As an optimal selection scheme of a circular blowing fan of chemical fiber equipment, a first infrared sensor is fixedly arranged on each of the two supports, and a second infrared sensor is fixedly arranged at the upper end of the middle of each support.

As a preferred scheme of the circular blowing fan of the chemical fiber equipment, a filter tip for filtering air is fixedly arranged on the compressor.

As an optimal selection scheme of a circular blowing fan of chemical fiber equipment, one end of a gas storage cylinder is fixedly provided with a pressure gauge for detecting the pressure in the gas storage cylinder.

As a preferred scheme of the circular blowing fan of the chemical fiber equipment, the second branch pipe is fixedly provided with an electromagnetic valve for controlling gas output.

As a preferred scheme of the circular blowing fan of the chemical fiber equipment, the radius of the second branch pipe is larger than that of the third branch pipe.

Compared with the prior art, the invention has the beneficial effects that:

firstly, a worker starts a compressor, air is compressed and stored in a gas storage bottle along a hose, then the compressor can be closed, then, the opening of a solenoid valve is controlled, so that the air enters a main pipeline along a pipeline network and then enters an inner pipe, the chemical fiber filaments in the pipeline are cooled, the chemical fiber filaments are stabilized at the central position of the inner pipe, the cooled chemical fiber filaments enter a machine of the next procedure along rollers in an auxiliary transmission mechanism, the worker observes the amount of the air in the gas storage bottle through a pressure gauge at intervals, and the air is required to be inflated in time when the air is insufficient;

the circular blowing fan of the chemical fiber equipment can carry out all-around cooling and drying on chemical fiber filaments, and the equipment is environment-friendly and reliable and meets the market requirements.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a schematic perspective view of the air supply mechanism of the present invention;

FIG. 5 is a partial enlarged view of the portion B in FIG. 4;

FIG. 6 is an enlarged view of a portion of FIG. 4 at C;

FIG. 7 is a schematic perspective view of a piping network according to the present invention;

FIG. 8 is a schematic perspective view of the auxiliary transmission mechanism of the present invention;

FIG. 9 is a schematic cross-sectional view of the main conduit of the present invention.

The reference numbers in the figures are: a work table 1; a main pipeline 2; an air supply mechanism 3; an auxiliary transmission mechanism 4; a support table 5; a pipeline network 6; an inner tube 7; a compressor 8; a gas cylinder 9; a backing plate 10; a hose 11; a gas storage tube 12; a first branch pipe 13; a second branch pipe 14; a third branch pipe 15; a fourth branch pipe 16; a support 17; a roller 18; a first infrared sensor 19; a second infrared sensor 20; a filter 21; a pressure gauge 22; a solenoid valve 23.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to figure 1 to figure 9 shows a chemical fibre equipment's ring fan of blowing, comprises a workbench 1, trunk line 2, air feed mechanism 3, auxiliary transmission mechanism 4, the fixed brace table 5 that is provided with in side of workstation 1, trunk line 2 is fixed to be set up in the upper end of workstation 1 and brace table 5, and trunk line 2 and workstation 1, brace table 5 intercommunication, air feed mechanism 3 sets up the below at trunk line 2, and air feed mechanism 3 passes through pipeline network 6 and trunk line 2 intercommunication, auxiliary transmission mechanism 4 sets up on workstation 1, inner tube 7 has still been inlayed to trunk line 2's inside, inner tube 7 and trunk line 2 intercommunication. Firstly, start air feed mechanism 3, it is gaseous along pipeline network 6 entering trunk line 2, reentrant inner tube 7 in, thereby chemical fiber filament to in the pipeline cools down, also make chemical fiber filament stabilize the central point at inner tube 7 simultaneously and put, so that the chemical fiber filament of cooling end enters into the machine of next process along auxiliary transmission mechanism 4 on, workstation 1 and brace table 5's setting, be convenient for trunk line 2 and auxiliary transmission mechanism 4's installation, air feed mechanism 3's installation, be convenient for to trunk line 2 and inner tube 7 provide the compressed air source, pipeline network 6's setting, be in order to guarantee that the compressed air source of air feed mechanism 3 output can be smooth conveying trunk line 2 and inner tube 7, auxiliary transmission mechanism 4's installation, be for on the machine of next process is exported to the chemical fiber filament of the convenience of cooling completion.

The air supply mechanism 3 comprises a compressor 8 and an air storage bottle 9, the compressor 8 is fixedly arranged at the side of the support table 5, the compressor 8 is fixedly arranged at the side of the workbench 1 through a cushion plate 10, and the compressor 8 is fixedly connected with the air storage bottle 9 through a hose 11. Firstly, the operation of compressor 8, with the air compression back, in the gas bomb 9 is inputed along hose 11 to store in the gas bomb 9, when needs carry out the air feed to trunk line 2, with the compressed gas output in the gas bomb 9 can, the installation of compressor 8 can provide continuous compressed gas, the setting of hose 11 is convenient for store the compressed gas of compressor 8 output in the gas bomb 9 along hose 11, the installation of gas bomb 9 is favorable to storing compressed gas.

Pipeline network 6 includes gas storage pipe 12, first branch pipe 13, second branch pipe 14 and third branch pipe 15, gas storage pipe 12 is directly over trunk line 2 along the fixed setting of length direction level of trunk line 2, and gas storage pipe 12 is through a plurality of fixed intercommunications of fourth branch pipe 16 and trunk line 2, the both ends of first branch pipe 13 communicate with trunk line 2 is fixed respectively, the one end of second pipeline and the fixed intercommunication in middle part of first branch pipe 13, the other end of second branch pipe 14 and the one end fixed connection of third branch pipe 15, the other end and the fixed intercommunication of gas bomb 9 of third branch pipe 15. Firstly, the gas storage bottle 9 outputs compressed gas, the compressed gas enters the gas storage pipe 12 along the third branch pipe 15, the second branch pipe 14 and the first branch pipe 13, then the compressed gas enters the main pipe 2 and the inner pipe 7 along the three pairs of fourth branch pipes 16 through the gas storage pipe 12, and the gas storage pipe 12, the first branch pipe 13, the second branch pipe 14, the third branch pipe 15 and the fourth branch pipe 16 are installed, so that the gas can be blown out from the inner pipe 7 uniformly, and uniform and stable cooling is ensured.

Four rows of air inlets are uniformly formed in the inner pipe 7 along the circumferential direction of the inner pipe 7, the four rows of air inlets are horizontally formed in the inner pipe 7 along the length direction of the inner pipe 7, and each air inlet is obliquely formed in the inner pipe 7. At first, inner tube 7 is cylindricly, and ninety degrees intervals just open on the stack shell of drum has the inlet port of an slope, is favorable to gaseous letting in trunk line 2 back, again from trunk line 2 along the inlet port of four rows enter into inner tube 7 in, cools down the chemical fibre filament in inner tube 7, again because the inlet port slope has the angle, can let gaseous rotatory air current in the pipeline formation, when guaranteeing that chemical fibre filament cools down in the pipeline, can be stable be in the pipeline center.

The auxiliary transmission mechanism 4 comprises two L-shaped supports 17, the two supports 17 are symmetrically and fixedly arranged on the workbench 1, and a pair of rollers 18 for transmission are respectively and rotatably arranged at the upper ends of the two supports 17. Firstly, chemical fiber filament can be along the middle part of a pair of gyro wheel 18 after the cooling, is conveyed away, enters into the machine of next process on, and the installation of support 17 is favorable to the installation of gyro wheel 18, and the transmission of chemical fiber filament is favorable to in the setting of gyro wheel 18.

First infrared sensors 19 are fixedly arranged on the two supports 17, and second infrared sensors 20 are fixedly arranged at the upper ends of the middle parts of the support tables 5. First, the installation of the first infrared sensor 19 is to facilitate the detection of the temperature of the chemical fiber filament at the inlet of the inner tube 7, and the installation of the second infrared sensor 20 is to facilitate the detection of whether the chemical fiber filament reaches the required standard after the cooling is finished.

A filter 21 for filtering air is fixed to the compressor 8. Firstly, the filter 21 is installed to facilitate the filtration of the air inlet of the compressor 8 during the operation of the compressor 8, so as to ensure the cleanness of the air in the whole device, thereby ensuring the cleanness of the compressed air source in the air storage bottle 9, further ensuring the cleanness of the inner walls of the air storage pipe 12, the first branch pipe 13, the second branch pipe 14, the third branch pipe 15 and the fourth branch pipe 16, and avoiding the attachment of impurities to the chemical fiber filaments during the cooling process.

A pressure gauge 22 for detecting the pressure in the gas cylinder 9 is fixedly arranged at one end of the gas cylinder 9. Firstly, the pressure gauge 22 is arranged to facilitate the observation of the gas capacity in the gas cylinder 9, so as to facilitate the inflation if the compressor 8 is required to operate.

An electromagnetic valve 23 for controlling the output of the gas is fixedly arranged on the second branch pipe 14. Firstly, the solenoid valve 23 is installed to facilitate the output of the compressed gas inside the gas cylinder 9 and the intermittent supply of the gas cylinder 9.

The radius of the second branch 14 is larger than the radius of the third branch 15. First, the radius of the third branch pipe 15 is smaller than that of the second branch pipe 14, which is beneficial for the gas to flow from a thin pipe to a thick pipe, and the effect of reducing the wind speed is achieved.

The working principle is as follows: firstly, the staff starts compressor 8, with air compression and store in the middle of the gas bomb 9 along hose 11, later alright with closing compressor 8, then, opening of control solenoid 23, make gas enter into trunk line 2 along pipeline network 6, reenter in the inner tube 7, thereby cool down the chemical fiber filament in the pipeline, also make chemical fiber filament stabilize the central point at inner tube 7 simultaneously and put, the chemical fiber filament that the cooling ended is along gyro wheel 18 in auxiliary transmission mechanism 4, enter into on the machine of next process, staff interval a period, observe the gas quantity in the gas bomb 9 through manometer 22, need in time aerify when gas is not enough.

Claims

1. The utility model provides a chemical fibre equipment's ring is blown fan, a serial communication port, including workstation (1), trunk line (2), air feed mechanism (3), auxiliary transmission mechanism (4), the fixed brace table (5) that is provided with of side of workstation (1), trunk line (2) are fixed to be set up the upper end at workstation (1) and brace table (5), and trunk line (2) and workstation (1), brace table (5) intercommunication, air feed mechanism (3) set up the below in trunk line (2), and air feed mechanism (3) are through pipeline network (6) and trunk line (2) intercommunication, auxiliary transmission mechanism (4) set up on workstation (1), inner tube (7) have still been inlayed to the inside of trunk line (2), inner tube (7) and trunk line (2) intercommunication.

2. The circular blowing fan of the chemical fiber equipment is characterized in that the air supply mechanism (3) comprises a compressor (8) and an air storage bottle (9), the compressor (8) is fixedly arranged at the side of the support platform (5), the compressor (8) is fixedly arranged at the side of the workbench (1) through a backing plate (10), and the compressor (8) is fixedly connected with the air storage bottle (9) through a hose (11).

3. The circular blowing fan of the chemical fiber equipment as claimed in claim 2, wherein the pipeline network (6) comprises an air storage pipe (12), a first branch pipe (13), a second branch pipe (14) and a third branch pipe (15), the air storage pipe (12) is horizontally and fixedly arranged right above the main pipe (2) along the length direction of the main pipe (2), the air storage pipe (12) is fixedly communicated with the main pipe (2) through a plurality of pairs of fourth branch pipes (16), two ends of the first branch pipe (13) are fixedly communicated with the main pipe (2) respectively, one end of the second pipeline is fixedly communicated with the middle of the first branch pipe (13), the other end of the second branch pipe (14) is fixedly connected with one end of the third branch pipe (15), and the other end of the third branch pipe (15) is fixedly communicated with the air storage bottle (9).

4. The circular blowing fan of the chemical fiber equipment as claimed in claim 1, wherein four rows of air inlets are uniformly formed in the inner tube (7) along the circumferential direction of the inner tube (7), the four rows of air inlets are horizontally formed in the inner tube (7) along the length direction of the inner tube (7), and each air inlet is obliquely formed in the inner tube (7).

5. The circular blowing fan of the chemical fiber equipment is characterized in that the auxiliary transmission mechanism (4) comprises two L-shaped supports (17), the two supports (17) are symmetrically and fixedly arranged on the workbench (1), and the upper ends of the two supports (17) are respectively and rotatably provided with a pair of rollers (18) for transmission.

6. A circular blowing fan of chemical fiber equipment according to claim 5, characterized in that a first infrared sensor (19) is fixedly arranged on each of the two supports (17), and a second infrared sensor (20) is fixedly arranged at the upper end of the middle part of the support (5).

7. A circular blowing fan of chemical fiber equipment according to claim 2, characterized in that a filter (21) for filtering air is fixedly arranged on the compressor (8).

8. The circular blowing fan of the chemical fiber equipment is characterized in that a pressure gauge (22) for detecting the pressure in the gas cylinder (9) is fixedly arranged at one end of the gas cylinder (9).

9. A circular blowing fan of chemical fiber equipment according to claim 3, characterized in that the second branch pipe (14) is fixedly provided with an electromagnetic valve (23) for controlling gas output.

10. A circular blowing fan of chemical fiber equipment according to claim 3, characterized in that the radius of the second branch pipe (14) is larger than the radius of the third branch pipe (15).