CN115711237B

CN115711237B - Energy-saving axial flow fan for spinning

Info

Publication number: CN115711237B
Application number: CN202211541856.0A
Authority: CN
Inventors: 吴子才; 吴梅杰; 韩迎芳
Original assignee: Shandong Jinxin Air Conditioning Group Co ltd
Current assignee: Shandong Jinxin Air Conditioning Group Co ltd
Priority date: 2022-12-03
Filing date: 2022-12-03
Publication date: 2023-08-01
Anticipated expiration: 2042-12-03
Also published as: CN115711237A

Abstract

The invention provides an energy-saving axial-flow fan for spinning, which relates to the technical field of fans, wherein a camera shooting assembly is used for shooting a motor B, an electric push rod and a spring rod are arranged on the bottom end face of a cross member in a support frame, and a central control module is arranged at the bottom ends of the electric push rod and the spring rod.

Description

Energy-saving axial flow fan for spinning

Technical Field

The invention relates to the technical field of ventilators, in particular to an energy-saving axial flow ventilator for spinning.

Background

The axial flow fan is the most commonly used ventilation and air supply equipment in the market, and is called as an axial flow type because the air flows parallel to the axial flow of the fan, namely the air flows in the same direction with the axis of the fan blade, and the air flow fan can be used for more efficiently ventilating textile working environments when being applied to textile processing.

The ventilator has in the practical application process:

1. when ventilation operation is carried out to the ventilation blower, because there is a lot of weaving piece entering into the inside of ventilation blower in the textile processing process, and the ventilation blower lacks again and carries out real-time detection to whether there is the electric leakage condition to driving motor, if there is the potential safety hazard when the electric leakage condition appears easily.

In view of the above, the present invention provides an energy-saving axial-flow fan for textile, which is improved by researching the prior structure and the prior defects.

Disclosure of Invention

The invention provides an energy-saving axial flow fan for spinning, which solves the problems that when the fan is used for ventilation operation, a lot of spinning scraps enter the interior of the fan in the spinning processing process, the fan is lack of real-time detection on whether the driving motor has an electric leakage condition, and if the electric leakage condition occurs, potential safety hazards are easy to exist.

The invention provides a purpose and an effect of an energy-saving axial flow fan for spinning, which specifically comprise the following steps: the base and subassembly of making a video recording, the main part of base is rectangular structure, and fixedly connected with curb plate on the terminal surface of base, motor A has been installed on the right side of curb plate, and base and curb plate have formed bearing structure to motor A jointly, install the guide roll on motor A's the left side output, and the outer peripheral face of guide roll is coarse structure, the subassembly of making a video recording is used for shooing motor B, installs electric putter and spring bar on the terminal surface of cross member's the bottom in the support frame, and the well accuse module is installed to electric putter and spring bar's bottom.

Further, the inside sliding connection of ring channel that sets up in the guide seat has the slider, and every two vertically adjacent inboard fixedly connected with filter screen of slider, the outside face of filter screen is apart from the inner wall of guide seat, and this clearance is used for the support to pass, and motor B is installed on the top of pipe.

Further, well accuse module is used for handling the picture that the subassembly was shot of making a video recording, and well accuse module passes through electric putter adjustment vertical position, is to installing two detection components in opposite directions on the inner wall of well accuse module, and detection component is the extending structure that has the spring, and detection component is used for detecting motor B's electric leakage condition to well accuse module has the earth connection.

Further, the guide pipe is of a cylindrical structure, the connecting pipe upwards penetrates through the guide pipe, the top end of the base is fixedly connected with the support, the support is provided with two parts in total, the inner sides of the two parts of the support are fixedly connected with the inhalator, and the inhalator is connected with the connecting pipe.

Further, the left side coaxial arrangement of helical gear B has the fan body, and the fan body is used for ventilating, and the outside fixedly connected with support frame of base, the top face fixedly connected with couple of cross member in the support frame, still install the subassembly of making a video recording on the bottom face of cross member in the support frame.

Further, fixedly connected with stand on the terminal surface of base, the logical groove has been seted up to the inside of stand, and the internally mounted in this logical groove has the dust remover, and the takeover is installed on the top of dust remover, and the top fixedly connected with pipe of stand.

Furthermore, a bevel gear A is arranged at the bottom end of the motor B, a bevel gear B is further arranged on the inner wall of the guide pipe, the bevel gear B is meshed with the bevel gear A for transmission, and the motor B and the bevel gear A jointly form a driving structure for the bevel gear B.

Furthermore, the suction grooves are formed in the front side and the rear side of the inhaler, the guide barrels are rotationally connected to the outer sides of the guide pipes, the guide barrels are provided with two parts in total, guide seats are fixedly connected to one sides, away from the guide pipes, of the two guide barrels, the guide seats are of annular structures, and annular grooves are formed in the guide seats.

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

1. when the ventilation operation is needed, the motor B arranged on the outer side of the guide pipe can be started to rotate and drive the bevel gear A, the fan body is synchronously driven to rotate through the meshing transmission of the bevel gear A and the bevel gear B, the textile processing operation is rapidly ventilated through the rotation of the fan body, and when the ventilation operation is carried out, dust sucked in the guide pipe and the guide pipe can be rapidly collected through the connecting pipe and the suction groove formed in the outer side of the suction pipe by starting the dust remover arranged in the upright post, and the situation that the rotation of the fan body is blocked due to excessive dust is avoided through cleaning in the guide pipe and the guide pipe, so that the aim of saving energy is achieved.

2. When the device is in a restarting state after stopping, certain dust is inevitably attached to the guide cylinder and the inner wall of the guide pipe, at the moment, the dust remover can be started, dust in the guide cylinder and the guide pipe can be cleaned through the connecting pipe and the inhaler, the guide cylinder can be driven to rotate by starting the motor A arranged on the outer side of the side plate, the guide cylinder on one side is driven to rotate through friction transmission of the guide cylinder and the guide seat arranged on the outer side of the guide cylinder, synchronous rotation operation of the guide cylinders on two positions is realized through magnetic adsorption of the guide cylinder, and the design can automatically clean the dust attached to the inner wall of the guide cylinder rapidly through initiative rotation of the guide cylinder, so that the aim of more practicability is achieved.

3. In the course of working when motor B, can carry out continuous monitoring operation to current motor B's working condition through the subassembly of making a video recording of setting up the cross-member bottom in the support frame, and after motor B works for a period of time, can come to push down the well accuse module through the electric putter of start-up installation in the support frame bottom, when well accuse module cup joints the outside to motor B, can be synchronous cause the extrusion to the detection component of installing in the well accuse module, and synchronous carry out quick detection to current motor B shell through detection component, and carry out continuous detection operation to detection component and motor B's shell contact time have abnormal conditions such as electric spark to detection component, if when detecting motor B's operating mode abnormal, then can synchronous close motor B, effectually avoided appearing because of motor B's shell has the unusual problem that can produce the potential safety hazard of electric leakage.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

In the drawings:

FIG. 1 shows a schematic view of a front side view in partial structural cut-away of a ventilator according to an embodiment of the present invention;

FIG. 2 shows a schematic right side view in partial structural section of a ventilator according to an embodiment of the present invention;

FIG. 3 shows a schematic diagram of a front side view of a ventilator according to an embodiment of the present invention;

FIG. 4 shows a schematic diagram of a front view of a ventilator according to an embodiment of the present invention;

FIG. 5 shows a schematic diagram of a support frame to detection assembly display structure of a ventilator according to an embodiment of the present invention;

FIG. 6 illustrates a base-to-fan display construction schematic of a ventilator according to an embodiment of the present invention;

FIG. 7 shows an enlarged schematic view of the ventilator of FIG. 2 at A in accordance with an embodiment of the present invention;

fig. 8 shows an enlarged schematic view of the structure of the ventilator at B in fig. 2 according to an embodiment of the present invention.

List of reference numerals

1. A base; 2. a side plate; 3. a motor A; 4. a guide roller; 5. a column; 6. a dust remover; 7. connecting pipe; 8. a conduit; 9. a bracket; 10. an inhaler; 11. a guide cylinder; 12. a guide seat; 13. a slide block; 14. a filter screen; 15. a motor B; 16. a bevel gear A; 17. a bevel gear B; 18. a fan body; 19. a support frame; 20. a hook; 21. a camera assembly; 22. an electric push rod; 23. a spring rod; 24. a central control module; 25. and a detection assembly.

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples.

Detailed Description

Examples:

as shown in fig. 1 to 8:

the invention provides an energy-saving axial flow fan for spinning, which comprises: the base 1 and the camera shooting component 21, the main body of the base 1 is rectangular structure, the top end surface of the base 1 is fixedly connected with a side plate 2, the right side of the side plate 2 is provided with a motor A3, the base 1 and the side plate 2 form a supporting structure for the motor A3 together, the left side output end of the motor A3 is provided with a guide roller 4, the outer peripheral surface of the guide roller 4 is of a rough structure, the camera shooting component 21 is used for shooting a motor B15, the bottom end surface of a transverse member in the supporting frame 19 is provided with an electric push rod 22 and a spring rod 23, the bottom ends of the electric push rod 22 and the spring rod 23 are provided with a central control module 24, the central control module 24 is used for processing pictures shot by the camera shooting component 21, the central control module 24 adjusts the longitudinal position through the electric push rod 22, the inner wall of the central control module 24 is provided with two detection components 25 in opposite directions, the detection components 25 are of a telescopic structure with springs, and the detection components 25 are used for detecting the electric leakage condition of the motor B15, and the central control module 24 is provided with a grounding wire, when the device is in a restarting state after stopping, certain dust is inevitably attached to the guide cylinder 11 and the inner wall of the guide tube 8 at the moment, the dust remover 6 is started, the guide cylinder 11 and the dust in the guide tube 8 are cleaned through the connecting tube 7 and the inhaler 10, the motor A3 arranged outside the side plate 2 is started to rotationally drive the guide roller 4, the guide cylinder 11 on one side is driven to rotate through the friction transmission of the guide roller 4 and the guide seat 12 arranged outside the guide cylinder 11, the synchronous rotation operation of the guide cylinder 11 on two positions is realized through the magnetic adsorption of the guide cylinder 11, the design can automatically clean the dust attached to the inner wall of the guide cylinder 11 through the initiative rotation of the guide cylinder 11, thereby achieving the purpose of more practicability.

Wherein, fixedly connected with stand 5 on the terminal surface of base 1, the through groove has been seted up to the inside of stand 5, the internally mounted who leads to the groove has dust remover 6, take over 7 is installed on the top of dust remover 6, the top fixedly connected with pipe 8 of stand 5, pipe 8 is tubular structure, and take over 7 upwards pass pipe 8, the top fixedly connected with support 9 of base 1, support 9 is equipped with two altogether, and the inboard fixedly connected with inhaler 10 of two support 9, inhaler 10 is connected with take over 7, when need carry out ventilation operation, can rotate the drive to helical gear A16 through the motor B15 of start-up at the pipe 8 outside, and drive fan 18 through helical gear A16 and helical gear B17's meshing transmission and rotate, and carry out quick ventilation operation to textile processing work through fan 18's rotation, and when carrying out ventilation operation, can carry out quick collection processing with the dust that is inhaled in guide 11 and the pipe 8 through the suction groove that takes over 7 and 10 outsides were seted up through the take over to the dust remover 6 of start-up in stand 5, and through the energy-conserving and prevent that the dust from further achieving the situation that the dust from appearing in the guide tube 8 is more because of the energy-conserving the realization of the fan that the more than can prevent the fan 8 from appearing.

The inhaler 10 is provided with suction grooves on the front and rear sides, guide barrels 11 are rotatably connected to the outer sides of the guide barrels 8, the guide barrels 11 are provided with two parts, one side, away from the guide barrels 8, of each guide barrel 11 is fixedly connected with a guide seat 12, each guide seat 12 is of an annular structure, annular grooves are formed in the guide seats 12, sliding blocks 13 are slidingly connected to the inner sides of the annular grooves formed in the guide seats 12, filter screens 14 are fixedly connected to the inner sides of every two longitudinally adjacent sliding blocks 13, the outer side faces of the filter screens 14 are separated from the inner walls of the guide seats 12 by gaps, the gaps are used for the support 9 to penetrate through, and a motor B15 is mounted at the top ends of the guide barrels 8.

The bevel gear A16 is installed at the bottom of the motor B15, the bevel gear B17 is further installed on the inner wall of the guide tube 8, the bevel gear B17 and the bevel gear A16 are meshed for transmission, the motor B15 and the bevel gear A16 jointly form a driving structure for the bevel gear B17, the fan 18 is coaxially installed on the left side of the bevel gear B17, the fan 18 is used for ventilation, the support frame 19 is fixedly connected with the outer side of the base 1, the hanging hook 20 is fixedly connected with the top surface of the cross member in the support frame 19, the camera assembly 21 is further installed on the bottom surface of the cross member in the support frame 19, in the working process of the motor B15, continuous monitoring operation can be carried out on the working condition of the current motor B15 through the camera assembly 21 arranged at the bottom of the cross member in the support frame 19, after the motor B15 works for a period of time, the motor B15 can be pushed downwards through starting the electric push rod 22 installed at the bottom of the support frame 19, the detection assembly 25 installed in the middle control module 24 is synchronously extruded when the outer side of the motor B15 is sleeved, and the detection assembly 25 is synchronously carried out on the outer shell of the middle control module 24, whether the current motor B15 is detected through the detection assembly 25, if the current motor B15 is detected on the shell, and if the electric leakage condition is detected on the motor B15 is detected, and the electric leakage condition is detected continuously, if the motor B is detected continuously, and the problem is avoided when the motor B is detected, and the electric leakage condition is detected.

When in use, the utility model is characterized in that: firstly, when an axial flow fan is required to be used for ventilation operation in the textile processing process, the whole device can be placed at a proper position through the base 1, and the filter screens 14 arranged in the two guide cylinders 11 are ensured to be free from obstruction of the shielding objects;

when ventilation is needed, the motor B15 arranged on the outer side of the guide pipe 8 can be started to rotationally drive the bevel gear A16, the fan 18 is synchronously driven to rotate through meshing transmission of the bevel gear A16 and the bevel gear B17, the fan 18 rotates to rapidly ventilate textile processing work, and when ventilation is needed, the dust sucked in the guide cylinder 11 and the guide pipe 8 can be rapidly collected through the connecting pipe 7 and the suction groove formed in the outer side of the inhaler 10 by starting the dust remover 6 arranged in the upright post 5, and the situation that the rotation of the fan 18 is blocked due to excessive dust is avoided through cleaning the guide cylinder 11 and the guide pipe 8, so that the aim of saving energy is achieved;

when the device is in a restarting state after stopping, certain dust is inevitably attached to the guide cylinder 11 and the inner wall of the guide tube 8, at the moment, the dust remover 6 is started, the guide cylinder 11 and the dust in the guide tube 8 are cleaned through the connecting tube 7 and the inhaler 10, the motor A3 arranged on the outer side of the side plate 2 is started to rotationally drive the guide roller 4, the guide cylinder 11 on one side is driven to rotate through friction transmission of the guide roller 4 and the guide seat 12 arranged on the outer side of the guide cylinder 11, and synchronous rotation operation of the guide cylinder 11 on two positions is realized through magnetic adsorption of the guide cylinder 11;

in the working process of the motor B15, continuous monitoring operation can be performed on the working condition of the current motor B15 through the camera component 21 arranged at the bottom end of the transverse member in the support frame 19, and after the motor B15 works for a period of time, the central control module 24 can be pushed downwards by starting the electric push rod 22 arranged at the bottom end of the support frame 19, when the central control module 24 is sheathed on the outer side of the motor B15, the detection component 25 arranged in the central control module 24 can be synchronously extruded, and the current motor B15 shell is rapidly detected through the detection component 25, and continuous detection operation is performed on whether abnormal conditions such as electric sparks exist when the detection component 25 is contacted with the motor B15 shell through the camera component 21, if the abnormal conditions exist in the working condition of the motor B15, the motor B15 can be synchronously closed, so that the problem that potential safety hazards are generated due to the fact that the electric leakage exists in the motor B15 shell is effectively avoided.

Claims

1. An energy-saving axial-flow fan for spinning, which is characterized by comprising: base (1) and subassembly (21) make a video recording, the main part of base (1) is rectangular structure, and fixedly connected with curb plate (2) on the top end face of base (1), motor A (3) are installed on the right side of curb plate (2), base (1) and curb plate (2) have formed bearing structure to motor A (3) jointly, install on the left side output of motor A (3) and lead movable roll (4), the outer peripheral face of movable roll (4) is coarse structure, subassembly (21) make a video recording are used for shooing motor B (15), install electric putter (22) and spring beam (23) on the bottom end face of cross member in support frame (19), the bottom ends of the electric push rod (22) and the spring rod (23) are provided with a central control module (24), the outer side of the base (1) is fixedly connected with a support frame (19), the top end surface of a transverse member in the support frame (19) is fixedly connected with a hook (20), the bottom end surface of the transverse member in the support frame (19) is also provided with a camera shooting assembly (21), the central control module (24) is used for processing pictures shot by the camera shooting assembly (21), the central control module (24) adjusts the longitudinal position through the electric push rod (22), two detection assemblies (25) are oppositely arranged on the inner wall of the central control module (24), the detection assemblies (25) are telescopic structures with springs, and detection component (25) are used for detecting the electric leakage condition of motor B (15) to well accuse module (24) have the earth connection, fixedly connected with stand (5) on the terminal surface of base (1), the through groove has been seted up to the inside of stand (5), and the internally mounted in this through groove has dust remover (6), and take over (7) are installed on the top of dust remover (6), and the top fixedly connected with pipe (8) of stand (5), pipe (8) are tubular structure, and take over (7) upwards pass pipe (8), the top fixedly connected with support (9) of base (1), and support (9) are equipped with two altogether, and the inboard fixedly connected with inhaler (10) of two support (9), and inhaler (10) are connected with take over (7), the suction groove has all been seted up to the front and back both sides of inhaler (10), and the outside rotation of pipe (8) is connected with guide cylinder (11), and one side that keeps away from pipe (8) in two guide cylinders (11) is all fixedly connected with guide seat (12), and annular seat (12) are seted up inside annular structure.

2. An energy-saving axial flow fan for textile use as claimed in claim 1, wherein: the inside sliding connection of ring channel that offers in guide holder (12) has slider (13), and the inboard fixedly connected with filter screen (14) of every two vertically adjacent slider (13), the outside face of filter screen (14) is apart from the inner wall of guide holder (12) and is had the clearance, and this clearance is used for support (9) to pass, and motor B (15) are installed on the top of pipe (8).

3. An energy-saving axial flow fan for textile use as claimed in claim 2, wherein: bevel gear A (16) is installed to the bottom of motor B (15), still installs helical gear B (17) on the inner wall of pipe (8), and helical gear B (17) and helical gear A (16) mesh transmission mutually, and motor B (15) and helical gear A (16) have constituteed the drive structure to helical gear B (17) jointly.

4. A textile energy-saving axial flow fan as claimed in claim 3, wherein: a fan body (18) is coaxially arranged on the left side of the bevel gear B (17), and the fan body (18) is used for ventilation.