CN110565308B

CN110565308B - Bedding surface fabric dehumidification complete sets

Info

Publication number: CN110565308B
Application number: CN201910889907.0A
Authority: CN
Inventors: 沈志刚
Original assignee: Zhejiang Kente Technology Co ltd
Current assignee: Zhejiang Kente Technology Co ltd
Priority date: 2019-09-20
Filing date: 2019-09-20
Publication date: 2024-07-05
Anticipated expiration: 2039-09-20
Also published as: CN110565308A

Abstract

The invention discloses a bedding fabric dehumidifying complete device which comprises a rolling device, a vacuumizing device and a pipeline, wherein the rolling device is connected with the vacuumizing device through the pipeline; the rolling device comprises a first tube head, a first bearing seat, a roller, a second bearing seat and a motor; the vacuumizing device comprises a second tube head, a device shell, a vacuum tank, a jet tube, a ball joint, a tube rod connecting piece, a tube sleeve, a conical tube, a rod cover, a spring, a rod tube, a spring plate, a rod seat and a T-shaped rod. The invention can dehumidify by utilizing the vacuum force generated by jet flow of the jet pipe; and the size of the dehumidifying suction force can be known through the vacuum value in the vacuum tank, and the mechanical self-control jet flow vacuum capability can realize stable water suction.

Description

Bedding surface fabric dehumidification complete sets

[ Field of technology ]

The invention relates to the technical field of fabric processing, in particular to the technical field of bedding fabric dehumidifying complete equipment.

[ Background Art ]

The bedding articles are articles which are placed on the bed and used for sleeping, and comprise bedding, bedding cover, bedspread, bed cover, pillowcase, pillow core, blanket, summer sleeping mat and mosquito net. The fabric of the existing bedding comprises cloth, hemp material and the like. The fabric is produced in the process of loosening, dehairing and other technological processes; some of these processes will be water, so that after the process is completed, the usual meaning of water in the fabric is water. If the water in the fabric is not removed in time, the fabric is not only dripped, but also is easy to mold for a long time, and the loss of the fabric is caused. For this reason, a complete set of bedding fabric dehumidification is required.

[ Invention ]

The invention aims to solve the problems in the prior art, and provides a bedding fabric dehumidifying complete device which can dehumidify by utilizing vacuum force generated by jet flow of a jet pipe; and the size of the dehumidifying suction force can be known through the vacuum value in the vacuum tank, and the mechanical self-control jet flow vacuum capability can realize stable water suction.

In order to achieve the aim, the invention provides a bedding fabric dehumidification complete device which comprises a rolling device, a vacuumizing device and a pipeline, wherein the rolling device is connected with the vacuumizing device through the pipeline; the rolling device comprises a first tube head, a first bearing seat, a roller, a second bearing seat and a motor, wherein a bearing is embedded in the first bearing seat, an inner ring of the bearing is in interference fit with the left end of the roller, the inner ring of the left side of the roller is in interference fit with the first tube head, and the first tube head is connected with the vacuumizing device through a pipeline; the right end of the roller is in interference fit with the inner ring of the bearing, the bearing is in interference fit with the second bearing seat, and a motor is in fit with the inner hole of the right end of the roller; the vacuum pumping device comprises a second tube head, a device shell, a vacuum tank, a jet tube, a ball joint, a tube rod connecting piece, a tube sleeve, a conical tube, a rod cover, a spring, a rod tube, a spring plate, a rod seat and a T-shaped rod, wherein the second tube head is embedded in the middle of the left side of the device shell, the second tube head is connected with a rolling device through a pipeline, the upper end of the second tube head is connected with the vacuum tank through a pipeline, the right side of the vacuum tank is connected with the rod tube through a pipeline, the rod tube, the rod cover and the spring plate form a cavity, the upper end face of the rod tube is provided with the rod cover, a spring is fixedly connected inside the rod cover, the lower end of the spring is matched with the T-shaped rod, the T-shaped rod penetrates through the spring plate, the spring plate is embedded on the bottom face of the rod tube, the rod seat is matched with the tube sleeve, the left side of the tube sleeve is fixed on the device shell through a screw, and the conical tube is fixed on the right side of the tube sleeve through a hoop; a jet pipe is arranged in the right side of the device shell, the jet pipe is arranged in the device shell through a ball joint, and the right end of the jet pipe is connected with a T-shaped rod through a pipe rod connecting piece; the left lower end of the device shell is externally connected with a water pump through an elbow.

Preferably, the number of the rollers is 2, fabrics are arranged in gaps between the rollers, suction holes are uniformly distributed on the rollers along the circumference, and the suction holes are circular through holes.

Preferably, an annular groove is formed in the inner hole at the left end of the roller along the hole wall, a sealing ring is embedded in the annular groove, and the inner wall surface of the sealing ring is matched with the first pipe head.

Preferably, damping nozzles are arranged at the lower end of the vacuum tank and at tank openings at the right side of the vacuum tank, and the damping nozzles are conical nozzles with large outside and small inside.

Preferably, the spherical joint comprises a spherical sleeve, a shaft seat and a joint shaft, wherein the shaft seat is fixed on the wall surface in the device shell, the joint shaft is matched in the shaft seat, the spherical sleeve is sleeved on the joint shaft, and the end part of the joint shaft is fixedly connected to the jet pipe; the spherical sleeve is of a hollow hemispherical shell structure, shaft holes are symmetrically formed in the front and the rear of the spherical sleeve, a joint shaft is matched in the shaft holes of the spherical sleeve, a slotted hole is formed in the right side of the spherical sleeve, and an emergent flow pipe penetrates through the slotted hole of the spherical sleeve.

Preferably, the lower part of the pipe rod connecting piece is provided with an elliptical through hole, and the upper part of the pipe rod connecting piece is provided with a circular through hole; the outer wall of the right end of the jet pipe is provided with a first rotating shaft, and the outer wall surface of the first rotating shaft is matched with the lower part of the pipe rod connecting piece; the outer wall surface of the bottom of the T-shaped rod is provided with a second rotating shaft, and the outer wall surface of the second rotating shaft is matched with the upper part of the pipe rod connecting piece.

Preferably, the rod tube is an annular tube, a through hole is formed in the wall surface of the rod tube, and the through hole is connected with a vacuum tank through a pipeline.

Preferably, the bottom of the rod seat is provided with a through hole, the hole wall of the through hole of the rod seat is provided with an annular groove, a sealing ring is embedded in the annular groove, and the inner wall surface of the sealing ring is matched with a T-shaped rod; the right side of the rod seat is provided with a circular air hole, and the rod seat is communicated with the atmosphere through the air hole.

The invention has the beneficial effects that: the invention can dehumidify by utilizing the vacuum force generated by jet flow of the jet pipe; and the size of the dehumidifying suction force can be known through the vacuum value in the vacuum tank, and the mechanical self-control jet flow vacuum capability can realize stable water suction.

The features and advantages of the present invention will be described in detail by way of example with reference to the accompanying drawings.

[ Description of the drawings ]

FIG. 1 is a schematic view of a front view of a bedding fabric dehumidification kit of the present invention;

FIG. 2 is a block diagram of a roller feeding of a rolling device of a bedding fabric dehumidifying kit of the present invention;

FIG. 3 is a view showing the structure of the connecting part of the jet pipe of the bedding fabric dehumidifying complete device of the present invention;

Fig. 4 is an enlarged view of a portion a in fig. 1;

FIG. 5 is a sectional view of a jet pipe of a vacuumizing device of a bedding fabric dehumidifying complete device according to the present invention;

FIG. 6 is a second jet pipe section of the vacuumizing device of the bedding fabric dehumidifying complete device of the present invention.

In the figure: 1-rolling device, 11-first tube head, 12-bearing, 13-first bearing seat, 14-roller, 141-suction hole, 15-second bearing seat, 16-motor, 17-sealing ring, 2-vacuuming device, 21-second tube head, 22-device shell, 23-vacuum tank, 24-damping nozzle, 25-jet tube, 26-ball joint, 261-spherical sleeve, 262-shaft seat, 263-joint shaft, 27-tube rod connector, 28-sleeve, 29-conical tube, 210-rod cover, 211-spring, 212-rod tube, 213-spring plate, 214-rod seat, 215-T type rod, 3-pipe, 4-shell fabric.

[ Detailed description ] of the invention

Referring to fig. 1-6, the invention comprises a rolling device 1, a vacuumizing device 2 and a pipeline 3, wherein the rolling device 1 is connected with the vacuumizing device 2 through the pipeline 3; the rolling device 1 comprises a first tube head 11, a first bearing seat 13, a roller 14, a second bearing seat 15 and a motor 16, wherein a bearing 12 is embedded in the first bearing seat 13, the inner ring of the bearing 12 is in interference fit with the left end of the roller 14, the inner ring of the left side of the roller 14 is in interference fit with the first tube head 11, and the first tube head 11 is connected with the vacuumizing device 2 through a pipeline 3; the right end of the roller 14 is in interference fit with the inner ring of the bearing 12, the bearing 12 is in interference fit with the second bearing seat 15, and a motor 16 is in fit with the inner hole of the right end of the roller 14; the vacuumizing device 2 comprises a second tube head 21, a device shell 22, a vacuum tank 23, a jet tube 25, a ball joint 26, a tube rod connecting piece 27, a tube sleeve 28, a conical tube 29, a rod cover 210, a spring 211, a rod tube 212, a spring plate 213, a rod seat 214 and a T-shaped rod 215, wherein the second tube head 21 is embedded in the middle of the left side of the device shell 22, the second tube head 21 is connected with the rolling device 1 through a pipeline 3, the upper end of the second tube head 21 is connected with the vacuum tank 23 through the pipeline 3, the right side of the vacuum tank 23 is connected with the rod tube 212 through the pipeline 3, the rod tube 212, the rod cover 210 and the spring plate 213 form a cavity, the upper end face of the rod tube 212 is provided with the rod cover 210, the spring 211 is fixedly connected with the inside of the rod cover 210, the lower end of the spring 211 is matched with the T-shaped rod 215, the T-shaped rod 215 passes through the spring plate 213 and is embedded on the bottom face of the rod tube 212, the rod seat 214 is matched with the lower part of the rod seat 214, the rod seat 214 is arranged on the 28, the left side of the rod seat 28 is fixed on the tube sleeve 22 through the pipeline 3, the right side of the tube sleeve 28 is fixed on the tube sleeve device shell 22 through the pipeline 3, and the right side of the conical tube 29 is fixed through the conical clip; a jet pipe 25 is arranged in the right side of the device shell 22, the jet pipe 25 is arranged in the device shell 22 through a ball joint 26, and the right end of the jet pipe 25 is connected with a T-shaped rod 215 through a pipe rod connecting piece 27; the left lower end of the device shell 22 is externally connected with a water pump through an elbow.

Specifically, the number of the rollers 14 is 2, the fabrics 4 are arranged in the gaps between the rollers 14, the rollers 14 are uniformly provided with suction holes 141 along the circumference, and the suction holes 141 are circular through holes.

Specifically, an annular groove is formed in the inner hole at the left end of the roller 14 along the hole wall, a sealing ring 17 is embedded in the annular groove, and the inner wall surface of the sealing ring 17 is matched with the first pipe head 11.

Specifically, damping nozzles 24 are arranged at the lower end of the vacuum tank 23 and at the tank opening at the right side, and the damping nozzles 24 are conical nozzles with large outside and small inside.

Specifically, the ball joint 26 includes a spherical sleeve 261, a shaft seat 262 and a joint shaft 263, the shaft seat 262 is fixed on the wall surface inside the device housing 22, the shaft seat 262 is internally matched with the joint shaft 263, the joint shaft 263 is sleeved with the spherical sleeve 261, and the end part of the joint shaft 263 is fixedly connected to the jet pipe 25; the spherical sleeve 261 is of a hollow hemispherical shell structure, shaft holes are symmetrically formed in the front and back of the spherical sleeve 261, a joint shaft 263 is matched in the shaft holes of the spherical sleeve 261, a slotted hole is formed in the right side of the spherical sleeve 261, and an emergent flow pipe 25 penetrates through the slotted hole of the spherical sleeve 261.

Specifically, an elliptical through hole is formed in the lower portion of the pipe rod connecting piece 27, and a circular through hole is formed in the upper portion of the pipe rod connecting piece 27; a first rotating shaft is arranged on the outer wall of the right end of the jet pipe 25, and the outer wall surface of the first rotating shaft is matched with the lower part of the pipe rod connecting piece 27; the outer wall surface of the bottom of the T-shaped rod 215 is provided with a second rotating shaft, and the outer wall surface of the second rotating shaft is matched with the upper part of the pipe rod connecting piece 27.

Specifically, the rod tube 212 is an annular tube, a through hole is formed in the wall surface of the rod tube 212, and the through hole is connected with the vacuum tank 23 through the pipeline 3.

Specifically, a through hole is formed in the bottom of the rod seat 214, an annular groove is formed in the hole wall of the through hole of the rod seat 214, a sealing ring is embedded in the annular groove, and a T-shaped rod 215 is matched with the inner wall surface of the sealing ring; the right side of the rod seat 214 is provided with a circular air hole, and the rod seat 214 is communicated with the atmosphere through the air hole.

The working process of the invention comprises the following steps:

the invention relates to a bedding fabric dehumidifying complete device, which is described with reference to the accompanying drawings in the working process.

The fabric 4 passes through the space between the two rollers 14 of the rolling device 1, the rolling directions of the two rollers 14 are opposite, and in the process that the fabric 4 is rolled, the moisture of the fabric 4 is pumped out from the pumping holes 141 of the rollers 14 by the vacuumizing device 2. The vacuum force of the evacuating device 2 creates a vacuum suction force through the jet of the jet pipe 25. The initial state jet pipe 25 is directed upward and has weak vacuum generating ability.

The spring plate 213 divides the whole body composed of the rod cover 210, the rod pipe 212 and the rod seat 214 into an upper chamber and a lower chamber, the upper chamber is communicated with the vacuum tank 23, the upper chamber is under negative pressure, and the lower chamber is communicated with the atmosphere; assuming that the negative pressure becomes large and the absolute pressure becomes small, the T-shaped rod 215 is pulled upward, and the jet angle of the jet pipe 25 is changed, thereby affecting the negative pressure of the upper chamber and realizing dynamic balance.

The invention is a station in the assembly line work, and the sensor is not necessarily sensitive under the condition of water. For this purpose, the invention senses the system state through the vacuum tank 23 and realizes the automatic vacuum adjustment. If suddenly reduced, the vacuum need not be so small and can be adjusted by jet pipe 25. Jet pipe 25 can swing up and down. The damping nozzle 24 on the vacuum tank 23 can play a role in damping and slowing down.

The invention can dehumidify by utilizing the vacuum force generated by jet flow of the jet pipe; and the size of the dehumidifying suction force can be known through the vacuum value in the vacuum tank, and the mechanical self-control jet flow vacuum capability can realize stable water suction.

The above embodiments are illustrative of the present invention, and not limiting, and any simple modifications of the present invention fall within the scope of the present invention.

Claims

1. The utility model provides a bedding surface fabric dehumidification complete sets which characterized in that: the device comprises a rolling device (1), a vacuumizing device (2) and a pipeline (3), wherein the rolling device (1) is connected with the vacuumizing device (2) through the pipeline (3); the rolling device (1) comprises a first tube head (11), a first bearing seat (13), a roller (14), a second bearing seat (15) and a motor (16), wherein a bearing (12) is embedded in the first bearing seat (13), the inner ring of the bearing (12) is in interference fit with the left end of the roller (14), the first tube head (11) is in interference fit with the inner ring of the left side of the roller (14), and the first tube head (11) is connected with the vacuumizing device (2) through a pipeline (3); the right end of the roller (14) is in interference fit with the inner ring of the bearing (12), the bearing (12) is in interference fit with the second bearing seat (15), and a motor (16) is matched with the inner hole at the right end of the roller (14); the vacuum pumping device (2) comprises a second tube head (21), a device shell (22), a vacuum tank (23), a jet tube (25), a ball joint (26), a tube rod connecting piece (27), a tube sleeve (28), a conical tube (29), a rod cover (210), a spring (211), a rod tube (212), a spring plate (213), a rod seat (214) and a T-shaped rod (215), wherein the second tube head (21) is embedded in the middle part of the left side of the device shell (22), the second tube head (21) is connected with the rolling device (1) through a pipeline (3), the upper end of the second tube head (21) is connected with the vacuum tank (23) through the pipeline (3), the right side of the vacuum tank (23) is connected with the rod tube (212) through the pipeline (3), the rod tube (212) and the rod cover (210) and the spring plate (213) form a chamber, the upper end face of the rod tube (212) is provided with the rod cover (210), the spring seat (214) is fixedly connected with the spring (211) in the interior of the rod cover, the lower end of the spring (211) is matched with the T-shaped rod (215), the T-shaped rod (215) penetrates through the plate (213) and is embedded in the rod seat (212) to the rod seat (214), the left side of the pipe sleeve (28) is fixed on the device shell (22) through a screw, and the right side of the pipe sleeve (28) is fixed with a conical pipe (29) through a hoop; a jet pipe (25) is arranged in the right side of the device shell (22), the jet pipe (25) is arranged in the device shell (22) through a ball joint (26), and the right end of the jet pipe (25) is connected with a T-shaped rod (215) through a pipe rod connecting piece (27); the left lower end of the device shell (22) is externally connected with a water pump through an elbow;

The number of the rollers (14) is 2, fabrics (4) are arranged in gaps between the rollers (14), suction holes (141) are uniformly distributed on the rollers (14) along the circumference, and the suction holes (141) are circular through holes; an annular groove is formed in an inner hole at the left end of the roller (14) along the hole wall, a sealing ring (17) is embedded in the annular groove, and the inner wall surface of the sealing ring (17) is matched with the first pipe head (11); damping nozzles (24) are arranged at the lower end and the tank opening at the right side of the vacuum tank (23), and the damping nozzles (24) are conical nozzles with large outside and small inside; the ball joint (26) comprises a spherical sleeve (261), a shaft seat (262) and a joint shaft (263), the shaft seat (262) is fixed on the wall surface inside the device shell (22), the joint shaft (263) is matched in the shaft seat (262), the spherical sleeve (261) is sleeved on the joint shaft (263), and the end part of the joint shaft (263) is fixedly connected to the jet pipe (25); the spherical sleeve (261) is of a hollow hemispherical shell structure, shaft holes are symmetrically formed in the front and back of the spherical sleeve (261), a joint shaft (263) is matched in the shaft holes of the spherical sleeve (261), a slotted hole is formed in the right side of the spherical sleeve (261), and an emergent flow pipe (25) penetrates through the slotted hole of the spherical sleeve (261); the lower part of the pipe rod connecting piece (27) is provided with an elliptical through hole, and the upper part of the pipe rod connecting piece (27) is provided with a circular through hole; the outer wall of the right end of the jet pipe (25) is provided with a first rotating shaft, and the outer wall surface of the first rotating shaft is matched with the lower part of the pipe rod connecting piece (27); the outer wall surface of the bottom of the T-shaped rod (215) is provided with a second rotating shaft, and the outer wall surface of the second rotating shaft is matched with the upper part of the pipe rod connecting piece (27); the rod tube (212) is an annular tube, a through hole is formed in the wall surface of the rod tube (212), and the through hole is connected with a vacuum tank (23) through a pipeline (3); the bottom of the rod seat (214) is provided with a through hole, the hole wall of the through hole of the rod seat (214) is provided with an annular groove, a sealing ring is embedded in the annular groove, and the inner wall surface of the sealing ring is matched with a T-shaped rod (215); the right side of the rod seat (214) is provided with a round air hole, and the rod seat (214) is communicated with the atmosphere through the air hole.