CN111455600A - Coating shading cloth printing and dyeing device - Google Patents

Abstract

The invention relates to the technical field of shading cloth production equipment, and discloses a coating shading cloth printing and dyeing device which comprises a base, a printing and dyeing chamber, a driving box chamber, a power box, a liquid outlet, a liquid inlet, a cloth input port and a cloth output port, wherein the printing and dyeing chamber is arranged on the base; the middle part fixed mounting in liquid bath has the horizontal wave plate of one deck, the inside of wave plate sets up to latticed structure, the upper portion of wave plate is submerged to the dye liquor of dyeing liquid pond inside, the inner of cloth input port and cloth delivery outlet is connected to respectively to the left and right sides of wave plate, be provided with a set of axis of rotation directly over the wave plate middle part, both sides rotate through the guide rail around the axis of rotation and connect on the lateral wall around the printing and dyeing room, the inner of guide rail is through rotating wheel fixed connection on the side around the axis of rotation, the rotation wheel that is located the front side upwards is connected with a set of first driving motor who fixes in the drive box indoor portion through the drive belt rotation, the outer curved surface equidistant four groups compression roller.

Description

Coating shading cloth printing and dyeing device

Technical Field

The invention relates to the technical field of shading cloth production equipment, in particular to a coating shading cloth printing and dyeing device.

Background

The shading cloth is usually used together with other fabrics for covering articles to prevent the articles from contacting with strong light and has the effect of blocking the strong light and ultraviolet rays, and the coating shading cloth is formed by coating a layer of chemical dye on the traditional cloth and is used for improving the effect of shading.

Chinese patent (publication No. CN 207828568U, bulletin date: 2018.09.07) discloses a wall cloth fabric spraying and dyeing device, which structurally comprises a device cover, a workpiece output device, a device base, a water pipe, a control panel and a dye adding port, wherein the device cover is arranged above the workpiece output device, the workpiece output device is arranged above the device base, the device base is arranged on the left side of the water pipe, the water pipe is arranged below the control panel, and the control panel is used for collecting the dye and adding the dye into the port on the left side. This equipment is when printing and dyeing the cloth, and the dynamics of cloth and dye liquor contact is not enough, leads to the inside unable abundant dip-dyeing of cloth to liquid easily to lead to dying the precision not enough, and the degree of consistency of dye liquor is not enough.

Disclosure of Invention

The invention aims to provide a coating shading cloth printing and dyeing device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a coating shading cloth printing and dyeing device comprises a base, a printing and dyeing chamber, a driving box chamber, a power box, a liquid outlet hole, a liquid inlet hole, a cloth input port and a cloth output port; the bottom of the base is fixedly placed on the ground through two groups of cushion blocks. The upper surface of the base is fixedly provided with a printing and dyeing chamber with the top of an arc-shaped structure. The middle part of the left side of the printing and dyeing chamber is provided with a cloth input port, and the middle part of the right side is provided with a cloth output port. The interior top of printing and dyeing room upwards is provided with the drive case room through a set of horizontal baffle, and the fixed power supply box that has placed in inside left side of drive case room, power supply box are used for providing the electric energy for whole device. The bottom of printing and dyeing room is provided with a set of dye liquor pond, and the left side bottom in dye liquor pond has seted up out the liquid hole, and right side bottom intercommunication has the feed liquor hole, is provided with the water pump that is used for the pump to go into the dye liquor on the feed liquor hole.

The middle part of the dyeing liquid pool is fixedly provided with a layer of transverse wave plate, the inside of the wave plate is of a grid structure, and the dyeing liquid in the dyeing liquid pool submerges the upper part of the wave plate, so that the cloth can be completely soaked by the dyeing liquid. The left end and the right end of the wave plate are respectively connected to the inner ends of the cloth input port and the cloth output port, cloth entering through the cloth input port firstly enters the upper surface of the wave plate, then moves backwards along the track of the wave plate, and then is output through the cloth output port. A group of rotating shafts are arranged right above the middle of the wave plate, and the front side and the rear side of each rotating shaft are rotatably connected to the front side wall and the rear side wall of the printing and dyeing room through guide rails. The inner of guide rail is through rotating wheel fixed connection on the front and back side of axis of rotation, and the rotation wheel that is located the front side upwards is connected with a set of first driving motor who fixes at the drive incasement portion through the drive belt rotation, and is rotatory through starting first driving motor drive rotation wheel, and then the drive axis of rotation rotates. The outer curved surface equidistant of axis of rotation is connected with four groups of compression rollers through the connecting rod rotation, and the bottom of compression roller contacts the minimum upper surface of wave board, at axis of rotation pivoted in-process, continuous drive compression roller rotates, and then when the compression roller rotated the below, can extrude the cloth of placing at wave board upper surface, and then accelerate the contact dynamics of cloth and dye liquor, with the inside of the abundant cloth of impressing of dye liquor to improve the quality of printing and dyeing.

As a further scheme of the invention: the right side of drive case room is provided with a set of breather pipe, and the bottom of breather pipe communicates the inside of printing and dyeing room, and the top that the drive case room was passed to the upper end stretches out to the external world to be convenient for outwards discharge the gas of printing and dyeing indoor portion.

As a further scheme of the invention: the top of the breather pipe is provided with a layer of filter screen for preventing dust from entering.

As a further scheme of the invention: the cloth input port all is provided with two sets of poking and pressing rollers with the inside left and right sides of cloth output port, and the curved surface fixed mounting of poking and pressing roller has a plurality of groups of poking rods, and the poking rod is made by the rubber material in order to lie in when the cloth contacts, can not damage the cloth.

As a further scheme of the invention: dial the compression roller and upwards rotate through the rotating band and be connected with the action wheel that sets up in the third motor inside, control and connect through the drive belt between two sets of action wheels, the inboard fixed mounting that is located the action wheel in the outside is fixed in the output shaft that rotates the second driving motor of chamber upper surface, rotate through starting second driving motor drive action wheel, then drive two sets of compression rollers of dialling of bottom respectively through the drive belt and rotate, then shift the cloth through dialling the continuous stirring of the driving lever on the compression roller and remove right. The deflector rod can press the cloth while stirring the cloth to move, so that the phenomenon of wrinkling is prevented.

As a further scheme of the invention: the lower surfaces of the cloth input port and the cloth output port are both internally provided with latticed structures, so that dust and liquid can flow up and down conveniently.

As a further scheme of the invention: the upper surfaces of the cloth input port and the cloth output port are both set to be smooth plane structures, so that the cloth can smoothly move rightwards.

As a further scheme of the invention: the bottom downside of cloth input port is provided with a set of suction chamber of fixing on the printing and dyeing room left side wall, and the inside of suction chamber is provided with the dust catcher, and the upper portion output intercommunication of dust catcher is in the bottom of cloth input port, through starting the dust catcher, then is convenient for carry out the dust absorption through the cloth on the cloth input port through the inside hole of cloth input port and handles.

As a further scheme of the invention: the bottom intercommunication of cloth delivery outlet has the waste liquid collecting vat of fixing on printing and dyeing room right side wall, and the inside of waste liquid collecting vat sets up to semicircle type structure, and the dye liquor that the cloth of bottom surface produced when receiving the group of driving lever presses in the cloth delivery outlet flows into the waste liquid collecting vat downwards, and the bottom intercommunication of waste liquid collecting vat has the delivery outlet downwards.

As a further scheme of the invention: the middle bottom of the wave plate penetrates upwards to be connected with a group of pushing shafts in a rotating mode, the surface of each pushing shaft is arranged to be a rubber layer, the bottom of each pushing shaft is connected with a group of third motors fixed to the bottom of the dye liquor pool downwards in a rotating mode through a driving belt, the third motors are started to drive the pushing shafts to rotate, accordingly, the cloth on the upper side of the wave plate can be accelerated to move rightwards, and the situation that the cloth is difficult to move on the wave plate is prevented.

As a still further scheme of the invention: the middle part of connecting rod is provided with a set of cushion chamber, and the downside of cushion chamber sets up to open column structure, and the inside of cushion chamber is provided with a set of horizontal clamp plate, and the length of clamp plate is greater than the open-ended size, drops from the inside of cushion chamber in order to prevent the clamp plate. The upper surface of clamp plate sets up the cushion chamber through the middle part at the connecting rod through two sets of spring elastic connection at the interior top of cushion chamber for the compression roller provides partial cushion effect for when the upper surface of contact wave board, prevent to receive great pressure and damage the wave board.

Compared with the prior art, the invention has the beneficial effects that: (1) the press roller is continuously driven to rotate in the rotating process through the rotating shaft, so that when the press roller rotates to the lower part, the cloth placed on the upper surface of the wave plate can be extruded, the contact force between the cloth and the dye liquor is accelerated, the dye liquor is fully pressed into the cloth, and the printing and dyeing quality is improved;

(2) Rotatable deflector rods are arranged inside the cloth input port and the cloth output port, so that the cloth can be conveniently stirred to move backwards, and the dust removal and liquid removal operations are accelerated;

(3) The bottom of the cloth input port and the bottom of the cloth output port are respectively communicated with a dust suction chamber and a waste liquid collecting tank, so that dust removal is performed before dye liquor is performed on cloth, and the liquid removal is performed after the dye liquor.

Drawings

Fig. 1 is a schematic view of the front view internal structure of a coated shade fabric printing and dyeing apparatus.

Fig. 2 is a schematic structural view of a rotary shaft in a coated shade fabric printing apparatus.

Fig. 3 is a schematic view of the internal structure of a buffer chamber in a coated shade fabric printing apparatus.

Fig. 4 is a schematic perspective view of a wave plate in a coating shading cloth printing and dyeing device.

Wherein: the dyeing machine comprises a base 10, a dyeing chamber 11, a driving box chamber 12, a vent pipe 13, a power supply box 14, a first driving motor 15, a liquid outlet 16, a liquid inlet 17, a cloth inlet 18, a cloth outlet 19, a dye liquor pool 20, a corrugated plate 21, a rotating shaft 22, a compression roller 23, a buffer cavity 24, a connecting rod 25, a dust absorption chamber 26, a waste liquid collecting groove 27, a second driving motor 28, a poking and pressing roller 29, a poking rod 30, a rotating cavity 31, a third motor 32, a pushing shaft 33, a spring 34 and a pressing plate 35.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Example one

Referring to fig. 1-4, a coating blackout cloth printing and dyeing apparatus includes a base 10, a printing and dyeing chamber 11, a driving chamber 12, a power box 14, a liquid outlet 16, a liquid inlet 17, a cloth inlet 18, and a cloth outlet 19; the bottom of the base 10 is fixedly placed on the ground through two groups of cushion blocks. The upper surface of the base 10 is fixedly provided with a printing and dyeing chamber 11 with the top of an arc structure. The middle part of the left side of the printing and dyeing chamber 11 is provided with a cloth input port 18, and the middle part of the right side is provided with a cloth output port 19. The interior top of printing and dyeing room 11 is upwards provided with drive box room 12 through a set of horizontal baffle, and the inside left side of drive box room 12 is fixed and is placed power supply box 14, and power supply box 14 is used for providing the electric energy for whole device. The bottom of printing and dyeing room 11 is provided with a set of dye liquor pond 20, and play liquid hole 16 has been seted up to the left side bottom in dye liquor pond 20, and right side bottom intercommunication has feed liquor hole 17, is provided with the water pump that is used for the pump to go into the dye liquor on feed liquor hole 17.

The middle part of the dye liquor pool 20 is fixedly provided with a layer of transverse wave plate 21, the inside of the wave plate 21 is arranged to be of a grid structure, and dye liquor in the dye liquor pool 20 submerges the upper part of the wave plate 21, so that cloth can be completely soaked by the dye liquor. The left end and the right end of the wave plate 21 are respectively connected to the inner ends of the cloth input port 18 and the cloth output port 19, the cloth entering through the cloth input port 18 firstly enters the upper surface of the wave plate 21, then moves backwards along the track of the wave plate 21, and then is output through the cloth output port 19. A group of rotating shafts 22 are arranged right above the middle part of the wave plate 21, and the front side and the rear side of each rotating shaft 22 are rotatably connected to the front side wall and the rear side wall of the printing and dyeing room 11 through guide rails. The inner of guide rail is through rotating wheel fixed connection on the front and back side of axis of rotation 22, and the wheel that rotates that is located the front side upwards is connected with a set of through the drive belt rotation and fixes on the inside first driving motor 15 of drive case 12, and it is rotatory through starting first driving motor 15 drive rotating wheel, and then drive axis of rotation 22 rotates. The outer curved surface of axis of rotation 22 is equidistant to be connected with four groups compression roller 23 through connecting rod 25 rotation, and the bottom of compression roller 23 contacts the minimum upper surface of wave board 21, and at axis of rotation 22 pivoted in-process, continuous drive compression roller 23 rotates, and then when compression roller 23 rotated the below, can extrude the cloth of placing at wave board 21 upper surface, and then accelerated the contact dynamics of cloth and dye liquor, the inside of cloth is impressed the dye liquor fully to improve the quality of printing and dyeing. A set of vent pipes 13 is arranged on the right side of the driving chamber 12, the bottom ends of the vent pipes 13 are communicated with the inside of the printing and dyeing chamber 11, and the upper ends of the vent pipes penetrate through the top of the driving chamber 12 and extend out to the outside, so that the gas in the printing and dyeing chamber 11 is conveniently discharged outwards. The top of the air duct 13 is provided with a layer of screen to prevent dust from entering.

Two groups of deflector and press rollers 29 are arranged on the left and right sides inside the cloth input port 18 and the cloth output port 19, a plurality of groups of deflector rods 30 are fixedly arranged on the curved outer surfaces of the deflector and press rollers 29, and the deflector rods 30 are made of rubber materials so that the cloth cannot be damaged when the deflector rods 30 are in contact with the cloth. The poking and pressing roller 29 is connected with a driving wheel arranged inside the third motor 32 upwards in a rotating mode through a rotating belt, the left and right two groups of driving wheels are connected through a driving belt, the inner side of the driving wheel positioned on the outer side is fixedly arranged on an output shaft of a second driving motor 28 fixed on the upper surface of the rotating cavity 31, the driving wheel is driven to rotate by starting the second driving motor 28, then the two groups of poking and pressing rollers 29 respectively driving the bottom through the driving belt rotate, and then the cloth is continuously poked to move rightwards through a poking rod 30 on the poking and pressing roller 29. The deflector rod 30 can press the cloth while moving the cloth, so as to prevent the wrinkle. The lower surfaces of the cloth input port 18 and the cloth output port 19 are both provided with a grid structure inside, so that dust and liquid can flow up and down conveniently. The upper surfaces of the cloth input port 18 and the cloth output port 19 are both set to be smooth plane structures, so that the cloth can move rightwards smoothly. A group of dust suction chambers 26 fixed on the left side wall of the printing and dyeing chamber 11 are arranged on the lower side of the bottom of the cloth input port 18, a dust collector is arranged in each dust suction chamber 26, the upper output end of the dust collector is communicated with the bottom of the cloth input port 18, and dust collection treatment is conveniently carried out on cloth passing through the cloth input port 18 through holes in the cloth input port 18 after the dust collector is started. The bottom intercommunication of cloth delivery outlet 19 has the waste liquid collecting vat 27 of fixing on printing and dyeing room 11 right side wall, and the inside of waste liquid collecting vat 27 sets up to semicircle type structure, and the dye liquor that the cloth of bottom surface produced when receiving the group of driving lever 30 in the cloth delivery outlet 19 flows into the waste liquid collecting vat 27 downwards, and the bottom of waste liquid collecting vat 27 communicates downwards has the delivery outlet.

The working principle of the invention is as follows: firstly, a cloth to be dyed is input to the upper side of a wavy plate 21 in a dyeing room 11 through a cloth input port 18 under the action of a deflector rod 30, then the cloth is immersed into a dyeing liquid in a dyeing liquid tank 20, then a first driving motor 15 is started to drive a rotating shaft 22 to rotate, at the moment, a press roller 23 is driven to rotate through the rotating shaft 22, when the press roller 23 rotates to the lower side and contacts with the upper surface of the wavy plate 21, the cloth placed on the upper side of the wavy plate 21 is continuously extruded, so that the dyeing liquid is fully immersed into the cloth, and then the cloth continuously moves backwards under the action of the deflector rod 30 in the cloth input port 18 and a cloth output port 19. When the cloth passes through the cloth input port 18, the dust collection chamber 26 at the bottom of the cloth can be used for carrying out dust removal treatment on the cloth, and when the cloth after dye liquor is output through the cloth output port 19, the dye liquor on the cloth is collected through the waste liquor collecting tank 27, so that a large amount of cloth can be continuously subjected to dye liquor operation.

Example two

On the basis of the first embodiment, the middle bottom of the wavy plate 21 penetrates upwards to be connected with a group of pushing shafts 33 in a rotating mode, the surface of each pushing shaft 33 is provided with a rubber layer, the bottom of each pushing shaft 33 is connected with a group of third motors 32 fixed to the bottom in the dyeing liquid pool 20 downwards in a rotating mode through a transmission belt, the third motors 32 are started to drive the pushing shafts 33 to rotate, accordingly, the cloth on the upper side of the wavy plate 21 can be accelerated to move rightwards, and the situation that the wavy plate 21 is difficult to move is prevented.

EXAMPLE III

On the basis of the first embodiment, the middle part of the connecting rod 25 is provided with a group of buffer cavities 24, the lower sides of the buffer cavities 24 are provided with opening-shaped structures, a group of transverse pressing plates 35 are arranged inside the buffer cavities 24, and the length of each pressing plate 35 is larger than the size of each opening so as to prevent the pressing plates 35 from falling from the inside of the buffer cavities 24. The upper surface of the pressing plate 35 is elastically connected to the inner top of the buffer chamber 24 through two sets of springs 34, and the buffer chamber 24 is provided in the middle of the connecting rod 25, so as to provide a partial buffer force to the press roll 23, so that the press roll 23 is prevented from being damaged by a large pressure when contacting the upper surface of the wave plate 21.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (10)

1. A coating shading cloth printing and dyeing device comprises a base (10), a printing and dyeing chamber (11), a driving box chamber (12), a power supply box (14), a liquid outlet hole (16), a liquid inlet hole (17), a cloth input port (18) and a cloth output port (19); the bottom of a base (10) is fixedly placed on the ground through two groups of cushion blocks, a printing and dyeing chamber (11) with the top portion being of an arc-shaped structure is fixedly installed on the upper surface of the base (10), a cloth input port (18) is arranged in the middle of the left side of the printing and dyeing chamber (11), a cloth output port (19) is arranged in the middle of the right side of the printing and dyeing chamber, a driving box chamber (12) is upwards arranged at the inner top of the printing and dyeing chamber (11) through a group of transverse partition plates, a power supply box (14) is fixedly placed on the left side of the inside of the driving box chamber (12), a group of dyeing liquid pools (20) are arranged at the bottom of the printing and dyeing chamber (11), a liquid outlet (16) is formed in the bottom of the left side of each dyeing liquid pool (20), a liquid inlet hole (17) is communicated with the bottom of the right side of the driving box chamber, a water pump, the upper portion of the wave-shaped wave plate (21) is submerged by dye liquor in the dye liquor pool (20), the left end and the right end of the wave-shaped wave plate (21) are respectively connected to the inner end of the cloth input port (18) and the inner end of the cloth output port (19), a group of rotating shafts (22) are arranged right above the middle portion of the wave plate (21), the front side and the rear side of each rotating shaft (22) are connected to the front side wall and the rear side wall of the printing and dyeing chamber (11) in a rotating mode through guide rails, the inner ends of the guide rails are fixedly connected to the front side face and the rear side face of each rotating shaft (22) through rotating wheels, the rotating wheels on the front side are connected with a group of first driving motors (15) fixed inside the driving box chamber (12) in a rotating mode through driving belts in an upward rotating mode, the outer curved surfaces of the rotating shafts (.

2. A coated blackout fabric printing and dyeing apparatus as claimed in claim 1, wherein the right side of the drive chamber (12) is provided with a set of ventilation tubes (13), the lower ends of the ventilation tubes (13) communicating with the interior of the printing chamber (11), the upper ends of the ventilation tubes extending through the top of the drive chamber (12) to the outside, the top of the ventilation tubes (13) being provided with a screen to prevent the ingress of dust.

3. A coated blackout fabric printing and dyeing apparatus according to claim 2, wherein two sets of deflector rolls (29) are provided inside the fabric inlet (18) and the fabric outlet (19) on both left and right sides, and a plurality of sets of deflector rods (30) are fixedly mounted on the curved outer surfaces of the deflector rolls (29), and the deflector rods (30) are made of rubber.

4. A coated blackout fabric printing and dyeing apparatus according to claim 3, wherein the deflector roll (29) is rotatably connected upwardly by a rotary belt to a drive pulley provided inside a third motor (32), the left and right drive pulleys are connected by a transmission belt, and the inner side of the drive pulley located on the outer side is fixedly mounted on an output shaft of a second drive motor (28) fixed to the upper surface of the rotary chamber (31).

5. A coated blackout fabric printing and dyeing apparatus according to claim 3, wherein the lower surfaces of the fabric inlet (18) and the fabric outlet (19) are provided with a mesh-like structure.

6. A coated blackout fabric printing and dyeing apparatus according to claim 5, wherein the upper surfaces of the fabric inlet (18) and the fabric outlet (19) are provided in a smooth planar configuration.

7. A coated blackout fabric printing and dyeing apparatus according to claim 6, wherein a plurality of suction chambers (26) fixed to the left side wall of the printing and dyeing chamber (11) are provided on the lower side of the bottom of the fabric inlet (18), and a dust collector is provided inside the suction chambers (26), and an upper output end of the dust collector communicates with the bottom of the fabric inlet (18).

8. A coated blackout fabric printing apparatus according to claim 6, wherein a waste liquid collecting tank (27) fixed to a right side wall of the printing chamber (11) is connected to a bottom of the fabric outlet (19), and an inside of the waste liquid collecting tank (27) is provided in a semicircular structure.

9. A coated blackout cloth printing and dyeing apparatus according to claim 1, wherein a group of pushing shafts (33) is rotatably connected to the middle bottom of the wavy plate (21) upward through the belt, the surface of the pushing shafts (33) is provided as a rubber layer, and a group of third motors (32) fixed to the bottom of the dyeing bath (20) is rotatably connected to the bottom of the pushing shafts (33) downward through the belt.

10. A coated blackout fabric printing and dyeing apparatus according to claim 1 or 9, wherein a set of buffer chambers (24) is provided in the middle of the connecting rod (25), the lower side of the buffer chambers (24) is provided with an opening-like structure, a set of transverse press plates (35) is provided inside the buffer chambers (24), the length of the press plates (35) is greater than the size of the openings, and the upper surfaces of the press plates (35) are elastically connected to the inner top of the buffer chambers (24) by two sets of springs (34).

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