CN211339988U - Meshbelt washing device - Google Patents

Abstract

The utility model relates to the technical field of washing devices, in particular to a braid washing device, which comprises a plurality of groups of washing mechanisms, wherein each group of washing mechanism comprises a washing water tank, a washing water bracket and at least two groups of washing water components; the washing assembly comprises a washing driving roller, a washing upper driven roller, a washing lower driven roller, a first driving device, a water inlet pipe assembly, a water outlet pipe assembly, an inclined guide belt assembly, a straight partition belt assembly, two groups of washing upper guide belt shafts and two groups of washing lower guide belt shafts; the washing water tank comprises a washing water tank front plate, a washing water tank rear plate, a washing water tank left plate, a washing water tank right plate and a washing water tank bottom plate, wherein a washing water tank is defined by the washing water tank front plate, the washing water tank rear plate, the washing water tank left plate, the washing water tank right plate and the washing water tank bottom plate. The water installation is washed to meshbelt of this application is effectual to the washing of meshbelt, satisfies the demand of production.

Description

Meshbelt washing device

Technical Field

The utility model belongs to the technical field of washing water installation technique and specifically relates to indicate a meshbelt washing water installation.

Background

The washing water treatment of the mesh belt washing device on the mesh belt is a procedure in a mesh belt dyeing production line, and the mesh belt washing water device is used for washing out some dyes and chemical agents which are not firmly attached to the surface of the mesh belt. The braid washing device used at present has poor effect on braid washing and can not meet the production requirement.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a meshbelt washing water device, this meshbelt washing water device is effectual to the washing water of meshbelt, satisfies the demand of production.

In order to solve the technical problem, the utility model discloses a following technical scheme:

a braid washing device comprises a plurality of groups of washing mechanisms, wherein each group of washing mechanisms comprises a washing water tank, a washing water bracket and at least two groups of washing water components; the washing assembly comprises a washing driving roller, a washing upper driven roller, a washing lower driven roller, a first driving device, a water inlet pipe assembly, a water outlet pipe assembly, an inclined guide belt assembly, a straight partition belt assembly, two groups of washing upper guide belt shafts and two groups of washing lower guide belt shafts;

the washing water tank comprises a washing water tank front plate, a washing water tank rear plate, a washing water tank left plate, a washing water tank right plate and a washing water tank bottom plate, wherein the washing water tank front plate and the washing water tank rear plate are arranged on the washing water tank bottom plate at intervals;

the washing water support is arranged on the washing water tank and positioned above the washing water tank, the two ends of the washing water driving roller, the two ends of the washing water upper driven roller and the two ends of the washing water lower driven roller are respectively and rotatably connected to the washing water support, the washing water driving roller is positioned between the washing water upper driven roller and the washing water lower driven roller, and the first driving device is arranged on the washing water support and used for driving the washing water driving roller to rotate; the water inlet pipe assembly is arranged on the water washing tank and used for conveying washing liquid to the washing tank, and the water outlet pipe assembly is arranged on the water washing tank and used for discharging the dirty washing liquid in the washing tank out of the washing tank;

the inclined conduction band assembly is used for changing the moving angle of the woven band; the straight spacer strip assembly is used for spacing the woven strips which are adjacent to each other;

the two groups of washing water upper belt guide shafts are rotatably arranged at the upper end of the washing water tank and are respectively positioned at the left side and the right side of the washing water lower driven roller; the two groups of underwater washing guide belt shafts are rotatably arranged at the lower end of the washing water tank, and the two groups of underwater washing guide belt shafts are positioned in the washing water tank.

Furthermore, the input end and/or the output end of the washing device are/is provided with a water absorbing mechanism, and the water absorbing mechanism comprises an upper vacuum suction head assembly, a lower vacuum suction head assembly, a vacuum suction head bracket, a first washing water guide belt shaft and a second washing water guide belt shaft; the vacuum suction head bracket is arranged on the left plate of the washing water tank, two ends of the first washing water guide belt shaft and two ends of the second washing water guide belt shaft are respectively and rotatably connected to the vacuum suction head bracket, and the first washing water guide belt shaft and the second washing water guide belt shaft are arranged at intervals; go up the vacuum suction head subassembly and connect respectively in the vacuum suction head support with lower vacuum suction head subassembly, go up vacuum suction head subassembly and set up with vacuum suction head subassembly interval down, go up vacuum suction head subassembly and vacuum suction head subassembly down and all be located first washing water conduction band axle and second and wash between the water conduction band axle.

Furthermore, the water washing device also comprises a plurality of water-stop plates, and the water-stop plates are used for dividing the water washing tank into a plurality of water washing separation tanks; the left plate of the washing water tank is provided with a water outlet which is communicated with the washing water tank; a water-stop sheet is arranged between every two adjacent groups of water washing assemblies, the heights of the water-stop sheets are different, and the heights of the water-stop sheets are gradually increased from the left plate of the water washing tank to the right plate of the water washing tank respectively.

Furthermore, the water washing device also comprises a heating component, the heating component comprises a steam heating pipe, a drain valve, a check valve, a steam ball valve switch and a filter, the steam heating pipe is arranged in the water washing tank, the steam heating pipe is positioned in the water washing tank, an air inlet and an air outlet of the steam heating pipe both protrude out of the water washing tank, one end of the steam ball valve switch is connected with the air inlet of the steam heating pipe, and the other end of the steam ball valve switch is connected with the filter; one end of the check valve is connected with the air outlet of the steam heating pipe, and the other end of the check valve is connected with the drain valve.

Further, the washing assembly further comprises a tension adjusting roller piece for adjusting the tension of the mesh belt, and the tension adjusting roller piece comprises a tension adjusting roller, a tension adjusting roller bracket and a second driving device; the tension adjusting roller support is rotatably connected to the washing water support, the two ends of the tension adjusting roller are respectively rotatably connected to the tension adjusting roller support, and the second driving device is installed on the washing water support and used for driving the tension adjusting roller support to rotate.

Furthermore, the washing assembly further comprises an inclined guide belt assembly, the inclined guide belt assembly comprises an inclined guide belt support and a plurality of inclined guide belt shafts, the inclined guide belt support is arranged on the washing water tank, and the inclined guide belt shafts are connected to the inclined guide belt support at intervals.

Further, the inclined guide belt shaft and the inclined guide belt support form an included angle of 30-90 degrees.

Further, the washing assembly further comprises a direct separation belt assembly, the direct separation belt assembly comprises two separation belt supports and a plurality of separation belt shafts, the two separation belt supports are arranged at intervals, the washing water tanks are arranged between the two separation belt supports at intervals, the separation belt shafts are arranged between the two separation belt supports at intervals, and two ends of the separation belt shafts are respectively connected to the two separation belt supports.

The utility model has the advantages that: in actual work, the first driving device is used for driving the washing driving roller to rotate, and the rotating washing driving roller drives the mesh belt to move forwards. The water washing driving roller is wound on a mesh belt subjected to steaming treatment by the steaming box, then the mesh belt is wound on the water washing upper belt guide shaft positioned on the right side of the water washing lower driven roller, then the mesh belt downwards penetrates through the straight belt separation assembly, then the water washing lower belt guide shaft on the right side of the mesh belt is wound, then the mesh belt upwards penetrates through the straight belt separation assembly, then the mesh belt is wound on the water washing lower driven roller, then the mesh belt downwards penetrates through the straight belt separation assembly, then the mesh belt is wound on the left water washing lower belt guide shaft, then the mesh belt upwards penetrates through the inclined belt guide assembly, then the mesh belt is wound on the water washing upper belt guide shaft positioned on the left side of the water washing driven roller, then the mesh belt is wound on the water washing driving roller. The inclined conduction band assembly changes the moving angle of the woven belt, so that the interference among the multiple circles of woven belts wound on the washing driving roller can be avoided. The straight-through belt assembly separates the adjacent woven belts, prevents the adjacent woven belts from interfering with each other, and simultaneously prevents the woven belts from shifting. Meanwhile, the water inlet pipe assembly conveys washing liquid to the washing tank, the washing liquid can carry out washing treatment on the woven belt in the washing tank, and the washing liquid can wash out some dyes and chemical agents which are not firmly attached to the surface of the woven belt. When the dirty degree of the washing liquid reaches a set value, the dirty washing liquid in the washing tank is discharged out of the washing tank from the water outlet pipe assembly, then enters the water pipe assembly and conveys the washing liquid to the washing tank again.

When the meshbelt through wash water drive roll with wash water on the driven voller, wash water drive roll with wash water on the driven voller will extrude the meshbelt, let the washing liquid flow out of meshbelt the inside, when washing liquid flows out from the meshbelt the inside, some attached to insecure dyestuff and chemical agent will follow the washing liquid and flow out the meshbelt together, and then improve the washing effect of meshbelt. When the meshbelt through wash driven voller under water and wash the water drive roll, wash under water driven voller and wash the water drive roll and will extrude the meshbelt, let the washing liquid outflow of meshbelt the inside, when washing liquid flows out from the meshbelt the inside, some attached to insecure dyestuff and chemical agent will follow the washing liquid and flow out the meshbelt together, and then improve the washing effect of meshbelt. Two sets of wash water and lead the tape spool and all play direction and carry the effect to the meshbelt, guarantee that the meshbelt can remove along correct direction.

Specifically, the meshbelt just twines a set of washing water subassembly down after first group washing water subassembly winding is accomplished, and the meshbelt just twines a set of washing water mechanism down after first group washing water mechanism winding is accomplished, increases the washing water stroke of meshbelt to improve the washing water treatment effect of meshbelt. The water installation is washed to meshbelt of this application is effectual to the washing of meshbelt, satisfies the demand of production.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of another perspective of the present invention.

Fig. 3 is a top view of the present invention.

Fig. 4 is a sectional view taken along a-a in fig. 3.

Fig. 5 is a schematic structural view of the oblique conduction band assembly and the direct separation band assembly of the present invention.

Fig. 6 is a schematic structural view of the water inlet pipe assembly, the water outlet pipe assembly and the heating assembly of the present invention.

Description of reference numerals:

a wash water mechanism 71, a wash water tank 72, a wash water tank front plate 721, a wash water tank rear plate 722, a wash water tank left plate 723, a wash water tank right plate 724, a wash water tank bottom plate 725, a wash water tank 726, a wash water bracket 73, a wash water assembly 74, a wash water driving roller 741, a wash water upper driven roller 742, a wash water lower driven roller 743, a first driving device 744, a tension adjusting roller member 745, a tension adjusting roller 7451, a tension adjusting roller bracket 7452, a second driving device 7453, a water inlet pipe assembly 746, a water outlet pipe assembly 747, a slant belt guide assembly, a slant belt guide support 7481, a slant belt guide shaft 7482, a straight belt assembly 749, a tape guide support 7491, a tape guide shaft 7492, a wash water upper belt guide shaft 7410, a wash water lower belt guide shaft 7411, an upper vacuum suction head assembly 75, a lower vacuum suction head assembly 76, a vacuum suction head bracket 77, a first wash water guide belt shaft 78, a second wash water guide belt shaft 79, a water baffle 710, a wash water tank separation tank 7101, a wash water separation tank separation assembly 711, a, a steam heating pipe 7121, a drain valve 7122, a check valve 7123, a steam ball valve switch 7124, a filter 7125 and a water absorption mechanism 713.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.

As shown in fig. 1 to 4, the webbing washing device provided by the present invention includes a plurality of groups of washing mechanisms 71, each group of washing mechanisms 71 includes a washing tank 72, a washing bracket 73 and at least two groups of washing assemblies 74; the washing water assembly 74 comprises a washing water driving roll 741, a washing water upper driven roll 742, a washing water lower driven roll 743, a first driving device 744, a water inlet pipe assembly 746, a water outlet pipe assembly 747, an inclined guide belt assembly 748, a straight spacer belt assembly 749, two groups of washing water upper guide belt shafts 7410 and two groups of washing water lower guide belt shafts 7411;

the washing water tank 72 includes a washing water tank front plate 721, a washing water tank rear plate 722, a washing water tank left plate 723, a washing water tank right plate 724, and a washing water tank bottom plate 725, the washing water tank front plate 721 and the washing water tank rear plate 722 are disposed at the washing water tank bottom plate 725 at intervals, the washing water tank left plate 723 and the washing water tank right plate 724 are disposed at the washing water tank bottom plate 725 at intervals, both ends of the washing water tank front plate 721 are respectively connected to the washing water tank left plate 723 and the washing water tank right plate 724, both ends of the washing water tank rear plate 722 are respectively connected to the washing water tank left plate 723 and the washing water tank right plate 724, the washing water tank front plate 721, the washing water tank rear plate 722, the washing water tank left plate 723, the washing water tank right plate 724, and the;

the washing water bracket 73 is arranged on the washing water tank 72 and positioned above the washing water tank 726, two ends of a washing water driving roller 741, two ends of an upper washing driven roller 742 and two ends of a lower washing driven roller 743 are respectively and rotatably connected to the washing water bracket 73, the washing water driving roller 741 is positioned between the upper washing driven roller 742 and the lower washing driven roller 743, and a first driving device 744 is arranged on the washing water bracket 73 and used for driving the washing water driving roller 741 to rotate; the water inlet pipe assembly 746 is installed on the water washing tank 72 and is used for conveying the washing liquid to the washing tank 726, and the water outlet pipe assembly 747 is installed on the water washing tank 72 and is used for discharging the dirty washing liquid in the washing tank 726 out of the washing tank 726;

the inclined conduction band assembly 748 is used for changing the moving angle of the woven belt; the straight strap assembly 749 is used to space the straps adjacent to each other;

the two groups of washing water upper tape guide shafts 7410 are rotatably arranged at the upper end of the washing water tank 72, and the two groups of washing water upper tape guide shafts 7410 are respectively positioned at the left side and the right side of the washing water lower driven roller 743; the two groups of washing water lower belt guide shafts 7411 are rotatably arranged at the lower end of the washing water tank 72, and the two groups of washing water lower belt guide shafts 7411 are positioned in the washing water tank 726.

In actual work, the first driving device 744 is used for driving the washing driving roller 741 to rotate, and the rotating washing driving roller 741 drives the webbing to move forward. The braid after the steaming treatment of the steaming box is firstly wound around a washing water driving roller 741, then the braid is wound around a washing water upper belt guide shaft 7410 positioned at the right side of a washing water lower driven roller 743, then the braid downwards passes through a straight spacer assembly 749, then the braid is wound around a washing water lower belt guide shaft 7411 at the right side, then the braid upwards passes through the straight spacer assembly 749, then the braid is wound around the washing water lower driven roller 743, then the braid downwards passes through the straight spacer assembly 749, then the braid is wound around a washing water lower belt guide shaft 7411 at the left side, then the braid upwards passes through an inclined belt guide assembly 748, then the braid is wound around the washing water upper belt guide shaft 7410 positioned at the left side of the washing water lower driven roller 743, then the braid is wound around the washing water driving roller 741, and the braid is wound in such a cycle. The inclined guide belt assembly 748 changes the moving angle of the webbing so that the interference of the plurality of loops of webbing wound around the washing driving roller 741 does not occur. The straight strap assembly 749 spaces the adjacent webbing apart to prevent the adjacent webbing from interfering with each other and also prevents the webbing from shifting. Meanwhile, the water inlet pipe assembly 746 conveys washing liquid to the washing tank 726, the washing liquid can carry out washing treatment on the woven belt in the washing tank 726, and the washing liquid can wash out some dyes and chemical agents which are not firmly attached to the surface of the woven belt. When the degree of contamination of the washing liquid reaches a predetermined value, the washing liquid in the washing tank 726 is discharged out of the washing tank 726 through the outlet pipe assembly 747, and then the water pipe assembly 746 delivers the washing liquid to the washing tank 726 again.

When the meshbelt passes through the washing drive roll 741 and the washing upper driven roll 742, the washing drive roll 741 and the washing upper driven roll 742 will extrude the meshbelt, so that the washing liquid in the meshbelt flows out, and when the washing liquid flows out from the meshbelt, some dyes and chemical agents which are not firmly attached will flow out of the meshbelt along with the washing liquid, thereby improving the washing effect of the meshbelt. When the meshbelt passes through the washing under water driven roller 743 and the washing drive roller 741, the washing under water driven roller 743 and the washing drive roller 741 will extrude the meshbelt, let the washing liquid in the meshbelt flow out, when the washing liquid flows out from the meshbelt, some dye and chemical agent that adhere to insecurely will follow the washing liquid and flow out the meshbelt together, and then improve the washing effect of meshbelt. The two groups of belt guiding shafts 7410 on the washing water and the two groups of belt guiding shafts 7411 under the washing water both play a role in guiding and conveying the woven belt, and ensure that the woven belt can move along the correct direction.

Specifically, the woven belt is wound on the next group of washing water assemblies 74 after the first group of washing water assemblies 74 are wound, and the woven belt is wound on the next group of washing water assemblies 71 after the first group of washing water assemblies 71 are wound, so that the washing water stroke of the woven belt is increased, and the washing water treatment effect of the woven belt is improved.

The water installation is washed to meshbelt of this application is effectual to the washing of meshbelt, satisfies the demand of production.

As shown in fig. 1 and 4, in the present embodiment, the input end and/or the output end of the washing apparatus 7 are provided with a water absorbing mechanism 713, and the water absorbing mechanism 713 includes an upper vacuum nozzle assembly 75, a lower vacuum nozzle assembly 76, a vacuum nozzle bracket 77, a first washing water guide belt shaft 78 and a second washing water guide belt shaft 79; the vacuum suction head bracket 77 is arranged on the left plate 723 of the washing water tank, two ends of the first washing water guide belt shaft 78 and two ends of the second washing water guide belt shaft 79 are respectively and rotatably connected to the vacuum suction head bracket 77, and the first washing water guide belt shaft 78 and the second washing water guide belt shaft 79 are arranged at intervals; the upper vacuum nozzle assembly 75 and the lower vacuum nozzle assembly 76 are respectively connected to a vacuum nozzle bracket 77, the upper vacuum nozzle assembly 75 and the lower vacuum nozzle assembly 76 are spaced apart, and the upper vacuum nozzle assembly 75 and the lower vacuum nozzle assembly 76 are both positioned between a first wash water belt guide shaft 78 and a second wash water belt guide shaft 79.

In actual operation, the braid after steaming treatment in the steaming box is firstly wound around the first washing water guide shaft 78, then the braid passes through between the upper vacuum suction head assembly 75 and the lower vacuum suction head assembly 76, then the braid is wound around the second washing water guide shaft 79, and then the braid is wound around the washing water driving roller 741. Because moisture is remained in the meshbelt after the steaming treatment of the steaming box, the moisture of the meshbelt is simultaneously absorbed by the upper vacuum suction head assembly 75 and the lower vacuum suction head assembly 76, and the dye and the chemical agent which are not firm in adhesion are also absorbed away by the upper vacuum suction head assembly 75 and the lower vacuum suction head assembly 76 in the process of absorbing the moisture of the meshbelt, so that the washing time of the meshbelt by the washing device 7 is shortened, and the washing liquid used by the washing device 7 is saved, and the cost is reduced. After the washing device 7 finishes the washing treatment of the woven tape, the woven tape is conveyed from the output end of the washing device 7 to the drying device, and meanwhile, the water absorption mechanism 713 at the output end of the washing device 7 absorbs the water of the woven tape, so that the woven tape becomes dry, the drying time of the woven tape in the drying device is shortened, the energy consumption is reduced, and the production cost of the woven tape is reduced.

As shown in fig. 1 and 4, in the present embodiment, the washing apparatus 7 further includes a plurality of water baffles 710, and the plurality of water baffles 710 are used for dividing the washing water tank 726 into a plurality of washing water dividing tanks 7101; the left plate 723 of the washing water tank is provided with a water outlet 711, and the water outlet 711 is communicated with a washing water groove 726; a water stop plate 710 is arranged between every two adjacent groups of washing water assemblies 74, the heights of the water stop plates 710 are different, and the heights of the water stop plates 710 are gradually increased from the washing water tank left plate 723 to the washing water tank right plate 724 respectively.

The washing water tank 726 is divided into a plurality of washing water separating tanks 7101 by the water separating plates 710, each group of washing water assemblies 74 corresponds to one washing water separating tank 7101, the washing water in each washing water separating tank 7101 is independent, and the washing water in each washing water separating tank 7101 cannot cause dirt in other washing water separating tanks 7101. Since the wash water in the wash water dividing tank 7101 closer to the left plate 723 of the wash water tank is more polluted, the frequency of replacing the wash water is higher as the pollution degree of the wash water is higher. The traditional way is to replace the washing liquid in the whole washing tank 726, which greatly wastes the washing liquid resource and improves the production cost of the mesh belt. In the embodiment, the washing water tank 726 is divided into the washing water separating tanks 7101 by the water separating plates 710, so that whether the washing water is replaced or not can be determined according to the dirt degree of the washing water in each washing water separating tank 7101 during use, the resource of the washing water is saved, and the production cost of the woven belt is reduced.

Meanwhile, since the heights of the plurality of water baffles 710 are different, the heights of the water baffles 710 gradually increase from the washing water tank left plate 723 to the washing water tank right plate 724, so that the liquid level heights of the washing water separating grooves 7101 are different, the washing water in the washing water separating grooves 7101 with the high liquid level flows to the washing water separating grooves 7101 with the low liquid level, the washing water in the washing water tank 726 flows, and the washing water finally flows out of the washing water tank 726 from the water outlet 711 of the washing water tank left plate 723. The dirty degree of the washing water in the washing water separating groove 7101 with the high liquid level is lower than that of the washing water in the washing water separating groove 7101 with the low liquid level, so that the washing water with the lower dirty degree flows to the washing water with the higher dirty degree, when the washing water with the lower dirty degree flows into the washing water with the higher dirty degree, the dirty degree of the washing water in the washing water separating groove 7101 is reduced, the service time of the washing water is prolonged, and the washing water in the washing water separating groove 7101 is replaced until the dirty degree of the washing water in the washing water separating groove 7101 reaches a set value, so that the resource of the washing water is saved, and the production cost of the woven belt is reduced.

As shown in fig. 2 and fig. 6, in this embodiment, the water washing apparatus 7 further includes a heating component 712, the heating component 712 includes a steam heating pipe 7121, a drain valve 7122, a check valve 7123, a steam ball valve switch 7124 and a filter 7125, the steam heating pipe 7121 is installed in the water washing tank 72, the steam heating pipe 7121 is located in the water washing tank 726, an air inlet and an air outlet of the steam heating pipe 7121 both extend out of the water washing tank 72, one end of the steam ball valve switch 7124 is connected to an air inlet of the steam heating pipe 7121, and the other end of the steam ball valve switch 7124 is connected to the filter 7125; one end of the check valve 7123 is connected with the air outlet of the steam heating pipe 7121, and the other end of the check valve 7123 is connected with the drain valve 7122.

In the actual work, carry steam to steam heating pipe 7121 via the trachea with the steaming chamber after to meshbelt steaming treatment, the waste heat of steam is given the washing liquid in washing basin 726 via steam heating pipe 7121 heat transfer, realizes the heating to washing liquid, and the washing liquid after the heating is better to the washing water treatment effect of meshbelt, and the steam of steaming chamber has fully utilized simultaneously, reduces the consumption of the energy. Specifically, the air pipe is connected with a filter 7125, the filter 7125 firstly filters the steam, and impurities in the steam are filtered; the steam ball valve switch 7124 is used for opening or closing an air inlet of the steam heating pipe 7121 to control whether steam is input into the steam heating pipe 7121; the drain valve 7122 is used for draining condensed water in the steam heating pipe 7121 out of the steam heating pipe 7121; the check valve 7123 serves to prevent water flowing into the drain valve 7122 from flowing backward into the steam heating pipe 7121. The heating element 712 operates stably and reliably and effectively heats the washing liquid in the washing tank 726.

As shown in fig. 2 and 4, in the present embodiment, the washing water assembly 74 further includes a dancer roller member 745 for adjusting tension of the webbing, the dancer roller member 745 including a dancer roller 7451, a dancer roller bracket 7452 and a second driving device 7453; the dancer roll holder 7452 is rotatably connected to the washing water holder 73, both ends of the dancer roll 7451 are rotatably connected to the dancer roll holder 7452, respectively, and the second driving device 7453 is installed on the washing water holder 73 and used for driving the dancer roll holder 7452 to rotate.

In actual operation, the steamed braid of the steaming box is firstly wound around the tension adjusting roller 7451, and then the braid is wound around the washing water driving roller 741. When the tension of the webbing needs to be adjusted, the second driving device 7453 drives the tension adjusting roller bracket 7452 to rotate, the rotating tension adjusting roller bracket 7452 drives the tension adjusting roller 7451 to swing up and down, and the swinging tension adjusting roller 7451 can adjust the tension of the webbing. The tension adjusting roller 745 has a simple structure and effectively adjusts the tension of the webbing.

As shown in fig. 4 and 5, in the present embodiment, the washing water assembly 74 further includes a slanted guide belt assembly 748, the slanted guide belt assembly 748 includes a slanted guide belt support 7481 and a plurality of slanted guide belt shafts 7482, the slanted guide belt support 7481 is installed on the washing water tank 72, and the plurality of slanted guide belt shafts 7482 are connected to the slanted guide belt support 7481 at intervals. The angle between the oblique tape guide axis 7482 and the oblique tape guide support 7481 is between 30 ° and 90 °. The washing water assembly 74 further comprises a direct isolation belt assembly 749, the direct isolation belt assembly 749 comprises two isolation belt supports 7491 and a plurality of isolation belt shafts 7492, the two isolation belt supports 7491 are provided with the washing water tank 72 at intervals, the plurality of isolation belt shafts 7492 are arranged between the two isolation belt supports 7491 at intervals, and two ends of the plurality of isolation belt shafts 7492 are respectively connected with the two isolation belt supports 7491.

In actual work, the braid subjected to steaming treatment in the steaming box is firstly wound around the washing water driving roller 741, then the braid is wound around the washing water upper belt guide shaft 7410 positioned on the right side of the washing water lower driven roller 743, then the braid downwards passes through the space between the two belt isolating shafts 7492, then the braid is wound around the washing water lower belt guide shaft 7411 on the right side, then the braid upwards passes through the space between the two belt isolating shafts 7492, then the braid is wound around the washing water lower driven roller 743, then the braid downwards passes through the space between the two belt isolating shafts 7492, then the braid is wound around the washing water lower belt guide shaft 7411 on the left side, then the braid upwards passes through the space between the two inclined belt guide shafts 7482, then the braid is wound around the washing water upper belt guide shaft 7410 on the left side of the washing water lower driven roller 743, then the braid is wound around the washing water driving roller 741, and. Since the inclined tape guide shaft 7482 changes the moving angle of the webbing, the webbing wound around the washing water driving roller 741 does not interfere with each other. The inclined guide belt assembly 748 changes the moving angle of the webbing so that the interference of the plurality of loops of webbing wound around the washing driving roller 741 does not occur. The straight strap assembly 749 spaces the adjacent webbing apart to prevent the adjacent webbing from interfering with each other and also prevents the webbing from shifting.

All the technical features in the embodiment can be freely combined according to actual needs.

The above-mentioned embodiment is the utility model discloses the implementation scheme of preferred, in addition, the utility model discloses can also realize by other modes, any obvious replacement is all within the protection scope of the utility model under the prerequisite that does not deviate from this technical scheme design.

Claims (8)

1. The utility model provides a meshbelt washing water installation which characterized in that: the washing machine comprises a plurality of groups of washing mechanisms, wherein each group of washing mechanisms comprises a washing water tank, a washing water bracket and at least two groups of washing water components; the washing assembly comprises a washing driving roller, a washing upper driven roller, a washing lower driven roller, a first driving device, a water inlet pipe assembly, a water outlet pipe assembly, an inclined guide belt assembly, a straight partition belt assembly, two groups of washing upper guide belt shafts and two groups of washing lower guide belt shafts;

the washing water tank comprises a washing water tank front plate, a washing water tank rear plate, a washing water tank left plate, a washing water tank right plate and a washing water tank bottom plate, wherein the washing water tank front plate and the washing water tank rear plate are arranged on the washing water tank bottom plate at intervals;

the washing water support is arranged on the washing water tank and positioned above the washing water tank, the two ends of the washing water driving roller, the two ends of the washing water upper driven roller and the two ends of the washing water lower driven roller are respectively and rotatably connected to the washing water support, the washing water driving roller is positioned between the washing water upper driven roller and the washing water lower driven roller, and the first driving device is arranged on the washing water support and used for driving the washing water driving roller to rotate; the water inlet pipe assembly is arranged on the water washing tank and used for conveying washing liquid to the washing tank, and the water outlet pipe assembly is arranged on the water washing tank and used for discharging the dirty washing liquid in the washing tank out of the washing tank;

the inclined conduction band assembly is used for changing the moving angle of the woven band; the straight spacer strip assembly is used for spacing the woven strips which are adjacent to each other;

the two groups of washing water upper belt guide shafts are rotatably arranged at the upper end of the washing water tank and are respectively positioned at the left side and the right side of the washing water lower driven roller; the two groups of underwater washing guide belt shafts are rotatably arranged at the lower end of the washing water tank, and the two groups of underwater washing guide belt shafts are positioned in the washing water tank.

2. The webbing belt washing device according to claim 1, characterized in that: the input end and/or the output end of the washing device are/is provided with a water absorbing mechanism, and the water absorbing mechanism comprises an upper vacuum suction head assembly, a lower vacuum suction head assembly, a vacuum suction head bracket, a first washing water guide belt shaft and a second washing water guide belt shaft; the vacuum suction head bracket is arranged on the left plate of the washing water tank, two ends of the first washing water guide belt shaft and two ends of the second washing water guide belt shaft are respectively and rotatably connected to the vacuum suction head bracket, and the first washing water guide belt shaft and the second washing water guide belt shaft are arranged at intervals; go up the vacuum suction head subassembly and connect respectively in the vacuum suction head support with lower vacuum suction head subassembly, go up vacuum suction head subassembly and set up with vacuum suction head subassembly interval down, go up vacuum suction head subassembly and vacuum suction head subassembly down and all be located first washing water conduction band axle and second and wash between the water conduction band axle.

3. The webbing belt washing device according to claim 1, characterized in that: the washing device also comprises a plurality of water-stop plates, and the plurality of water-stop plates are used for dividing the washing tank into a plurality of washing separation tanks; the left plate of the washing water tank is provided with a water outlet which is communicated with the washing water tank; a water-stop sheet is arranged between every two adjacent groups of water washing assemblies, the heights of the water-stop sheets are different, and the heights of the water-stop sheets are gradually increased from the left plate of the water washing tank to the right plate of the water washing tank respectively.

4. The webbing belt washing device according to claim 1, characterized in that: the water washing device further comprises a heating assembly, the heating assembly comprises a steam heating pipe, a drain valve, a check valve, a steam ball valve switch and a filter, the steam heating pipe is arranged on the water washing tank, the steam heating pipe is positioned in the water washing tank, an air inlet and an air outlet of the steam heating pipe both protrude out of the water washing tank, one end of the steam ball valve switch is connected with the air inlet of the steam heating pipe, and the other end of the steam ball valve switch is connected with the filter; one end of the check valve is connected with the air outlet of the steam heating pipe, and the other end of the check valve is connected with the drain valve.

5. The webbing belt washing device according to claim 1, characterized in that: the washing assembly also comprises a tension adjusting roller piece for adjusting the tension of the mesh belt, and the tension adjusting roller piece comprises a tension adjusting roller, a tension adjusting roller bracket and a second driving device; the tension adjusting roller support is rotatably connected to the washing water support, the two ends of the tension adjusting roller are respectively rotatably connected to the tension adjusting roller support, and the second driving device is installed on the washing water support and used for driving the tension adjusting roller support to rotate.

6. The webbing belt washing device according to claim 1, characterized in that: the washing assembly further comprises an inclined guide belt assembly, the inclined guide belt assembly comprises an inclined guide belt support and a plurality of inclined guide belt shafts, the inclined guide belt support is arranged in the washing water tank, and the inclined guide belt shafts are connected to the inclined guide belt support at intervals.

7. The webbing belt washing device according to claim 6, characterized in that: the inclined guide belt shaft and the inclined guide belt support form an included angle of 30-90 degrees.

8. The webbing belt washing device according to claim 1 or 6, characterized in that: the washing assembly further comprises a direct separation belt assembly, the direct separation belt assembly comprises two separation belt supports and a plurality of separation belt shafts, the two separation belt supports are arranged at intervals, the washing water tanks are arranged between the two separation belt supports at intervals, the separation belt shafts are arranged between the two separation belt supports at intervals, and two ends of the separation belt shafts are connected to the two separation belt supports respectively.

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