CN110872747B - Distributing sand washing device capable of discharging slag - Google Patents

Abstract

The invention discloses a cloth sand washing device capable of discharging slag, which belongs to the field of textile production machinery and comprises a sand washing box, wherein an upper discharge roller and a lower discharge roller are arranged in the sand washing box, and a cloth feeding supporting table and a cloth discharging supporting table are respectively arranged at two end sides of the sand washing box; a cloth feeding travelling mechanism is arranged right above the sand washing box and comprises two rack rails arranged on the main supporting platform, transfer gears are meshed on the two rack rails, and the transfer gears, the middle connecting rod and the lifting rod form a crank block mechanism; a slide rail cavity channel which is gradually lowered from the cloth feeding supporting platform to the cloth rolling supporting platform is arranged below the sand washing box; the outside of the sand washing box is provided with a liquid storage box and a slag collecting box. The invention can realize the mechanized operation of the shuttling of the cloth head end, can avoid the cloth from wrinkling, can simply and completely clean the coarse residues, is favorable for improving the sand washing effect of the cloth, does not need to transfer the winding shaft from the side of the cloth feeding supporting table to the side of the cloth rolling supporting table manually, and greatly reduces the workload of related personnel.

Description

Cloth sand washing device capable of discharging slag

Technical Field

The invention relates to the field of textile production machinery, in particular to a distributing and sand washing device capable of discharging slag.

Background

In order to expand the variety of fabrics and improve the performance of the fabrics, the sand washing technology is widely applied, the sand washing treatment is to rinse by using an aqueous solution containing chemical raw materials such as alkaline, oxidizing auxiliary agents, softening agents and the like to ensure that clothes have certain fading effect and old feeling after being washed, if graphite is added, a layer of soft frosty and white fluff is generated on the surface of the washed cloth, and then some softening agents are added to ensure that the washed fabric is soft, soft and thickened so as to improve the wearing comfort. The selling price of the silk clothes after being washed by sand can be improved by more than 5 percent at least.

At present, the existing advanced sand washing devices perform sand washing on cloth under an open width condition, and generally comprise a sand washing box with an open upper end surface, a cloth feeding roller and a cloth discharging roller are respectively arranged at two end sides of the sand washing box, a plurality of roller bodies for the cloth to shuttle in an S shape and a friction roller for sanding the surface of the cloth are arranged in the sand washing box, and a sand washing solution is filled in the sand washing box; the cloth outlet roller is connected with the driving motor, and can pull out and wind the cloth subjected to sand washing in the sand washing box into a coil, so that the automation degree is higher, and the continuity of the sand washing is stronger. For example, in the patent with application publication number CN 108085896 a, a gauze sand washing device for textile production is disclosed, which comprises a sand washing box, wherein an aeration disc is arranged at the bottom of the sand washing box, and an aeration hole is formed in one side of the aeration disc, and blows out certain air flow through the aeration hole, so that sand washing liquid in the sand washing box is in a flowing state, the precipitation of the sand washing liquid is effectively reduced, the contact of the sand washing liquid and cloth is promoted, and the sand washing effect is improved; the feeding roller and the discharging roller are respectively installed on the two end sides of the sand washing box, the drying device is further arranged on the side where the discharging roller is located, the drying device comprises an air blower, an air heater and a hot air outlet disc, a hot air outlet is formed in the hot air outlet disc, and the cloth after sand washing can be dried before rolling, so that the cloth rolling and the subsequent processes are facilitated. However, the following disadvantages exist in the same way as other open-width sand washing devices: firstly, when the cloth starts to shuttle among the roller bodies, manual operation is needed, the operation is complicated, and when relevant personnel operate, in order to prevent hands from being stained with the sand washing liquid, the sand washing liquid needs to be discharged when the operation is carried out, and then the sand washing liquid needs to be returned to a sand washing box, so that the workload of the relevant personnel is increased; secondly, during the sand washing process, the cloth is likely to wrinkle when being conveyed between the roller bodies, which can cause uneven sand washing and damage to the cloth during the sand washing process; thirdly, the related roller bodies in the sand washing tank are connected to the inner side wall of the sand washing tank, and in the sand washing process, the two side edges of the cloth can be in contact friction with the side wall of the sand washing tank to be abraded; fourthly, in the sanding process of the cloth, the hair residue is inevitably generated, the hair residue generated on the upper surface of the cloth can smoothly float on the liquid level, but the hair residue generated on the lower surface of the cloth can be blocked by the cloth and cannot smoothly float on the liquid level, and when the hair residue is accumulated more, the hair residue brings adverse effect to the sanding of the cloth; and fifthly, in mass production, the winding shaft is left after the cloth feeding roller feeds the cloth completely, the cloth discharging roller needs to wind the cloth by the winding shaft, personnel are needed to transfer the winding shaft, and the workload of related personnel is increased.

Disclosure of Invention

1. Technical problem to be solved

The invention aims to solve the technical problem of providing a cloth sand washing device capable of discharging slag, which can realize the mechanized operation of shuttling the head end of the cloth, can avoid the wrinkle of the cloth, can avoid the abrasion caused by the contact and friction between the two side edges of the cloth and the side wall of a sand washing box, can avoid the abrasion damage caused by the wrinkle of the cloth, can simply, conveniently and completely clean the coarse slag, is favorable for improving the sand washing effect of the cloth, does not need to manually transfer a winding shaft from the side where a cloth feeding supporting table is located to the side where a cloth rolling supporting table is located, and greatly reduces the workload of related personnel.

2. Technical scheme

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

a cloth sand washing device capable of discharging slag comprises a sand washing box, wherein an upper discharging roller and a lower discharging roller which is staggered with the upper discharging roller at equal intervals are arranged in the sand washing box, sand washing liquid with the liquid level higher than that of the upper discharging roller is contained in the sand washing box, a cloth feeding supporting table and a cloth rolling supporting table are respectively arranged outside the two end sides of the sand washing box, a cloth feeding roller and a cloth discharging roller are respectively arranged on the two end sides of the top of the sand washing box, a cloth roll to be subjected to sand washing is placed on the cloth feeding supporting table, a rotating motor is arranged on one side of the cloth rolling supporting table in the width direction of the sand washing box, a mounting sleeve for mounting a winding shaft of the cloth roll is arranged on an output shaft of the rotating motor, and the cloth shuttles between the upper discharging roller and the lower discharging roller in an S shape in the sand washing process;

a cloth feeding travelling mechanism is arranged right above the sand washing box and comprises a horizontally arranged main supporting table, rack rails parallel to the length direction of the main supporting table are arranged on the two length edge sides of the main supporting table, transfer gears meshed with the rack rails are arranged on the two rack rails and driven by a double-shaft forward and reverse rotation motor, a middle connecting rod is hinged to the upper edge of the side face of each of the two transfer gears on the opposite side, a vertically arranged lifting rod is hinged to the lower end of the middle connecting rod, and a clamp is arranged at the lower end of the lifting rod; in an initial state, the middle connecting rod is in a vertical state, the upper end of the middle connecting rod is located on the side where the top of the transfer gear is located, the clamp is located in the sand washing box on the side where the cloth feeding roller is located and is higher than the upper row of rollers, and the distance between the clamp and the first lower row of rollers on the side is equal to the distance between the lower row of rollers and the upper row of rollers adjacent to the lower row of rollers; when the transfer gear rotates for half a turn, the moving distance of the transfer gear is equal to the distance between the lower row of rollers and the upper row of rollers adjacent to the lower row of rollers, and the clamp moves to be right below the first lower row of rollers; when the transfer gear rotates for one circle, the moving distance of the transfer gear is equal to the distance between two adjacent lower rollers, and the clamp moves to a position right above the first upper roller;

a moving space for the lifting rod to move is reserved between the two ends of the upper row roller and the lower row roller and the corresponding inner side wall of the sand washing box, the lower row roller is connected to the bottom surface of the main support platform through a vertical connecting rod I, the upper row roller is connected to the inner bottom surface of the sand washing box through a vertical connecting rod II, two friction rollers which are respectively connected to the vertical connecting rod I and the vertical connecting rod II are arranged between the vertical connecting rod I and the vertical connecting rod II adjacent to the vertical connecting rod I in the middle range of the sand washing box, a layer of cloth just passes through a gap between the two friction rollers, the friction roller facing to the side where the cloth outlet roller is located is a major arc shape which is gradually convex from the two ends to the middle part, the other friction roller is a major arc shape which is gradually concave from the two ends to the middle part, and the side edges of the upper row roller and the lower row roller in the length direction are major arc shapes which are gradually convex from the two ends to the middle part;

the cloth feeding support table is provided with a lower groove for placing a cloth roll to be subjected to sand washing, the bottom of the lower groove is provided with a falling hole matched with a winding shaft of the cloth roll, a sliding rail cavity channel extending from the side of the cloth feeding support table to the side of the cloth rolling support table is arranged right below the sand washing box, the sliding rail cavity channel is gradually lowered from the side of the cloth feeding support table to the side of the cloth rolling support table, one end of the sliding rail cavity channel is positioned right below the falling hole and communicated with the falling hole, and the widths of the falling hole and the sliding rail cavity channel are larger than the length of the winding shaft;

the outside that the sand washing case corresponds the length direction lateral wall is equipped with liquid reserve tank and collection sediment case, the splendid attire has sand washing liquid in the liquid reserve tank, the liquid reserve tank passes through fluid infusion pipe and sand washing case lower part intercommunication, be equipped with the on-off control valve on the fluid infusion pipe, the sediment case passes through sediment pipe and sand washing case upper portion intercommunication, the position that sand washing case intercommunication sediment pipe was located the top of the top roller.

Furthermore, the transfer gear comprises a walking gear meshed on the rack rail and a rotating gear meshed with the walking gear, the double-shaft forward and reverse rotating motor is arranged between the two walking gears, the walking gear is sleeved on an output shaft of the double-shaft forward and reverse rotating motor, a moving shaft penetrating through the centers of the two rotating gears is arranged between the two rotating gears, the rotating gear can be rotatably sleeved on the moving shaft, and the moving shaft is connected to the surface of the double-shaft forward and reverse rotating motor through a connecting rod. Because the rotation of transfer gear both need control to realize the certain stroke of reciprocating of lifter and satisfy the horizontal migration distance again, this setting that just leads to the mechanism is comparatively difficult, so set up the walking gear and satisfy the restriction of horizontal migration distance, set up the running gear and satisfy the certain stroke restriction of reciprocating that realizes the lifter, by biax positive and negative motor drive walking gear revolve, again drive running gear by the walking gear and rotate, namely biax positive and negative motor indirect drive running gear revolve, and walking gear revolve drives biax positive and negative motor and moves, biax positive and negative motor passes through the connecting rod and drives the removal axle and move, thereby can drive running gear and move, can satisfy the design requirement, running gear can not mesh with rack and pinion.

Furthermore, the walking gear is a pinion gear, and the rotating gear is a bull gear. Considering that if the distance between the upper row of rollers and the adjacent lower row of rollers is larger, when the rotating gear rotates for one circle, the traveling distance of the traveling gear on the rack rail can be equal to the distance between the two adjacent lower rows of rollers only by rotating for more than one circle, so that the requirements can be met by setting the traveling gear as a small gear and the rotating gear as a large gear.

Furthermore, extension rods are fixed at the upper edges of the side faces, opposite to each other, of the two rotating gears, and the upper ends of the middle connecting rods are hinged to the free ends of the extension rods. Because the distance between the top end and the bottom end of the rotating track of the upper end of the middle connecting rod around the center of the rotating gear is the stroke end point distance of the up-and-down movement of the clamp, considering that if the height difference between the upper row roller and the lower row roller is large and the diameter of the rotating gear may not be enough to reach the data corresponding to the height difference, the extension rod is fixed at the edge of the rotating gear, then the upper end of the middle connecting rod is hinged to the free end of the extension rod, the distance between the top end and the bottom end of the rotating track of the middle connecting rod can be enlarged, and the requirements can be met.

Furthermore, the lower end of the lifting rod is connected with a heavy object block. Under the effect of heavy object piece, the lifter can keep vertical position to be convenient for guarantee the stability that the lifter reciprocated.

Further, the connecting plate below the main support table is arranged above the upper port of the sand washing box, the middle of the upper surface of the connecting plate is connected to the lower surface of the main support table through a support rod, the width of the connecting plate is smaller than the length of the upper discharging roller and the length of the lower discharging roller, the length of the connecting plate is smaller than the length of the sand washing box, and the upper end of the vertical connecting rod is fixed to the lower surface of the connecting plate. The connecting plate is arranged, the length of the first vertical connecting rod can be shortened, the first vertical connecting rod can be general to the second vertical connecting rod, therefore, the mechanism can be conveniently installed, the connecting plate can shield the upper port of the sand washing box, and the connecting plate has a certain protective effect on the parts in the sand washing box.

Furthermore, the vertical connecting rod I and the vertical connecting rod II are both provided with a liquid inlet and high-pressure nozzles which are communicated, and the distance between the outlet end of each high-pressure nozzle and the corresponding side cloth is consistent. Inside sand washing liquid can get into vertical connecting rod from the inlet, then spout from high-pressure spout, erode on the cloth, can improve the sand washing effect of cloth, simultaneously, part sand washing liquid spouts from high-pressure spout, can mix the sand washing liquid of sand washing incasement to can avoid the sand washing additive to sink, promote cloth and sand washing liquid fully to contact, guarantee sand washing effect.

Furthermore, the end, connected with the corresponding roller body, of the vertical connecting rod I and the vertical connecting rod II is provided with a hoop sleeved on the corresponding roller body, the hoop is embedded into the corresponding roller body, and the outer surface of the hoop just forms a smooth surface with the outer surface of the roller body. So can realize the rigidity of corresponding roll body simultaneously and rotate the demand, and do not influence the effect of roll body surface to the cloth.

Furthermore, a material receiving plate lower than the sliding rail cavity channel is arranged at one end, located at the batching support table, of the sliding rail cavity channel, and a stop block is arranged on one side, back to the sliding rail cavity channel, of the material receiving plate. The winding shaft rolls out from the sliding rail cavity and rolls to the material receiving plate, and is blocked by the stop block, so that accidental rolling is prevented, and related operators can directly take up the winding shaft after the winding shaft is disassembled to complete cloth rolling and install the winding shaft on the installation sleeve, so that cloth rolling is performed on the cloth of the next cloth roll, and the operation is convenient.

Furthermore, the sand washing case is fixed with the stabilizer blade that supports subaerial in the both sides wall surface lower part on length direction, slide rail chamber way lower surface is equipped with three piece at least backup pads that support subaerial along its length direction equidistance, it fixes on little supporting bench to rotate the motor is detachable, be connected to subaerial through the pillar on the side that corresponds length direction on the main tributary supporting bench. By this arrangement, the stability of each mechanism can be realized.

3. Advantageous effects

(1) A cloth feeding travelling mechanism is arranged right above a sand washing box and comprises two rack rails arranged on a main supporting platform, transfer gears driven by a double-shaft forward and reverse rotation motor are meshed on the two rack rails, the transfer gears, a middle connecting rod and a lifting rod form a crank slider mechanism, clamps are arranged at the lower ends of the lifting rods, namely the clamps can be driven to move up and down through the rotation of the transfer gears, meanwhile, the transfer gears can horizontally move on the rack rails to drive the clamps to horizontally move, the rotation of the transfer gears can drive the clamps to do sine wave type movement, the size of the transfer gears is limited according to the positions and the intervals of an upper row of rollers and a lower row of rollers, and after a cloth head end is clamped on the clamps, the clamps can drive the cloth head end to shuttle in an S shape between the upper row of rollers and the lower row of rollers. The mechanical operation of the shuttle of the cloth head end is realized, the tedious manual operation can be saved, the sand washing liquid does not need to be discharged and then sent back, and the workload of related personnel is greatly reduced.

(2) The upper row roller, the lower row roller and the friction roller facing the side of the cloth outlet roller are all the major arc arcs gradually protruding from two ends to the middle part, the side of the cloth outlet roller is provided with a certain pulling force to the cloth due to the winding of the cloth, and the cloth is spread to two sides on the surface of the roller body of the major arc structure under the action of the pulling force, so that the cloth is prevented from being wrinkled, the uniform sand washing of the cloth is facilitated, and the condition of frosting damage caused by the wrinkling of the cloth is avoided.

(3) According to the invention, moving spaces for the movement of the lifting rod are reserved between the two ends of the upper row roller and the lower row roller and the corresponding inner side walls of the sand washing box, the clamp at the lower end of the lifting rod clamps the cloth to shuttle between the upper row roller and the lower row roller, and the cloth is laid on the outer sides of the upper row roller and the lower row roller in a flat manner, so that the two side edges of the cloth cannot be in contact friction with the side walls of the sand washing box to cause abrasion.

(4) In the invention, moving spaces for the lifting rod to move are reserved between the two ends of the upper row roller and the lower row roller and the corresponding inner side walls of the sand washing box, so that the coarse residues generated on the lower surface of the cloth in the grinding process can float on the liquid level; the sand washing device is characterized in that a slag collecting tank and a liquid storage tank are arranged on one side of a sand washing tank and are respectively communicated with the upper part and the lower part of the sand washing tank, the liquid storage tank is communicated with the sand washing tank through a liquid supplementing pipe, a switch control valve is arranged on the liquid supplementing pipe, the slag collecting tank is communicated with the sand washing tank through a slag collecting pipe, and the position where the sand washing tank is communicated with the slag collecting pipe is positioned above an upper discharging roller. When the coarse slag accumulates on the liquid level, the switch control valve on the liquid supplementing pipe is opened, sand washing liquid is filled into the sand washing box, the liquid level in the sand washing box can rise, the floating coarse slag rises along with the liquid level, the sand washing liquid overflows until the position of the sand washing box communicated with the slag collecting pipe is reached, and the coarse slag can enter the slag collecting pipe along with the sand washing liquid and is finally collected in the slag collecting box. The purpose of cleaning the coarse slag generated in the sand washing process of the cloth is achieved, operation is convenient, cleaning is complete, and the sand washing effect of the cloth is promoted.

(5) The cloth feeding support table of the invention is provided with a lower groove for placing the cloth roll to be sanded, so that the cloth roll is always positioned in the lower groove in the rotating process, without limiting the position of the winding shaft, the bottom of the lower groove is provided with a falling hole matched with the winding shaft of the cloth roll, a sliding rail cavity channel is connected below the falling hole, the sliding rail cavity channel is gradually lowered from the cloth feeding support platform side to the cloth rolling support platform side, after the cloth is reeled and unreeled, the reeling shaft can automatically pass through the dropping hole, fall into the slide rail cavity channel and roll to the side of the batching support platform along the slide rail cavity channel, the related operators can directly take up the reeling shaft after the batching is finished and install the reeling shaft on the installation sleeve, so as to be convenient for rolling up the cloth of the next cloth roll without manually transferring the winding shaft from the side of the cloth feeding support platform to the side of the cloth rolling support platform, thereby reducing the workload of related personnel.

In conclusion, the cloth head end shuttling mechanical operation can be realized, the cloth can be prevented from wrinkling, the two side edges of the cloth cannot be in contact friction with the side wall of the sand washing box to cause abrasion, the occurrence of frosted damage caused by the cloth wrinkling can be avoided, the coarse residues can be simply, conveniently and completely cleaned, the sand washing effect of the cloth is favorably improved, the winding shaft does not need to be manually transferred from the side where the cloth feeding supporting table is located to the side where the cloth rolling supporting table is located, and the workload of related personnel is greatly reduced.

Drawings

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

FIGS. 2 and 3 are schematic perspective views of the present invention without the liquid storage tank 42 and the slag collection tank 43;

FIGS. 4 and 5 are cross-sectional views of the present invention taken along a vertical center plane in the transverse direction; the apparatus of figure 3 has been shuttled with a cloth 12;

FIG. 6 is an enlarged view of region A of FIG. 5;

FIG. 7 is a top view of the sand wash tank 1;

FIG. 8 is a top view of the cloth feeding travelling mechanism;

FIG. 9 is a schematic view of the mounting positions of the clamp 18 and the weight block 32;

fig. 10 is a top view of two friction rollers 21 interacting with each other.

Reference numerals: 1-a sand washing box, 2-an upper row of rollers, 3-a lower row of rollers, 4-a cloth feeding supporting table, 5-a cloth rolling supporting table, 6-a cloth feeding roller, 7-a cloth discharging roller, 8-a cloth roll, 9-a rotating motor, 10-a winding shaft, 11-a mounting sleeve, 12-a cloth, 13-a main supporting table, 14-a rack rail, 15-a double-shaft forward and backward rotating motor, 16-a middle connecting rod, 17-a lifting rod, 18-a clamp, 19-a vertical connecting rod I, 20-a vertical connecting rod II, 21-a friction roller, 22-a lower groove, 23-a falling hole, 24-a slide rail cavity channel, 25-a material receiving plate, 26-a stop block, 27-a traveling gear, 28-a rotating gear, 29-a moving shaft, 30-a connecting rod and 31-an extension rod, 32-heavy object block, 33-connecting plate, 34-supporting rod, 35-liquid inlet, 36-high-pressure nozzle, 37-hoop, 38-supporting leg, 39-supporting plate, 40-small supporting platform, 41-supporting column, 42-liquid storage tank, 43-slag collection tank, 44-liquid supplement pipe and 45-slag collection pipe.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples.

Examples

As shown in fig. 1 to 5, a cloth sand washing device capable of discharging slag comprises a sand washing box 1, wherein an upper discharge roller 2 and a lower discharge roller 3 staggered with the upper discharge roller 2 at equal intervals are arranged in the sand washing box 1, sand washing liquid with the liquid level higher than that of the upper discharge roller 2 is contained in the sand washing box 1, a cloth feeding support table 4 and a cloth rolling support table 5 are respectively arranged outside the two ends of the sand washing box 1, a cloth feeding roller 6 and a cloth discharging roller 7 are respectively arranged at the two ends of the top of the sand washing box 1, a cloth roll 8 to be subjected to sand washing is placed on the cloth feeding support table 4, a rotating motor 9 is arranged at one side of the cloth rolling support table 5 along the width direction of the sand washing box 1, an output shaft of the rotating motor 9 is provided with an installation sleeve 11 for installing a winding shaft 10 of the cloth roll 8, and a cloth 12 shuttles between the upper discharge roller 2 and the lower discharge roller 3 in an S shape in the sand washing process;

a cloth feeding travelling mechanism is arranged right above the sand washing box 1, as shown in fig. 1 to 5, the cloth feeding travelling mechanism comprises a horizontally arranged main supporting table 13, rack rails 14 parallel to the length direction of the main supporting table 13 are arranged on two length edge sides of the main supporting table 13, transfer gears meshed with the rack rails 14 are arranged on the two rack rails 14, the transfer gears are driven by a double-shaft forward and backward rotation motor 15, middle connecting rods 16 are hinged to the upper edges of the side surfaces of the two opposite sides of the two transfer gears, a vertically arranged lifting rod 17 is hinged to the lower end of each middle connecting rod 16, and as shown in fig. 9, clamps 18 are arranged at the lower ends of the lifting rods 17; in an initial state, the middle connecting rod 16 is in a vertical state, the upper end of the middle connecting rod 16 is positioned on the side of the top of the transfer gear, the clamp 18 is positioned in the sand washing box 1 on the side of the cloth feeding roller 6 and is higher than the upper row of rollers 2, and the distance between the clamp 18 and the first lower row of rollers 3 on the side is equal to the distance between the lower row of rollers 3 and the adjacent upper row of rollers 2; when the transfer gear rotates for half a turn, the moving distance of the transfer gear is equal to the distance between the lower roller 3 and the adjacent upper roller 2, and the clamp 18 moves to be right below the first lower roller 3; when the transfer gear rotates for one circle, the moving distance of the transfer gear is equal to the distance between two adjacent lower rollers 3, and the clamp 18 moves to be right above the first upper roller 2;

as shown in fig. 7, a moving space for the movement of the lifting rod 17 is left between the two ends of the upper row roller 2 and the lower row roller 3 and the corresponding inner side wall of the sand washing box 1, as shown in fig. 2 to 5, the lower row roller 3 is connected to the bottom surface of the main supporting table 13 through a first vertical connecting rod 19, the upper row roller 2 is connected to the inner bottom surface of the sand washing box 1 through a second vertical connecting rod 20, as shown in fig. 4, 5 and 6, two friction rollers 21 respectively connected to the first vertical connecting rod 19 and the second vertical connecting rod 20 are arranged between the first vertical connecting rod 19 and the second vertical connecting rod 20 in the middle range of the sand washing box 1, and the gap between the two friction rollers 21 is just for a layer of cloth 12 to pass through, as shown in fig. 10, wherein the friction roller 21 facing the side of the cloth discharging roller 7 is a major arc shape gradually convex from the two ends to the middle, the other friction roller 21 is a major arc shape gradually concave from the two ends to the middle, as shown in fig. 7, the side edges of the upper row of rollers 2 and the lower row of rollers 3 in the length direction are both arc-shaped major arcs gradually protruding from the two ends to the middle;

as shown in fig. 1 to 5, a lower groove 22 for placing a cloth roll 8 to be sanded is arranged on the cloth feeding support table 4, a drop hole 23 matched with the winding shaft 10 of the cloth roll 8 is arranged at the bottom of the lower groove 22, a slide rail cavity channel 24 extending from the side of the cloth feeding support table 4 to the side of the cloth winding support table 5 is arranged under the sand washing tank 1, the slide rail cavity channel 24 is gradually lowered from the side of the cloth feeding support table 4 to the side of the cloth winding support table 5, one end of the slide rail cavity channel 24 is arranged under the drop hole 23 and communicated with the drop hole 23, and the widths of the drop hole 23 and the slide rail cavity channel 24 are greater than the length of the winding shaft 10;

the outside that the length direction lateral wall is corresponded to sand washing case 1 is equipped with liquid reserve tank 42 and slag collecting box 43, the splendid attire has sand washing liquid in the liquid reserve tank 42, liquid reserve tank 42 is through moisturizing pipe 44 and 1 lower part intercommunication of sand washing case, be equipped with the on-off control valve on the moisturizing pipe 44, slag collecting box 43 is through slag collecting pipe 45 and 1 upper portion intercommunication of sand washing case, the position of 1 intercommunication slag collecting pipe 45 of sand washing case is located the top of gang roller 2.

In the present embodiment, as shown in fig. 1, 2, 3 and 8, the transfer gear includes a traveling gear 27 engaged with the rack rail 14 and a rotating gear 28 engaged with the traveling gear 27, the dual-shaft forward and reverse rotation motor 15 is disposed between the two traveling gears 27, the traveling gear 27 is sleeved on an output shaft of the dual-shaft forward and reverse rotation motor 15, a moving shaft 29 penetrating through centers of the two rotating gears 28 is disposed between the two rotating gears 28, the rotating gears 28 are rotatably sleeved on the moving shaft 29, and the moving shaft 29 is connected to a surface of the dual-shaft forward and reverse rotation motor 15 through a connecting rod 30. Because the rotation of the transfer gear needs to be controlled to realize a certain up-and-down moving stroke and a certain horizontal moving distance of the lifting rod 17, the setting of the mechanism is difficult, the walking gear 27 is arranged to meet the limitation of the horizontal moving distance, the rotating gear 28 is arranged to meet the limitation of the up-and-down moving stroke of the lifting rod 17, the walking gear 27 is driven to rotate by the double-shaft forward and reverse rotation motor 15, and then the walking gear 27 drives the rotating gear 28 to rotate, namely the double-shaft forward and reverse rotation motor 15 indirectly drives the rotating gear 28 to rotate, the walking gear 27 moves to drive the double-shaft forward and reverse rotation motor 15 to move, the double-shaft forward and reverse rotation motor 15 drives the moving shaft 29 to move through the connecting rod 30, so that the rotating gear 28 can be driven to move, the design requirement can be met, and the rotating gear 28 can not be meshed with the rack rail 14.

In the present embodiment, as shown in fig. 1, 2, 3 and 8, the traveling gear 27 is a pinion gear, and the rotating gear 28 is a bull gear. Considering that if the distance between the upper roller row 2 and the adjacent lower roller row 3 is large, when the rotating gear 28 rotates one turn, the traveling gear 27 may rotate more than one turn to satisfy the condition that the traveling distance on the rack rail 14 is equal to the distance between the adjacent two lower roller rows 3, the foregoing requirements can be satisfied by setting the traveling gear 27 as a small gear and the rotating gear 28 as a large gear.

In the present embodiment, as shown in fig. 1, fig. 2 and fig. 3, an extension rod 31 is fixed at the upper edge of the opposite side surfaces of the two rotating gears 28, and the upper end of the intermediate link 16 is hinged to the free end of the extension rod 31. Since the distance between the top end and the bottom end of the rotation trajectory of the upper end of the intermediate link 16 around the center of the rotation gear 28 is the distance between the end points of the stroke of the upward and downward movement of the clip 18, considering that if the height difference between the upper rollers 2 and the lower rollers 3 is large and the diameter of the rotation gear 28 may not be enough to reach the data corresponding to the height difference, the extension rod 31 is fixed at the edge of the rotation gear 28, and then the upper end of the intermediate link 16 is hinged to the free end of the extension rod 31, so that the distance between the top end and the bottom end of the rotation trajectory of the intermediate link 16 can be enlarged, thereby satisfying the aforementioned requirements.

In this embodiment, as shown in fig. 9, a weight block 32 is connected to the lower end of the lifting rod 17. The lifting rod 17 can be maintained in a vertical position by the weight 32, thereby facilitating the stability of the up-and-down movement of the lifting rod 17.

In the embodiment, as shown in fig. 1 to 5, a connecting plate 33 below the main supporting platform 13 is arranged above the upper port of the sand washing box 1, the middle part of the upper surface of the connecting plate 33 is connected to the lower surface of the main supporting platform 13 through a strut 34, the width of the connecting plate 33 is smaller than the length of the upper row of rollers 2 and the lower row of rollers 3, the length of the connecting plate 33 is smaller than the length of the sand washing box 1, and the upper end of the first vertical connecting rod 19 is fixed on the lower surface of the connecting plate 33. The connecting plate 33 is arranged, so that the length of the first vertical connecting rod 19 can be shortened, the first vertical connecting rod 19 can be universal with the second vertical connecting rod 20, the mechanism installation is facilitated, and the connecting plate 33 can shield the upper port of the sand washing box 1 and has a certain protection effect on parts in the sand washing box 1.

In this embodiment, as shown in fig. 5 and 6, the first vertical connecting rod 19 and the second vertical connecting rod 20 are provided with a liquid inlet 35 and a high-pressure nozzle 36 which are communicated with each other, and the outlet end of each high-pressure nozzle 36 is at the same distance from the corresponding side cloth 12. Inside sand washing liquid can get into vertical connecting rod from inlet 35, then spout from high-pressure spout 36, erode on cloth 12, can improve the sand washing effect of cloth 12, simultaneously, part sand washing liquid is followed high-pressure spout 36 blowout, can mix the sand washing liquid in the sand washing case 1 to can avoid the sand washing additive to sink, promote cloth 12 and sand washing liquid fully to contact, ensure the sand washing effect.

In this embodiment, as shown in fig. 2 and 3, the first vertical link 19 and the second vertical link 20 are provided with a hoop 37 sleeved on the corresponding roller body at one end connected to the corresponding roller body, the hoop 37 is embedded inside the corresponding roller body, and the outer surface of the hoop 37 just forms a smooth surface with the outer surface of the roller body. So can realize the rigidity of corresponding roll body and rotate the demand simultaneously, and do not influence the effect of roll body surface to cloth 12.

In this embodiment, a material receiving plate 25 lower than the slide rail cavity 24 is disposed at one end of the slide rail cavity 24 located at the batching support platform 5, and a stop 26 is disposed on one side of the material receiving plate 25 back to the slide rail cavity 24. The winding shaft 10 rolls out of the sliding rail cavity 24 and rolls to the material receiving plate 25, the stop block 26 stops the winding shaft and prevents accidental rolling, and related operators can directly take up the winding shaft 10 after the winding shaft 10 is dismounted and install the winding shaft on the installation sleeve 11, so that the cloth 12 of the next cloth roll 8 can be conveniently rolled, and the operation is convenient.

In this embodiment, as shown in fig. 2 to 5, the sand washing box 1 has support legs 38 fixed on the lower portions of the outer surfaces of the two side walls in the length direction, the lower surface of the slide rail cavity 24 has at least three support plates 39 (four support plates 39 are shown in fig. 2 to 5) arranged at equal intervals along the length direction, the rotating motor 9 is detachably fixed on a small support table 40, and the side edges of the main support table 13 corresponding to the length direction are connected to the ground through support posts 41. By this arrangement, the stability of each mechanism can be achieved.

The concrete application process of the cloth sand washing device capable of discharging the slag comprises the following steps:

(1) and (3) cloth shuttling: the cloth roll 8 to be sanded is prevented from being placed in the lower groove 22 on the cloth feeding support table 4, the head end of the cloth 12 is pulled out to bypass the cloth feeding roller 6, two clamps 18 are used for clamping two side ends of the head end of the cloth 12, the double-shaft forward and reverse rotation motor 15 is started to drive the traveling gear 27 to rotate, the traveling gear 27 drives the rotating gear 28 to rotate, the traveling gear 27 horizontally moves on the rack rail 14 to drive the double-shaft forward and reverse rotation motor 15 to move, the double-shaft forward and reverse rotation motor 15 drives the moving shaft 29 to move through the connecting rod 30, then the rotating gear 28 is pushed to move, meanwhile, the rotating gear 28 rotates to enable the extension rod 31 to rotate around the moving shaft 29, the upper end of the middle connecting rod 16 rotates downwards from the top end of the moving track, the lifting rod 17 is pushed to move downwards, therefore, the clamps 18 drive the head end of the cloth 12 to move downwards in the sand washing box 1, when the rotating gear 28 rotates for half a circle, the upper end of the intermediate connecting rod 16 is positioned at the bottom end of the moving track of the intermediate connecting rod, the walking distance of the walking gear 27 on the rack track 14 (the moving distance of the rotating gear 28) is equal to the distance between the lower roller 3 and the adjacent upper roller 2, and the clamp 18 just moves to the position right below the first lower roller 3; when the rotating gear 28 rotates for one circle (rotates for half a circle continuously), the upper end of the intermediate connecting rod 16 returns to the top end of the moving track, the traveling distance of the traveling gear 27 on the rack rail 14 (the moving distance of the rotating gear 28) is equal to the distance between two adjacent lower rollers 3, the clamp 18 moves right above the first upper roller 2, and the process is repeated, namely the clamp 18 with the head end of the cloth 12 shuttles in an S shape between the upper roller 2 and the lower roller 3 until the head end reaches the side of the cloth discharging roller 7, the double-shaft forward and reverse rotation motor 15 is stopped, the head end of the cloth 12 is taken down from the clamp 18, and the cloth 12 is wound on a winding shaft 10 which is installed on the installation sleeve 11 in advance after bypassing the cloth discharging roller 7, and the cloth 12 shuttles in the sand washing box 1. The double-shaft forward and reverse rotation motor 15 is driven to rotate reversely, so that the cloth feeding travelling mechanism can return to the initial position.

(2) Sand washing: the rotating motor 9 is started to control the rotating speed of the rotating motor, the winding shaft 10 arranged in the mounting sleeve 11 is driven to rotate, so that the cloth 12 in the sand washing box 1 moves from the side of the cloth feeding roller 6 to the side of the cloth discharging roller 7, the cloth roll 8 rotates in the lower groove 22 to discharge the cloth, the cloth 12 in the sand washing box 1 is firstly subjected to pure sand washing at the side of the cloth feeding roller 6 and reaches the position of the friction wheel, the cloth is ground by the friction wheel during sand washing, and after multiple times of sand washing, the cloth is subjected to pure sand washing again and then is wound by the cloth discharging roller 7. Cloth 12 is when the shuttle movement between last row of roller 2 and lower row of roller 3, because last row of roller 2, lower row of roller 3 and the friction roller 21 towards the side of cloth outlet roller 7 place are by both ends gradually protruding major arc to the middle part, certain pulling force is exerted for cloth 12 because the coiling of cloth 12 is applyed to cloth 7 place side, under the effect of this power, cloth 12 struts to both sides on the roll body surface of major arc structure, thereby can avoid cloth 12 to take place the fold, be favorable to promoting cloth 12 sand washing evenly, and can avoid because the emergence of the dull polish damaged condition that cloth 12 folds lead to.

In addition, in the shuttling and moving processes of the cloth 12, because moving spaces for the lifting rods 17 to move are reserved between the two ends of the upper row of rollers 2 and the lower row of rollers 3 and the corresponding inner side walls of the sand washing box 1, the two side edges of the cloth 12 cannot be in contact friction with the side walls of the sand washing box 1 to be abraded.

(3) Automatic recovery and displacement of the winding shaft 10: when the cloth 12 of one cloth roll 8 is completely discharged, the winding shaft 10 falls from the falling hole 23 at the bottom of the lower groove 22 and enters the slide rail cavity channel 24, the winding shaft 10 rolls to the side of the cloth rolling support platform 5 along the slide rail cavity channel 24, rolls to the material receiving plate 25 after rolling out from the slide rail cavity channel 24 and is blocked by the stop 26 to prevent accidental rolling, and the winding shaft 10 can be directly taken up and mounted on the mounting sleeve 11 after the relevant operator removes the winding shaft 10 after cloth rolling is completed so as to roll the cloth 12 of the next cloth roll 8, so that the winding shaft 10 is not required to be manually transferred from the side of the cloth feeding support platform 4 to the side of the cloth rolling support platform 5, and the workload of the relevant personnel is reduced.

(4) Cleaning coarse residues: in the sand washing process, the coarse slag that the upper surface of cloth 12 produced when frosting directly floats to the liquid level, the coarse slag that the lower surface of cloth 12 produced when frosting floats to the liquid level through the removal space that leaves between upper row roller 2 and 3 both ends of lower row roller and the sand washing case 1, when the coarse slag accumulation is more on the liquid level, open the on-off control valve on the fluid infusion pipe 44, toward filling into sand washing liquid in the sand washing case 1, then the liquid level can rise in the sand washing case 1, floated coarse slag rises thereupon, to reaching the position that sand washing case 1 communicates album sediment pipe 45, the overflow takes place for sand washing liquid, the coarse slag can get into album sediment pipe 45 along with sand washing liquid, finally collect in album sediment case 43. The purpose of cleaning the coarse slag generated in the sand washing process of the cloth is achieved, the operation is convenient, and the cleaning is complete.

In conclusion, the invention can realize the mechanized operation of the shuttling of the cloth head end, avoid the wrinkling of the cloth, avoid the abrasion of the two side edges of the cloth due to the contact friction with the side wall of the sand washing box, avoid the abrasion damage caused by the wrinkling of the cloth, conveniently and completely clean the hair residue, facilitate the sand washing effect of the cloth, and greatly reduce the workload of related personnel without manually transferring the winding shaft from the side where the cloth feeding supporting platform is located to the side where the cloth rolling supporting platform is located.

It should be understood by those skilled in the art that the above embodiments are only for illustrating the present invention and are not to be used as a limitation of the present invention, and that changes and modifications to the above embodiments may fall within the scope of the appended claims within the spirit of the present invention.

Claims (10)

1. A cloth sand washing device capable of discharging slag comprises a sand washing box (1), wherein an upper discharging roller (2) and a lower discharging roller (3) which is staggered with the upper discharging roller (2) at equal intervals are arranged in the sand washing box (1), sand washing liquid with the liquid level higher than that of the upper discharging roller (2) is contained in the sand washing box (1), a cloth feeding supporting table (4) and a cloth rolling supporting table (5) are respectively arranged outside the two ends of the sand washing box (1), a cloth feeding roller (6) and a cloth discharging roller (7) are respectively arranged on the two ends of the top of the sand washing box (1), a cloth roll (8) to be sand washed is placed on the cloth feeding supporting table (4), a rotating motor (9) is arranged on one side of the width direction of the sand washing box (1) along the cloth rolling supporting table (5), an installation sleeve (11) for installing a winding shaft (10) of the cloth roll (8) is arranged on an output shaft of the rotating motor (9), and in the sand washing process, the cloth (12) shuttles between the upper roller (2) and the lower roller (3) in an S shape; the method is characterized in that:

a cloth feeding travelling mechanism is arranged right above the sand washing box (1), the cloth feeding travelling mechanism comprises a horizontally arranged main supporting table (13), rack rails (14) parallel to the length direction of the main supporting table are arranged along the edge sides of two lengths of the main supporting table (13), transfer gears meshed with the rack rails (14) are arranged on the two rack rails (14), the transfer gears are driven by a double-shaft forward and backward rotation motor (15), middle connecting rods (16) are hinged to the upper edge parts of the side surfaces of the two opposite sides of the two transfer gears, a vertically arranged lifting rod (17) is hinged to the lower end of each middle connecting rod (16), and a clamp (18) is arranged at the lower end of each lifting rod (17); in an initial state, the middle connecting rod (16) is in a vertical state, the upper end of the middle connecting rod (16) is located on the side where the top of the transfer gear is located, the clamp (18) is located in the sand washing box (1) on the side where the cloth feeding roller (6) is located and is higher than the upper row of rollers (2), and the distance between the clamp (18) and the first lower row of rollers (3) on the side is equal to the distance between the lower row of rollers (3) and the adjacent upper row of rollers (2); when the transfer gear rotates for half a turn, the moving distance of the transfer gear is equal to the distance between the lower roller (3) and the adjacent upper roller (2), and the clamp (18) moves to be right below the first lower roller (3); when the transfer gear rotates for one circle, the moving distance of the transfer gear is equal to the distance between two adjacent lower rollers (3), and the clamp (18) moves to be right above the first upper roller (2);

a moving space for a lifting rod (17) to move is reserved between the two ends of the upper row of rollers (2) and the lower row of rollers (3) and the corresponding inner side wall of the sand washing box (1), the lower row of rollers (3) are connected to the bottom surface of the main supporting platform (13) through a first vertical connecting rod (19), the upper row of rollers (2) are connected to the inner bottom surface of the sand washing box (1) through a second vertical connecting rod (20), two friction rollers (21) which are respectively connected to the first vertical connecting rod (19) and the second vertical connecting rod (20) are arranged between the first vertical connecting rod (19) and the second vertical connecting rod (20) adjacent to the first vertical connecting rod (19) in the middle range in the sand washing box (1), a gap between the two friction rollers (21) is just provided for a layer of cloth (12) to pass through, wherein the friction roller (21) facing to the side of the cloth outlet roller (7) is a major arc shape gradually convex from the two ends to the middle part, the other friction roller (21) is a major arc shape gradually concave from the two ends to the middle part, the side edges of the upper row of rollers (2) and the lower row of rollers (3) in the length direction are both arc-shaped major arcs which gradually protrude from two ends to the middle part;

a lower groove (22) used for placing a cloth roll (8) to be sanded is formed in the cloth feeding supporting table (4), a drop hole (23) matched with a winding shaft (10) of the cloth roll (8) is formed in the bottom of the lower groove (22), a sliding rail cavity channel (24) extending from the side of the cloth feeding supporting table (4) to the side of the cloth rolling supporting table (5) is arranged under the sand washing box (1), the sliding rail cavity channel (24) is gradually lowered from the side of the cloth feeding supporting table (4) to the side of the cloth rolling supporting table (5), one end of the sliding rail cavity channel (24) is located under the drop hole (23) and communicated with the drop hole (23), and the widths of the drop hole (23) and the sliding rail cavity channel (24) are larger than the length of the winding shaft (10);

the outside that sand washing case (1) corresponds the length direction lateral wall is equipped with liquid reserve tank (42) and slag collecting box (43), the splendid attire has sand lotion in liquid reserve tank (42), liquid reserve tank (42) are through moisturizing pipe (44) and sand washing case (1) lower part intercommunication, be equipped with the on-off control valve on moisturizing pipe (44), slag collecting box (43) are through slag collecting pipe (45) and sand washing case (1) upper portion intercommunication, the position of sand washing case (1) intercommunication slag collecting pipe (45) is located upper row roller (2) top.

2. The cloth sand washing device capable of discharging the slag according to claim 1, wherein the transfer gear comprises a traveling gear (27) meshed with the rack rail (14) and a rotating gear (28) meshed with the traveling gear (27), the double-shaft forward and reverse rotating motor (15) is arranged between the two traveling gears (27), the traveling gear (27) is sleeved on an output shaft of the double-shaft forward and reverse rotating motor (15), a moving shaft (29) penetrating through the centers of the two rotating gears (28) is arranged between the two rotating gears (28), the rotating gear (28) is rotatably sleeved on the moving shaft (29), and the moving shaft (29) is connected to the surface of the double-shaft forward and reverse rotating motor (15) through a connecting rod (30).

3. The cloth sand washing device capable of discharging slag as claimed in claim 2, characterized in that the walking gear (27) is a small gear and the rotating gear (28) is a large gear.

4. The cloth sand washing device capable of discharging the slag according to claim 2, wherein the upper edges of the opposite side surfaces of the two rotating gears (28) are fixed with extension rods (31), and the upper end of the middle connecting rod (16) is hinged to the free ends of the extension rods (31).

5. Cloth sand washing device with deslagging according to claim 1, characterised in that the lower end of the lifting rod (17) is connected with a heavy block (32).

6. The cloth sand washing device capable of discharging the slag according to claim 1, characterized in that a connecting plate (33) below the main supporting platform (13) is arranged above the upper port of the sand washing tank (1), the middle part of the upper surface of the connecting plate (33) is connected to the lower surface of the main supporting platform (13) through a support rod (34), the width of the connecting plate (33) is smaller than the lengths of the upper row of rollers (2) and the lower row of rollers (3), the length of the connecting plate (33) is smaller than the length of the sand washing tank (1), and the upper end of the vertical connecting rod I (19) is fixed on the lower surface of the connecting plate (33).

7. The deslagging cloth sand washing device according to claim 1, wherein the first vertical connecting rod (19) and the second vertical connecting rod (20) are respectively provided with a liquid inlet (35) and a high-pressure nozzle (36) which are communicated with each other, and the distance between the outlet end of each high-pressure nozzle (36) and the corresponding side cloth (12) is consistent.

8. The cloth sand washing device capable of discharging slag as claimed in claim 1, wherein the end of each vertical connecting rod I (19) and the end of each vertical connecting rod II (20) connected with the corresponding roller body are respectively provided with a hoop (37) sleeved on the corresponding roller body, the hoop (37) is embedded inside the corresponding roller body, and the outer surface of the hoop (37) just forms a smooth surface with the outer surface of the roller body.

9. The cloth sand washing device capable of discharging the slag according to claim 1, wherein a material receiving plate (25) lower than the slide rail cavity (24) is arranged at one end of the slide rail cavity (24) positioned on the cloth rolling support platform (5), and a stop block (26) is arranged at one side of the material receiving plate (25) back to the slide rail cavity (24).

10. The cloth sand washing device capable of discharging the slag according to claim 1, wherein the sand washing box (1) is fixed with support legs (38) supported on the ground at the lower parts of the outer surfaces of the two side walls in the length direction, the lower surface of the slide rail cavity (24) is provided with at least three support plates (39) supported on the ground at equal intervals along the length direction, the rotating motor (9) is detachably fixed on a small support table (40), and the side edges of the main support table (13) corresponding to the length direction are connected to the ground through support columns (41).

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