CN211914820U - Automatic jet type water removal cleaning device - Google Patents

Abstract

The utility model discloses an automatic jet-propelled dewatering cleaning device, include: the water tank table is provided with a water storage tank; the washing basket is used for placing a thermoelectric product to be dewatered and is arranged in the water storage tank; the air injection structure is used for quickly injecting air to remove water and clean the outer surface of the thermoelectric product and the cable; the Y-axis driving structure is used for driving the air injection structure to move along the Y axis, and the air injection structure is arranged on the Y-axis driving structure; and the X-axis driving structure is used for driving the Y-axis driving structure to move along the X axis, and the Y-axis driving structure is arranged on the X-axis driving structure. The utility model provides an automatic jet-propelled dewatering cleaning device has advantages such as the clean efficient, application scope is wide, the feasibility is good, easy operation, function expansibility is strong of dewatering.

Description

Automatic jet type water removal cleaning device

Technical Field

The utility model belongs to the technical field of thermoelectric product production equipment development and specifically relates to an automatic jet-propelled dewatering cleaning device is related to.

Background

After the bonding wire process, thermoelectric product need wash clean and jet-propelled dewatering clean in proper order, gets rid of the water stain of interior external surface, welding slag and filth, the utility model discloses mainly to the clean process of dewatering behind the clean technology of washing. In view of the diversification of specifications of thermoelectric products, the cleaning process, the cleaning mode, the cleaning efficiency and the automation degree of the cleaning process of the thermoelectric products after the wire bonding process all face greater challenges; at present, the cleaning process is completely realized by manpower, and corresponding automatic solutions and devices are lacked at home and abroad; therefore, in order to significantly improve the dewatering and cleaning efficiency of the thermoelectric product after the wire welding process, realize the automatic operation mode of the station, reduce the labor intensity of workers and more quickly dock the subsequent process, an automatic air-jet dewatering and cleaning device is urgently needed.

Chinese patent application publication No. CN201562502U, published as 2010, 08 and 25, entitled "water removal device for cable production line", discloses a water removal device matched with a cable production line, which has an air injection seat and a bracket supporting the air injection seat, wherein the air injection seat is provided with an air flow channel horizontally arranged and used for a cable to pass through, the inner wall of the air flow channel is provided with an air nozzle, and the air nozzle is communicated with an air pump outside the device through a pipeline on the bracket. The axis of the air jets is inclined to the inlet end of the air flow path. The air injection seat comprises an upper cover and a bracket which are semicircular ring-shaped, and the upper cover and the bracket are butted through a pin and hole structure of a pin on the joint surface of the upper cover and the bracket. But this device is not suitable for water removal cleaning of thermoelectric products.

Disclosure of Invention

The utility model discloses an overcome among the prior art clean technology, the clean mode of thermoelectric product after the bonding wire process and adopt artifical the completion, production efficiency is low, and the problem that workman intensity of labour is high provides an automatic jet-propelled dewatering cleaning device, has advantages such as the clean efficient, application scope is wide, the feasibility is good, easy operation, function expansibility is strong of dewatering.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an automatic air-jet de-watering cleaning apparatus comprising:

the water tank table is provided with a water storage tank;

the washing basket is used for placing a thermoelectric product to be dewatered and is arranged in the water storage tank;

the air injection structure is used for quickly injecting air to remove water and clean the outer surface of the thermoelectric product and the cable;

the Y-axis driving structure is used for driving the air injection structure to move along the Y axis, and the air injection structure is arranged on the Y-axis driving structure;

and the X-axis driving structure is used for driving the Y-axis driving structure to move along the X axis, and the Y-axis driving structure is arranged on the X-axis driving structure.

Through implementing above-mentioned technical scheme, can carry out the surface dewatering to thermoelectric product. A button switch mounting hole is formed at the position close to the staff operating end, and the pneumatic control element and the electric control cabinet are mounted on the water tank table; the control system adopts a PLC as a main controller and combines corresponding electrical elements to realize the automatic operation of the system. The device has the advantages of high dewatering and cleaning efficiency, wide application range, good feasibility, easy operation, strong function expansibility and the like.

Preferably, the water tank table is provided with a bar placing rod, and the bar placing rod is transversely fixed on the side wall of the water tank. The wire laying rod is arranged inside the water tank table and used for laying cables on thermoelectric products.

Preferably, the number of the wire laying rods is multiple, and the plurality of the wire laying rods are arranged in parallel in the front-back direction along the X-axis direction. The bar is parallelly installed, uses adjustable bar to press, prevents that the cable perk from interfering with the moving part.

Preferably, a plurality of threaded holes are formed in the side wall of the water storage tank, an adjusting plate is fixed to the end face of the wire laying rod, a long hole is formed in the fixing adjusting plate, and the fixing adjusting plate and the side wall of the water storage tank are fixed through fixing bolts penetrating through the long hole and the threaded holes. Put line stick parallel mount inside the basin table, adopt the spacing installation of half locking mode, the screw overall arrangement on the usable basin table carries out hierarchical regulation all around for shelve the cable of length difference, prevent that the cable perk from taking place to interfere with moving part, specifically press form sight cable length and decide.

Preferably, the threaded holes are arranged along the X-axis direction, and at least two rows of threaded holes are arranged along the vertical direction. The arrangement mode of the threaded holes can facilitate angle and position adjustment of the wire laying rod.

Preferably, the air injection structure comprises an air injection nozzle and an air pipe, one end of the air pipe is connected with the air injection nozzle, and the other end of the air pipe is connected with an air source. The structure is external with the air supply, can reduce the weight of air injection structure, is convenient for air nozzle's removal and control.

Preferably, a plurality of supporting pipes for bearing the cleaning basket are longitudinally arranged inside the water storage tank, and a certain distance is reserved between the supporting pipes and the bottom of the water storage tank. The stay tube is used for bearing and piling up the washing basket of putting up thermoelectric product to have certain distance with the aqua storage tank bottom, be equipped with positioning hole near its staff operation end, insert the bolt and can realize quick location.

Preferably, the X-axis drive structure further comprises a waterproof structure, the waterproof structure comprises a protective cover, a first waterproof angle plate and a second waterproof angle plate, the protective cover is arranged above the X-axis drive structure, one side, close to the Y-axis drive structure, of the protective cover is provided with a strip-shaped avoiding hole, and one end of a bridge-spanning connecting plate on the X-axis drive structure penetrates through the avoiding hole; the first waterproof angle plate and the second waterproof angle plate are arranged on the outer side of the protective cover, and the first waterproof angle plate and the second waterproof angle plate are arranged on the corresponding positions of the bridge-spanning connecting plate from top to bottom.

In the technical scheme, the bridge-spanning connecting plate can move along the X-axis direction under the driving of the X-axis driving structure; the driving structure is completely wrapped by the protective cover in other directions, and only one side close to the bridge-spanning connecting plate is provided with a strip-shaped avoiding hole for avoiding the bridge-spanning connecting plate. Some water droplets can be splashed when the air nozzle carries out air injection dewatering, the part of the avoiding hole close to the cross-bridge connecting plate is particularly easy to enter the splashed water droplets, the first waterproof angle plate and the second waterproof angle plate jointly form a layer of waterproof structure, and move together along with the cross-bridge connecting plate, and the water droplets entering from the cross-bridge connecting plate can be reduced. The protective cover is a layer of foundation waterproof structure.

Preferably, the waterproof structure further includes a third waterproof gusset and a fourth waterproof gusset, the third waterproof gusset and the fourth waterproof gusset are provided inside the protective cover, and the third waterproof gusset and the fourth waterproof gusset are provided at positions corresponding to the bridge-spanning connecting plate in the up-down direction. The third waterproof angle plate and the fourth waterproof angle plate jointly form a waterproof structure of a second layer, and move together with the bridge-spanning connecting plate, so that the waterproof effect can be further improved, and water drops entering the avoiding hole are blocked on the outer side.

Preferably, the upper end of the side face of the protection cover provided with the avoidance hole is provided with a waterproof extension plate, one side of the waterproof extension plate, which is far away from the protection cover, extends downwards and is lower than the upper surface of the first waterproof corner plate, and one end of the waterproof extension plate, which extends downwards, is arranged on one side of the first waterproof corner plate, which is far away from the protection cover. The structure reduces water drops entering the protective cover from the upper part, particularly near the bridge-spanning connecting plate, and the first vertical plate and the downward extending part of the waterproof extending plate form a zigzag channel so as to greatly reduce the water drops entering. The waterproof extension board is a further layer of waterproof structure.

The utility model has the advantages that: (1) the dewatering cleaning efficiency is high, the application range is wide, the feasibility is good, the operation is easy, and the function expansibility is strong: (2) the adjustable wire laying rod is used for pressing, so that the cable is prevented from tilting and interfering with a moving part; (3) on the premise of not influencing the motion characteristic of the motion mechanism, the key driving part and the driven part have a good isolation function on water stains; (4) the sealing structure has a multilayer sealing structure and a good sealing effect.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is a schematic structural diagram of the Y-axis driving structure of the present invention;

FIG. 4 is a schematic view of the structure of example 2

FIG. 5 is an enlarged view of a portion of FIG. 1 at B;

fig. 6 is a partial structural view of embodiment 2.

In the figure: the water tank table 1, the water storage tank 1.1, the supporting tube 1.2, the threaded hole 1.3, the first mounting and positioning plate 1.4, the second mounting and positioning plate 1.5, the foot adjusting cup 1.6, the cleaning basket 2, the air injection structure 3, the X-axis driving structure 4, the electric cylinder 4.1, the linear guide rail 4.2, the slider 4.3, the bridge-spanning connecting plate 4.4, the water flow guide groove 4.4.1, the drag chain 4.5, the Y-axis driving structure 5, the cylinder mounting seat 5.1, the rodless cylinder 5.2, the bearing mounting plate 5.5, the linear guide optical axis 5.7, the buffer pad 5.8, the bar placing 6, the fixed adjusting plate 6.1, the long hole 6.2, the pneumatic control element 7, the electric control cabinet 8, the waterproof structure 9, the protective cover 9.1, the avoiding hole 9.1.1, the waterproof extension plate 9.1.2, the elongated slot 9.1.3, the first waterproof angle plate 9.2, the first horizontal plate 9.1, the second horizontal plate, the third angle plate 9.4.2, the third angle plate, the third, A fourth vertical plate 9.5.1 and a fourth transverse plate 9.5.2.

Detailed Description

The invention is further described with reference to the accompanying drawings and specific embodiments.

Example 1:

as shown in figure 1, an automatic air-jet type dewatering and cleaning device comprises a sink table 1, a cleaning basket 2, an air-jet structure 3, an X-axis driving structure 4 and a Y-axis driving structure 5.

A water storage tank 1.1 for storing water is arranged in the middle of the water tank table 1; many spinal branchs stay tube 1.2 have been welded along the X axle direction in aqua storage tank 1.1 inside, a washing basket 2 for bearing the weight of putting the thermoelectric product, and have the certain distance with aqua storage tank 1.1 bottom, be equipped with positioning hole at its nearly staff operation end, insert the bolt and can realize quick location, as shown in fig. 2, threaded hole 1.3 has been seted up to the inside both sides of aqua storage tank 1.1, be used for the installation to put line stick 6, put line stick 6 along Y axle direction parallel mount inside basin table 1, fixed regulating plate 6.1 on the terminal surface of putting line stick 6, be equipped with rectangular hole 6.2 on the fixed regulating plate 6.1, fixing bolt passes rectangular hole 6.2 and threaded hole 1.3 and fixes fixed regulating plate 6.1 with the lateral wall of aqua storage tank. The semi-locking type limiting installation is adopted, and the whole-circle grading adjustment can be carried out by utilizing the layout of threaded holes 1.3 on the water tank table 1 and is used for placing cables with different lengths;

a water outlet is arranged in the center of the bottom of a water storage tank 1.1, an electric control cabinet mounting plate is welded on the left side of the bottom of the water storage tank 1.1, a button switch mounting hole is arranged at the position close to the staff operating end, a first mounting and positioning plate 1.4 and a second mounting and positioning plate 1.5 are welded on the two sides of the upper surface of a water tank table 1, the mutual position accuracy of the first mounting and positioning plate and the second mounting and positioning plate is ensured, and an adjustable foot cup 1.6 is arranged at the bottom of a table foot; the water tank table 1 is of a metal plate structure, and is integrally machined by sequentially adopting a laser cutting process, a bending process and a welding process.

As shown in fig. 1, the X-axis driving structure 4 includes an electric cylinder 4.1, a linear guide 4.2, a slide block 4.3, a bridge-spanning connecting plate 4.4 and a drag chain 4.5; the electric cylinder 4.1 is arranged on the first mounting positioning plate 1.4; the linear guide rail 4.2 is arranged on the second mounting positioning plate 1.5, the sliding block 4.3 is arranged on the linear guide rail 4.2, and the bridge-spanning connecting plate 4.4 is arranged at the tops of the electric cylinder 4.1 and the sliding block 4.3 and is used for connecting the electric cylinder 4.1 and the sliding block 4.3; the tow chain 4.5 is installed in electric jar 4.1 left side, and its expansion end is installed on striding bridge connecting plate 4.4, and its stiff end is installed in the top surface left side trompil department of basin table 1.

As shown in fig. 3, the Y-axis driving structure 5 includes a cylinder mounting base 5.1, a rodless cylinder 5.2, a bearing mounting pad, a bearing mounting plate 5.5, a linear bearing, a linear guide optical axis 5.7, and a buffer pad 5.8; the cylinder mounting seat 5.1 is mounted at the bottom of the bridge-spanning connecting plate 4.4; the rodless cylinder 5.2 is arranged on the cylinder mounting seat 5.1; the bearing mounting base plate is mounted on a sliding block of the rodless cylinder 5.2; the bearing mounting plate 5.5 is vertically mounted on the bearing mounting base plate; the linear bearing is arranged on the bearing mounting plate 5.5; the linear guide optical axis 5.7 is connected with the linear bearing, and two ends of the linear guide optical axis are matched and installed with the end face of the installation plate of the rodless cylinder 5.2. The buffer pad 5.8 is arranged on the inner side of the installation seat 5.1 of the rodless cylinder 5.2 and used for limiting and buffering the slider 4.3 of the rodless cylinder 5.2.

The air injection structure 3 is arranged on the lateral end face of the bearing mounting plate 5.5 by adopting a sheet metal part; the air injection structure 3 comprises an air nozzle and an air pipe, one end of the air pipe is connected with the air nozzle, and the other end of the air pipe is connected with an air source.

The pneumatic control element 7 is arranged at the left side of the water tank table 1; the electric control cabinet 8 is arranged on an electric control cabinet 8 mounting plate on the left side of the bottom of the water tank table 1; the control system adopts a PLC as a main controller and combines corresponding electrical elements to realize the automatic operation of the system.

Through implementing above-mentioned technical scheme, can carry out the surface dewatering to thermoelectric product. The device has the advantages of high dewatering and cleaning efficiency, wide application range, good feasibility, easy operation, strong function expansibility and the like. When the device is used, firstly, workers put the thermoelectric products in order in the cleaning basket 2 after water is quickly controlled; secondly, the cleaning basket 2 is placed on a supporting pipe 1.2 in a water storage tank 1.1, the positioning through holes in the supporting pipe 1.2 are adopted for rapid positioning, meanwhile, cables on the thermoelectric product are scattered and distributed on an adjustable bar laying 6 manually, the adjustable bar laying 6 is used for pressing, the cables are prevented from being tilted and interfered with moving parts, and the length of the specific pressing form is determined according to the length of the cables; then, the machine is started to automatically run, the electric cylinder 4.1 drives the bridge-spanning connecting plate 4.4 to do linear reciprocating motion at a constant speed along the X axial direction, and meanwhile, under the driving of the rodless cylinder 5.2, the air nozzle does linear reciprocating motion at a constant speed along the Y axial direction, so that the inner surface and the outer surface of a thermoelectric product and cables are quickly sprayed with air to remove water and cleaned, and the water removal cleaning period is determined according to the actual working condition; finally, after the requirement of the cleaning process is met, the cleaning basket 2 is manually taken out from the water tank table 1, and then the next production procedure is carried out.

Example 2:

as shown in fig. 4, on the basis of embodiment 1, the mobile phone further includes a waterproof structure 9, the waterproof structure 9 includes a protective cover 9.1, the protective cover 9.1 is disposed above the X-axis driving structure 4, one side of the protective cover 9.1, which is close to the bridge-spanning connection plate 4.4, is provided with a strip-shaped avoiding hole 9.1.1, and one end of the bridge-spanning connection plate 4.4 penetrates through the avoiding hole 9.1.1.

As shown in fig. 5, a first waterproof corner plate 9.2 and a third waterproof corner plate 9.4 are fixed on the upper surface of the bridge-spanning connecting plate 4.4, and a second waterproof corner plate 9.3 and a fourth waterproof corner plate 9.5 are fixed on the lower surface of the bridge-spanning connecting plate 4.4; the first waterproof angle plate 9.2 and the second waterproof angle plate 9.3 are arranged on the outer side of the protective cover 9.1, and the first waterproof angle plate 9.2 and the second waterproof angle plate 9.3 are arranged at the corresponding positions of the bridge-spanning connecting plate 4.4 up and down; the third waterproof angle 9.4 and the fourth waterproof angle 9.5 set up at protecting cover 9.1 inboard, and the third waterproof angle 9.4 and the waterproof angle 9.5 of fourth set up on the position that corresponds about striding bridge connecting plate 4.4.

As shown in fig. 5 and 6, the first waterproof corner plate 9.2 comprises a first vertical plate 9.2.1 and a first transverse plate 9.2.2, and the first transverse plate 9.2.2 and the first vertical plate 9.2.1 form an L-shaped structure; the first vertical plate 9.2.1 is vertical to the upper surface of the bridge-spanning connecting plate 4.4; first diaphragm 9.2.2 and the upper surface of bridging connecting plate 4.4 are fixed, and first diaphragm 9.2.2 sets up in one side that safety cover 9.1 was kept away from to first riser 9.2.1.

As shown in fig. 5 and 6, the second waterproof corner panel 9.3 comprises a second vertical plate 9.3.1 and a second transverse plate 9.3.2, and the second transverse plate 9.3.2 and the second vertical plate 9.3.1 form an L-shaped structure; the second vertical plate 9.3.1 is vertical to the lower surface of the bridge-spanning connecting plate 4.4; the second transverse plate 9.3.2 is fixed to the lower surface of the bridge-spanning connecting plate 4.4, and the second transverse plate 9.3.2 is disposed on the side of the second vertical plate 9.3.1 away from the protecting cover 9.1. The dimension of the second vertical plate 9.3.1 in the X-axis direction is larger than the dimension of the bridging plate 4.4 in the X-axis direction; the upper surface of the portion of the second riser 9.3.1 that lies outside the bridge spanning web 4.4 is flush with the upper surface of the first riser 9.2.1. Be equipped with rivers guide way 4.4.1 on the lateral wall of striding bridge connecting plate 4.4, rivers guide way 4.4.1 is less than 90 with the upper surface contained angle of striding bridge connecting plate 4.4, and the lower extreme of rivers guide way 4.4.1 is partial to one side of keeping away from safety cover 9.1, and the part that the second riser 9.3.1 upwards extends is close to the side setting of striding bridge connecting plate 4.4 one side in rivers guide way 4.4.1.

As shown in fig. 5 and 6, the third waterproof corner plate 9.4 comprises a third vertical plate 9.4.1 and a third transverse plate 9.4.2, the third vertical plate 9.4.1 and the third transverse plate 9.4.2 form an L-shaped structure, and the third vertical plate 9.4.1 is perpendicular to the upper surface of the bridge-spanning connecting plate 4.4; the third transverse plate 9.4.2 is fixed to the upper surface of the bridge-spanning connecting plate 4.4, and the third transverse plate 9.4.2 is disposed on the side of the third riser 9.4.1 away from the first waterproof corner plate 9.2.

As shown in fig. 5 and 6, the fourth waterproof corner plate 9.5 includes a fourth vertical plate 9.5.1 and a fourth transverse plate 9.5.2, and the fourth vertical plate 9.5.1 and the fourth transverse plate 9.5.2 form an L-shaped structure; the fourth vertical plate 9.5.1 is vertical to the lower surface of the bridge-spanning connecting plate 4.4; the fourth transverse plate 9.5.2 is fixed with the lower surface of the bridge-spanning connecting plate 4.4, and the fourth transverse plate 9.5.2 is arranged on one side of the fourth vertical plate 9.5.1 far away from the first waterproof angle plate 9.2.

As shown in fig. 6, the upper end of the side of the protection cover 9.1 having the avoidance hole 9.1.1 is provided with a waterproof extension plate 9.1.2, one side of the waterproof extension plate 9.1.2 far away from the protection cover 9.1 extends downward and is lower than the upper surface of the first vertical plate 9.2.1, and one end of the waterproof extension plate 9.1.2 extending downward is arranged on one side of the first vertical plate 9.2.1 far away from the protection cover 9.1. An elongated slot 9.1.3 extending along the X-axis direction is formed in the inner side wall of the protective cover 9.1, the elongated slot 9.1.3 is arranged between the third vertical slot and the fourth vertical slot, and one end of the elongated slot 9.1.3 is of an opening structure.

In the above technical solution, the bridge-spanning connecting plate 4.4 can move along the X-axis direction under the driving of the X-axis driving structure 4 (i.e. the moving direction of the bridge-spanning connecting plate 4.4 is the X-axis direction); the protective cover 9.1 completely wraps the X-axis driving structure 4 in other directions, and only one side close to the bridge-spanning connecting plate 4.4 is provided with a strip-shaped avoiding hole 9.1.1 for avoiding the bridge-spanning connecting plate 4.4. Be equipped with the air nozzle on the intermediate position of striding bridge connecting plate 4.4, some water droplets can be splashed when the air nozzle carries out jet-propelled dewatering, and the part of dodging hole 9.1.1 and being close to striding bridge connecting plate 4.4 gets into the water droplet that splashes very easily, and four waterproof scute are used for preventing the water droplet that splashes to get into safety cover 9.1, avoids the structure in the safety cover 9.1 to be moistened. The four waterproof corners extend along the X-axis direction and move along with the bridge-spanning connecting plate 4.4, so that the waterproof structure has a good waterproof effect. The protective cover 9.1 is a basic waterproofing structure 9. The protective cover 9.1 is a basic waterproof structure 9; the part of the waterproof extension plate 9.1.2 extending downwards forms a zigzag channel which can greatly reduce the entering of water drops, and the waterproof extension plate 9.1.2 is a first layer of waterproof structure 9; the first and second water-resistant gussets 9.2, 9.3 can reduce water damage entering the avoiding hole 9.1.1, the first and second water-resistant gussets 9.2, 9.3 together forming the second layer of water-resistant structure 9. The third water-proof angle plate 9.4 and the fourth water-proof angle plate 9.5 avoid water stains entering the avoiding hole 9.1.1 from contacting with other structures, and the third water-proof angle plate 9.4 and the fourth water-proof angle plate 9.5 jointly form a third-layer water-proof structure 9; the structure of the long groove 9.1.3 can make water stain entering the protective cover 9.1 flow out along the long groove 9.1.3, and the long groove 9.1.3 is a fourth layer waterproof structure 9.

The utility model has the advantages that: the dewatering cleaning efficiency is high, the application range is wide, the feasibility is good, the operation is easy, and the function expansibility is strong: the adjustable wire laying rod is used for pressing, so that the cable is prevented from tilting and interfering with a moving part; on the premise of not influencing the motion characteristic of the motion mechanism, the key driving part and the driven part have a good isolation function on water stains; the sealing structure has a multilayer sealing structure and a good sealing effect.

Claims (6)

1. An automatic jet-propelled dewatering cleaning device, characterized by includes:

the water tank table is provided with a water storage tank;

the washing basket is used for placing a thermoelectric product to be dewatered and is arranged in the water storage tank;

the air injection structure is used for quickly injecting air to remove water and clean the outer surface of the thermoelectric product and the cable;

the Y-axis driving structure is used for driving the air injection structure to move along the Y axis, and the air injection structure is arranged on the Y-axis driving structure;

the X-axis driving structure is used for driving the Y-axis driving structure to move along the X axis, and the Y-axis driving structure is arranged on the X-axis driving structure;

the air injection structure comprises an air nozzle and an air pipe, one end of the air pipe is connected with the air nozzle, and the other end of the air pipe is connected with an air source; the inside many stay tubes that are used for bearing the weight of the washing basket of vertically being equipped with of aqua storage tank has certain distance with the aqua storage tank bottom.

2. An automatic air-jet dewatering and cleaning device as claimed in claim 1, wherein the sink table is provided with wire-laying bars which are laterally fixed to the side walls of the water storage tank.

3. An automatic air jet de-watering cleaning apparatus according to claim 2 in which the plurality of wire laying bars are arranged side by side one behind the other in the X-axis direction.

4. The automatic air-jet type dewatering and cleaning device as claimed in claim 2, wherein a plurality of threaded holes are formed in the side wall of the water storage tank, an adjusting plate is fixed to the end face of the wire laying rod, a long hole is formed in the fixing adjusting plate, and a fixing bolt penetrates through the long hole and the threaded holes to fix the fixing adjusting plate to the side wall of the water storage tank.

5. An automatic jet-propelled dewatering and cleaning device according to claim 1, 2, 3 or 4, characterized by further comprising a waterproof structure, the waterproof structure comprises a protective cover, a first waterproof angle plate and a second waterproof angle plate, the protective cover is arranged above the X-axis driving structure, one side of the protective cover close to the Y-axis driving structure is provided with a strip-shaped avoiding hole, and one end of a bridge-spanning connecting plate on the X-axis driving structure penetrates through the avoiding hole; the first waterproof angle plate and the second waterproof angle plate are arranged on the outer side of the protective cover, and the first waterproof angle plate and the second waterproof angle plate are arranged on the corresponding positions of the bridge-spanning connecting plate from top to bottom.

6. The automatic air jet dewatering cleaning device of claim 5, wherein the water structure further includes a third water-resistant gusset and a fourth water-resistant gusset, the third water-resistant gusset and the fourth water-resistant gusset being disposed on the inside of the protective cover, and the third water-resistant gusset and the fourth water-resistant gusset being disposed at corresponding positions above and below the bridge-spanning attachment plate.

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