CN218251249U - Paint even coating device - Google Patents

Abstract

The utility model relates to a surface coating equipment technical field specifically is a paint even coating device, include: a frame; the pneumatic clamping finger is arranged on the rack, a clamping jaw of the pneumatic clamping finger is provided with a coating finger, and a coating sponge is arranged on the coating finger and is used for contacting with a workpiece to be coated; a liquid supply assembly disposed on the frame and used for supplying coating liquid to the coating sponge; the rotating assembly is arranged on the machine frame and is used for driving the workpiece to be coated to rotate. The utility model discloses a control pneumatic clamp indicates to make coating sponge and work piece contact on the coating finger to it is rotatory through rotatory subassembly drive work piece, make and to absorb the coating sponge of coating liquid from supplying liquid subassembly and can evenly paint the surface at the work piece with the coating liquid, workpiece surface can not neglected to scribble, the coating liquid can not pile up on the workpiece surface yet, and paint the effect height, paint effectually.

Description

Paint even coating device

Technical Field

The utility model relates to a surface coating equipment technical field specifically is a paint even coating device.

Background

The surface coating technique refers to a technique for coating a new material on a material surface, such as electroplating (or electroless plating), painting (or painting), thermal spraying, and vapor deposition techniques. The coating method mainly comprises the following steps: painting, spraying, dip coating and electrophoretic coating. In manufacturing, it is often necessary to apply a liquid (such as paint, silicone oil, paint, etc.) to the surface of a workpiece, and the more common and simpler application method is brushing or spraying, in which the liquid is directly applied to the surface of the workpiece by a tool or sprayed by a spray gun and dispersed and deposited on the surface of the object to be coated. For example, in the assembly process of the three-way cock, silicone oil is required to be sprayed at the combination of the rotary core and the base, and the silicone oil is generally sprayed on the inner side of the base (at the combination of the rotary core and the rotary core) by using a spray valve; because the combination position of the base and the rotary core is a round inner wall, uneven spraying silicone oil can be generated during spraying, and silicone oil is easy to lack or excessively accumulate.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a paint even coating device aims at solving prior art intermediate workpiece surface and paints inhomogeneous technical problem.

In order to achieve the above object, the utility model provides a paint even coating device, include:

a frame;

the pneumatic clamping finger is arranged on the rack, a coating finger is arranged on a clamping jaw of the pneumatic clamping finger, a coating sponge is arranged on the coating finger, and the coating sponge is used for contacting with a workpiece to be coated;

a liquid supply assembly disposed on the frame and used for supplying coating liquid to the coating sponge;

and the rotating assembly is arranged on the machine frame and is used for driving the workpiece to be coated to rotate. The coating liquid is uniformly coated on the outer surface of the workpiece, the surface of the workpiece cannot be leaked and coated, the coating liquid cannot be accumulated on the surface of the workpiece, and the coating effect is high and good.

Preferably, the pneumatic clamping fingers are provided with a first clamping jaw and a second clamping jaw which are oppositely arranged and can approach to or depart from each other; the first clamping jaw and the second clamping jaw are provided with the coating fingers. The coating of the workpiece is more uniform and faster.

Preferably, a cavity is formed in the coating finger, a liquid inlet and a liquid outlet communicated with the cavity are formed in the coating finger, the liquid supply assembly supplies coating liquid to the cavity through the liquid inlet, and the coating sponge is arranged on the outer wall of the coating finger and located at the liquid outlet. The liquid supply assembly supplies liquid more stably and smoothly when the coating liquid is supplied to the coating sponge, and the coating liquid is not easy to leak and not wasted.

Preferably, the coating finger on the first clamping jaw is provided with the liquid outlet on the side wall close to one side of the second clamping jaw; the coating finger positioned on the second clamping jaw is provided with the liquid outlet on the side wall close to one side of the first clamping jaw. The sponge coated on the two coating fingers can absorb the coating liquid, so that the workpiece is coated more uniformly and quickly.

Preferably, the coating finger is provided with the liquid outlet at one end far away from the pneumatic clamping finger. The amount of coating sponge absorbing coating liquid can be balanced, and the phenomenon that the coating liquid is accumulated and is unevenly coated due to excessive absorption of the coating liquid is avoided.

Preferably, the coating sponge further comprises a dust-free cloth, wherein the dust-free cloth is wound on the coating fingers to wrap and fix the coating sponge; the outer wall of the coating finger is provided with a groove at the liquid outlet, and the coating sponge is arranged in the groove. The coating sponge is wrapped by the dust-free cloth, so that the coating sponge is convenient to coat and is more uniformly coated; the groove is formed to facilitate placement of the coating sponge.

Preferably, the liquid supply subassembly includes stock solution bottle, feed pipe and bi-pass connector, the stock solution bottle is installed in the frame, the bi-pass connector is installed feed inlet department, the both ends of feed pipe respectively with the stock solution bottle with the bi-pass connector is linked together. The coating liquid can be continuously, smoothly and smoothly supplied to the coating sponge.

Preferably, the rotating assembly comprises a stepping motor and a rotating seat, the stepping motor is arranged on the rack, the stepping motor is mounted at the output end of the stepping motor, and the rotating seat is used for fixing a workpiece;

the rotating assembly further comprises a fixed seat, and the fixed seat is arranged on the rotating seat and used for assisting in fixing the workpiece. The rotating assembly is arranged in such a way, automatic uniform coating can be realized, the rotating period of the workpiece is fixed, and the rotating process is kept stable.

Preferably, the rack is further provided with a liquid receiving groove, and the liquid receiving groove is located right below the coating fingers and is used for receiving coating liquid dropping during coating of the workpiece. The liquid receiving groove is arranged to receive the dropped coating liquid, so that the coating liquid is prevented from dropping on a machine or the ground, and the cleanness and tidiness of the machine and the ground are ensured; and the received coating liquid can be recycled, so that waste is avoided.

Preferably, the liquid storage tank is further included, a liquid leakage hole is formed in the liquid receiving tank, and the liquid storage tank is located right below the liquid leakage hole. The coating liquid can enter the liquid storage tank for storage, and the coating liquid is convenient for workers to recover at regular time.

The utility model relates to a paint even coating device has following beneficial effect at least: make coating sponge and work piece contact on the coating finger through control pneumatic clamp finger to it is rotatory through rotatory subassembly drive work piece, make and absorb the coating sponge of coating liquid from supplying liquid subassembly and can evenly paint the coating liquid on the surface of work piece, the work piece surface can not miss coating, coating liquid can not pile up on the work piece surface yet, and paint the effect height, paint effectually.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

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

FIG. 2 is a schematic view of the pneumatic clamping finger of the present invention;

FIG. 3 is a schematic structural view of the dust-free cloth of the present invention disposed on a coating finger;

FIG. 4 is a schematic diagram of the exploded structure of the coated finger, coated sponge and dust-free cloth of the present invention;

FIG. 5 is a schematic cross-sectional view of a coated finger according to the present invention;

fig. 6 is a schematic structural view of the liquid receiving tank of the present invention.

In the drawings: 1-a frame, 2-a pneumatic clamping finger, 21-a first clamping jaw, 22-a second clamping jaw, 23-a cylinder, 3-a coating finger, 31-a cavity, 32-a liquid inlet, 33-a liquid outlet, 34-a groove, 4-a coating sponge, 5-a liquid supply component, 51-a liquid storage bottle, 52-a double-way connector, 6-a rotating component, 61-a stepping motor, 62-a rotating seat, 63-a fixed seat, 7-dust-free cloth, 8-a liquid receiving tank, 81-a liquid leakage hole and 9-a liquid storage tank.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory to each other or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1 to 6, a coating apparatus for applying a uniform coating includes: a frame 1;

the pneumatic clamping finger 2 is arranged on the rack 1, a coating finger 3 is arranged on a clamping jaw of the pneumatic clamping finger 2, a coating sponge 4 is arranged on the coating finger 3, and the coating sponge 4 is used for contacting with a workpiece to be coated;

a liquid supply assembly 5 disposed on the frame 1 and supplying the coating sponge 4 with a coating liquid;

a rotating assembly 6 arranged on the frame 1 and used for driving the workpiece to be coated to rotate.

The machine frame 1 is a base frame of the coating device and is used for bearing a starting clamping finger, a liquid supply assembly 5, a rotating assembly 6 and the like; the pneumatic clamping finger 2 is also called a pneumatic finger, a pneumatic clamping jaw and a finger cylinder, and is an executing device which uses compressed air as power and is used for clamping or grabbing a workpiece; the pneumatic clamping finger 2 is arranged on the frame 1, the coating finger 3 is arranged on the pneumatic clamping finger 2, and the coating sponge 4 is arranged on the coating finger 3; when the clamping jaw of the pneumatic clamping finger 2 clamps the workpiece, the coating finger 3 can be driven to clamp, and then the coating sponge 4 is driven to contact with the workpiece to be coated. The liquid supply assembly 5 is arranged on the machine frame 1 and is used for supplying coating liquid to the coating sponge 4, and when the coating sponge 4 is contacted with a workpiece, the coating liquid on the liquid supply device is absorbed on the coating sponge 4 and is coated on the workpiece. The coating machine is also provided with a rotating assembly 6 coated on the rack 1, and the rotating assembly 6 can drive the workpiece to rotate; when the coating sponge 4 is contacted with the workpiece, the rotating component 6 is started and drives the workpiece to rotate, so that each part of the workpiece can be contacted with the workpiece in turn, and the coating liquid is coated on the workpiece. This technical scheme makes coating sponge 4 and the work piece contact on the coating finger 3 through control pneumatic clamp finger 2 to it is rotatory through rotating assembly 6 drive work piece, makes the coating sponge 4 who absorbs the coating liquid from supplying liquid subassembly 5 can evenly paint the coating liquid on the surface of work piece, and the work piece surface can not miss coating, coating liquid can not pile up on the work piece surface yet, and paints the effect height, paints effectually.

Further, the pneumatic clamping finger 2 is provided with a first clamping jaw 21 and a second clamping jaw 22 which are oppositely arranged and can approach to or depart from each other; the coating fingers 3 are arranged on the first clamping jaw 21 and the second clamping jaw 22.

The first clamping jaw 21 and the second clamping jaw 22 are parallel to each other, a certain gap is reserved between the first clamping jaw 21 and the second clamping jaw 22, and the first clamping jaw 21 and the second clamping jaw 22 can approach to each other or move away from each other under the action of the air cylinder 23 of the pneumatic clamping finger 2; when the first jaw 21 and the second jaw 22 are close to each other, the coating finger 3 clamps the workpiece, and the coating sponge 4 is in contact with the workpiece; when the first jaw 21 and the second jaw 22 are moved away from each other, the coating finger 3 releases the workpiece, the coating sponge 4 is not in contact with the workpiece, and the workpiece can be replaced. The coating fingers 3 are arranged on the first clamping jaw 21 and the second clamping jaw 22, so that the two pieces of coating sponge 4 on the two coating fingers 3 can clamp the workpiece, and the workpiece is coated more uniformly and rapidly.

Further, a cavity 31 is formed inside the coating finger 3, a liquid inlet 32 and a liquid outlet 33 communicated with the cavity 31 are formed in the coating finger 3, the liquid supply assembly 5 supplies the coating liquid to the cavity 31 through the liquid inlet 32, and the coating sponge 4 is arranged on the outer wall of the coating finger 3 and located at the liquid outlet 33.

A cavity 31 for the coating liquid to flow through is formed in the coating finger 3, a liquid inlet 32 and a liquid outlet 33 are formed in the coating finger 3, the liquid inlet 32 is specifically formed in the upper end face of the coating finger 3, the liquid outlet 33 is formed in the side face of the coating finger 3, and the coating sponge 4 is arranged on the outer wall of the coating finger 3 and on one side close to the workpiece; the liquid supply assembly 5 injects the coating liquid into the cavity 31 from the liquid inlet 32, and then the coating liquid flows from the cavity 31 to the coating sponge 4 through the liquid outlet 33 by the adsorption of the coating sponge 4; the coating sponge 4 adsorbs the coating liquid and then contacts with the workpiece to coat the coating liquid on the surface of the workpiece. The design of the structure of the coating finger 3 can ensure that the liquid supply component 5 can supply more stable and smoother liquid when supplying the coating liquid to the coating sponge 4, and the coating liquid is not easy to leak and not wasted; the coating sponge 4 can also adjust the speed of absorbing the coating liquid according to the coating speed and the coating amount.

Further, the coating finger 3 on the first clamping jaw 21 is provided with the liquid outlet 33 on the side wall of the side close to the second clamping jaw 22; the coating finger 3 on the second clamping jaw 22 is provided with the liquid outlet 33 on the side wall of one side close to the first clamping jaw 21.

The first jaw 21 and the second jaw 22 are parallel to each other, in correspondence with each other, and therefore the two coating fingers 3 are also parallel to each other, in correspondence with each other; the coating finger 3 fixed on the first clamping jaw 21 is provided with at least one liquid outlet 33 on the side wall close to one side of the second clamping jaw 22 (namely, the side close to the workpiece), and the number of the liquid outlets 33 is at least one; similarly, the coating finger 3 fixed on the second clamping jaw 22 is provided with at least one liquid outlet 33 on the side wall close to the side of the first clamping jaw 21 (i.e. the side close to the workpiece), and the number of the liquid outlets 33 is at least one; the liquid outlets 33 on the two coating fingers 3 correspond to each other and are respectively positioned at two sides of the workpiece; each coating finger 3 is provided with a coating sponge 4 at the liquid outlet 33. The sponge 4 coated on the two coating fingers 3 can absorb the coating liquid, so that the workpiece is coated more uniformly and quickly.

Further, the coating finger 3 is provided with the liquid outlet 33 at one end far away from the pneumatic clamping finger 2.

The coating finger 3 is provided with a liquid outlet 33 at one side close to the workpiece, and the coating liquid output from the position is adsorbed by the coating sponge 4 to be coated on the workpiece; on the basis, the coating finger 3 is also provided with a liquid outlet 33 at one end far away from the pneumatic clamping finger 2, and the coating liquid in the cavity 31 can directly flow out through the liquid outlet 33. Set up liquid outlet 33 in the one end of coating finger 3 keeping away from pneumatic clamp 2, can improve the smooth and easy degree of flow of coating liquid in the cavity 31, the coating sponge 4 absorbs the coating liquid accessible of not finishing and is discharged at the liquid outlet 33 of this department, consequently can balance the coating sponge 4 volume of adsorbing the coating liquid, avoids the coating liquid to adsorb too much, causes the coating liquid to pile up, paints inhomogeneously.

Further, the coating device also comprises a dust-free cloth 7, wherein the dust-free cloth 7 is wound on the coating finger 3 to wrap and fix the coating sponge 4; the outer wall of the coating finger 3 is provided with a groove 34 at the liquid outlet 33, and the coating sponge 4 is arranged in the groove 34.

The dust-free cloth 7 is formed by double weaving of 100% polyester fiber, has a soft surface, is easy to wipe sensitive surfaces, does not remove fibers by friction, and has good water absorption and cleaning efficiency. The dust-free cloth 7 is arranged, so that the coating sponge 4 can be conveniently wrapped on the coating fingers 3; because the coating sponge 4 is softer and absorbs more coating liquid, the coating sponge 4 can not be directly contacted with a workpiece well when the workpiece is coated, the coating sponge 4 is wrapped by the dust-free cloth 7, and the coating sponge can be conveniently coated and is more uniformly coated. In practical application, multiple layers of dust-free cloth 7 can be wound according to requirements. The outer wall of the coating finger 3 is provided with a groove 34 at the liquid outlet 33, so that the coating sponge 4 can be conveniently placed.

Further, liquid supply subassembly 5 includes stock solution bottle 51, feed pipe and bi-pass connector 52, stock solution bottle 51 is installed in the frame 1, bi-pass connector 52 is installed inlet 32 department, the both ends of feed pipe respectively with stock solution bottle 51 with bi-pass connector 52 is linked together.

The liquid storage bottle 51 is used for storing coating liquid; a supply pipe (not shown in the drawings) for transporting the coating liquid; the two-way connector 52 is a connector opened at both ends and opened in the middle, and is used for fixing the output end of the liquid supply pipe and transferring the coating liquid in the oil supply pipe into the cavity 31. In practical application, the coating liquid in the liquid storage bottle 51 can be conveyed into the cavity 31 by adjusting the horizontal height of the liquid storage bottle 51 and utilizing the gravity; alternatively, the coating liquid may be pumped into the cavity 31 by other power means such as a pump. The liquid supply unit 5 is arranged to continuously, smoothly and smoothly supply the coating liquid to the coating sponge 4.

Further, the rotating assembly 6 comprises a stepping motor 61 and a rotating base 62, the stepping motor 61 is arranged on the frame 1, the stepping motor 61 is installed at the output end of the stepping motor 61, and the rotating base 62 is used for fixing a workpiece;

the rotating assembly 6 further comprises a fixing seat 63, wherein the fixing seat 63 is arranged on the rotating seat 62 and is used for assisting in fixing a workpiece.

The stepping motor 61 is installed on the frame 1, the output end of the stepping motor is upward, the rotating base 62 is installed at the output end of the stepping motor 61 and can be driven by the stepping motor 61 to rotate, and the rotating base 62 is located between the first clamping jaw 21 and the second clamping jaw 22; the workpiece to be coated is placed on the rotating base 62, the first clamping jaw 21 and the second clamping jaw 22 of the pneumatic clamping finger 2 are close to each other, so that the coating finger 3 gently clamps the workpiece (the specific requirement is that the coating sponge 4 on the coating finger 3 is in contact with the workpiece, the workpiece extrudes the coating sponge 4 to a certain degree, and the workpiece can normally rotate), the liquid supply assembly 5 conveys coating liquid for the coating sponge 4, the stepping motor 61 is opened, the rotating base 62 is driven to rotate, the workpiece is further driven to rotate, and the workpiece is coated with the sponge 4 in the rotating process so as to coat the surface of the workpiece. The rotating seat 62 is also provided with a fixed seat 63, and the fixed seat 63 is used for assisting in fixing a workpiece, so that the workpiece is prevented from inclining and falling in the rotating and coating processes; the specific shape of the holder 63 can be designed according to the shape of the workpiece to be coated. The rotating assembly 6 is arranged in such a way, automatic uniform coating can be realized, the rotating period of the workpiece is fixed, and the rotating process is kept stable.

Further, the frame 1 is further provided with a liquid receiving tank 8, and the liquid receiving tank 8 is located right below the coating fingers 3 and is used for receiving coating liquid dropping during coating of the workpiece.

In the process of coating a workpiece, redundant coating liquid or coating liquid which cannot be adsorbed on the surface of the workpiece in time can drip, or coating liquid discharged from a liquid outlet 33 formed in one end of the coating finger 3, which is far away from the pneumatic clamping finger 2, can also drip downwards, and the dripping coating liquid can be received by arranging a liquid receiving groove 8 right below the coating finger 3 (and located right below the workpiece), so that the dripping coating liquid is prevented from dripping on a machine or the ground, and the cleanness and tidiness of the machine and the ground are ensured; and the received coating liquid can be recycled, so that waste is avoided.

Further, the liquid storage tank 9 is further included, the liquid receiving tank 8 is provided with a liquid leakage hole 81, and the liquid storage tank 9 is located right below the liquid leakage hole 81.

The liquid storage tank 9 is detachably fixed on the rack 1, the liquid receiving tank 8 receives the coating liquid dripped down and then discharges the coating liquid downwards through the liquid leakage hole 81, and the coating liquid discharged from the liquid leakage hole 81 enters the liquid storage tank 9 for storage, so that the coating liquid is convenient for workers to recover the coating liquid regularly. In other embodiments, the coating liquid received by the liquid receiving tank 8 can be directly transferred back to the liquid storage bottle 51, for example, by pipeline.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. A coating apparatus for applying a uniform coating, comprising:

a frame (1);

the pneumatic clamping finger (2) is mounted on the rack (1), a coating finger (3) is mounted on a clamping jaw of the pneumatic clamping finger (2), a coating sponge (4) is arranged on the coating finger (3), and the coating sponge (4) is used for contacting with a workpiece to be coated;

a liquid supply assembly (5) disposed on the frame (1) and used for supplying coating liquid to the coating sponge (4);

a rotating assembly (6) arranged on the frame (1) and used for driving the workpiece to be coated to rotate.

2. A device for coating with even spread, according to claim 1, characterized in that said pneumatic gripper fingers (2) are provided with a first jaw (21) and a second jaw (22) which are opposite and can be moved towards or away from each other; the coating fingers (3) are arranged on the first clamping jaw (21) and the second clamping jaw (22).

3. The coating device for uniformly coating the paint according to claim 2, wherein a cavity (31) is formed inside the coating finger (3), the coating finger (3) is provided with a liquid inlet (32) and a liquid outlet (33) which are communicated with the cavity (31), the liquid supply assembly (5) supplies the coating liquid to the cavity (31) through the liquid inlet (32), and the coating sponge (4) is arranged on the outer wall of the coating finger (3) and is positioned at the liquid outlet (33).

4. A device according to claim 3, characterized in that said application finger (3) on said first jaw (21) has said exit opening (33) in the side wall of the side close to said second jaw (22); the coating finger (3) positioned on the second clamping jaw (22) is provided with the liquid outlet (33) on the side wall close to one side of the first clamping jaw (21).

5. A device according to claim 4, characterized in that the application finger (3) is provided with the outlet (33) at the end remote from the pneumatic gripper finger (2).

6. A device according to claim 3, further comprising a dust-free cloth (7), wherein the dust-free cloth (7) is wound around the coating finger (3) to wrap and fix the coating sponge (4); the outer wall of the coating finger (3) is provided with a groove (34) at the liquid outlet (33), and the coating sponge (4) is arranged in the groove (34).

7. A device for evenly applying a coating according to claim 3, wherein the liquid supply assembly (5) comprises a liquid storage bottle (51), a liquid supply pipe and a double-pass connector (52), the liquid storage bottle (51) is mounted on the frame (1), the double-pass connector (52) is mounted at the liquid inlet (32), and two ends of the liquid supply pipe are respectively communicated with the liquid storage bottle (51) and the double-pass connector (52).

8. A coating apparatus for uniform coating according to claim 1, wherein the rotating assembly (6) comprises a stepping motor (61) and a rotating base (62), the stepping motor (61) is disposed on the frame (1), the stepping motor (61) is installed at an output end of the stepping motor (61), and the rotating base (62) is used for fixing a workpiece;

the rotating assembly (6) further comprises a fixed seat (63), and the fixed seat (63) is arranged on the rotating seat (62) and used for assisting in fixing a workpiece.

9. The coating device with uniform coating is characterized in that a liquid receiving tank (8) is further arranged on the machine frame (1), and the liquid receiving tank (8) is located right below the coating finger (3) and is used for receiving coating liquid dropping during coating of a workpiece.

10. The coating device with uniform coating according to claim 9, further comprising a liquid storage tank (9), wherein the liquid receiving tank (8) is provided with a liquid leakage hole (81), and the liquid storage tank (9) is positioned right below the liquid leakage hole (81).

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