CN110721942A - Mesh plate cleaning device - Google Patents

Abstract

The invention discloses a mesh plate cleaning device, which comprises: the device comprises a floating roller and a spray gun, wherein two ends of a central shaft of the floating roller are connected to supports in a floating manner, the lower ends of the supports are provided with clamping grooves used for connecting mesh plate grooves, the upper ends of the supports are connected to the two supports through sliding rods, the spray gun is connected to the sliding rods in a sliding manner through sliding sleeves, the spray gun is also connected with an operating rod used for driving the spray gun to slide along the sliding rods, and a positioning device is arranged between the operating rod and the supports; the side part of the floating roll is provided with through nails matched with meshes of the mesh plate; the upper end of the spray gun is provided with a joint connected with compressed air, and the lower end of the spray gun is provided with a nozzle. According to the invention, the mesh plate is cleaned in a manner of punching and then cleaning under high pressure, impurities adsorbed on the mesh are loosened and even directly fall off by the extrusion of the through-nails, and then the impurities are cleaned again by high-pressure air, so that the impurities can be thoroughly cleaned. The cleaning of the whole mesh plate is realized by moving the position of the nozzle.

Description

Mesh plate cleaning device

Technical Field

The invention relates to the field of mesh plate cleaning appliances, in particular to a mesh plate cleaning device.

Background

In the production process of the heat insulation pad and the sound insulation pad for the vehicle, raw materials are required to be heated, and the raw materials comprise open cotton, low-melting-point fiber, polyester fiber and the like. When heated, the crushed, loosened raw material is laid flat on a mesh plate (which is moving). The mesh plate is as shown in fig. 1, hot air is generated below the mesh plate, the materials are heated by the hot air, various fiber raw materials can be melted under the action of the hot air, the melted raw materials have certain viscosity, fibers in the raw materials can be adhered to meshes, the ventilation efficiency of the whole mesh plate is low, and the penetration of hot air is influenced. Consequently when in-service use, need regularly clear up the mesh board, the clearance mode among the prior art is more traditional, clears up through handheld instrument, pierces through the mesh tentatively through the screwdriver earlier, clears up through the high-pressure spray gun again, and is long consuming time, influences production efficiency, if directly adopt the high-pressure spray gun, the great mesh of part adsorption strength can clear up and not fall, and this kind of clearance mode inefficiency, and the effect also can't be guaranteed.

Disclosure of Invention

In order to solve the defects in the prior art, the invention provides a mesh plate cleaning device, which solves the technical problems of low mesh plate cleaning efficiency and poor effect in the prior art.

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

the utility model provides a mesh board cleaning device which characterized in that: the device comprises a floating roller and a spray gun, wherein two ends of a central shaft of the floating roller are connected to supports in a floating manner, the lower ends of the supports are provided with clamping grooves used for connecting mesh plate grooves, the upper ends of the supports are connected to the two supports through sliding rods, the spray gun is connected to the sliding rods in a sliding manner through sliding sleeves, the spray gun is also connected with an operating rod used for driving the spray gun to slide along the sliding rods, and a positioning device is arranged between the operating rod and the supports; the side part of the floating roll is provided with through nails matched with meshes of the mesh plate; the upper end of the spray gun is provided with a joint connected with compressed air, and the lower end of the spray gun is provided with a nozzle.

As an optimized scheme of the present invention, the mesh plate cleaning device is characterized in that: a boss is arranged between the through pin and the floating roller.

As an optimized scheme of the present invention, the mesh plate cleaning device is characterized in that: the positioning device comprises a sliding clamping plate which is connected with the support in a sliding mode and a positioning groove which is formed in the side portion of the operating rod, the sliding clamping plate is connected with the positioning groove, and when the sliding clamping plate is connected with the positioning groove, the nozzle is opposite to meshes of the mesh plate.

As an optimized scheme of the present invention, the mesh plate cleaning device is characterized in that: the number of the nozzles is three, and the axes of the three nozzles are parallel to the sliding rod.

As an optimized scheme of the present invention, the mesh plate cleaning device is characterized in that: the slide bar has two.

As an optimized scheme of the present invention, the mesh plate cleaning device is characterized in that: the central shaft of the floating roller is connected with the bracket through a floating connecting plate, and two ends of the floating connecting plate are respectively hinged with the bracket and the central shaft of the floating roller.

As an optimized scheme of the present invention, the mesh plate cleaning device is characterized in that: the clamping groove is also provided with a clamping groove jackscrew used for connecting the mesh plate groove.

As an optimized scheme of the present invention, the mesh plate cleaning device is characterized in that: the end of the operating rod is also provided with a handle.

As an optimized scheme of the present invention, the mesh plate cleaning device is characterized in that: the sliding clamping plate is connected to the support through a vertically arranged waist-shaped hole and is arranged right above the operating rod.

The invention achieves the following beneficial effects:

compared with the prior art, the mesh plate is cleaned in a mode of punching and then cleaning under high pressure, impurities adsorbed on the meshes are loosened and even directly fall off through the extrusion of the through nails, and then the impurities are cleaned again through high-pressure air, so that the impurities can be thoroughly cleaned. The cleaning of the whole mesh plate is realized by moving the position of the nozzle.

The rotation of the floating roller is realized by the translation of the mesh plate, and when the floating roller works, the mesh plate is moved only by normally starting the equipment.

Drawings

FIG. 1 is a front view of a prior art mesh plate;

FIG. 2 is a front view of the overall structure of the present invention;

FIG. 3 is a cross-sectional view taken along plane A-A of FIG. 2;

FIG. 4 is a front view of the spray gun construction of the present invention;

the meaning of the reference numerals: 1-a floating roll; 2-nailing; 3-a scaffold; 4-a slide bar; 5, sliding sleeve; 6-a spray gun; 7-a joystick; 8-sliding clamping plate; 10-mesh plate; 101-mesh plate groove; 11-a floating connection plate; 21-a boss; 31-a card slot; 311-card slot jackscrew; 51-sliding sleeve jackscrew; 61-a linker; 62-a nozzle; 71-a positioning groove; 72-handle.

Detailed Description

The invention is further described below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

As shown in fig. 2 and 3: the embodiment discloses a mesh plate cleaning device, including floating roll 1 and spray gun 6, the center pin both ends of floating roll 1 all float and connect in support 3, the 3 lower extremes of support are equipped with the draw-in groove 31 that is used for connecting mesh plate groove 101, the upper end is connected in two supports 3 through slide bar 4, still be equipped with slide bar 4 between two supports 3, but spray gun 6 passes through 5 sliding connection of sliding sleeve in slide bar 4, spray gun 6 still connects and is used for driving spray gun 6 along the gliding control rod 7 of slide bar 4, still be equipped with positioner between control rod 7 and the support 3. The slide bars 4 of this embodiment are preferably two.

The side (cylindrical surface) of the floating roller 1 is provided with through nails 2 matched with meshes of the mesh plate 10, in order to avoid the side of the floating roller 1 directly contacting the mesh plate 10, a boss 21 is limited between the through nails 2 and the floating roller 1, the cross section size of the boss 21 is larger than the size of the meshes in the mesh plate 10, and the boss is used for isolating the floating roller 1 from the mesh plate 10.

The spray gun 6 is provided with a connector 61 connected to compressed air at the upper end and a nozzle 62 at the lower end.

Specifically, the positioning device of this embodiment includes a sliding clamp plate 8 slidably connected to the bracket 3, and a positioning groove 71 disposed on a side of the operating rod 7, wherein the sliding clamp plate 8 is connected to the positioning groove 71, and when the sliding clamp plate 8 is connected to the positioning groove 71, the nozzle 62 faces the mesh of the mesh plate 10. The sliding clamping plate 8 is clamped in the positioning groove 71 to longitudinally position the operating rod 7, so that the operating rod 7 is prevented from sliding relative to the bracket 3. The sliding clamping plate 8 is preferably arranged right above the operating rod 7 and can slide up and down relative to the support 3 within a certain range, for example, a vertically arranged waist-shaped hole is arranged on the sliding clamping plate 8, the waist-shaped hole is penetrated (not fastened) through a screw, and when the positioning groove 71 moves to the position right below the sliding clamping plate 8, the sliding clamping plate 8 enters the positioning groove 71 under the action of gravity. For convenience of operation, the end of the joystick 7 of the present embodiment is further provided with a handle 72.

In practice, the gas consumption of the spray gun 6 is large, and the meshes of the mesh plate 10 are dense, so that the balance between the number of nozzles and the pressure of the nozzles needs to be realized. The nozzles 62 of this embodiment are therefore preferably three, the axes of the three nozzles 62 being parallel to the slide 4, i.e. arranged side by side, so that three rows of meshes can be cleaned at a time.

Both ends of the central shaft of the floating roller 1 are connected to the support 3 in a floating mode, the floating connection means that under the action of gravity, in the movement process of the mesh plate 10, the floating roller 1 can be attached to the mesh plate 10 all the time and can follow the mesh plate 10 to follow up, but the central shaft of the floating roller 1 is connected to the support 3 all the time.

The concrete structure is as follows: the central shaft of the floating roller 1 is connected with the bracket 3 through a floating connecting plate 11, and two ends of the floating connecting plate 11 are respectively hinged with the bracket 3 and the central shaft of the floating roller 1. In actual operation, the floating connecting plate 11 only limits the horizontal position of the floating roller 1 and can allow the floating roller 1 to float up and down. The floating roller 1 should be weighted to enable foreign matters in the meshes to be removed.

The fixing mode of the clamping groove 31 and the mesh plate groove 101 is as follows: the clamping groove 31 is further provided with a clamping groove jackscrew 311 used for being connected with the mesh plate groove 101, and the end part of the clamping groove jackscrew 311 can be firmly propped against the mesh plate groove 101 by rotating the jackscrew 311, so that the embodiment can be fixed on the mesh plate groove 101.

In operation, this embodiment is fixed on mesh plate groove 101 through draw-in groove 31, inserts drift 2 in the hole of mesh plate 10 after fixed, and the distribution of drift 2 on the floating roll 1 is unanimous with the mesh on mesh plate 10, in order to ensure that drift 2 can enter the inside of mesh plate 10 mesh, can set up the relatively little of drift 2's size. When the mesh plate 10 forward motion, the floating roll 1 follows the rotation, and under the effect of gravity, the drift bolt 2 preliminarily pierces through the impurity in the mesh, makes impurity and mesh plate 10 take place to separate, perhaps makes impurity not hard up. After the mesh plate 10 is pressed by the floating roller 1, through the injection of the spray gun 6, because there are three nozzles 62 and three nozzles 62 are aligned with three rows of meshes, three rows of meshes can be cleaned by high-pressure air at a time, after the three rows of meshes are cleaned (if the three rows of meshes are not cleaned completely after walking for one circle, the circulation can be continued for a plurality of circles), the sliding clamping plate 8 is slid upwards, the operating rod 7 is pulled, and the sliding clamping plate 8 enters the next positioning groove 71 to clean the next three rows of meshes.

Compared with the prior art, this embodiment is through boring earlier, and the mode of high-pressure clearance clears up the mesh board again, through the extrusion of drift bolt 2 for the impurity of absorption on the mesh is become flexible, directly drops even, then clears up through highly-compressed air once more, ensures that impurity can be thoroughly cleared up. Cleaning of the entire mesh plate 10 is achieved by shifting the position of the nozzle 62.

The rotation of the floating roller 1 is realized by the translation of the mesh plate 10, and in the working process, the mesh plate 10 is moved only by normally starting the device.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (9)

1. The utility model provides a mesh board cleaning device which characterized in that: the mesh plate cleaning device comprises a floating roller (1) and a spray gun (6), wherein two ends of a central shaft of the floating roller (1) are connected to supports (3) in a floating mode, clamping grooves (31) used for being connected with mesh plate grooves (101) are formed in the lower ends of the supports (3), the upper ends of the supports are connected to the two supports (3) through sliding rods (4), a sliding rod (4) is further arranged between the two supports (3), the spray gun (6) is connected to the sliding rod (4) in a sliding mode through a sliding sleeve (5), the spray gun (6) is further connected with an operating rod (7) used for driving the spray gun (6) to slide along the sliding rod (4), and a positioning device is further arranged between the operating;

the side part of the floating roller (1) is provided with through nails (2) matched with meshes of the mesh plate (10);

the upper end of the spray gun (6) is provided with a connector (61) connected with compressed air, and the lower end is provided with a nozzle (62).

2. A mesh plate cleaning apparatus according to claim 1, wherein: and a boss (21) is also arranged between the through pin (2) and the floating roller (1).

3. A mesh plate cleaning apparatus according to claim 1, wherein: the positioning device comprises a sliding clamping plate (8) which is connected to the support (3) in a sliding mode and a positioning groove (71) which is formed in the side portion of the operating rod (7), the sliding clamping plate (8) is connected to the positioning groove (71), and when the sliding clamping plate (8) is connected to the positioning groove (71), the nozzle (62) is opposite to meshes of the mesh plate (10).

4. A mesh plate cleaning apparatus according to claim 1 or 3, wherein: the nozzles (62) are three, and the axes of the three nozzles (62) are parallel to the sliding rod (4).

5. A mesh plate cleaning apparatus according to claim 1, wherein: the number of the sliding rods (4) is two.

6. A mesh plate cleaning apparatus according to claim 1, wherein: the central shaft of the floating roller (1) is connected with the support (3) through a floating connecting plate (11), and two ends of the floating connecting plate (11) are respectively hinged to the support (3) and the central shaft of the floating roller (1).

7. A mesh plate cleaning apparatus according to claim 1, wherein: the clamping groove (31) is also provided with a clamping groove jackscrew (311) used for connecting the mesh plate groove (101).

8. A mesh plate cleaning apparatus according to claim 1, wherein: the end part of the operating rod (7) is also provided with a handle (72).

9. A mesh plate cleaning apparatus according to claim 1, wherein: the sliding clamping plate (8) is connected to the support (3) through a vertically arranged waist-shaped hole, and the sliding clamping plate (8) is arranged right above the operating rod (7).

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