CN217345863U - Energy-saving water cutting equipment for processing external wall heat insulation material - Google Patents

Abstract

The utility model discloses an energy-saving water cutting device for processing external wall insulation materials, which relates to the technical field of the processing of insulation materials, and comprises a machine body, wherein a gantry moving frame is arranged at the upper side of the machine body, a water cutter head is arranged at one side of the gantry moving frame facing the machine body, a collecting cavity is arranged on the upper surface of the machine body, a grating plate is fixedly connected between the two inner walls opposite to the collecting cavity, a water suction pump is arranged at the side surface of the machine body, a water suction pipe is fixedly connected with an input port of the water suction pump, one end of the water suction pipe far away from the water suction pump penetrates into the collecting cavity, a first connecting hose is fixedly connected with an output port of the water suction pump, a booster pump is arranged in the gantry moving frame, the purpose of recycling water source is achieved, the water cutter head is not required to be connected with an external water source, thereby avoiding the problem of excessive water waste, therefore, the device has higher energy-saving value.

Description

Energy-saving water cutting equipment for processing external wall heat insulation material

Technical Field

The utility model relates to an insulation material processing technology field, in particular to equipment is cut with energy-conserving water to outer wall insulation material processing.

Background

Cement foaming insulation material is as A level fire prevention insulation material's main part, and market demand is more and more big, and cement foaming insulation material need cut into the sheet after the shaping and supply the use, causes the problem that causes insulation material to appear damaging in order to prevent that insulation material from producing too much heat in the cutting process simultaneously, consequently just needs to use the water and cuts equipment.

Most of the existing water cutting equipment have the following problems: the existing water cutting equipment is known as well and is used for cutting the heat-insulating material by spraying high-pressure water, so that the water cutting equipment needs to use a large amount of water during operation, however, most of the existing water cutting equipment has water cutting heads connected with an external water source, and water with cut heat-insulating material is directly discharged from a machine body, so that the problem that excessive water is wasted when the water cutting equipment continuously cuts the heat-insulating material is caused, and the water cutting equipment does not have a good energy-saving effect.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve one of the technical problem that exists among the prior art at least, provide an equipment is cut with energy-conserving water to external wall insulation material processing, the water that can solve the insulation material of having cut all is the direct discharge organism, just so causes water to cut equipment and appear wasting the problem at too much water source when lasting to the insulation material cutting, consequently this water cuts the problem that equipment does not possess fine energy-conserving effect.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an equipment is cut with energy-conserving water to external wall insulation material processing, includes the organism, and the upside of organism is provided with the gantry crane frame, and the gantry crane frame is provided with the water tool bit towards one side of organism, the collection chamber has been seted up to the upper surface of organism, collects fixedly connected with grid plate between the relative both sides inner wall in chamber, and the side of organism is provided with the suction pump, and the input port fixedly connected with drinking-water pipe of suction pump, the one end that the suction pump was kept away from to the drinking-water pipe run through into and collect the intracavity, and the first connecting hose of delivery outlet fixedly connected with of suction pump is provided with the booster pump in the gantry crane frame, and the one end that the suction pump was kept away from to first connecting hose is connected with the input tube of booster pump, and the output tube fixedly connected with second connecting hose of booster pump, and the one end that the booster pump was kept away from to the second connecting hose is connected with the water tool bit inlet port.

Preferably, the side of organism is provided with the frame type mounting bracket that slides and runs through into collecting the intracavity, and one side that frame type mounting bracket is located the collection intracavity is identical with collection intracavity wall, and the medial surface fixedly connected with filter screen of frame type mounting bracket collects the intracavity and is provided with clearance mechanism.

Preferably, the cleaning mechanism comprises a driving fan blade, the driving fan blade is rotatably connected to the inner wall of the collecting cavity, and the driving fan blade and the water pumping pipe are located at the same horizontal position.

Preferably, one side surface of the driving fan blade back to the rotating point is fixedly connected with a first belt pulley, the inner wall of the collecting cavity is rotatably connected with a second belt pulley, and a transmission belt is connected between the first belt pulley and the second belt pulley in a transmission manner.

Preferably, the second pulley diameter is twice the first pulley diameter.

Preferably, the surface of one side of the second belt pulley back to the rotation point is fixedly connected with a connecting disc, the outer surface of the connecting disc is fixedly connected with an elastic rubber rod, and one end, far away from the connecting disc, of the elastic rubber rod is fixedly connected with a rubber ball in contact with the filter screen.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) this equipment is cut with energy-conserving water to external wall insulation material processing reaches the purpose at cyclic utilization water source, makes the water tool bit need not be connected with outside water source like this to avoided producing the problem of extravagant too much water, consequently made the device have higher energy-conserving value.

(2) This equipment is cut with energy-conserving water to outer wall insulation material processing, when the connection pad drives elasticity rubber pole and rotates to the peak, the rubber ball forms the striking with the filter screen contact and to the filter screen, consequently makes the filter screen form the vibration, and solid-state impurity on the filter screen is beated under the vibrational force like this, has just so avoided solid-state impurity to be in the state of stewing for a long time and has caused the problem of jam net hole, has further ensured the water permeability of filter screen, has consequently improved the long-time result of use of filter screen.

(3) This equipment is cut with energy-conserving water to outer wall insulation material processing sets up the twice of first belt pulley diameter through with the second belt pulley diameter, has reduced the rotatory power that needs the cost of first belt pulley transmission second belt pulley like this effectively, has ensured the smoothness nature when the second belt pulley is rotatory like this, has further ensured the feasibility of the implementation of this mechanism and the stability of implementing.

Drawings

The invention will be further described with reference to the following figures and examples:

FIG. 1 is a schematic structural view of an energy-saving water cutting device for processing an external wall insulation material of the utility model;

FIG. 2 is a front plan view of the water cutting equipment of the present invention;

fig. 3 is an enlarged view of a portion a in fig. 2.

Reference numerals: 1. a body; 2. a gantry moving frame; 3. a water cutter head; 4. a grid plate; 5. a water pump; 6. a water pumping pipe; 7. a first connecting hose; 8. a collection chamber; 9. a booster pump; 10. a second connecting hose; 11. a frame-shaped mounting rack; 12. a filter screen; 13. driving the fan blades; 14. a first pulley; 15. a rubber ball; 16. a second pulley; 17. a drive belt; 18. a connecting disc; 19. an elastic rubber rod.

Detailed Description

Referring to fig. 1-3, the present invention provides a technical solution: the utility model provides an equipment is cut with energy-conserving water to outer wall insulation material processing, includes organism 1, and the upside of organism 1 is provided with gantry movement frame 2, and gantry movement frame 2 is provided with water tool bit 3 towards one side of organism 1, and gantry movement frame 2 is current model with water tool bit 3 simultaneously: the prior art in WMT-3020-ZAL-gantry series water jet cutting machines is not described in detail here.

Further, collection chamber 8 has been seted up to the upper surface of organism 1 to the vertical structure of collection chamber 8 sets up to the isosceles trapezoid shape that reverses, and fixedly connected with a plurality of is the grid board 4 of horizontal arrangement between the relative both sides inner wall of collection chamber 8, and the quantity of grid board 4 sets up according to the actual length of collecting chamber 8 simultaneously, and the upside of grid board 4 and the upper surface parallel and level of organism 1, consequently cuts through placing insulation material on grid board 4.

Furthermore, a water suction pump 5 is arranged on the side surface of the machine body 1, a water suction pipe 6 is fixedly connected to an input port of the water suction pump 5, one end of the water suction pipe 6, which is far away from the water suction pump 5, penetrates into the collection cavity 8, a first connecting hose 7 is fixedly connected to an output port of the water suction pump 5, a booster pump 9 is arranged in the gantry moving frame 2, one end of the first connecting hose 7, which is far away from the water suction pump 5, is connected with an input pipe of the booster pump 9, an output pipe of the booster pump 9 is fixedly connected with a second connecting hose 10, one end of the second connecting hose 10, which is far away from the booster pump 9, is connected with an inlet port of the water cutter head 3, so that water in the collection cavity 8 is pumped by the water suction pump 5 and is finally ejected by the water cutter head 3, meanwhile, the booster pump 9 increases the pressure of the water conveyed to the water cutter head 3, so that the water ejected by the water cutter head 3 can cut the heat-insulating material on the grid plates 4, and the water after the cut by the grid plates flows into the collection cavity 8 again through gaps between the grid plates 4, thereby reach the purpose of cyclic utilization water source through this kind of mode, make water tool bit 3 need not be connected with outside water source like this to avoid producing the problem of extravagant too much water, consequently make the device have higher energy-conserving value.

Further, the side of organism 1 is provided with the frame type mounting bracket 11 that slides and runs through into in collecting the chamber 8, one side that frame type mounting bracket 11 is located collecting the chamber 8 is identical with collecting the 8 inner walls in the chamber, the medial surface fixedly connected with filter screen 12 of frame type mounting bracket 11, filter screen 12 adopts the nylon material to make, and filter screen 12 and 11 lower surface parallel and level of frame type mounting bracket, frame type mounting bracket 11 is located between grid board 4 and drinking-water pipe 6, therefore grid board 4 flows into to the water that collects in the chamber 8 and drops to filter screen 12 on, filter screen 12 blocks the solid-state impurity of aquatic like this, just so avoided suction pump 5 to appear extracting the problem of solid-state impurity when the water in the chamber 8 is collected in the extraction, guaranteed suction pump 5's life effectively like this.

Further, collect and be provided with a plurality of clearance mechanism in the chamber 8, clearance mechanism is located the below of filter screen 12 simultaneously, and clearance mechanism includes drive flabellum 13, and drive flabellum 13 rotates to be connected on collecting 8 inner walls in chamber, and drive flabellum 13 is in same horizontal position with drinking-water pipe 6 simultaneously, consequently when the water in chamber 8 is collected in the extraction to suction pump 5, rivers can form thrust to drive flabellum 13 to make drive flabellum 13 rotate.

Further, one side surface of the driving fan 13 opposite to the rotation point is fixedly connected with a first belt pulley 14, the inner wall of the collection cavity 8 is rotatably connected with a second belt pulley 16, the first belt pulley 14 and the second belt pulley 16 are located at the same vertical position, the diameter of the second belt pulley 16 is twice that of the first belt pulley 14, and a transmission belt 17 is connected between the first belt pulley 14 and the second belt pulley 16 in a transmission manner, so that when the driving fan 13 rotates, the first belt pulley 14 synchronously rotates, and therefore the second belt pulley 16 synchronously rotates under the transmission of the transmission belt 17.

Further, a connecting disc 18 is fixedly connected to the surface of one side, back to the rotating point, of the second belt pulley 16, an elastic rubber rod 19 is fixedly connected to the outer surface of the connecting disc 18, and one end, far away from the connecting disc 18, of the elastic rubber rod 19 is fixedly connected with a rubber ball 15 in contact with the filter screen 12, so that when the connecting disc 18 drives the elastic rubber rod 19 to rotate to the highest point, the rubber ball 15 is in contact with the filter screen 12 and impacts the filter screen 12, vibration is formed on the filter screen 12, solid impurities on the filter screen 12 bounce under the vibration force, the problem that the solid impurities block the mesh due to the fact that the solid impurities are in a standing state for a long time is avoided, the water permeability of the filter screen 12 is further guaranteed, and the long-time use effect of the filter screen 12 is improved.

In the scheme, the diameter of the second belt pulley 16 is set to be twice of the diameter of the first belt pulley 14, so that the force required by the first belt pulley 14 for driving the second belt pulley 16 to rotate is effectively reduced, the fluency of the second belt pulley 16 during rotation is guaranteed, and the implementability and the implementation stability of the mechanism are further guaranteed.

The working principle is as follows: when the device is used, water in the collecting cavity 8 is pumped into the booster pump 9 through the water suction pump 5 and is finally ejected out by the water cutter head 3, meanwhile, the booster pump 9 increases the pressure of the water conveyed into the water cutter head 3, so that the water ejected out by the water cutter head 3 can cut the heat-insulating material on the grid plates 4, and the water after cutting the heat-insulating material flows into the collecting cavity 8 again through gaps among the grid plates 4;

when the water pump 5 is used for pumping water in the collection cavity 8, water flow can form thrust on the driving fan blades 13, so that the driving fan blades 13 rotate, the first belt pulley 14 rotates synchronously, the second belt pulley 16 rotates synchronously under the transmission of the transmission belt 17, and when the connection disc 18 drives the elastic rubber rod 19 to rotate to the highest point, the rubber ball 15 contacts with the filter screen 12 and impacts the filter screen 12, so that the filter screen 12 vibrates.

Claims (6)

1. The utility model provides an equipment is cut with energy-conserving water to outer wall insulation material processing, includes organism (1), and the upside of organism (1) is provided with gantry moving frame (2), and gantry moving frame (2) are provided with water tool bit (3), its characterized in that towards one side of organism (1): collection chamber (8) have been seted up to the upper surface of organism (1), fixedly connected with grid plate (4) between the relative both sides inner wall in collection chamber (8), the side of organism (1) is provided with suction pump (5), input port fixedly connected with drinking-water pipe (6) of suction pump (5), the one end that drinking-water pump (5) were kept away from in drinking-water pipe (6) runs through into collection chamber (8), the first coupling hose (7) of delivery outlet fixedly connected with of suction pump (5), be provided with booster pump (9) in longmen removal frame (2), the one end that drinking-water pump (5) were kept away from in first coupling hose (7) is connected with the input tube of booster pump (9), the output tube fixedly connected with second coupling hose (10) of booster pump (9), the one end and the water tool bit (3) inlet port connection that booster pump (9) were kept away from in second coupling hose (10).

2. The energy-saving water cutting equipment for processing the external wall thermal insulation material as claimed in claim 1, which is characterized in that: the side of organism (1) is provided with frame type mounting bracket (11) that slides and runs through into in collecting chamber (8), and one side that frame type mounting bracket (11) are located in collecting chamber (8) is identical with collecting chamber (8) inner wall, and medial surface fixedly connected with filter screen (12) of frame type mounting bracket (11) are provided with clearance mechanism in collecting chamber (8).

3. The energy-saving water cutting equipment for processing the external wall thermal insulation material as claimed in claim 2, characterized in that: the cleaning mechanism comprises driving fan blades (13), the driving fan blades (13) are rotatably connected to the inner wall of the collecting cavity (8), and the driving fan blades (13) and the water pumping pipe (6) are located at the same horizontal position.

4. The energy-saving water cutting equipment for processing the external wall thermal insulation material according to claim 3, characterized in that: one side fixed surface that drive fan blade (13) back to the rotation point is connected with first belt pulley (14), collects and rotates on chamber (8) inner wall and is connected with second belt pulley (16), and the transmission is connected with driving belt (17) between first belt pulley (14) and second belt pulley (16).

5. The energy-saving water cutting equipment for processing the external wall thermal insulation material according to claim 4, characterized in that: the diameter of the second belt pulley (16) is twice that of the first belt pulley (14).

6. The energy-saving water cutting equipment for processing the external wall thermal insulation material as claimed in claim 4, wherein the energy-saving water cutting equipment comprises: the surface of one side, back to the rotation point, of the second belt pulley (16) is fixedly connected with a connecting disc (18), the outer surface of the connecting disc (18) is fixedly connected with an elastic rubber rod (19), and one end, far away from the connecting disc (18), of the elastic rubber rod (19) is fixedly connected with a rubber ball (15) which is in contact with the filter screen (12).

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