CN216539717U - Power generation building material metal back plate processing device - Google Patents

Abstract

The utility model particularly relates to a power generation building material metal back plate processing device which comprises a material conveying platform for conveying a metal back plate, and a punching module, a cleaning first section, a first air drying section, a cleaning second section, a second air drying section and a drying section which are sequentially fixed on the material conveying platform, wherein the punching module comprises a fixed rod, a punching hydraulic cylinder, a punching tool bit and a tail material blanking port, the fixed rod is fixed on the material conveying platform, the punching hydraulic cylinder is fixed through the fixed rod, the punching tool bit is fixed at the lower end of the punching hydraulic cylinder, and the tail material blanking port is positioned below the punching tool bit. The processing device for the metal back plate of the power generation building material provided by the utility model punches the metal back plate firstly, so that the circuit arrangement is convenient, and then oil stains on the metal back plate are cleaned, so that the condition that the packaging fails due to low bonding force between the metal back plate and a packaging material can be avoided, the whole device is convenient to operate, the labor cost is saved, and the processing efficiency and the quality of the power generation building material can be improved.

Description

Power generation building material metal back plate processing device

Technical Field

The utility model belongs to the technical field of power generation building material production equipment, and particularly relates to a power generation building material metal back plate processing device.

Background

In the field of electric energy, human beings intensively generate electricity by building a central power station of an area and supply electricity to a large area around the central power station through a power supply network radiating outwards. Although various complicated links and forms such as 'generation, transformation, transmission and distribution' are formed between each power generation center and the power network, in general, the current power supply system still adopts a unidirectional power supply mode that a power plant is used as a power generation center to radiate power to distributed power consumers mainly used by surrounding urban buildings. In such a model, the power plant is the power generation center and the building is the power consuming entity.

There are complex networks and equipment from energy producers (power plants) to consumers (buildings), forming a supply system from electricity generation to electricity utilization. The consumed power of the complex power supply system accounts for about 20-30% of the total power generation, and the transmission cost (power grid self-consumption + fixed asset depreciation + maintenance cost) accounts for more than 40% of the total power consumption cost, namely, more than 40% of the final power consumption cost of power consumption is the cost given to the power transmission network.

The reason for this is that in the past, human power generation technology has focused on fossil energy-based power plant models such as coal-fired thermal power plants, and renewable energy power plants far from cities such as hydroelectric power plants in large reservoirs, desert photovoltaic power plants, wind power plants on the tops of mountains and on the shore, and the like. These power generation techniques are costly, must be attached to a power network for power transmission, are costly to produce, and have a significant impact on environmental damage.

To solve the above problems, human beings have proposed an energy internet concept. The energy internet concept proposes that the electric energy source is interconnected between a producer (power generation end) and a consumer (power utilization end). The construction through the energy internet improves the self-sufficiency and the self-rate of energy, reduces the energy transmission waste, greatly reduces the energy consumption cost, improves the safety and the stability of energy supply, can be popularized on a large scale and is a practical renewable clean energy, and enables human beings to realize carbon neutralization early.

Therefore, in terms of the consumption form of electric power and energy, the building is a typical consumer of electric power and energy, and the building is a dual attribute that the building is both an energy producer and an energy consumer by realizing the energy internet and greatly reducing the energy loss and the production cost and then enabling the power generation of the building to be a necessary route. The power generation building and the power generation building material for building the power generation building are produced at the same time.

The power generation building material is used for building power generation buildings (energy-producing buildings), and the technology which can be utilized by human beings is basically the solar power generation technology. After the photovoltaic power generation function is added on the surface of the building material, the building material is widely applied to roofs, wall surfaces, outer covering surfaces of various structures of buildings and outer surfaces of various vehicles, and forms the prospect of no-place power generation.

According to statistics, the top surface area of various buildings and structures in China is about 500 billion square meters, if roof power generation is realized completely, 8 trillion-degree power can be produced every year, the electricity consumption of China all the year round is only 7 trillion-degree, and the space and the potential of building power generation are very large. Therefore, how to efficiently manufacture power generation building materials with good performance is of great significance.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a power generation building material metal back plate processing device which is convenient to operate and capable of improving the processing efficiency and quality of power generation building materials. The technical problem to be solved by the utility model is realized by the following technical scheme:

a power generation building material metal back plate processing device comprises a material conveying platform for conveying a metal back plate, and a punching module, a cleaning section, a first air drying section, a cleaning section, a second air drying section and a drying section which are sequentially fixed on the material conveying platform;

the punching die set comprises a fixed rod, a punching hydraulic cylinder, a punching tool bit and a tailing blanking port, wherein the fixed rod is fixed on the material conveying platform, the punching hydraulic cylinder is fixed through the fixed rod, the punching tool bit is fixed at the lower end of the punching hydraulic cylinder, and the tailing blanking port is located below the punching tool bit.

Further, foretell electricity generation building materials metal back plate processingequipment still includes cuts the mechanism, it is located the module of punching a hole and washs between one section to cut the mechanism.

Further, the cutting mechanism comprises a fixing frame, a cutter head connecting rod, a cutting hydraulic cylinder and a cutter head, wherein the fixing frame is fixed on the material conveying platform, one end of the cutter head connecting rod is fixedly connected with the fixing frame, the other end of the cutter head connecting rod is fixedly connected with the cutter head, and the cutting hydraulic cylinder is connected with the cutter head connecting rod.

Further, the first air drying section comprises an air supply pipeline and an air knife, the air knife is communicated with the air supply pipeline, and the air supply pipeline is communicated with a compressed air pipeline.

Further, the structure of the second air drying section is the same as that of the first air drying section.

Furthermore, the cleaning section consists of a section of high-pressure spray pipe, a front brush and a rear brush;

the section of high-pressure spray pipe is arranged between the front brush and the rear brush;

the water inlet end of the section of high-pressure spray pipe is communicated with the section of water inlet tank through a high-pressure pump, and the front brush and the rear brush are driven by a motor to transmit.

Further, the cleaning second section is sequentially provided with a first brush, a first high-pressure spray pipe, a second brush, a second high-pressure spray pipe, a third brush and a third high-pressure spray pipe, wherein the first brush is arranged close to the first air drying section;

the first high-pressure spray pipe, the second high-pressure spray pipe and the third high-pressure spray pipe are communicated with the two-section water inlet tank through the high-pressure pump, and the first brush, the second brush and the third brush are all driven by the motor to transmit.

Further, the two-stage water inlet tank is provided with a heating device.

Further, the section of high-pressure spray pipe, the first high-pressure spray pipe, the second high-pressure spray pipe and the third high-pressure spray pipe are all stainless steel water pipes, and water spray holes are formed in the pipe walls and face the metal back plate.

Further, the drying section comprises a shell, a blower, a heating rod and a fan, wherein the heating rod and the fan are arranged in the shell, and an air inlet of the blower is communicated with the shell and used for removing water vapor in the shell.

The utility model has the beneficial effects that:

the processing device for the metal backboard of the power generation building material comprises a material conveying platform for conveying the metal backboard, and a punching module, a cleaning first section, a first air drying section, a cleaning second section, a second air drying section and a drying section which are sequentially fixed on the material conveying platform.

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

Drawings

Fig. 1 is a schematic structural diagram of a power generation building material metal back plate processing device in the embodiment.

Fig. 2 is a schematic structural diagram of the punching module according to the embodiment.

Fig. 3 is a schematic structural view of the cutting mechanism of the present embodiment.

Fig. 4 is a partial structural schematic diagram of a cleaning section in the embodiment.

FIG. 5 is a schematic view of a part of the cleaning section of the second embodiment.

Fig. 6 is a partial structural schematic view of the second air drying section in the present embodiment.

In the figure: 1. a frame; 2. a punching module; 3. cleaning for a first period; 31. a section of high pressure spray pipe; 32. a front brush; 33. a rear brush; 4. a first air-drying section; 41. an air supply duct; 42. an air knife; 5. cleaning a second section; 51. a first brush; 52. a first high pressure spray pipe; 53. a second brush; 54. a second high pressure spray pipe; 55. a third brush; 56 a third high pressure spray pipe; 6. a second air drying section; 7. a drying section; 8. a cutting mechanism; 81. a fixed mount; 82. a cutter head connecting rod; 83. a cutting hydraulic cylinder; 84 cutter head.

Detailed Description

To further explain the technical means and effects of the present invention adopted to achieve the intended purpose, the following detailed description of the embodiments, structural features and effects of the present invention will be made with reference to the accompanying drawings and examples.

The embodiment provides an electricity building materials metal back plate processingequipment, refer to fig. 1-6, this electricity generation building materials metal back plate processingequipment includes defeated material platform 1 of conveying metal back plate and fixes in proper order on defeated material platform 1 punching die group 2, wash one section 3, first air-dry section 4, wash two sections 5, second air-dry section 6 and stoving section 7. The transmission of the whole equipment of this embodiment is that the gear and the chain drive the rubber stick and carry out metal backboard transmission.

Referring to fig. 2, the punching module 2 of this embodiment includes a fixing rod 21, a punching hydraulic cylinder 22, a punching tool bit 23 and a tailing blanking port 24, the fixing rod 21 is fixed on the material conveying platform 1, the punching hydraulic cylinder 22 is fixed through the fixing rod 21, the punching tool bit 23 is fixed at the lower end of the punching hydraulic cylinder 22, and the tailing blanking port 24 is located below the punching tool bit 23.

The operation flow of the punching module of the embodiment is as follows:

after the power generation building material metal back plate is transmitted to the hole opening position, the punching hydraulic cylinder extends out to drive the punching tool bit to move, a hole is punched in the metal plate, after the punching is finished, the punching hydraulic cylinder returns, and the punching tool bit rises to return. The size of the hole can be changed by replacing the punching tool bit die. The cut waste material falls through the tailing blanking port and falls into the waste material box.

The power generation building material metal back plate processing device of the embodiment further comprises a cutting mechanism 8, and the cutting mechanism 8 is located between the punching module 2 and the cleaning section 3. Referring to fig. 3, the cutting mechanism 8 of the present embodiment includes a fixing frame 81, a cutter head connecting rod 82, a cutting hydraulic cylinder 83 and a cutter head 84, the fixing frame 81 is fixed on the conveying platform 1, one end of the cutter head connecting rod 82 is fixedly connected to the fixing frame 81, the other end of the cutter head connecting rod 82 is fixedly connected to the cutter head 84, and the cutting hydraulic cylinder 83 is connected to the cutter head connecting rod 82.

The cutting mechanism of this embodiment acts as a flow:

the metal back plate of the power generation building material is in place, the cutting hydraulic cylinder is out of place to drive the cutter head connecting rod, and the cutter head moves downwards to cut materials. After the material cutting is finished, the cutting hydraulic cylinder returns to the position, drives the cutter head to ascend, and returns to the initial material waiting position.

The first air drying section 4 comprises an air supply duct 41 and an air knife 42, wherein the air knife 42 is communicated with the air supply duct 41, and the air supply duct 41 is communicated with a compressed air duct. The structure of the second air-drying section 6 is the same as that of the first air-drying section 4, and the second air-drying section 6 of this embodiment may further be provided with a standby air-cutting device, which is also the same as that of the first air-drying section 4.

The cleaning section 3 of this embodiment is composed of a high pressure shower pipe 32, a front brush 31 and a rear brush 33. One section of high-pressure spray pipe 32 is arranged between the front brush 31 and the rear brush 33, the water inlet end of the section of high-pressure spray pipe 32 is communicated with one section of water inlet tank through a high-pressure pump, and the front brush 31 and the rear brush 33 are driven by a motor to be transmitted.

The cleaning section 5 of this embodiment is sequentially provided with a first brush 51, a first high-pressure shower 52, a second brush 53, a second high-pressure shower 54, a third brush 55 and a third high-pressure shower 56, and the first brush 51 is disposed near the first air drying section 4. The first high-pressure spray pipe 52, the second high-pressure spray pipe 54 and the third high-pressure spray pipe 56 are communicated with the two-section water inlet tank through a high-pressure pump, and the first hairbrush 51, the second hairbrush 53 and the third hairbrush 55 are driven by a motor to transmit.

Preferably, the first high-pressure spray pipe 32, the first high-pressure spray pipe 52, the second high-pressure spray pipe 54 and the third high-pressure spray pipe 56 are stainless steel water pipes, and water spray holes are formed in the pipe walls and face the metal back plate.

The one end is intake case and the two-stage process and is intake the case and all be equipped with the liquid level valve, can automatic water supply after the water shortage, and the one end is intake case and the two-stage process and is intake the case and be equipped with the filter respectively, intake the liquid in case and the two-stage process and intake the case and filter, avoid blockking up one section high pressure shower 32, first high pressure shower 52, second high pressure shower 54 and the hole for water spraying of third high pressure shower 56. For the cleaning effect is better, the two-stage water inlet tank is provided with a heating device, so that oil stains on the metal back plate can be removed more completely.

The drying section 7 of the embodiment comprises a shell, a blower, a heating rod and a fan, wherein the heating rod and the fan are arranged in the shell, and an air inlet of the blower is communicated with the shell and used for removing water vapor in the shell. In order to achieve a better drying effect, the heating rods of the embodiment are provided with three groups, wherein two groups of heating rods are arranged above the transmission equipment, and one group of heating rods is arranged below the transmission equipment. The fans are provided with six and are respectively and uniformly distributed above and below the conveying equipment.

The foregoing is a more detailed description of the utility model in connection with specific preferred embodiments and it is not intended that the utility model be limited to these specific details. For those skilled in the art to which the utility model pertains, several simple deductions or substitutions can be made without departing from the spirit of the utility model, and all shall be considered as belonging to the protection scope of the utility model.

Claims (8)

1. The power generation building material metal back plate processing device is characterized by comprising a material conveying platform (1) for conveying a metal back plate, and a punching module (2), a cleaning section (3), a first air drying section (4), a cleaning section (5), a second air drying section (6) and a drying section (7) which are sequentially fixed on the material conveying platform (1);

the punching die set (2) comprises a fixing rod (21), a punching hydraulic cylinder (22), a punching tool bit (23) and a tailing blanking port (24), the fixing rod (21) is fixed on the material conveying platform (1), the punching hydraulic cylinder (22) is fixed through the fixing rod (21), the punching tool bit (23) is fixed at the lower end of the punching hydraulic cylinder (22), and the tailing blanking port (24) is located below the punching tool bit (23).

2. The power generating building material metal back plate processing device according to claim 1, further comprising a cutting mechanism (8), wherein the cutting mechanism (8) is located between the punching module (2) and the cleaning section (3).

3. The power generation building material metal back plate processing device according to claim 2, wherein the cutting mechanism (8) comprises a fixing frame (81), a cutter head connecting rod (82), a cutting hydraulic cylinder (83) and a cutter head (84), the fixing frame (81) is fixed on the material conveying platform (1), one end of the cutter head connecting rod (82) is fixedly connected with the fixing frame (81), the other end of the cutter head connecting rod (82) is fixedly connected with the cutter head (84), and the cutting hydraulic cylinder (83) is connected with the cutter head connecting rod (82).

4. The power generation building material metal back plate processing device according to claim 1, wherein the first air drying section (4) comprises an air supply duct (41) and an air knife (42), the air knife (42) is communicated with the air supply duct (41), the air supply duct (41) is communicated with a compressed air duct, and the structure of the second air drying section (6) is the same as that of the first air drying section (4).

5. The power generation building material metal back plate processing device according to claim 1, wherein the cleaning section (3) is composed of a section of high pressure shower pipe (32), a front brush (31) and a rear brush (33);

the section of high-pressure spray pipe (32) is arranged between the front brush (31) and the rear brush (33);

the water inlet end of the section of high-pressure spray pipe (32) is communicated with the section of water inlet tank through a high-pressure pump, and the front brush (31) and the rear brush (33) are driven by a motor to transmit.

6. The power generation building material metal back plate processing device according to claim 1, wherein the cleaning section (5) is provided with a first brush (51), a first high-pressure spray pipe (52), a second brush (53), a second high-pressure spray pipe (54), a third brush (55) and a third high-pressure spray pipe (56) in sequence, and the first brush (51) is arranged close to the first air drying section (4);

the first high-pressure spray pipe (52), the second high-pressure spray pipe (54) and the third high-pressure spray pipe (56) are communicated with the two-section water inlet tank through a high-pressure pump, and the first brush (51), the second brush (53) and the third brush (55) are driven by a motor to transmit.

7. A power generating building material metal backing plate processing device as claimed in claim 6, wherein the two-stage water inlet tank is provided with a heating device.

8. The power generation building material metal back plate processing device according to claim 1, wherein the drying section (7) comprises a housing, a blower, a heating rod and a fan, the heating rod and the fan are arranged in the housing, and an air inlet of the blower is communicated with the housing for removing water vapor inside the housing.

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