CN203742175U - Pneumoelectric linkage device of fully-automatic high-speed concrete coating machine - Google Patents
Pneumoelectric linkage device of fully-automatic high-speed concrete coating machine Download PDFInfo
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- CN203742175U CN203742175U CN201420045825.0U CN201420045825U CN203742175U CN 203742175 U CN203742175 U CN 203742175U CN 201420045825 U CN201420045825 U CN 201420045825U CN 203742175 U CN203742175 U CN 203742175U
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- monitoring element
- pressure monitoring
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- gas circuit
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Abstract
The utility model discloses a pneumoelectric linkage device of a fully-automatic high-speed concrete coating machine. The device comprises a machine frame, wherein a primary stirring system power device and a secondary stirring system power device are installed on the machine frame, the secondary stirring system power device is in transmission connection with a guniting device, the guniting device comprises a spray gun communicated with a secondary stirring system through a pipeline and is further provided with an air path communicated with an air conveying power device, and an air switch, a first air pressure monitoring element and a secondary air pressure monitoring element are mounted on the air path; a PLC system is further arranged on the machine frame, and the air switch, the first air pressure monitoring element, the second air pressure monitoring element, the primary stirring system power device and the secondary stirring system power device are all electrically connected with the PLC system. According to the device, operation is easy, control is convenient, a sprayer can start and stop equipment at any time according to construction requirements, material waste is avoided, construction efficiency is improved, and labor cost is reduced.
Description
Technical field
The utility model relates to a kind of full-automatic concrete high-velocity spray machine, relates in particular to a kind of air-electricity linkage device of full-automatic concrete high-velocity spray machine, belongs to constructional engineering machinery technical field.
Background technology
Existing concrete spray machine, need to have special messenger to be responsible for spraying, and special messenger is responsible for switching on and shutting down.In work progress, when needing spraying or stopping spraying, spraying personnel will inform the operating personnel that are responsible for switchgear in advance, by the start and stop of this operating personnel's manual control equipment.This mode of operation has not only increased constructor, and meanwhile, information transmission not in time, can cause material waste, reduce the series of problems such as efficiency of construction.
Utility model content
Problem to be solved in the utility model is to provide a kind of simple to operate, it is convenient to control, spraying personnel can be according to the construction needs of oneself, do not need other people to assist, switchgear at any time, avoid material waste, improve the air-electricity linkage device of the full-automatic concrete high-velocity spray machine of efficiency of construction and reduction cost of labor.
In order to address the above problem, the utility model by the following technical solutions:
A kind of air-electricity linkage device of full-automatic concrete high-velocity spray machine, comprise frame, I level stirring system power set are installed in described frame, II level stirring system power set, II level stirring system power apparatus is connected with refractory gunning equipment, described refractory gunning equipment comprises the spray gun being communicated with II level stirring system by pipeline, the gas circuit being communicated with gas transmission power set is also installed on described spray gun, in described gas circuit, air switch is installed, the first Pressure monitoring element and the second Pressure monitoring element, PLC control system is also installed in described frame, described air switch, the first Pressure monitoring element and the second Pressure monitoring element and I level stirring system power set, II level stirring system power set are electrically connected with PLC control system respectively.
Below the further optimization of the utility model to such scheme: water delivery power set and gas transmission power set are also installed in frame, and water delivery power set and gas transmission power set are electrically connected with PLC control system respectively.
Further optimize: I level stirring system power set are conveying motor, II level stirring system power set are pumping motor, water delivery power set are water pump, gas transmission power set are the air compressor machine being communicated with gas circuit, and conveying motor, pumping motor, water pump and air compressor machine are electrically connected with PLC control system respectively.
Further optimize: electric control box is also installed in frame, and described PLC control system is arranged in electric control box, and the stop button and the start button that are electrically connected respectively with PLC control system and the first Pressure monitoring element are also installed on described electric control box.
Further optimize: the setting value of the first Pressure monitoring element is a, the setting value of the second Pressure monitoring element is b, wherein a < b, after air switch cuts out completely, the air pressure > b > a in gas circuit; After air switch is opened completely, the air pressure < a < b in gas circuit.
Further optimize: when pressing after start button, device start, close air switch, when the first Pressure monitoring element testing is during to air pressure > a in gas circuit, pumping motor, conveying motor, water pump quit work, when the second Pressure monitoring element testing is during to air pressure > b in gas circuit, air compressor machine quits work, and equipment is in holding state.
In the time that spraying personnel need to carry out spraying operation, can open air switch, air pressure in gas circuit declines, when the second Pressure monitoring element testing is during to air pressure < b in gas circuit, air compressor machine is started working, when the first Pressure monitoring element testing is during to air pressure < a in gas circuit, pumping motor, conveying motor, water pump are started working, and equipment enters normal operating conditions.
In the time that spraying personnel need to stop spraying operation, can close air switch, pressure rises in gas circuit, when the first Pressure monitoring element testing is during to air pressure > a in gas circuit, pumping motor, conveying motor, water pump quit work, when the second Pressure monitoring element testing is during to air pressure > b in gas circuit, air compressor machine quits work, and equipment enters holding state again.The opening and closing of air switch, directly control appliance work and standby, after operation completes, needs shutdown, presses stop button, device shutdown.
The utility model arranges the first Pressure monitoring element and the second Pressure monitoring element simultaneously; the first Pressure monitoring element control air compressor machine; the second Pressure monitoring element control pumping motor, conveying motor, water pump; its objective is, avoid when stand-by time long, in gas circuit due to factors such as pipe consumption or leakages; cause after pressure drop; the executive items such as air compressor machine, pumping motor, conveying motor, water pump start simultaneously, can cause components and parts to damage, and can effectively protect pumping motor, conveying motor and water pump.
The utility model adopts such scheme, and the one, simple to operate, control convenience, spraying personnel can, according to the construction needs of oneself, not need other people to assist, and switchgear at any time makes the more hommization of use of equipment; The 2nd, avoid material waste, improve efficiency of construction, reduce cost of labor.
Below in conjunction with drawings and Examples, the utility model is described in further detail.
Brief description of the drawings
Accompanying drawing 1 is the structural representation of air-electricity linkage device in the utility model embodiment;
Accompanying drawing 2 is the electrical schematic diagram of air-electricity linkage device in the utility model embodiment.
In figure: 1-spray gun; 2-air switch; 3-gas circuit; 4-frame; PL1-the first Pressure monitoring element; PL2-the second Pressure monitoring element; 6-electric control box; K6-air compressor machine; K4-pumping motor; K3-conveying motor; K5-water pump; S2.1-stop button, S2.2-start button.
Detailed description of the invention
Embodiment, as Fig. 1, shown in Fig. 2, a kind of air-electricity linkage device of full-automatic concrete high-velocity spray machine, comprise frame 4, I level stirring system power set are installed in described frame 4, II level stirring system power set, II level stirring system power apparatus is connected with refractory gunning equipment, described refractory gunning equipment comprises the spray gun 1 being communicated with II level stirring system by pipeline, the gas circuit 3 being communicated with gas transmission power set is also installed on described spray gun 1, in described gas circuit 3, air switch 2 is installed, the first Pressure monitoring element PL1 and the second Pressure monitoring element PL2, in described frame 4, PLC control system is also installed, described air switch 2, the first Pressure monitoring element PL1 and the second Pressure monitoring element PL2 and I level stirring system power set, II level stirring system power set are electrically connected with PLC control system respectively.
Water delivery power set and gas transmission power set are also installed in frame 4, and water delivery power set and gas transmission power set are electrically connected with PLC control system respectively.
I level stirring system power set are conveying motor K3, II level stirring system power set are pumping motor K4, water delivery power set are water pump K5, gas transmission power set are the air compressor machine K6 being communicated with gas circuit 3, and conveying motor K3, pumping motor K4, water pump K5 and air compressor machine K6 are electrically connected with PLC control system respectively.
Electric control box 6 is also installed in frame 4, and described PLC control system is arranged in electric control box 6, and the stop button S2.1 and the start button S2.2 that are electrically connected respectively with PLC control system and the first Pressure monitoring element PL1 are also installed on described electric control box 6.
When pressing after start button S2.2, device start, close air switch 2, in the time that the first Pressure monitoring element PL1 detects the air pressure > a in gas circuit 3, pumping motor K4, conveying motor K3, water pump K5 quit work, in the time that the second Pressure monitoring element PL2 detects the air pressure > b in gas circuit 3, air compressor machine K6 quits work, and equipment is in holding state.
In the time that spraying personnel need to carry out spraying operation, can open air switch 2, air pressure in gas circuit 3 declines, in the time that the second Pressure monitoring element PL2 detects the air pressure < b in gas circuit 3, air compressor machine K6 starts working, in the time that the first Pressure monitoring element PL1 detects the air pressure < a in gas circuit 3, pumping motor K4, conveying motor K3, water pump K5 start working, and equipment enters normal operating conditions;
In the time that spraying personnel need to stop spraying operation, can close air switch 2, pressure rises in gas circuit 3, in the time that the first Pressure monitoring element PL1 detects the air pressure > a in gas circuit 3, pumping motor K4, conveying motor K3, water pump K5 quit work, in the time that the second Pressure monitoring element PL2 detects the air pressure > b in gas circuit 3, air compressor machine K6 quits work, and equipment enters holding state again.The opening and closing of air switch 2, directly control appliance work and standby, after operation completes, needs shutdown, presses stop button S2.1, device shutdown.
This device arranges the first Pressure monitoring element PL1 and the second Pressure monitoring element PL2 simultaneously; the first Pressure monitoring element PL1 controls air compressor machine K6; the second Pressure monitoring element PL2 controls pumping motor K4, conveying motor K3, water pump K5; its objective is; avoid working as stand-by time long; in gas circuit 3 due to factors such as pipe consumption or leakages; cause after pressure drop; the executive items such as air compressor machine K6, pumping motor K4, conveying motor K3, water pump K5 start simultaneously; can cause components and parts to damage, can effectively protect pumping motor K4, conveying motor K3 and water pump K5.
Claims (8)
1. an air-electricity linkage device for full-automatic mixed earth high-velocity spray machine, comprises frame (4), and I level stirring system power set, II level stirring system power set are installed in described frame (4), it is characterized in that:
II level stirring system power apparatus is connected with refractory gunning equipment, described refractory gunning equipment comprises the spray gun (1) being communicated with II level stirring system by pipeline, the gas circuit (3) being communicated with gas transmission power set is also installed on described spray gun (1), air switch (2) is installed in described gas circuit (3), the first Pressure monitoring element (PL1) and the second Pressure monitoring element (PL2), described frame is also provided with PLC control system on (4), described air switch (2), the first Pressure monitoring element (PL1) and the second Pressure monitoring element (PL2) and I level stirring system power set, II level stirring system power set are electrically connected with PLC control system respectively.
2. the air-electricity linkage device of a kind of full-automatic mixed earth high-velocity spray machine according to claim 1, it is characterized in that: water delivery power set and gas transmission power set are also installed in frame (4), and water delivery power set and gas transmission power set are electrically connected with PLC control system respectively.
3. the air-electricity linkage device of a kind of full-automatic mixed earth high-velocity spray machine according to claim 2, it is characterized in that: I level stirring system power set are conveying motor (K3), II level stirring system power set are pumping motor (K4), water delivery power set are water pump (K5), gas transmission power set are the air compressor machine (K6) being communicated with gas circuit (3), and conveying motor (K3), pumping motor (K4), water pump (K5) and air compressor machine (K6) are electrically connected with PLC control system respectively.
4. the air-electricity linkage device of a kind of full-automatic mixed earth high-velocity spray machine according to claim 3, it is characterized in that: electric control box (6) is also installed in frame (4), described PLC control system is arranged in electric control box (6), and the stop button (S2.1) and the start button (S2.2) that are electrically connected respectively with PLC control system and the first Pressure monitoring element (PL1) are also installed on described electric control box (6).
5. the air-electricity linkage device of a kind of full-automatic mixed earth high-velocity spray machine according to claim 4, is characterized in that:
The setting value of the first Pressure monitoring element (PL1) is a, the setting value of the second Pressure monitoring element (PL2) is b, wherein a < b, after air switch (2) cuts out completely, the air pressure > b > a in gas circuit (3); After air switch (2) is opened completely, the air pressure < a < b in gas circuit (3).
6. the air-electricity linkage device of a kind of full-automatic mixed earth high-velocity spray machine according to claim 5, is characterized in that:
When pressing after start button (S2.2), device start, close air switch (2), in the time that the first Pressure monitoring element (PL1) detects the air pressure > a in gas circuit (3), pumping motor (K4), conveying motor (K3), water pump (K5) quit work, in the time that the second Pressure monitoring element (PL2) detects the air pressure > b in gas circuit (3), air compressor machine (K6) quits work, and equipment is in holding state.
7. the air-electricity linkage device of a kind of full-automatic mixed earth high-velocity spray machine according to claim 6, is characterized in that:
In the time that spraying personnel need to carry out spraying operation, can open air switch (2), air pressure in gas circuit (3) declines, in the time that the second Pressure monitoring element (PL2) detects the air pressure < b in gas circuit (3), air compressor machine (K6) is started working, in the time that the first Pressure monitoring element (PL1) detects the air pressure < a in gas circuit (3), pumping motor (K4), conveying motor (K3), water pump (K5) are started working, and equipment enters normal operating conditions.
8. the air-electricity linkage device of a kind of full-automatic mixed earth high-velocity spray machine according to claim 7, is characterized in that:
In the time that spraying personnel need to stop spraying operation, can close air switch (2), pressure rises in gas circuit (3), in the time that the first Pressure monitoring element (PL1) detects the air pressure > a in gas circuit (3), pumping motor (K4), conveying motor (K3), water pump (K5) quit work, in the time that the second Pressure monitoring element (PL2) detects the air pressure > b in gas circuit (3), air compressor machine (K6) quits work, and equipment enters holding state again;
The opening and closing of air switch (2), directly control appliance work and standby, after operation completes, needs shutdown, presses stop button (S2.1), device shutdown.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420045825.0U CN203742175U (en) | 2014-01-24 | 2014-01-24 | Pneumoelectric linkage device of fully-automatic high-speed concrete coating machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420045825.0U CN203742175U (en) | 2014-01-24 | 2014-01-24 | Pneumoelectric linkage device of fully-automatic high-speed concrete coating machine |
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CN203742175U true CN203742175U (en) | 2014-07-30 |
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CN201420045825.0U Withdrawn - After Issue CN203742175U (en) | 2014-01-24 | 2014-01-24 | Pneumoelectric linkage device of fully-automatic high-speed concrete coating machine |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103758350A (en) * | 2014-01-24 | 2014-04-30 | 潍坊天瑞重工凿岩机械有限公司 | Air and electricity linkage device of full-automatic high-speed concrete spraying machine |
-
2014
- 2014-01-24 CN CN201420045825.0U patent/CN203742175U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103758350A (en) * | 2014-01-24 | 2014-04-30 | 潍坊天瑞重工凿岩机械有限公司 | Air and electricity linkage device of full-automatic high-speed concrete spraying machine |
CN103758350B (en) * | 2014-01-24 | 2015-03-11 | 潍坊天瑞重工凿岩机械有限公司 | Air and electricity linkage device of full-automatic high-speed concrete spraying machine |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20140730 Effective date of abandoning: 20150311 |
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RGAV | Abandon patent right to avoid regrant |