CN210772634U - Workshop spraying humidity control system - Google Patents

Abstract

The utility model relates to a workshop spraying humidity control system, which comprises a tap water pipeline, an electromagnetic valve, a spraying device and a control system, the power, thing networking cloud platform and intelligent terminal, control system is including microprocessor, wiFi transceiver and timer, lay a plurality of moisture detector who is connected with the corresponding detected signal port of microprocessor in the workshop, microprocessor carries out wireless communication through wiFi transceiver and thing networking cloud platform, thing networking cloud platform carries out wireless communication with intelligent terminal, microprocessor's controlled signal port is connected with the controlled port of solenoid valve via the relay, control system is still including liquid flow path selection valve and booster water pump, liquid flow path selection valve one end intercommunication water supply pipeline other end communicates solenoid valve and booster water pump respectively, booster water pump and solenoid valve all supply water to spray set, the other end of the relative connection liquid flow path selection valve of solenoid valve still is connected with reserve water supply installation.

Description

Workshop spraying humidity control system

Technical Field

The utility model relates to a workshop humidity control field, concretely relates to workshop sprays accuse humidity system.

Background

Among the prior art, all adopt to install many humidifiers to adjust humidity to the chemical industry workshop that needs control humidity, and the general volume ratio of industrial humidifier is great, occupies the work place, and the great place humidity of control area then needs numerous humidifier, and not only the cost is higher and occupy the place space also a lot.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is to solve the above-mentioned deficiencies of the prior art,

and a workshop spraying humidity control system is provided.

In order to achieve the above purpose, the utility model provides a following technical scheme: the workshop spraying humidity control system comprises a tap water pipeline, an electromagnetic valve, a spraying device, a control system, a power supply for supplying power to the control system, an Internet of things cloud platform and an intelligent terminal, wherein the control system comprises a microprocessor, a WiFi (wireless fidelity) transceiver and a timer, a plurality of humidity detectors connected with corresponding detection signal ports of the microprocessor are distributed in a workshop, the microprocessor is in wireless communication with the Internet of things cloud platform through the WiFi transceiver, the Internet of things cloud platform is in wireless communication with the intelligent terminal, a signal port of the timer is connected with a timing signal port of the microprocessor, a control signal port of the microprocessor is connected with a controlled port of the electromagnetic valve through a relay, the control system further comprises a liquid flow path selection valve and a booster water pump, a controlled port of the booster water pump is connected with a control signal port of the microprocessor through the relay, one end of the liquid flow path selection valve is communicated with the tap water pipeline, the booster water pump and the electromagnetic valve supply water to the spraying device, and the other end of the electromagnetic valve, which is relatively connected with the liquid flow path selection valve, is also connected with a standby water supply device.

By adopting the technical scheme, the electromagnetic valve is a normally open electromagnetic valve, the Internet of things cloud platform comprises a processing server and a storage server, wherein the processing server can receive humidity data processed by the microprocessor, process, analyze and manage the received data, and the storage server stores the data, when the humidity detector is abnormal, the processing server can also send alarm information, when a user accesses the Internet of things cloud platform through the Internet by means of the intelligent terminal, the processing server generates visual data, images, alarm information and the like to be issued to the intelligent terminal, so that the user can remotely check the information of the humidity and the humidity detector, because the utility model adopts a tap water pipeline to directly supply water to the spraying system, the water pressure of the tap water is insufficient, the spraying system sprays less water and is accidentally cut off, therefore, the liquid flow path selector valve is arranged to be connected with the microprocessor, when water in the tap water pipeline is normally used, because the water pressure of water supply pipeline is not very big consequently supplies spraying system to spray through booster pump increase water pressure, therefore the unable normal work of spraying system is just can't be supplied water to water supply pipeline when the unexpected circumstances of cutting off the water supply of taking place, consequently through set up reserve water supply equipment at the factory building top, saves a certain amount of water in advance and supplies spraying equipment to use, guarantees that workshop humidity is controlled.

The workshop spraying humidity control system can be further set as follows: the standby water supply device comprises a water tank and a water tower, the water tank is communicated with an electromagnetic valve through a water pipe, the water tower is communicated with the water tank through a water pipe, a first electromagnetic valve is installed on the water pipe of the water tower and used for pumping water in the water tank into the water tower, a first liquid level sensor is installed at the lowest water level of the water tank and sends a first trigger signal to a microprocessor when detecting that the water in the water tank is at the lowest water level, a second liquid level sensor is installed at the highest water level of the water tank and sends a second trigger signal to the microprocessor when detecting that the water in the water tank rises to the highest water level, a third liquid level sensor is installed at the lowest water level of the water tower and sends a third trigger signal to the microprocessor when the water in the water tower falls to the lowest water level, a fourth liquid level sensor is installed at the highest water level of the water tower and sends a fourth trigger signal to the microprocessor when the, the microprocessor opens the first electromagnetic valve to send water into the water tank when receiving the first trigger signal, closes the first electromagnetic valve when receiving the second trigger signal, opens the first electromagnetic valve to pump water in the water tank into the water tower when receiving the third trigger signal, and closes the first electromagnetic valve when receiving the fourth trigger signal.

Adopt above-mentioned technical scheme, the first level sensor of pond minimum water level installation, highest water level installation second level sensor, the third level sensor of lowest water level installation of water tower, highest water level installation fourth level sensor, microprocessor passes through, it is first, the second, the third, the water level height in fourth level sensor detection water tower and the pond, and do corresponding control to first solenoid valve according to detecting the structure, make the water level automatic maintenance in pond and the water tower between highest water level and minimum water level, prevent that the water tower overflow and guarantee to have the reserve water at any time in the water tower to supply the sprinkling system to use when the running water supplies water to cut off the water.

The workshop spraying humidity control system can be further set as follows: the spraying device is a plurality of serially connected atomizing nozzles communicated with the water tower and the booster water pump through water pipes, and the atomizing nozzles are installed at the highest position in a workshop.

Adopt above-mentioned technical scheme, set up to a plurality of series connection settings and install in the atomizer of the indoor highest department of factory building through with spraying system for water atomizes when the blowout, increases the water utilization effect, can guarantee workshop humidity by the at utmost, prevents that workshop surface ponding from breeding the bacterium.

The workshop spraying humidity control system can be further set as follows: and a water level indicator lamp is also arranged on the outer surface of the water pool.

By adopting the technical scheme, the water tank is arranged on the ground, and the water level height in the water tower can be intuitively known by arranging the water level indicating lamp on the water tank.

The utility model has the advantages that: the timing spraying controls the humidity of the workshop and is provided with a standby water supply device to ensure that the spraying system can spray water as it is when the tap water is cut off.

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

Drawings

Fig. 1 is a schematic diagram of the embodiment of the present invention.

Detailed Description

Referring to FIG. 1: a workshop spraying humidity control system comprises a tap water pipeline 1, an electromagnetic valve 2, a spraying device 3, a control system 4, a power supply 5 for supplying power to the control system 4, an Internet of things cloud platform 6 and an intelligent terminal 7, wherein the control system 4 comprises a microprocessor 41, a WiFi (wireless fidelity) transceiver 42 and a timer 43, a plurality of humidity detectors 44 connected with corresponding detection signal ports of the microprocessor 41 are arranged in a workshop, the microprocessor 41 is in wireless communication with the Internet of things cloud platform 6 through the WiFi transceiver 42, the Internet of things cloud platform 6 is in wireless communication with the intelligent terminal 7, a signal port of the timer 43 is connected with a timing signal port of the microprocessor 41, a control signal port of the microprocessor 41 is connected with a controlled port of the electromagnetic valve 2 through a relay 46, the control system 4 further comprises a liquid flow path selection valve 47 and a booster water pump 48, a controlled port of the booster water pump 48 is connected with a control signal port of the microprocessor 41 through, one end of the liquid flow path selection valve 47 is communicated with the tap water pipeline 1, the other end of the liquid flow path selection valve is respectively communicated with the electromagnetic valve 2 and the booster water pump 48, the booster water pump 48 and the electromagnetic valve 2 both supply water to the spraying device 3, the other end of the electromagnetic valve 2 opposite to the liquid flow path selection valve 47 is also connected with a standby water supply device, the standby water supply device comprises a water tank 81 and a water tower 82, the water tank 81 is communicated with the electromagnetic valve 2 through a water pipe, the water tower 82 is communicated with the water tank 81 through a water pipe, the other end of the water tower is communicated with the spraying system 3, a first electromagnetic valve 83 is arranged on the water pipe of the water tower 82 and used for pumping the water in the water tank 81 into the water tower 82, a first liquid level sensor 811 is arranged at the lowest water level of the water tank 81 and sends a first trigger signal to the microprocessor 41 when the water in the water tank 81 is detected to be at the lowest water level, a third liquid level sensor 821 is arranged at the lowest position of the water tower 82, and sends a third trigger signal to the microprocessor 41 when the water in the water tower 82 is reduced to the lowest water level, a fourth liquid level sensor 822 is arranged at the highest water level of the water tower 82, and sends a fourth trigger signal to the microprocessor 41 when the water in the water tower 82 is increased to the highest water level, the microprocessor 41 opens the first electromagnetic valve 83 to send the water to the water tank 81 when receiving the first trigger signal, the microprocessor 41 closes the first electromagnetic valve 83 when receiving the second trigger signal, the microprocessor 41 opens the first electromagnetic valve 83 to pump the water in the water tank 81 to the water tower 82 when receiving the third trigger signal, the microprocessor 41 closes the first electromagnetic valve 83 when receiving the fourth trigger signal, the spraying device 3 is a plurality of serially connected atomizing nozzles communicated with the water tower 82 and the booster water pump 48 through water pipes, and the atomizing nozzles are arranged at the highest position in the workshop, a water level indicator 84 is also mounted on the outer surface of the basin 81.

Claims (4)

1. Workshop sprays accuse humidity system, includes water pipe way, solenoid valve, spray set, control system, gives power, thing networking cloud platform and the intelligent terminal of control system power supply, its characterized in that: the control system comprises a microprocessor which is used for controlling the operation of the electronic device, WiFi transceiver and timer, lay a plurality of humidity detection ware of being connected with the corresponding detected signal port of microprocessor in the workshop, microprocessor carries out wireless communication through WiFi transceiver and thing networking cloud platform, thing networking cloud platform carries out wireless communication with intelligent terminal, the signal port of timer is connected with microprocessor's timed signal port, microprocessor's control signal port is connected with the controlled port of solenoid valve via the relay, control system is still including liquid flow path selector valve and booster water pump, booster water pump's controlled port passes through the relay and is connected with microprocessor's control signal port, liquid flow path selector valve one end intercommunication water supply pipeline other end communicates solenoid valve and booster water pump respectively, booster water pump and solenoid valve all supply water to spray set, the other end that the solenoid valve relatively connects liquid flow path selector valve still is connected with reserve water supply installation.

2. The shop spray humidity control system of claim 1, wherein: the standby water supply device comprises a water tank and a water tower, the water tank is communicated with an electromagnetic valve through a water pipe, the water tower is communicated with the other end of the water tank through a water pipe and a spraying system, a first electromagnetic valve is arranged on the water pipe of the water tower and used for pumping water in the water tank into the water tower, a first liquid level sensor is arranged at the lowest water level of the water tank and sends a first trigger signal to a microprocessor when detecting that the water in the water tank is at the lowest water level, a second liquid level sensor is arranged at the highest water level of the water tank and sends a second trigger signal to the microprocessor when detecting that the water in the water tank rises to the highest water level, a third liquid level sensor is arranged at the lowest water level of the water tower and sends a third trigger signal to the microprocessor when the water in the water tower falls to the lowest water level, a fourth liquid level sensor is arranged at the highest water level of the water tower and sends a fourth trigger signal to the, the microprocessor opens the first electromagnetic valve to send water into the water tank when receiving the first trigger signal, closes the first electromagnetic valve when receiving the second trigger signal, opens the first electromagnetic valve to pump water in the water tank into the water tower when receiving the third trigger signal, and closes the first electromagnetic valve when receiving the fourth trigger signal.

3. The shop spray humidity control system of claim 2, wherein: the spraying device is a plurality of serially connected atomizing nozzles communicated with the water tower and the booster water pump through water pipes, and the atomizing nozzles are installed at the highest position in a workshop.

4. The shop spray humidity control system of claim 2, wherein: and a water level indicator lamp is also arranged on the outer surface of the water pool.

Images