CN109596373B - Self-circulation test platform of rotary dehumidifier - Google Patents

Abstract

The invention discloses a self-circulation test platform of a rotary dehumidifier. The device comprises a test room and a humidifier, wherein a humidifying area, a mixing area and an environment control area are arranged in the test room, the humidifier is communicated with the humidifying area through a humidifying pipeline, the mixing area is provided with an air vent for ventilating with the environment control area, a treatment air port and a regeneration air port are arranged on the dehumidifier, the treatment air port of the dehumidifier is connected with the humidifying area through a treatment air channel and an auxiliary fan arranged on the treatment air pipeline, the regeneration air port of the dehumidifier is directly connected with the humidifying area through the regeneration air channel, a mixing baffle is further arranged in the humidifying area, and the treatment air and the regeneration air can be fused in the mixing baffle. After the structure is adopted, the established detection system and detection environment simulate the actual working condition, and humidity between experiments is balanced, so that the rotating wheel dehumidification working environment is closer to the actual working environment, the detection result error is small, the detection accuracy and reliability are high, the detection cost is low, and the system is reliable to operate.

Description

Self-circulation test platform of rotary dehumidifier

Technical Field

The invention relates to an auxiliary inspection platform for dehumidification of a main cable of a suspension bridge, in particular to a self-circulation test platform of a rotary dehumidifier.

Background

For the dehumidification industry of the main cable of the suspension bridge, in order to detect the dehumidification performance of the rotary dehumidifier of the main cable of the bridge, a test platform for detecting the performance of an air conditioner is generally required to detect the dehumidification performance of the rotary dehumidifier, and because the test platform for the performance of the air conditioner has great difference with the actual dehumidification industry of the main cable of the suspension bridge, the actual working environment of the rotary dehumidifier cannot be well simulated, and the error of a detection result is large.

Disclosure of Invention

The invention aims to solve the technical problem of providing a self-circulation test platform of a rotary dehumidifier, which can be close to an actual working environment, has small error of a detection result and is reliable to operate.

In order to solve the technical problems, the self-circulation test platform of the rotating dehumidifier comprises a sealed test room and a humidifier arranged on one side of the test room, wherein a humidifying area provided with an air conditioner, a mixing area provided with a mixing fan and an environment control area provided with the dehumidifier to be tested are arranged in the test room, the humidifier is communicated with the humidifying area through a humidifying pipeline, the mixing area is provided with an air vent for ventilating with the environment control area, a treatment air port and a regeneration air port are arranged on the dehumidifier, the treatment air port of the dehumidifier is connected with the humidifying area through a treatment air pipeline and an auxiliary fan arranged on the treatment air pipeline, the regeneration air port of the dehumidifier is directly connected with the humidifying area through a regeneration air channel, a mixing baffle is further arranged in the humidifying area, and the treatment air and the regeneration air can be fused in the mixing baffle.

The air quantity measuring device positioned in front of the auxiliary fan is arranged on the treatment air pipeline.

And a humidifying area temperature sensor for measuring the temperature of the humidifying area is arranged in the humidifying area.

And a mixing area humidity sensor for measuring humidity in the mixing area and a mixing area pressure sensor for measuring pressure in the mixing area are arranged in the mixing area.

An environment control area humidity sensor for measuring the humidity of the environment control area, an environment control area pressure sensor for measuring the pressure of the environment control area and an environment control area temperature sensor for measuring the temperature of the environment control area are arranged in the environment control area.

The humidifier is connected with a water tank.

After adopting foretell structure, between confined experiment, use the air conditioner to adjust temperature between the experiment, after the air humidifier lets humidity between the experiment reach the requirement, the rotary dehumidifier is in the experiment work, processing wind and regeneration wind get back to the humidification district again and fuse, reentry environmental control district after fusing, circulation like this, the humidity between whole experiment does not have the loss, after circulation system humidity is stable, the humidifier can stop work, the air humidifier need not continuous operation, the detection system that its established and detection environment have simulated the actual condition, humidity balance between the experiment, in order to realize that rotary dehumidifier operational environment is more close actual operational environment, make the testing result error little, detect accurate high and the detection cost is low, the system operation is reliable.

Drawings

FIG. 1 is a front view of a self-circulating test platform of the rotary dehumidifier of the present invention;

FIG. 2 is a top view of the self-circulation test platform of the rotary dehumidifier of the present invention.

Detailed Description

The self-circulation test platform of the rotary dehumidifier of the present invention is further described in detail below with reference to the accompanying drawings and detailed description.

As shown in the figure, the self-circulation test platform of the rotary dehumidifier comprises a sealed test room and a humidifier 1 arranged at one side of the test room, wherein the humidifier 1 is connected with a water tank 2, the test room is provided with a sealing door 6, the whole test room is isolated from the external environment through the sealing door 6, a humidifying area 3 provided with an air conditioner 15, a mixing area 10 provided with a mixing fan 5 and an environment control area 4 provided with a dehumidifier 7 to be tested are arranged in the test room, the humidifier 1 is communicated with the humidifying area 3 through a humidifying pipeline, the mixing area 10 is provided with an air vent 13 for ventilating with the environment control area 4, the air vent 13 is a round hole distributed on a middle layer in the mixing area, air in the mixing area enters the environment control area through the round hole distributed on the middle layer, a treatment air port and a regeneration air port are arranged on the dehumidifier 7, the processing wind gap of the dehumidifier 7 is connected with the humidifying area 3 through a processing wind pipeline 8 and an auxiliary fan 12 arranged on the processing wind pipeline, the processing wind pipeline 8 is provided with a wind volume measuring device 11 positioned in front of the auxiliary fan 12, the rotating wheel dehumidifier works in an environment control area, wet air enters the rotating wheel dehumidifier, generated processing wind flows out of the rotating wheel dehumidifier and passes through a wind volume detecting device, the wind volume detecting device measures the humidity of the processing wind, the humidity of the processing wind is subtracted from the humidity of a test room, namely the humidity of the rotating wheel dehumidifier, the regenerative wind gap of the dehumidifier is directly connected with the humidifying area 3 through a regenerative wind channel 9, a mixing baffle 14 is also arranged in the humidifying area 3, the processing wind and the regenerative wind can be fused in the mixing baffle 14, the processing wind returns to the humidifying area through the auxiliary fan 12, the regenerative wind returns to the humidifying area through the regenerative wind pipeline after exiting from the rotating wheel dehumidifier, the treated wind and the regenerated wind are mixed in the primary mixing baffle plate in the humidifying area and then enter the mixing area again, and the circulation is carried out.

Further, a humidifying area temperature sensor for measuring the temperature of the humidifying area is installed in the humidifying area 3, a humidifying area humidity sensor for measuring the humidity of the humidifying area can be installed, the humidity and the temperature of the humidifying area are fed back through the humidifying area temperature sensor and the humidifying area humidity sensor, the humidity of the humidifying area is adjusted through a humidifier, the temperature of the humidifying area is adjusted through an air conditioner, a mixing area pressure sensor for measuring the humidity of the mixing area and the temperature of the mixing area and the pressure of the mixing area is installed in the mixing area 10, a temperature sensor for measuring the temperature of the mixing area can be installed in the mixing area, the air in the humidifying area is introduced into the mixing area through a mixing fan, the humidity of the mixing area is adjusted, an environment control area humidity sensor for measuring the humidity of the environment control area, an environment control area pressure sensor for measuring the pressure of the environment control area and an environment control area temperature sensor are installed in the environment control area 4, and the humidity and the temperature of the environment control area are kept stable through adjustment of the humidifier and the air conditioner.

Through above-mentioned structural design, humidity through the humidifier regulation humidification district, humidity stability between the test is kept, temperature stability balance between the air conditioner maintenance test is adjusted humidification district temperature through the air conditioner, humidity through mixing fan regulation mixing district, the air gets into environmental control district through distributing at the air vent, the runner dehumidifier is in the work of environmental control district, the processing wind that the runner dehumidifier produced and regeneration wind get back to the humidification district through respective pipeline respectively, humidity between the test has been guaranteed not to be lost, moisture in the processing wind is adsorbed by the runner in the dehumidifier, regeneration wind takes away the moisture in the dehumidifier runner again, processing wind and regeneration wind all return to the humidification district and fuse, humidity in the whole detecting system has not lost, after circulation system humidity stability, the humidifier can stop work, air humidifier need not continuous operation, experimental environment and actual operational environment are more close, economy, detection result error is small.

Claims (5)

1. The utility model provides a self-circulation test platform of rotary dehumidifier which characterized in that: the device comprises a sealed test room and a humidifier (1) arranged on one side of the test room, wherein a humidifying area (3) provided with an air conditioner (15), a mixing area (10) provided with a mixing fan (5) and an environment control area (4) provided with a dehumidifier (7) to be tested are arranged in the test room, the humidifier (1) is communicated with the humidifying area (3) through a humidifying pipeline, the mixing area (10) is provided with a vent hole (13) for ventilating with the environment control area (4), a treatment air port and a regeneration air port are arranged on the dehumidifier (7), the treatment air port of the dehumidifier (7) is connected with the humidifying area (3) through a treatment air pipeline (8) and an auxiliary fan (12) arranged on the treatment air pipeline, the regeneration air port of the dehumidifier is directly connected with the humidifying area (3) through a regeneration air channel (9), a mixing baffle (14) is further arranged in the humidifying area (3), and the treatment air and the regeneration air can be fused in the mixing baffle (14); an air quantity measuring device (11) positioned in front of the auxiliary fan (12) is arranged on the treatment air pipeline (8).

2. The self-circulation test platform of the rotary dehumidifier of claim 1, wherein a humidifying area temperature sensor for measuring the temperature of the humidifying area is arranged in the humidifying area (3).

3. A self-circulation test platform of a rotary dehumidifier according to claim 1 or 2, wherein a mixing zone humidity sensor for measuring humidity and a mixing zone pressure sensor for measuring pressure of the mixing zone are installed in the mixing zone (10).

4. A self-circulation test platform of a rotary dehumidifier according to claim 3, wherein an environmental control zone humidity sensor for measuring the humidity of the environmental control zone, an environmental control zone pressure sensor for measuring the pressure of the environmental control zone and an environmental control zone temperature sensor for measuring the temperature of the environmental control zone are installed in the environmental control zone (4).

5. The self-circulation test platform of the rotary dehumidifier according to claim 4, wherein the humidifier (1) is connected with a water tank (2).