CN219656239U - Distributed air-cooled air duct for energy storage management - Google Patents

Abstract

The utility model relates to the technical field of cold air ducts, in particular to a distributed air cooling duct for energy storage management. The technical proposal comprises: the device comprises a three-way pipe, an automatic valve mechanism and a noise reduction mechanism, wherein the noise reduction mechanism comprises a noise elimination box, noise elimination asbestos pipes are installed at the top of the inside of the noise elimination box at equal intervals, and noise elimination holes are formed in the outer sides of the noise elimination asbestos pipes at equal intervals. According to the utility model, the noise carried by the air entering the interior of the sound-absorbing box can be absorbed through the cooperation of the sound-absorbing asbestos pipe and the sound-absorbing hole, so that the effect of eliminating the noise on the first layer is achieved, the aluminum foil plate is subjected to low-frequency vibration by the bottom noise in the air, the low-frequency vibration transmitted by the aluminum foil plate is neutralized through the damping vibration-absorbing sound-absorbing layer, the effect of reducing the vibration frequency of the aluminum foil plate is achieved, the effect of neutralizing the noise is achieved, the noise reduction function of the noise generated when the air cooling pipeline is used for conveying the air is achieved, and the air cooling air duct is convenient for carrying out mute air supply operation.

Description

Distributed air-cooled air duct for energy storage management

Technical Field

The utility model relates to the technical field of cold air ducts, in particular to a distributed air cooling duct for energy storage management.

Background

The air cooling air duct is also called an air cooling pipeline, an air pipe, and the like, has various classification and application, has wide application range, is widely applied to various fields of improving indoor air, workshop air, civil buildings and the like, is mainly used for conveying air in an environment needing to keep air circulation, has the characteristic of high transportation efficiency, can be used in most civil buildings, reduces preset air pipeline layout, needs a distributed air cooling air duct to convey air in daily use, and is a ' wind pipe and wind pipe assembly ' disclosed in CN211781824U, solves the problems that the average value of the air leakage rate of hundreds of meters after being connected through a zipper is larger than 2% in the use process of the traditional wind pipe, has larger air leakage rate, is found through further search, and is ' rectifying and noise reducing wind outlet pipe ' disclosed in application number CN106015772B ' and really solves the problems that the wind outlet pipe is shorter or the wind flow of the wind outlet end is turbulent in the case, the grid can cause blockage to the air flow in the wind outlet pipe, the wind outlet pipe is greatly reduced along with noise and the like, and has similar defects in the practical use of the wind duct, such as the structure is similar to the cold wind duct, and the like: the air conditioner has the advantages that the air conditioner does not have the function of automatically switching cold air and hot air pipelines, cannot adjust the cold air and hot air pipelines according to the use requirement, and needs to use an additional pipeline to convey hot air, so that the cost of conveying wind power is increased, the air conditioner does not have the function of reducing noise, noise generated during cold air conveying cannot be eliminated, noise generated by conveying air is easy to cause noise pollution to surrounding environment, and therefore the distributed air conditioner for energy storage management needs to be designed.

Disclosure of Invention

The utility model aims to provide a distributed air cooling air duct for energy storage management, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a distributed air cooling wind channel for energy storage management, includes three-way pipe, automatic valve mechanism and mechanism of making an uproar falls, inside one side fixed mounting of three-way pipe has the fan, fan one side fixed mounting has the conveyer pipe, two sets of automatic valve mechanisms are installed in three-way pipe inner wall embedding, automatic valve mechanism includes first electric pole second electric pole, first electric pole output fixed mounting has the first valve that extends to the three-way pipe inside, and second electric pole output fixed mounting has the second valve that extends to the three-way pipe inside, conveyer pipe inside fixed mounting has temperature-sensing ware, conveyer pipe one side fixed mounting has the mechanism of making an uproar falls, the mechanism of making an uproar includes the noise elimination case, the inside top equidistance of noise elimination case is installed the asbestos pipe that falls, and the noise elimination hole has been seted up to the outside equidistance of asbestos pipe that falls.

The air inside the conveying pipe is monitored in real time through the electrified operation of the temperature sensor, and the monitoring electromagnetic signal is transmitted to the controller through the wire to be calculated, the controller compares the monitoring electromagnetic signal with the preset value, when the fact that the air inside the conveying pipe is lower than the preset value is judged according to the comparison result, the electrified operation of the first electric rod and the second electric rod is controlled, the first valve and the second valve are respectively driven by the electrified operation of the first electric rod and the second electric rod to move, a cold air passage or a heating air passage is realized, the function of automatically switching cold air and hot air pipelines is realized, the cold air and hot air are conveniently regulated according to the use requirement, the additional pipeline is not required to be used for conveying hot air, the function of regulating the air supply temperature is realized, the noise of the air which enters inside the sound box can be absorbed through the sound attenuation asbestos pipe, the high-frequency noise in the air is absorbed through the sound attenuation hole, the effect of eliminating the noise of the first layer is achieved, the bottom noise in the air is subjected to low-frequency vibration and the low-frequency vibration of the aluminum foil plate is respectively driven to the movement of the first valve, the cold air passage or the heating air passage is realized, the function of automatically switching cold air and hot air pipeline is easy to realize the problem of noise reduction and environment pollution to be caused when the noise is easy to be conveyed.

Preferably, a filter screen bucket is fixedly arranged at one end of the three-way pipe, a rubber ring is fixedly arranged at one end of the inside of the three-way pipe, two groups of noise inductors extending to the inside are fixedly arranged at the outer side of the three-way pipe, and a heat preservation cotton sleeve is sleeved at the outer side of the three-way pipe. Through filter screen fill and external electrical equipment dock to filter tiny impurity and dust that carries in the air through filter screen fill inside filter layer, avoided tiny impurity and dust to pile up inside the fan, the fan that causes takes place to damage, produce suction through controller control fan circular telegram operation and carry outside air to the conveyer pipe inside through filter screen fill, the fan provides power for conveying air, be convenient for temperature-sensing ware carries out real-time supervision to the inside air of conveyer pipe through the conveyer pipe, carry out real-time supervision through noise-sensing ware circular telegram operation to the inside noise of three-way pipe, and store the controller with monitoring electromagnetic signal transmission through the wire, the operating personnel of being convenient for knows the noise decibel that the three-way pipe carried the air to produce, can carry out the effect of heat retaining to the inside air of three-way pipe through the heat preservation cotton sleeve, the temperature loss that has avoided three-way pipe and external air direct contact to lead to.

Preferably, one side of the silencing box is fixedly provided with equidistant aluminum foil plates, and damping shock absorption silencing layers are embedded and installed in the aluminum foil plates. The aluminum foil plate is subjected to low-frequency vibration by the bottom noise in the air, and the low-frequency vibration transmitted by the aluminum foil plate is neutralized by the damping vibration attenuation and noise elimination layer, so that the effect of reducing the vibration frequency of the aluminum foil plate is achieved, and the effect of eliminating the noise in the air by the second layer is achieved.

Preferably, four groups of guide plates are fixedly arranged in the three-way pipe, and a composite non-woven fabric layer is fixedly arranged on the inner side of each guide plate. Can be convenient for carry with higher speed through the guide plate, can concentrate the transport to the air through the contained angle space that two sets of guide plates cooperation formed, adsorb the miniature impurity that carries in the air through compound non-woven fabrics layer, play the effect that has purified the inside air of three-way pipe, improved the quality that the device carried the air.

Preferably, a flange plate is fixedly arranged at one end of the three-way pipe, and a silica gel ring extending to the inside of the three-way pipe is fixedly arranged at one side of the flange plate. The sealing device has the advantages that gaps are formed between the flange plate and the three-way pipe through the matching of the rubber ring and the silica gel ring, tightness between the three-way pipe and the flange plate is guaranteed, air can be provided for external equipment through the external equipment of the flange plate, an outlet can be provided for air inside the three-way pipe through the flange plate, and the external equipment can collect air inside the three-way pipe conveniently.

Preferably, the front surface of the three-way pipe is fixedly provided with a controller, and one side of the front surface of the three-way pipe, which is close to the controller, is provided with an access door through a hinge. The controller passes through wire and the inside electrical equipment electric connection of device, and the inside electrical equipment of operating personnel intelligent control device of being convenient for can be convenient for the maintainer to overhaul the operation through manual access door of opening, has avoided dismantling the three-way pipe and has overhauld the operation.

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

1. the air inside the conveying pipe is monitored in real time through the electrified operation of the temperature sensor, the monitoring electromagnetic signals are transmitted to the controller through the lead wires to be calculated, the controller compares the monitoring electromagnetic signals with the preset value, when the air inside the conveying pipe is judged to be lower than the preset value according to the comparison result and the electrified operation of the first electric rod and the second electric rod is controlled, the electrified operation of the first electric rod and the electrified operation of the second electric rod are utilized to respectively drive the first valve and the second valve to move, and a cold air passage or a heating passage is realized, so that the function of automatically switching cold air and hot air pipelines is realized, the cold air and hot air use pipelines are conveniently adjusted according to the use requirement, the additional pipeline is not required to be used for conveying hot air, and the function of adjusting the air supply temperature is realized.

2. The noise that can get into inside the air that gets into of sound-deadening box through the cooperation of noise elimination asbestos pipe and sound-deadening hole is absorbed, play the effect of first layer noise abatement, the bottom noise that the reuse aluminium foil board received in the air takes place low frequency vibration and neutralizes the low frequency vibration of aluminium foil board transmission through damping vibration attenuation noise elimination layer, the effect that has played the reduction aluminium foil board vibration frequency, play and neutralize the noise of making an uproar, the function of making an uproar falls to the noise that produces when having realized carrying air to the forced air cooling pipeline, the forced air cooling wind channel of being convenient for carries out silence air supply operation, the noise that has solved the transport air production causes noise pollution's problem to the surrounding environment easily.

Drawings

FIG. 1 is a schematic view of a front cross-sectional structure of the present utility model;

FIG. 2 is a schematic view of the front internal structure of the present utility model;

FIG. 3 is a schematic diagram of the front structure of the present utility model;

fig. 4 is a schematic structural diagram of a noise reduction mechanism according to the present utility model.

In the figure: 1. a three-way pipe; 101. a filter screen bucket; 102. a blower; 103. a delivery tube; 104. a rubber ring; 105. a noise sensor; 106. a heat preservation cotton sleeve; 2. an automatic valve mechanism; 201. a first electric lever; 202. a first valve; 203. a second electric lever; 204. a second valve; 205. a temperature sensor; 3. a noise reduction mechanism; 301. a sound deadening box; 302. a sound-deadening asbestos tube; 303. a sound deadening hole; 304. an aluminum foil plate; 305. damping and silencing layer; 4. a deflector; 401. a composite non-woven fabric layer; 5. a flange plate; 501. a silica gel ring; 6. a controller; 601. an access door.

Detailed Description

The technical scheme of the utility model is further described below with reference to the attached drawings and specific embodiments.

Example 1

As shown in fig. 1, 2, 3 and 4, the distributed air cooling air duct for energy storage management provided by the utility model comprises a three-way pipe 1, an automatic valve mechanism 2 and a noise reduction mechanism 3, wherein a fan 102 is fixedly arranged on one side of the inside of the three-way pipe 1, a conveying pipe 103 is fixedly arranged on one side of the fan 102, a filter screen bucket 101 is fixedly arranged at one end of the three-way pipe 1, and a rubber ring 104 is fixedly arranged at one end of the inside of the three-way pipe 1;

two groups of automatic valve mechanisms 2 are embedded and installed on the inner wall of the three-way pipe 1, each automatic valve mechanism 2 comprises a first electric rod 201 and a second electric rod 203, a first valve 202 extending into the three-way pipe 1 is fixedly installed at the output end of the first electric rod 201, a second valve 204 extending into the three-way pipe 1 is fixedly installed at the output end of the second electric rod 203, and a temperature sensor 205 is fixedly installed in the conveying pipe 103;

the conveyer pipe 103 one side fixed mounting has the mechanism of making an uproar 3 that falls, falls the mechanism of making an uproar 3 and includes noise elimination case 301, and the inside top equidistance of noise elimination case 301 is installed the asbestoss pipe 302 that falls, and noise elimination hole 303 has been seted up to the equidistant hole 303 that falls in the asbestoss pipe 302 outside, and noise elimination case 301 one side fixed mounting has equidistant aluminium foil board 304, and the inside embedding of aluminium foil board 304 is installed damping shock attenuation noise elimination layer 305, and three-way pipe 1 one end fixed mounting has ring flange 5, and ring flange 5 one side fixed mounting has the silica gel circle 501 that extends to the inside of three-way pipe 1, and three-way pipe 1 openly fixed mounting has controller 6.

The working principle of the distributed air cooling air duct for energy storage management based on the embodiment 1 is as follows: the flange 5 is externally connected with external equipment to provide air for the external equipment, the flange 5 can provide an outlet for the air in the three-way pipe 1, the external equipment is convenient to collect the air in the three-way pipe 1, and a gap is avoided between the flange 5 and the three-way pipe 1 through the cooperation of the rubber ring 104 and the silica gel ring 501, so that the tightness between the three-way pipe 1 and the flange 5 is ensured;

the filter screen bucket 101 is in butt joint with external electrical equipment, tiny impurities and dust carried in the air are filtered through a filter plate layer in the filter screen bucket 101, the situation that the tiny impurities and dust are accumulated in the fan 102 to cause damage to the fan 102 is avoided, the fan 102 is controlled by the controller 6 to be electrified to operate to generate suction force, the external air is conveyed into the conveying pipe 103 through the filter screen bucket 101, and the fan 102 provides power for conveying the air;

the air in the conveying pipe 103 is monitored in real time through the electrifying operation of the temperature sensor 205, the monitoring electromagnetic signal is transmitted to the controller 6 through a wire for calculation, the controller 6 compares the monitoring electromagnetic signal with a preset value, when the air in the conveying pipe 103 is judged to be lower than the preset value according to a comparison result and the electrifying operation of the first electric rod 201 and the second electric rod 203 is controlled, the electrifying operation of the first electric rod 201 drives the first valve 202 to horizontally move, the effect of adjusting the horizontal position of the first valve 202 is achieved, the top of the three-way pipe 1 forms an air closed circuit, and the electrifying operation of the second electric rod 203 drives the second valve 204 to downwardly move, so that an air passage is formed on one side of the three-way pipe 1, and the three-way pipe 1 is convenient to convey cold air;

when the comparison result judges that the air in the conveying pipe 103 is higher than a preset value and controls the first electric rod 201 and the second electric rod 203 to perform electrifying operation, the first electric rod 201 electrifying operation drives the first valve 202 to retract into the inner wall of the three-way pipe 1, so that an air passage is formed at the top of the three-way pipe 1, and the second electric rod 203 electrifying operation drives the second valve 204 to move upwards to abut against the inner wall of the three-way pipe 1, so that an air closed circuit is formed at one side of the three-way pipe 1, hot air is conveniently conveyed through the top of the three-way pipe 1, the function of automatically switching cold air and hot air pipelines is realized, the cold air and hot air use pipelines are conveniently regulated according to use requirements, and the function of regulating the supply temperature is also realized;

the noise that can carry the air that gets into inside the noise elimination case 301 through the asbestos pipe 302 of silencing to absorb the high frequency noise in the air through the sound elimination hole 303, played the effect of first layer noise abatement, the rethread aluminium foil board 304 receives the bottom noise in the air to take place low frequency vibration and neutralize the low frequency vibration that aluminium foil board 304 transmitted through damping vibration attenuation noise elimination layer 305, played the effect of reducing aluminium foil board 304 vibration frequency, played the effect of noise in the second floor elimination air, realized carrying out the function of making an uproar of falling to the noise that produces when air cooling pipeline carries the air, the air cooling wind channel of being convenient for carries out silence air supply operation.

Example two

As shown in fig. 1, fig. 2, fig. 3, and fig. 4, the present utility model provides a distributed air cooling duct for energy storage management, and compared with the first embodiment, the present embodiment further includes: two groups of noise inductors 105 extending into the inside are fixedly arranged on the outer side of the three-way pipe 1, a heat preservation cotton sleeve 106 is sleeved on the outer side of the three-way pipe 1, four groups of guide plates 4 are fixedly arranged in the three-way pipe 1, a composite non-woven fabric layer 401 is fixedly arranged on the inner side of each guide plate 4, and an access door 601 is arranged on one side, close to the controller 6, of the front face of the three-way pipe 1 through a hinge.

In this embodiment, as shown in fig. 1, 2 and 3, the noise sensor 105 is energized to perform real-time monitoring on the noise inside the three-way pipe 1, and the monitored electromagnetic signal is transmitted to the controller 6 through a wire to be stored, so that an operator can know the noise decibel generated by the air conveyed by the three-way pipe 1, and the air inside the three-way pipe 1 can be insulated through the insulation cotton sleeve 106, so that the temperature loss caused by the direct contact of the three-way pipe 1 and the external air is avoided;

as shown in fig. 1 and 2, the air can be conveniently conveyed in an accelerating way through the guide plates 4, the air can be conveyed in a concentrated way through the included angle space formed by the cooperation of the two groups of guide plates 4, and the micro impurities carried in the air can be adsorbed through the composite non-woven fabric layer 401, so that the effect of purifying the air in the three-way pipe 1 is achieved, and the air conveying quality of the device is improved; the maintenance work can be conveniently performed by the maintenance personnel by manually opening the maintenance door 601 as shown in fig. 4, and the maintenance work by disassembling the tee 1 is avoided.

The above-described embodiments are merely a few preferred embodiments of the present utility model, and many alternative modifications and combinations of the above-described embodiments will be apparent to those skilled in the art based on the technical solutions of the present utility model and the related teachings of the above-described embodiments.

Claims (6)

1. The utility model provides an energy storage management is with distributed air cooling wind channel, includes three-way pipe (1), automatic valve mechanism (2) and falls mechanism (3) of making an uproar, its characterized in that: inside one side fixed mounting of three-way pipe (1) has fan (102), fan (102) one side fixed mounting has conveyer pipe (103), two sets of automatic valve mechanism (2) are installed in three-way pipe (1) inner wall embedding, automatic valve mechanism (2) are including first electric pole (201) second electric pole (203), first electric pole (201) output fixed mounting has first valve (202) that extend to three-way pipe (1) inside, and second electric pole (203) output fixed mounting has second valve (204) that extend to three-way pipe (1) inside, conveyer pipe (103) inside fixed mounting has temperature-sensing ware (205), conveyer pipe (103) one side fixed mounting has noise reduction mechanism (3), noise reduction mechanism (3) are including noise elimination case (301), noise elimination asbestos pipe (302) are installed to noise elimination case (301) inside top equidistance, and noise elimination hole (303) have been seted up to noise elimination asbestos pipe (302) outside equidistance.

2. The distributed air-cooled duct for energy storage management of claim 1, wherein: the novel three-way pipe is characterized in that a filter screen bucket (101) is fixedly arranged at one end of the three-way pipe (1), a rubber ring (104) is fixedly arranged at one end of the inside of the three-way pipe (1), two groups of noise inductors (105) extending to the inside are fixedly arranged at the outer side of the three-way pipe (1), and a heat preservation cotton sleeve (106) is sleeved and arranged at the outer side of the three-way pipe (1).

3. The distributed air-cooled duct for energy storage management of claim 1, wherein: equidistant aluminum foil plates (304) are fixedly arranged on one side of the silencing box (301), and damping silencing layers (305) are embedded and arranged in the aluminum foil plates (304).

4. The distributed air-cooled duct for energy storage management of claim 1, wherein: four groups of guide plates (4) are fixedly arranged in the three-way pipe (1), and a composite non-woven fabric layer (401) is fixedly arranged on the inner side of each guide plate (4).

5. The distributed air-cooled duct for energy storage management of claim 1, wherein: one end of the three-way pipe (1) is fixedly provided with a flange plate (5), and one side of the flange plate (5) is fixedly provided with a silica gel ring (501) extending into the three-way pipe (1).

6. The distributed air-cooled duct for energy storage management of claim 1, wherein: the front of the three-way pipe (1) is fixedly provided with a controller (6), and one side, close to the controller (6), of the front of the three-way pipe (1) is provided with an access door (601) through a hinge.