CN218495199U - Large-scale economical dehumidifier and dehumidification unit - Google Patents
Large-scale economical dehumidifier and dehumidification unit Download PDFInfo
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- CN218495199U CN218495199U CN202221715339.6U CN202221715339U CN218495199U CN 218495199 U CN218495199 U CN 218495199U CN 202221715339 U CN202221715339 U CN 202221715339U CN 218495199 U CN218495199 U CN 218495199U
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Abstract
The utility model relates to the field of dehumidification equipment, and discloses a large-scale economical dehumidifier and a dehumidification unit, which comprises a dehumidifier main body and an auxiliary energy supply component, wherein a power module of the dehumidifier main body is connected with a dual-power transfer switch, the dual-power transfer switch is connected with two power interfaces, one power interface is used for connecting commercial power, and the other power supply is used for connecting the auxiliary energy supply component; the auxiliary energy supply assembly comprises a controller I, an air compressor, an air storage tank, a generator and a storage battery; the controller includes timing module, and controller one is through timing module timing start air compressor, and the air compressor machine passes through the pipe connection with the gas holder, and the gas holder passes through the generator and is connected and be used for the generator electricity generation, and the electric energy is stored in the battery, and the battery passes through wire and power interface connection. The dehumidification equipment has low use cost, and the input and use of two groups of electric energy are more guaranteed.
Description
Technical Field
The utility model relates to a dehumidification equipment field has especially related to a large-scale economical dehumidifier and dehumidification unit.
Background
The dehumidifier is often used in industrial production, and the working principle of the dehumidifier is similar to that of the patent schemes of the dehumidifier, the compressor and the dehumidifier control method disclosed in CN 201410404583.4. However, the large-scale industrial dehumidifier has high power and high use cost. According to the current power price policy of enterprises, the applicant designs a large-scale economical dehumidifier and a large-scale economical dehumidification unit.
SUMMERY OF THE UTILITY MODEL
In order to solve the technical problem, the utility model discloses a following technical scheme can solve:
a large-scale economical dehumidifier comprises a dehumidifier main body and an auxiliary energy supply assembly, wherein a power supply module of the dehumidifier main body is connected with a double-power-supply change-over switch, the double-power-supply change-over switch is connected with two power supply interfaces, one power supply interface is used for connecting commercial power, and the other power supply is used for connecting the auxiliary energy supply assembly; the auxiliary energy supply assembly comprises a first controller, an air compressor, an air storage tank, a generator and a storage battery; the controller comprises a timing module, the first controller starts the air compressor at a fixed time through the timing module, the air compressor is connected with the air storage tank through a pipeline, the air storage tank is connected with the generator and used for generating electricity by the generator, electric energy is stored in the storage battery, and the storage battery is connected with the power supply interface through a wire.
Preferably, the auxiliary energy supply assembly further comprises an inverter, and the inverter is connected with the storage battery and is used for supplying alternating current to the dehumidifier main body.
Preferably, the air compressor further comprises a pressure sensor, the pressure sensor is connected with the controller, and the controller shuts down the air compressor when receiving a pressure signal of the pressure sensor and reaching a shut-down threshold value.
Preferably, the air storage tank further comprises an electric switch valve, the electric switch valve is connected with the controller, and the controller controls the opening and closing of the air storage tank through the electric switch valve.
Preferably, the auxiliary power supply assembly is fixed to a case of the dehumidifier main body.
The dehumidifier unit is provided with the dehumidifier, the dehumidifier unit further comprises a base, the auxiliary energy supply assembly is installed on the base, a placing area for placing dehumidifier main bodies is arranged on the base, at least two dehumidifier main bodies can be placed in the placing area, a pipe groove is formed in the middle of the base, and a lead connected to each dehumidifier main body is installed in the pipe groove.
Preferably, the primary machine main body is provided with a second controller, a double-power-supply change-over switch in the original scheme is eliminated, a first power supply switch and a second controller are arranged between the auxiliary energy supply assembly and the dehumidifier main body and connected, and the second controller is also connected with a second power supply switch for controlling the on-off of commercial power; when the first power supply switch is in an open state, the second controller closes the second power supply switch, and the auxiliary energy supply assembly supplies power; when the first power switch is in a closed state, the second controller turns on the second power switch to supply power by the mains supply.
The technical scheme has the following technical effects:
this scheme provides an air energy storage structure, and air energy storage structure electricity conversion rate is efficient, can the make full use of millet price electricity to reduce the use cost of dehumidifier, secondly this kind of energy storage equipment provides multiple guarantee for the dehumidifier, can use under emergency, has had redundant function.
Drawings
Fig. 1 is a front view of the device.
Fig. 2 is a schematic view of the overall structure of the apparatus.
FIG. 3 is a control schematic diagram of embodiment 1.
FIG. 4 is a control schematic diagram of embodiment 3.
The reference numerals in the figures are the following technical names:
the dehumidifier comprises a dehumidifier main body 1, an auxiliary energy supply component 2, a double-power-supply change-over switch 3, a power supply interface 4, a controller I5, an air compressor 6, an air storage tank 7, a generator 8, a storage battery 9, a timing module 10, an inverter 11, a pressure sensor 12, a base 13, a placement area 14, a pipe groove 15, a controller II 16, a power supply switch I17 and a power supply switch II 18.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and examples.
Example 1
A large-scale economical dehumidifier comprises a dehumidifier main body 11 and an auxiliary energy supply assembly 2, wherein a power supply module of the dehumidifier main body 11 is connected with a double-power-supply change-over switch 3, the double-power-supply change-over switch 3 is connected with two power supply interfaces 4, one power supply interface 4 is used for connecting commercial power, and the other power supply is used for connecting the auxiliary energy supply assembly 2; the auxiliary energy supply assembly 2 comprises a first controller 5, an air compressor 6, an air storage tank 7, a generator 8 and a storage battery 9; the controller includes timing module 10, and controller 5 is through timing module 10 timing start air compressor 6, and the air compressor machine passes through the pipe connection with gas holder 7, and gas holder 7 and generator 8 and be connected and be used for the generator 8 electricity generation, and the electric energy is stored in battery 9, and battery 9 passes through the wire and is connected with power source 4. The dehumidifier can make full use of the electricity price policy and achieve the purpose of saving cost. Secondly adopt two sets of power supply in this scheme, can guarantee the security of dehumidifier work greatly, can switch to another way under the circumstances that wherein electricity does not have all the way moreover, safe and reliable.
In order to supply power to the storage battery 9 to meet the requirement of the dehumidifier main body 11, the auxiliary power supply assembly 2 further comprises an inverter 11, and the inverter 11 is connected with the storage battery 9 and used for supplying alternating current to the dehumidifier main body 11. The air storage tank 7 further comprises a pressure sensor 12, the pressure sensor 12 is connected with the first controller 5, and the first controller 5 shuts down the air compressor 6 when a pressure signal received from the pressure sensor 12 reaches a shutdown threshold value. When the bearing pressure of the selected air storage tank 7 is large and the generator 8 cannot meet the requirement, a throttle valve can be arranged at the air outlet end of the air storage tank 7 to reduce the air speed entering the generator 8. But it is preferable to select and use the generator 8 matched with the air storage tank 7, thereby reducing the pressure loss and the energy loss of the whole process.
In order to realize automatic control, the automatic control system further comprises an electric switch valve, the electric switch valve is connected with a first controller 5, and the first controller 5 controls the opening and closing of the air storage tank 7 through the electric switch valve. The first controller 5 can control the electric switch valve through the time module, so that the electric switch valve can be powered up in the daytime.
In order to match with a large-scale dehumidification requirement, the embodiment further provides a dehumidifier unit, which is equipped with the dehumidifier and further comprises a base 13, the auxiliary energy supply assembly 2 is installed on the base 13, a placing area 14 for placing the dehumidifier main bodies 11 is arranged on the base 13, at least two dehumidifier main bodies 11 can be placed in the placing area 14, a pipe groove 15 is arranged in the middle of the base 13, and a lead connected to each dehumidifier main body 11 is installed in the pipe groove 15.
This scheme provides an air energy storage structure, and air energy storage structure electricity conversion rate is efficient, can the make full use of millet price electricity to reduce the use cost of dehumidifier, secondly this kind of energy storage equipment provides multiple guarantee for the dehumidifier, can use under emergency, has had redundant function.
Example 2
The present embodiment is different from embodiment 1 in that the auxiliary power supply unit 2 is fixed to the case of the dehumidifier main body 11. Can be used in a slightly small place, is convenient to move and transport, and is convenient to integrally design.
Example 3
This embodiment is different from embodiment 1 in that: the dual power supply change-over switch 3 in the original scheme is replaced. The primary machine main body is provided with a second controller 16, a double-power-supply change-over switch 3 in the original scheme is removed, a first power supply switch 17 and a second controller 16 are arranged between the auxiliary energy supply assembly 2 and the dehumidifier main body 11 and connected, and the second controller 16 is also connected with a second power supply switch 18 for controlling the on-off of commercial power; when the first power switch 17 is in an open state, the second controller 16 turns off the second power switch 18, and the auxiliary energy supply assembly 2 supplies power; when the first power switch 17 is in the off state, the second controller 16 turns on the second power switch 18 to supply power to the commercial power.
Claims (7)
1. A large-scale economic type dehumidifier which is characterized in that: the dehumidifier comprises a dehumidifier main body (1) and an auxiliary energy supply assembly (2), wherein a power supply module of the dehumidifier main body (1) is connected with a dual-power-supply change-over switch (3), the dual-power-supply change-over switch (3) is connected with two power supply interfaces (4), one power supply interface (4) is used for connecting a mains supply, and the other power supply is used for connecting the auxiliary energy supply assembly (2); the auxiliary energy supply assembly (2) comprises a first controller (5), an air compressor (6), an air storage tank (7), a generator (8) and a storage battery (9); the controller includes timing module (10), and controller (5) are through timing module (10) regularly start air compressor (6), and the air compressor machine passes through the pipe connection with gas holder (7), and gas holder (7) and generator (8) and be connected and be used for generator (8) electricity generation, and the electric energy is stored in battery (9), and battery (9) pass through the wire and are connected with power source (4).
2. A large economical dehumidifier according to claim 1 wherein: the auxiliary energy supply assembly (2) further comprises an inverter (11), and the inverter (11) is connected with the storage battery (9) and used for supplying alternating current to the dehumidifier main body (1).
3. A large economical dehumidifier according to claim 1, wherein said dehumidifier comprises: the air compressor control system further comprises a pressure sensor (12), wherein the pressure sensor (12) is connected with the first controller (5), and the first controller (5) shuts down the air compressor (6) when a pressure signal received from the pressure sensor (12) reaches a shutdown threshold value.
4. A large economical dehumidifier according to claim 1 wherein: the automatic control system is characterized by further comprising an electric switch valve, wherein the electric switch valve is connected with the first controller (5), and the first controller (5) controls the opening and closing of the air storage tank (7) through the electric switch valve.
5. A large economical dehumidifier according to claim 1 wherein: the auxiliary energy supply assembly (2) is fixed on the shell of the dehumidifier main body (1).
6. Dehumidification unit, its characterized in that: the large-scale economical dehumidifier comprises a base (13), an auxiliary energy supply assembly (2) is mounted on the base (13), a placing area (14) for placing the dehumidifier main bodies (1) is arranged on the base (13), at least two dehumidifier main bodies (1) can be placed in the placing area (14), a pipe groove (15) is formed in the middle of the base (13), and a lead connected to each dehumidifier main body (1) is arranged in the pipe groove (15).
7. Dehumidification unit according to claim 6, wherein: the primary machine main body is provided with a second controller (16), the double-power-supply change-over switch (3) in claim 6 is removed, a first power switch (17) and a second controller (16) are arranged between the auxiliary energy supply assembly (2) and the dehumidifier main body (1) and connected, and the second controller (16) is also connected with a second power switch (18) for controlling the on-off of the commercial power; when the first power switch (17) is in an open state, the second controller (16) closes the second power switch (18), and the auxiliary energy supply assembly (2) supplies power; when the first power switch (17) is in an off state, the second controller (16) turns on the second power switch (18) to supply power by mains supply.
Priority Applications (1)
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CN202221715339.6U CN218495199U (en) | 2022-06-29 | 2022-06-29 | Large-scale economical dehumidifier and dehumidification unit |
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CN202221715339.6U CN218495199U (en) | 2022-06-29 | 2022-06-29 | Large-scale economical dehumidifier and dehumidification unit |
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CN218495199U true CN218495199U (en) | 2023-02-17 |
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CN202221715339.6U Active CN218495199U (en) | 2022-06-29 | 2022-06-29 | Large-scale economical dehumidifier and dehumidification unit |
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2022
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