CN219264531U - Comprehensive energy consumption management mechanism of air conditioner - Google Patents

Abstract

The utility model provides an energy consumption comprehensive management mechanism of an air conditioner, and belongs to the technical field of management mechanisms. The energy consumption management mechanism box comprises an energy consumption management mechanism box, wherein two layers of fixing blocks are arranged on the upper portion and the lower portion of the energy consumption management mechanism box, a plurality of L-shaped fixing plates are arranged on the two layers of fixing blocks through a plug-in mechanism, a temperature sensor is arranged at the center of the bottom end of the energy consumption management mechanism box through a clamping mechanism, an ammeter, a voltmeter and a total energy consumption meter are respectively arranged on the plurality of fixing plates of the upper layer of fixing block, and an A/D conversion module, a central intelligent processing module and an air conditioner controller module are respectively arranged on the plurality of fixing plates of the lower layer of fixing block. The utility model can directly disassemble the single equipment part for maintenance and inspection when the single equipment part is damaged, has convenient operation and high disassembly speed, and avoids the trouble that the time for unscrewing the screw to take out the equipment part is long and the operation is inconvenient in the past; and the energy saving and emission reduction effects are achieved without the need of actively performing manual operation by a user.

Description

Comprehensive energy consumption management mechanism of air conditioner

Technical Field

The utility model provides an energy consumption comprehensive management mechanism of an air conditioner, and belongs to the technical field of management mechanisms.

Background

The information disclosed in the background of the utility model is only for enhancement of understanding of the general background of the utility model and is not necessarily to be taken as an admission or any form of suggestion that this information forms the prior art already known to a person of ordinary skill in the art.

Air Conditioner (Air Conditioner). The device is used for adjusting and controlling parameters such as temperature, humidity, cleanliness, flow rate and the like of ambient air in buildings and structures by manual means. Generally comprises a cold source/heat source device, a cold and hot medium conveying and distributing system, an end device and other auxiliary devices. The system mainly comprises a refrigeration host, a water pump, a fan and a pipeline system. The tail end device is responsible for specifically processing the air state by utilizing the transmitted cold and heat quantity, so that the air parameters of the target environment meet the requirements. The colleges and universities are comprehensive places integrating teaching, scientific research, work and life, and have large population density and more electric equipment. In recent years, large-sized energy-saving equipment such as air conditioners are rapidly popularized in college student apartments and teaching buildings, and the energy demand is in a trend of rapid rise, so that annual average energy consumption of the air conditioners is very high.

Most of the traditional air conditioner control methods require manual operation actively, the working mode set by a user during air conditioner mode selection is not necessarily correct, the accuracy of the set target temperature value is low, and better comfort and energy conservation are difficult to achieve. In addition, the prediction of the air conditioner on time by the user is often inaccurate, so that the problems of too late air conditioner on time, uncomfortable indoor temperature, too early air conditioner on time and energy waste are caused.

In the like products on the market at present, each module of the energy consumption integrated management device can only work independently, the intelligent management effect of the air conditioner is not ideal enough, the energy-saving effect is not enough, electric energy is wasted, intelligent control is needed to be carried out on the air conditioner, the independently-working modules are subjected to integrated intelligent control, so that energy resources are saved, greenhouse gas emission is reduced under the condition that the comfort level of people is not affected, meanwhile, the condition that the parts of the internal equipment of the energy consumption integrated management device are damaged in the intelligent management process of the air conditioner by the energy consumption integrated management device is utilized, common equipment parts are fixedly arranged inside the energy consumption integrated management device through screws, the screw needs to be unscrewed to take down the equipment parts for maintenance and inspection, the time spent is long, and the working efficiency is reduced, so that an energy consumption integrated management mechanism of the air conditioner is provided.

Disclosure of Invention

The comprehensive energy consumption management mechanism of the air conditioner is simple in structure, can be directly disassembled for maintenance and inspection when a single equipment part is damaged, is convenient to operate, and is fast in disassembly speed, so that the trouble that the time for taking out the equipment part by unscrewing the screw is long and the operation is inconvenient in the past is avoided; and the energy saving and emission reduction effects are achieved without the need of actively performing manual operation by a user.

The utility model provides an energy consumption comprehensive management mechanism of an air conditioner, which comprises an energy consumption management mechanism box and air conditioning equipment, wherein two layers of fixing blocks are arranged in the energy consumption management mechanism box up and down, a plurality of L-shaped fixing plates are arranged on the two layers of fixing blocks through a plug-in mechanism, a limiting plate is arranged below the front lower ends of the two layers of fixing blocks corresponding to the fixing plates, the bottom ends of the fixing plates are clamped on the limiting plate, a temperature sensor is arranged at the center of the bottom end of the energy consumption management mechanism box through a clamping mechanism, an ammeter, a voltmeter and a total energy consumption meter are respectively arranged on the plurality of fixing plates of the upper layer of fixing blocks, an A/D conversion module, a central intelligent processing module and an air conditioning controller module are respectively arranged on the plurality of fixing plates of the lower layer of fixing blocks, the air conditioning equipment is respectively connected with the temperature sensor and the air conditioning controller module, the temperature sensor is connected with the A/D conversion module, the A/D conversion module is connected with the central intelligent processing module, the central intelligent processing module is connected with the central intelligent processing module, and the ammeter, the ammeter and the air conditioning controller is respectively connected with the ammeter and the total energy consumption meter.

Furthermore, the plug-in mechanism comprises a slot and a plug board, a plurality of slots are formed in the two layers of the fixing blocks, the bottom end of the plug board is movably plugged in the slot, and the top end of the plug board is fixedly connected with the back of the horizontal section of the fixing plate.

Further, the plugboard and the fixing plate are integrally formed.

Further, the clamping groove is formed in the position, corresponding to the bottom end of the fixing plate, of the top end of the limiting plate, and the bottom end of the fixing plate is movably clamped inside the clamping groove.

Furthermore, a switch door is arranged on the front surface of the energy consumption management mechanism box, and an observation window is arranged on the switch door.

Furthermore, the two sides of the energy consumption management mechanism box are symmetrically provided with mounting plates, and the mounting plates are provided with mounting holes.

Further, the block mechanism includes vertical board, an L-shaped board, no. two L-shaped boards, connecting plate, stopper, the vertical board of bottom center fixedly connected with of energy consumption management mechanism case, an L-shaped board is installed to the bottom of vertical board, form the block groove between an L-shaped board and the vertical board, the vertical section block of No. two L-shaped boards is inside the block groove, the top integrated into one piece of No. two L-shaped boards has the connecting plate, install temperature sensor on the connecting plate.

Further, the stopper is installed to the bottom of vertical board, the spacing groove has been seted up to the top one side of stopper position that corresponds the connecting plate, the spacing movable mounting in spacing inslot portion of bottom of connecting plate.

The utility model has the beneficial effects that:

1. according to the utility model, by utilizing the design of the fixing block, the inserting mechanism, the fixing plate, the limiting plate and the clamping groove in the energy consumption management mechanism box and the design of the clamping mechanism at the bottom end of the energy consumption management mechanism box, when a single equipment part is damaged, the single equipment part can be directly disassembled for maintenance and inspection, the operation is very convenient, the disassembling speed is high, and the trouble that the traditional equipment part is required to be unscrewed and disassembled by screw installation is avoided.

2. According to the utility model, the design of the ammeter, the voltmeter and the total energy consumption meter is utilized, the current, the voltage and the energy consumption of the air conditioner can be measured and displayed, the indoor temperature is sensed through the design of the temperature sensor, the A/D conversion module, the central intelligent processing module and the air conditioner controller module, the temperature signal is transmitted to the A/D conversion module, the A/D conversion module converts the temperature signal into a number and transmits the number to the central intelligent processing module, and the central intelligent processing module analyzes an optimal control scheme of the air conditioner according to the indoor temperature and transmits the data and instructions to the air conditioner controller module. The intelligent management device has the advantages that the intelligent management of the air conditioner is realized, and the problems that the intelligent management effect of the air conditioner is not ideal enough and the energy saving effect is poor are effectively solved.

Drawings

Fig. 1 is a schematic structural diagram of an integrated energy consumption management mechanism of an air conditioner.

Fig. 2 is a schematic structural diagram of a total energy consumption table of an integrated energy consumption management mechanism of an air conditioner.

Fig. 3 is a schematic side view structure of an integrated energy consumption management mechanism of an air conditioner.

Fig. 4 is a schematic structural diagram of a plug-in mechanism of an integrated energy consumption management mechanism of an air conditioner.

Fig. 5 is a schematic side view of a locking mechanism of an integrated energy consumption management mechanism of an air conditioner according to the present utility model.

Fig. 6 is a schematic diagram of a front structure of an integrated energy consumption management mechanism of an air conditioner according to the present utility model.

Fig. 7 is a schematic diagram of a device connection structure of an integrated energy consumption management mechanism of an air conditioner.

1. An energy consumption management mechanism box; 2. an air conditioning apparatus; 3. a fixed block; 4. a plug-in mechanism; 401. a slot; 402. inserting plate; 5. a fixing plate; 6. a limiting plate; 7. a temperature sensor; 8. an ammeter; 9. a voltmeter; 10. a total energy consumption meter; 11. an A/D conversion module; 12. a central intelligent processing module; 13. an air conditioner controller module; 14. a clamping groove; 15. opening and closing a door; 16. an observation window; 17. a mounting plate; 18. a mounting hole; 19. a clamping mechanism; 1901. a vertical plate; 1902. a first L-shaped plate; 1903. a second L-shaped plate; 1904. a connecting plate; 1905. a limiting block; 1906. a clamping groove; 1907. limiting groove

Detailed Description

The utility model will be further described with reference to the accompanying drawings

According to the drawings 1-7, the comprehensive energy consumption management mechanism of the air conditioner provided by the utility model comprises an energy consumption management mechanism box 1 and air conditioning equipment 2, wherein two layers of fixing blocks 3 are arranged in the energy consumption management mechanism box 1 up and down, a plurality of L-shaped fixing plates 5 are arranged on the two layers of fixing blocks 3 through a plug-in mechanism 4, a limiting plate 6 is arranged below the fixing plates 5 corresponding to the lower ends of the front surfaces of the two layers of fixing blocks 3, the bottom ends of the fixing plates 5 are clamped on the limiting plate 6, the bottom center of the energy consumption management mechanism box 1 is provided with a temperature sensor 7 through a clamping mechanism 19, the plurality of fixing plates 5 of the upper layer of fixing blocks 3 are respectively provided with an ammeter 8, a voltmeter 9 and a total consumption energy meter 10, the plurality of fixing plates 5 of the lower layer of fixing blocks 3 are respectively provided with an A/D conversion module 11, a central intelligent processing module 12 and an air conditioning controller module 13, the air conditioning equipment 2 is respectively connected with the temperature sensor 7 and the air conditioning controller module 13, the temperature sensor 7 and the ammeter 9 and the central processing module 12 are respectively connected with the ammeter 11, the central processing module 12 and the central processing module 12, and the central processing module 12 is also connected with the ammeter 11 and the central processing module 12.

Specifically, the plugging mechanism 4 includes a slot 401 and a plugboard 402, two layers of the fixing blocks 3 are provided with a plurality of slots 401, the bottom end of the plugboard 402 is movably plugged in the slot 401, the top end of the plugboard 402 is fixedly connected with the back of the horizontal section of the fixing plate 5, the plugboard 402 and the fixing plate 5 are integrally formed, the top end of the limiting plate 6 corresponds to the bottom end of the fixing plate 5, and a clamping groove 14 is formed in the position of the top end of the limiting plate 6, and the bottom end of the fixing plate 5 is movably clamped in the clamping groove 14. According to the design, the plugboard 402 is only required to be taken down from the inside of the slot 401, and meanwhile, the bottom end of the fixing plate 5 is separated from the inside of the clamping groove 14, so that the purpose of conveniently taking down corresponding equipment parts can be achieved, and the trouble that the time for taking out the equipment parts by unscrewing the screw is long and the operation is inconvenient in the past is avoided.

Specifically, the front of the energy consumption management mechanism box 1 is provided with a switch door 15, the switch door 15 is provided with an observation window 16, two sides of the energy consumption management mechanism box 1 are symmetrically provided with mounting plates 17, and the mounting plates 17 are provided with mounting holes 18. The current, voltage and energy consumption data on the ammeter, voltmeter and total energy consumption meter can be visually seen from the observation window 16, and the mounting plate 17 can be mounted on the wall through the mounting holes 18 and external bolts.

Specifically, the clamping mechanism 19 includes vertical board 1901, an L-shaped board 1902, no. two L-shaped boards 1903, connecting plate 1904, stopper 1905, the vertical board 1901 of bottom center fixedly connected with of energy consumption management mechanism case 1, an L-shaped board 1902 is installed to the bottom of vertical board 1901, form clamping groove 1906 between an L-shaped board 1902 and the vertical board 1901, no. two L-shaped boards 1903's vertical section block is inside clamping groove 1906, no. two L-shaped boards 1903's top integrated into one piece has connecting plate 1904, install temperature sensor 7 on the connecting plate 1904, stopper 1905 is installed to the bottom of vertical board 1901, the spacing groove 1907 has been seted up to the position that corresponds connecting plate 1904 in top one side of stopper 1905, spacing movable mounting in spacing groove 1907 is inside to the bottom of connecting plate 1904. This structure also makes things convenient for taking off of temperature sensor 7, and temperature sensor 7 sets up in the outside of energy consumption management mechanism case 1, is in order to avoid installing in the inside heat dissipation that receives the work of the inside equipment of energy consumption management mechanism case 1 and influences, and then more accurate response indoor temperature.

The working principle of the utility model

During installation, the installation plate 17 is fixedly installed on a wall through the installation holes 18 and external bolts, when the energy consumption management mechanism is used, the data on the ammeter 8, the voltmeter 9 and the total energy consumption meter 10 can be visually seen through the observation window 16, the current, the voltage and the energy consumption of an air conditioner are known, when the ammeter 8 in the energy consumption management mechanism box 1 needs to be maintained, the bottom end of the hand-held ammeter 8 is lifted upwards, the plugboard 402 is separated from the inside of the slot 401, the ammeter 8 is taken down to be maintained and checked, other equipment parts can be checked by the method, the operation is very convenient, the disassembling speed is very fast, and the trouble that the time for taking out the equipment parts by unscrewing the screw in the past is long and the operation is inconvenient is avoided; the indoor temperature can be sensed through the temperature sensor 7, the temperature signal is transmitted to the A/D conversion module 11, the A/D conversion module 11 converts the temperature signal into a digital signal, the digital signal is transmitted to the central intelligent processing module 12, the central intelligent processing module 12 analyzes and judges the comfort level of the ambient temperature according to the indoor temperature, the starting-up and shutdown states of the air conditioning equipment are set according to the comfort level, an ambient temperature control scheme corresponding to the ambient environment is formulated, and data and instructions are transmitted to the air conditioning controller module 13, so that the accurate control of the air conditioning equipment is realized.

The utility model and its embodiments have been described in terms of components which are standard components or which are known to those skilled in the art, whose construction and principle are known to those skilled in the art from technical manuals or by routine experimentation, and are not limited to the embodiments shown in the drawings, but are only one of them, without limiting the actual construction. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present utility model.

Claims (8)

1. An energy consumption integrated management mechanism of an air conditioner is characterized in that: the intelligent air conditioner comprises an energy consumption management mechanism box (1) and air conditioning equipment (2), wherein two layers of fixing blocks (3) are arranged in the energy consumption management mechanism box (1), a plurality of L-shaped fixing plates (5) are arranged on the fixing blocks (3) through plug mechanisms (4), limiting plates (6) are arranged below the fixing plates (5) corresponding to the lower ends of the front surfaces of the fixing blocks (3), the bottom ends of the fixing plates (5) are connected onto the limiting plates (6) in a clamping mode, a temperature sensor (7) is arranged at the center of the bottom end of the energy consumption management mechanism box (1) through a clamping mechanism (19), an ammeter (8), a voltmeter (9) and a total energy consumption meter (10) are arranged on the fixing plates (5) of the fixing blocks (3) respectively, an A/D conversion module (11), a central intelligent processing module (12) and an air conditioner controller module (13) are arranged on the fixing plates (5) of the lower layer, the air conditioner equipment (2) is connected with the temperature sensor (7), the temperature sensor (7) and the air conditioner module (11) are connected with the air conditioner module (11), the central intelligent processing module (12) is connected with the air conditioner controller module (13), and the air conditioner (2) is also connected with the ammeter (8), the voltmeter (9) and the total energy consumption meter (10) respectively.

2. The integrated management mechanism for energy consumption of air conditioner according to claim 1, wherein: the plug-in mechanism (4) comprises a slot (401) and a plug board (402), a plurality of slots (401) are formed in the two layers of the fixed blocks (3), the bottom end of the plug board (402) is movably plugged in the slot (401), and the top end of the plug board (402) is fixedly connected with the back of the horizontal section of the fixed plate (5).

3. The integrated management mechanism for energy consumption of air conditioner according to claim 2, wherein: the plugboard (402) and the fixing plate (5) are integrally formed.

4. The integrated management mechanism for energy consumption of air conditioner according to claim 1, wherein: the top of limiting plate (6) corresponds draw-in groove (14) have been seted up to the position of fixed plate (5) bottom, the inside at draw-in groove (14) of the activity joint in bottom of fixed plate (5).

5. The integrated management mechanism for energy consumption of air conditioner according to claim 1, wherein: the front of the energy consumption management mechanism box (1) is provided with a switch door (15), and the switch door (15) is provided with an observation window (16).

6. The integrated management mechanism for energy consumption of air conditioner according to claim 1, wherein: the two sides of the energy consumption management mechanism box (1) are symmetrically provided with mounting plates (17), and the mounting plates (17) are provided with mounting holes (18).

7. The integrated management mechanism for energy consumption of air conditioner according to claim 1, wherein: the utility model provides a thermal energy consumption management mechanism box, including block mechanism (19), including vertical board (1901), L template (1902), no. two L templates (1903), connecting plate (1904), stopper (1905), vertical board (1901) of bottom center fixedly connected with of energy consumption management mechanism box (1), L template (1902) are installed to the bottom of vertical board (1901), form block groove (1906) between L template (1902) and vertical board (1901), the vertical section block of No. two L templates (1903) is inside block groove (1906), the top integrated into one piece of No. two L templates (1903) has connecting plate (1904), install temperature sensor (7) on connecting plate (1904).

8. The integrated management mechanism for energy consumption of an air conditioner according to claim 7, wherein: limiting blocks (1905) are arranged at the bottom ends of the vertical plates (1901), limiting grooves (1907) are formed in the positions, corresponding to the connecting plates (1904), of one sides of the top ends of the limiting blocks (1905), and the bottom ends of the connecting plates (1904) are movably mounted in the limiting grooves (1907) in a limiting mode.

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