CN220292458U - Network security monitoring terminal of power monitoring system - Google Patents

Abstract

The utility model discloses a network safety monitoring terminal of an electric power monitoring system, and particularly relates to the technical field of electric power monitoring equipment. According to the network safety monitoring terminal of the electric power monitoring system, dust impurities in the air are adsorbed through the filter screen in the dust removing component, so that a dust removing effect is achieved, and the influence of dust on equipment operation is reduced; the condensation water in the condensation component is used for cooling and condensing water molecules in air bubbles, so that a dehumidification effect is achieved, meanwhile, the low-temperature condensation water can also be used for cooling air, the internal temperature of equipment is reduced, and the working efficiency of the equipment is improved.

Description

Network security monitoring terminal of power monitoring system

Technical Field

The utility model relates to the technical field of power monitoring equipment, in particular to a network security monitoring terminal of a power monitoring system.

Background

The power monitoring system is an important component of the power industry, and is an information system based on computer and network technology for monitoring, controlling and managing the electric energy production and supply process, and is a product of organically combining the power technology, the computer technology and the network technology; factors such as temperature, humidity, dust and the like in a working environment in the running process of the system can influence the running efficiency of equipment;

the utility model discloses a network safety monitoring terminal of an electric power monitoring system, which comprises a shell, wherein a display screen is arranged at the top of the shell, a suction pump is arranged at the right side of an inner cavity of the shell near the bottom, a suction pipe is arranged at the bottom of the suction pump, and a main board is arranged at the inner cavity of the shell near the rear side.

The equipment in above-mentioned document is handled the dust of equipment inside through the brush, can improve the work efficiency of equipment, but in the in-service use in-process, the device can't control other parameters that need adjust such as the inside temperature of equipment, humidity, need additionally increase other equipment and adjust, increased energy and resource consumption.

Disclosure of Invention

The utility model mainly aims to provide a network safety monitoring terminal of an electric power monitoring system, which can effectively solve the problem that the existing device has single function of adjusting the internal environment of equipment.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the utility model provides an electric power monitored control system network safety monitoring terminal, includes the cabinet body, cabinet body front end right-hand member rotates and is connected with the cabinet door, cabinet body right-hand member lower part fixedly connected with temperature and humidity sensor, temperature and humidity sensor runs through cabinet body right-hand member and extends to cabinet body inner chamber, cabinet door front end upper portion fixedly connected with display screen, cabinet door front end middle part fixedly connected with control panel, cabinet body inner chamber upper portion fixedly connected with fresh air chamber, cabinet body inner chamber bottom is provided with the division board, cabinet body bottom fixedly connected with dust removal subassembly, dust removal subassembly bottom fixedly connected with dehumidification cooling subassembly.

Preferably, the dust removal assembly comprises a first shell, a suction fan is fixedly connected with the middle part of the first upper end of the first shell in a bilateral symmetry manner, a separation plate is fixedly connected with the first upper end of the first shell together, the suction fan penetrates through the first upper end of the first shell and extends to an inner cavity of the first shell, filter plates are slidably connected to the left part and the right part of the first inner cavity of the first shell respectively, an air supply pipe is fixedly connected to the left surface and the right surface of the first shell in a bilateral symmetry manner, the air supply pipe penetrates through the first outer surface of the first shell and extends to the first inner cavity of the first shell, a shunt opening is formed in the bottom of the first inner cavity of the first shell, and the first bottom of the first shell is fixedly connected with the dehumidifying and cooling assembly.

Preferably, the dehumidification cooling assembly comprises a second shell, wherein the cooling chamber is symmetrically and fixedly connected with the left inner cavity and the right inner cavity of the second shell, a plurality of ventilation openings are formed in the bottom end of the second shell, and the upper end of the second shell is fixedly connected with the bottom end of the first shell.

Preferably, the cooling chamber comprises a gas pipe, the outer surface of the second right end of the blast pipe penetrates through the shell to extend to the inner cavity of the cooling chamber and is fixedly connected with the middle part of the bottom end of the gas pipe, the upper end of the gas pipe is fixedly connected with a plurality of aeration heads, the outer surfaces of the opposite sides of the cooling chamber are respectively fixedly connected with semiconductor refrigerating sheets, the upper part of the second rear end of the shell is fixedly connected with a blast pipe in bilateral symmetry, and the blast pipe penetrates through the second rear end of the shell to extend to the inner cavity of the cooling chamber.

Preferably, one end of the air outlet pipe far away from the second shell is fixedly connected with the upper part of the rear end of the fresh air chamber, the lower part of the inner cavity of the fresh air chamber is fixedly connected with a blower, and the blower penetrates through the lower part of the inner cavity of the fresh air chamber and extends to the inner cavity of the cabinet body.

Preferably, the middle part of the rear end of the cooling chamber is provided with a transparent window, the bottom of the rear end of the second shell is fixedly connected with a water pipe, the water pipe penetrates through the rear end of the second shell and extends to the inner cavity of the cooling chamber, and the middle part of the upper end of the water pipe is fixedly connected with a valve.

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

1. according to the utility model, the exhaust fan is used for sucking air in the equipment into the dust removing assembly, and the dust impurities in the air are adsorbed by the filter screen, so that the dust removing effect is achieved, and the air in the equipment can be circularly updated by matching with the blower in the fresh air room, so that the influence of the dust impurities on the operation of the equipment is reduced.

2. According to the utility model, the condensed water in the condensing assembly is used for cooling and condensing water molecules in air bubbles, so that a dehumidification effect is realized, meanwhile, the low-temperature condensed water can be used for cooling the sucked air, and the internal temperature of the equipment is reduced, so that the working efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic cross-sectional view of the bottom structure of the device lumen of the present utility model;

FIG. 3 is a schematic cross-sectional view of a dust removal assembly and a dehumidification cooling assembly according to the present utility model;

FIG. 4 is a schematic diagram of a rear view of the dehumidification cooling assembly of the present utility model;

FIG. 5 is a schematic view of a cross-sectional structure of a fresh air compartment according to the present utility model.

In the figure: 1. a cabinet body; 11. a cabinet door; 2. a temperature and humidity sensor; 3. a dust removal assembly; 31. a first shell; 32. an exhaust fan; 33. a filter sheet; 34. an air supply pipe; 35. a shunt port; 4. a dehumidifying and cooling assembly; 41. a second shell; 42. a valve; 43. a cooling chamber; 431. a gas pipe; 432. an aeration head; 433. a semiconductor refrigeration sheet; 44. a vent; 45. an air outlet pipe; 46. a water pipe; 47. a transparent window; 5. a display screen; 6. a partition plate; 7. a new air chamber; 8. a blower; 9. and (5) a control panel.

Detailed Description

The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

As shown in fig. 1, fig. 2 and fig. 5, a network safety monitoring terminal of an electric power monitoring system comprises a cabinet body 1, a cabinet door 11 is rotationally connected to the right part of the front end of the cabinet body 1, a temperature and humidity sensor 2 is fixedly connected to the lower part of the right end of the cabinet body 1, the temperature and humidity sensor 2 penetrates through the right end of the cabinet body 1 and extends to the inner cavity of the cabinet body 1, a display screen 5 is fixedly connected to the upper part of the front end of the cabinet door 11, a control board 9 is fixedly connected to the middle part of the front end of the cabinet door 11, a fresh air chamber 7 is fixedly connected to the upper part of the inner cavity of the cabinet body 1, a separation board 6 is arranged at the bottom of the inner cavity of the cabinet body 1, a dust removing component 3 is fixedly connected to the bottom end of the cabinet body 1, and a dehumidifying and cooling component 4 is fixedly connected to the bottom end of the dust removing component 3.

When the equipment is used, the temperature and humidity sensor 2 can feed back the real-time temperature and humidity conditions to the control board 9, and the control board 9 can adjust the running frequency and the running time of the equipment so as to control the temperature and humidity inside the equipment; the display 5 can look up and set parameters of the internal monitoring system under the condition of opening the machine body, belongs to standard configuration of the existing equipment, and is not described in detail in the utility model.

As shown in fig. 3, the dust removing assembly 3 includes a first housing 31, a suction fan 32 is symmetrically and fixedly connected in the middle of the upper end of the first housing 31, a separation plate 6 is fixedly connected between the suction fan 32 and the upper end of the first housing 31, the suction fan 32 penetrates through the upper end of the first housing 31 to extend into the inner cavity of the first housing 31, filter plates 33 are slidably connected to the left and right parts of the inner cavity of the first housing 31, an air supply pipe 34 is symmetrically and fixedly connected to the outer surface of the first housing 31, the air supply pipe 34 penetrates through the outer surface of the first housing 31 to extend into the inner cavity of the first housing 31, a diversion opening 35 is formed in the bottom of the inner cavity of the first housing 31, and the bottom end of the first housing 31 is fixedly connected with the dehumidifying and cooling assembly 4.

The isolation plate 6 arranged at the upper end of the dust removal component 3 can isolate sundries with larger volume such as a line, a screw which falls off during maintenance and the like from the exhaust fan 32 while exhausting air, so that equipment is prevented from being damaged; the filter 33 in the first shell 31 can absorb dust and impurities, and after a certain period, the filter can be extracted, replaced or cleaned, and the filter can be matched with the blower 8 in the new air chamber 7 to circularly update the air in the equipment, so that the influence of the dust and impurities on the operation of the equipment is reduced;

the split port 35 at the bottom of the inner cavity of the first shell 31 can send part of air to the opposite sides of the two semiconductor refrigeration sheets 433, namely the hot end of the semiconductor refrigeration sheet 433, so that the hot end of the semiconductor refrigeration sheet 433 is cooled, and the temperature of the solution in the cooling chamber 43 is ensured to be lower than the condensation temperature.

As shown in fig. 4, the dehumidifying cooling assembly 4 comprises a second housing 41, wherein the inner cavity of the second housing 41 is symmetrically and fixedly connected with a cooling chamber 43, a plurality of ventilation openings 44 are formed in the bottom end of the second housing 41, and the upper end of the second housing 41 is fixedly connected with the bottom end of the first housing 31.

As shown in fig. 3, the cooling chamber 43 includes a gas pipe 431, the gas pipe 34 extends to the inner cavity of the cooling chamber 43 through the outer surface of the right end of the second housing 41 and is fixedly connected with the middle part of the bottom end of the gas pipe 431, the upper end of the gas pipe 431 is fixedly connected with a plurality of aeration heads 432, the outer surfaces of opposite sides of the two cooling chambers 43 are respectively and fixedly connected with a semiconductor refrigerating sheet 433, the upper part of the rear end of the second housing 41 is symmetrically and fixedly connected with a gas outlet pipe 45, and the gas outlet pipe 45 extends to the inner cavity of the cooling chamber 43 through the rear end of the second housing 41.

The top of the aeration head 432 is provided with a plurality of small air holes, which can divide the input air into fine air bubbles for output, thereby enhancing the substance exchange rate between gas molecules and water, when the temperature in the water is lower than the air temperature, the air can be cooled, so that water molecules in the air are condensed and separated, the air is cooled while dehumidification is performed, the low-temperature air is beneficial to heat dissipation of running equipment, and the internal temperature of the equipment is reduced, so that the working efficiency is improved;

as shown in fig. 4, one end of the air outlet pipe 45, which is far away from the second shell 41, is fixedly connected with the upper part of the rear end of the fresh air chamber 7, the lower part of the inner cavity of the fresh air chamber 7 is fixedly connected with the blower 8, and the blower 8 penetrates through the lower part of the inner cavity of the fresh air chamber 7 and extends to the inner cavity of the cabinet body 1.

As shown in fig. 4, a transparent window 47 is formed in the middle of the rear end of the cooling chamber 43, a water pipe 46 is fixedly connected to the bottom of the rear end of the second housing 41, the water pipe 46 penetrates through the rear end of the second housing 41 to extend to the inner cavity of the cooling chamber 43, and a valve 42 is fixedly connected to the middle of the upper end of the water pipe 46.

Since a part of condensed water is added to the cooling chamber 43 after air treatment, after a period of operation, the liquid in the cooling chamber 43 is increased, and the risk of flooding the air duct 45 exists, a transparent window 47 is arranged at the rear end of the cooling chamber 43 so as to facilitate the inspection of the condition of the solution in the interior, and if the rated capacity is exceeded, the solution can be discharged through the valve 42 and the water pipe 46;

the working principle of the utility model is as follows: before the equipment operates, the required parameters such as temperature and humidity, dust removal frequency and the like are set through the control panel 9; during operation, the exhaust fan 32 pumps air at the bottom end into the dust removal assembly 3, dust impurities in the air are adsorbed by the action of the filter disc 33 and then are sent into the cooling chamber 43 through the air supply pipe 34, the air is crushed into fine bubbles through the aeration head 432 in the cooling chamber 43 for treatment, the treated air is sent into the fresh air chamber 7 through the air outlet pipe 45, and the fresh air chamber 7 is sent into the upper part of the inner cavity of the cabinet body 1 through the air feeder 8 in the fresh air chamber 7, so that one-time circulation work is completed.

The foregoing has shown and described the basic principles and main features of the present utility model and the advantages of the present utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a power monitoring system network safety monitoring terminal, includes cabinet body (1), its characterized in that: the novel intelligent cabinet temperature and humidity sensor is characterized in that a cabinet door (11) is rotationally connected to the right part of the front end of the cabinet body (1), a temperature and humidity sensor (2) is fixedly connected to the lower part of the right end of the cabinet body (1), the temperature and humidity sensor (2) penetrates through the right end of the cabinet body (1) and extends to the inner cavity of the cabinet body (1), a display screen (5) is fixedly connected to the upper part of the front end of the cabinet door (11), a control board (9) is fixedly connected to the middle part of the front end of the cabinet door (11), a fresh air chamber (7) is fixedly connected to the upper part of the inner cavity of the cabinet body (1), a separation plate (6) is arranged at the bottom of the inner cavity of the cabinet body (1), a dust removing component (3) is fixedly connected to the bottom end of the cabinet body (1), and a dehumidifying and cooling component (4) is fixedly connected to the bottom end of the dust removing component (3).

2. The power monitoring system network security monitoring terminal of claim 1, wherein: the dust removal assembly (3) comprises a first shell (31), an exhaust fan (32) is fixedly connected to the middle part of the upper end of the first shell (31) in a bilateral symmetry mode, a separation plate (6) is fixedly connected to the upper end of the first shell (32) together, the exhaust fan (32) penetrates through the upper end of the first shell (31) to extend to the inner cavity of the first shell (31), filter plates (33) are slidingly connected to the left part and the right part of the inner cavity of the first shell (31), an air supply pipe (34) is fixedly connected to the outer surface of the first shell (31) in a bilateral symmetry mode, the air supply pipe (34) penetrates through the outer surface of the first shell (31) to extend to the inner cavity of the first shell (31), and a split-flow port (35) is formed in the bottom of the inner cavity of the first shell (31) and is fixedly connected with the dehumidifying and cooling assembly (4).

3. The network security monitoring terminal of a power monitoring system according to claim 2, wherein: the dehumidification cooling assembly (4) comprises a second shell (41), a cooling chamber (43) is symmetrically and fixedly connected to the left and right of the inner cavity of the second shell (41), a plurality of ventilation openings (44) are formed in the bottom end of the second shell (41), and the upper end of the second shell (41) is fixedly connected with the bottom end of the first shell (31).

4. A power monitoring system network security monitoring terminal according to claim 3, characterized in that: the cooling chamber (43) comprises a gas conveying pipe (431), the outer surface of the right end of the air conveying pipe (34) penetrates through the second shell (41) to extend to the inner cavity of the cooling chamber (43) and is fixedly connected with the middle part of the bottom end of the gas conveying pipe (431), the upper end of the gas conveying pipe (431) is fixedly connected with a plurality of aeration heads (432), the outer surfaces of the opposite sides of the two cooling chambers (43) are respectively fixedly connected with a semiconductor refrigerating sheet (433), the left-right symmetry fixedly connected with the air outlet pipe (45) at the upper part of the rear end of the second shell (41), and the air outlet pipe (45) penetrates through the rear end of the second shell (41) to extend to the inner cavity of the cooling chamber (43).

5. The network security monitoring terminal of a power monitoring system of claim 4, wherein: one end of the air outlet pipe (45) away from the second shell (41) is fixedly connected with the upper part of the rear end of the fresh air chamber (7), the lower part of the inner cavity of the fresh air chamber (7) is fixedly connected with a blower (8), and the blower (8) penetrates through the lower part of the inner cavity of the fresh air chamber (7) and extends to the inner cavity of the cabinet body (1).

6. The network security monitoring terminal of a power monitoring system of claim 4, wherein: transparent window (47) has been seted up at cooling chamber (43) rear end middle part, casing two (41) rear end bottom fixedly connected with water pipe (46), water pipe (46) run through casing two (41) rear end and extend to cooling chamber (43) inner chamber, water pipe (46) upper end middle part fixedly connected with valve (42).