CN211637583U - Dust removing device for electrical components - Google Patents

Abstract

The utility model provides a dust collector of electrical components belongs to machinery. This dust collector includes: the device comprises a shell, a first operation port, a second operation port, a third operation port and a dust collection port; the shell comprises a left side plate, a right side plate, an upper cover plate, a bottom plate, a back plate, a left front door and a right front door; the first operation port is arranged on the left side plate, the second operation port is arranged on the right side plate, the third operation port is arranged on the upper cover plate, and the dust collection port is arranged on the back plate; the left front door is connected with the left side plate, and the right front door is connected with the right side plate; the first operation port, the second operation port and the third operation port are used for cleaning dust on electrical components when the cleaning tool enters the shell; and the dust suction port is used for discharging dust in the shell. Dust is collected in the shell and is discharged out through the dust collection port; therefore, the dust in the shell can not be discharged into the outside air to pollute the environment, and meanwhile, cleaning personnel can not hurt the body due to the dust sucked into the air.

Description

Dust removing device for electrical components

Technical Field

The disclosure relates to the field of machinery, in particular to a dust removal device for electrical components.

Background

When electrical components such as a computer motherboard are placed indoors or outdoors for a long time, dust gradually deposits on the surfaces of the electrical components. Wherein, the dust not only influences the heat dissipation of electrical components, still can influence the function of some electrical components. For example, the storage information of the computer program and data in the computer motherboard is affected, resulting in "read" and "write" errors of the computer program and data. Therefore, the electrical components need to be periodically dusted.

At present, dust on electrical components is generally cleaned manually, but in the manual cleaning process, the dust is dispersed, so that air is polluted and the environment is affected; cleaning personnel can also cause harm to the body due to dust sucked into the air.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides an electrical component's dust collector for solve artifical manual clearance electrical component's dust in-process, not only the polluted environment still causes the problem of injury to clearance personnel's health. The technical scheme is as follows:

the utility model provides an electrical components's dust collector, dust collector includes: the device comprises a shell, a first operation port, a second operation port, a third operation port and a dust collection port;

the shell comprises a left side plate, a right side plate, an upper cover plate, a bottom plate, a back plate, a left front door and a right front door; the first operation port is arranged on the left side plate, the second operation port is arranged on the right side plate, the third operation port is arranged on the upper cover plate, and the dust collection port is arranged on the back plate;

the left front door is connected with the left side plate, and the right front door is connected with the right side plate;

when the left front door and the right front door are opened, the electric appliance component is put in; when the left front door and the right front door are closed, the left front door and the right front door are mutually engaged;

the first operation port, the second operation port and the third operation port are used for cleaning dust on the electrical appliance element when a cleaning tool enters the shell;

the dust suction port is used for discharging dust in the shell.

In the embodiment of the disclosure, dust on the electrical components is cleaned by the cleaning tool and then is collected in the shell and is intensively and uniformly discharged through the dust suction port; therefore, when the dust removing device is used for cleaning dust on electrical elements, the dust in the shell cannot be discharged into the outside air to pollute the environment, and meanwhile, cleaning personnel cannot hurt the body due to the dust sucked into the air.

In another possible implementation manner, the dust removing device further comprises an insulating pad;

the insulating pad is paved on the bottom plate;

the insulating pad is used for preventing the electrical appliance element from being damaged by static electricity.

In this disclosed embodiment, in the process of clearing up electrical components, the surface of insulating pad is smooth, can not adhere to the dust, is favorable to the clearance of dust, and insulating pad can avoid electrical components to produce static moreover, prevents that static from causing the damage to electrical components, has improved dust collector's security.

In another possible implementation manner, the dust removing device further comprises a dust collecting device;

the dust collection equipment is connected with the dust collection port and used for sucking dust in the shell.

In the embodiment of the disclosure, the dust collection port of the dust collection device is connected with the dust collection port of the dust collection device, so that negative pressure can be generated in air in the shell when the dust collection device works normally, dust in the shell is cleaned, and convenience of the dust collection device is improved.

In another possible implementation manner, a first operation window is disposed on the first operation port, a second operation window is disposed on the second operation port, and a third operation window is disposed on the third operation port;

the first operation window for preventing dust in the housing from being discharged out of the housing through the first operation port;

the second operation window for preventing dust in the housing from being discharged out of the housing through the second operation port;

the third operation window is used for preventing the dust in the shell from being discharged out of the shell through the third operation port.

In the disclosed embodiment, the first operation window, the second operation window and the third operation window can prevent dust in the casing from being discharged out of the casing through the first operation port, the second operation port and the third operation port, so that the dust in the casing is prevented from being discharged into the outside air to pollute the environment, and meanwhile, cleaning personnel cannot hurt the body due to the sucked dust.

In another possible implementation, the first operating window, the second operating window, and the third operating window are louvers.

In the embodiment of the disclosure, the cleaning tool can enter the shell through the gap between the shutters to clean the electrical appliance element, the shutters can more effectively prevent dust in the shell from being discharged into the outside air to pollute the environment, and cleaning personnel can not hurt the body due to the sucked dust.

In another possible implementation manner, the dust removing device further comprises a supporting frame;

the support frame is connected with the bottom plate and used for supporting the shell.

In this disclosed embodiment, support dust collecting equipment's bottom plate through the support frame, promoted dust collecting equipment's height, the clearance personnel of being convenient for clear up electrical components, improved dust collecting equipment's comfort level.

In another possible implementation manner, the dust removing device further comprises a hinge; the left front door is connected with the left side plate through a hinge, and the right front door is connected with the right side plate through a hinge.

In another possible implementation, the material of the housing is plexiglass.

In this disclosed embodiment, organic glass is a transparent material, and light can see through organic glass and get into in the casing, at the in-process of clearance electrical components, is convenient for clearance personnel to observe the dust on the electrical components, and organic glass's mechanical strength is high, and stretch-proofing and impact resistance's ability is strong, consequently, uses organic glass can improve dust collecting equipment's security and convenience.

In another possible implementation, the dust extraction device is a vacuum cleaner.

In another possible implementation, the cleaning tool includes an electrostatic precipitation gun and a brush.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a dust removing device according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a dust removing device according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a dust removing device according to an embodiment of the present invention.

11 casing

12 first operation port

13 second operation port

14 third operation port

15 dust suction port

16 insulating pad

17 hinge

18 support frame

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of a dust removing device provided by the present invention. This dust collector includes: a housing 11, a first operation port 12, a second operation port 13, a third operation port 14 and a dust suction port 15;

the shell 11 comprises a left side plate, a right side plate, an upper cover plate, a bottom plate, a back plate, a left front door and a right front door; the first operation port 12 is arranged on the left side plate, the second operation port 13 is arranged on the right side plate, the third operation port 14 is arranged on the upper cover plate, and the dust collection port 15 is arranged on the back plate;

the left front door is connected with the left side plate, and the right front door is connected with the right side plate;

when the left front door and the right front door are opened, the electric appliance elements are put in; when the left front door and the right front door are closed, the left front door and the right front door are mutually engaged;

a first operation port 12, a second operation port 13 and a third operation port 14, which are used for cleaning dust on electrical components when a cleaning tool enters the shell 11;

and a dust suction port 15 for discharging dust in the housing 11.

In the embodiment of the present disclosure, dust on the electrical components is completely collected in the housing 11 after being cleaned by the cleaning tool, and is collectively and uniformly discharged through the dust suction port 15; therefore, when the dust removing device is used for cleaning dust on electrical components, the dust in the shell 11 can not be discharged to the outside air to pollute the environment, and meanwhile, cleaning personnel can not hurt the body due to the dust sucked into the air.

Introduction of the housing 11: the shell 11 comprises a left side plate, a right side plate, an upper cover plate, a bottom plate, a back plate, a left front door and a right front door; the first operation port 12 is provided on the left side plate, the second operation port 13 is provided on the right side plate, the third operation port 14 is provided on the upper cover plate, and the dust suction port 15 is provided on the back plate.

The material of the housing 11 may be a polymer transparent material, such as organic glass; or may be glass; the shape of the shell 11 can be a cuboid or a cube; in the embodiment of the present disclosure, the material and shape of the housing 11 are not particularly limited, and may be set and changed as needed. The material of which the housing 11 is provided is, for example, plexiglass.

The length of the shell 11 can be 0.8m, 1m or 1.2 m; the width of the shell 11 may be 0.6m, 0.7m, or 0.8 m; the height of the shell 11 can be 0.3m, also can be 0.4m, also can be 0.5 m; in the embodiment of the present disclosure, the size of the housing 11 is not particularly limited, and may be set and changed as needed. In the embodiment of the present disclosure, the case 11 is described as an example in which the shape is a rectangular parallelepiped. For example, the housing 11 is set to have a length of 0.8m, a width of 0.6m, and a height of 0.4 m; the left side plate, the right side plate, the upper cover plate, the bottom plate, the back plate, the left front door and the right front door are made of organic glass. At this time, the left and right side plates are rectangular organic glass plates with a length of 0.6m and a width of 0.3 m. The upper cover plate and the bottom plate are opposite and are rectangular organic glass plates with the length of 0.8m and the width of 0.6 m. The back plate is opposite to the left front door and the right front door, and is a rectangular organic glass plate with the length of 0.8m and the width of 0.3 m. The left front door and the right front door can be the same in size or different in size, and when the left front door and the right front door are the same in size, the left front door and the right front door are rectangular organic glass plates with the length of 0.4m and the width of 0.3 m.

In this disclosed embodiment, organic glass is a transparent material, and in light can see through organic glass and get into casing 11, at the in-process of clearance electrical components, the clearance personnel of being convenient for observe the dust on the electrical components, and organic glass's mechanical strength is high, and stretch-proofing and shock-resistant ability is strong, consequently, uses organic glass can improve dust collecting equipment's security and convenience.

In a possible implementation manner, the left side plate and the upper cover plate, the left side plate and the back plate, and the left side plate and the bottom plate can be fixed together through screws and bolts, and can also be fixed together through glass cement. The right side plate and the upper cover plate, the right side plate and the back plate, and the right side plate and the bottom plate can be fixed together through screws and bolts, and can also be fixed together through glass cement.

In another possible implementation, referring to fig. 2, the left front door is connected to the left side plate by a hinge 17, and the right front door is connected to the right side plate by a hinge 17. During the process of placing the electrical components inside the upper case 11, the left and right front doors can be opened by the hinges 17; during cleaning of the electrical components, the front left and right doors may be closed by hinges 17.

Introduction of the first operation port 12: the first operation opening 12 is arranged on the left side plate, and the first operation opening 12 is used for cleaning dust on the left side surface of an electrical component when a cleaning tool enters the shell 11. The shape of the first operation opening 12 can be rectangular, square or round; when the first operation opening 12 is rectangular, the length of the rectangle may be 10cm, 12cm or 15 cm; the width of the rectangle can be 4cm, also can be 5cm, also can be 6 cm; in the embodiment of the present disclosure, the shape and size of the first operation port 12 are not particularly limited, and may be set and changed as needed.

Introduction of the second operation port 13: the second operation opening 13 is arranged on the right side plate, and the second operation opening 13 is used for cleaning dust on the right side surface of the electrical component when a cleaning tool enters the shell 11. The shape of the second operation opening 13 can be rectangular, square or round; when the second operation opening 13 is rectangular, the length of the rectangle may be 10cm, 12cm or 15 cm; the width of the rectangle can be 4cm, also can be 5cm, also can be 6 cm; in the embodiment of the present disclosure, the shape and size of the second operation port 13 are not particularly limited, and may be set and changed as needed.

Introduction of the third operation port 14: the third operation opening 14 is arranged on the upper cover plate, and the third operation opening 14 is used for cleaning dust on the upper top surface of an electrical component when a cleaning tool enters the shell 11. The shape of the third operation opening 14 can be rectangular, square or round; when the third operation opening 14 is rectangular, the length of the rectangle may be 10cm, 12cm, or 15 cm; the width of the rectangle can be 4cm, also can be 5cm, also can be 6 cm; in the embodiment of the present disclosure, the shape and size of the third operation port 14 are not particularly limited, and may be set and changed as needed.

In one possible implementation, the cleaning tool includes an electrostatic precipitation gun and a brush. The electrostatic dust removal gun can clean floating dust on the surface of an electrical element, and the brush can further clean dust which is not easy to blow off on the electrical element.

In the disclosed embodiment, the first operation port 12, the second operation port 13 and the third operation port 14 can be used for cleaning electrical components in different directions, thereby being beneficial to cleaning dust on the electrical components and improving the dust removal effect of the dust removal device.

In another possible implementation manner, a first operation window is disposed on the first operation port 12, a second operation window is disposed on the second operation port 13, and a third operation window is disposed on the third operation port 14;

a first operation window for preventing dust inside the housing 11 from being discharged out of the housing 11 through the first operation port 12; a second operation window for preventing dust inside the housing 11 from being discharged out of the housing 11 through the second operation port 13; a third operation window for preventing dust inside the housing 11 from being discharged out of the housing 11 through the third operation port 14. Wherein, the size of the first operation window is the same as that of the first operation port 12; the second operation port 13 has the same size as the second operation window, and the third operation port 14 has the same size as the third operation window.

The material of the first operating window, the second operating window and the third operating window can be a high polymer transparent material, such as organic glass; in this case, the first, second, and third operating windows may be fixed to the first, second, and third operating ports 12, 13, and 14 by hinges 17. When the cleaning tool cleans dust on the left side surface of the electrical component through the first operation window, the first operation window is opened, and the second operation port 13 and the third operation port 14 are closed; when the cleaning tool cleans dust on the right side surface of the electrical component through the second operation window, the second operation window is opened, and the third operation port 14 are closed; when the cleaning tool cleans dust on the top surface of the electrical component through the first operation window, the third operation window is opened, and the first operation port 12 and the second operation port 13 are closed.

In the disclosed embodiment, the first operation window, the second operation window and the third operation window can prevent the dust in the housing 11 from being discharged out of the housing 11 through the first operation port 12, the second operation port 13 and the third operation port 14, prevent the dust in the housing 11 from being discharged into the outside air to pollute the environment, and simultaneously, the cleaning personnel can not hurt the body due to the sucked dust.

In another possible implementation, the first operating window, the second operating window, and the third operating window are louvers. The shutter can be made of elastic plastic or rubber and is made of elastic material; when the material of the shutter is elastic plastic, the shutter can be transparent elastic plastic or opaque elastic plastic; in the embodiment of the present disclosure, the material and the type of the louver are not particularly limited, and may be set and changed as needed.

In the embodiment of the disclosure, the cleaning tool can enter the housing 11 through the gap between the shutters to clean the electrical components, the shutters can more effectively prevent dust in the housing 11 from being discharged to the outside air to pollute the environment, and cleaning personnel cannot hurt the body due to the sucked dust.

In another possible implementation, with continued reference to fig. 2, the dust extraction device further includes an insulating pad 16; the insulating pad 16 is paved on the bottom plate; and an insulating pad 16 for preventing electrostatic damage to the electric components.

Wherein the material of the insulating pad 16 is a smooth-surfaced material. For example, the insulating pad 16 may be an insulating rubber, an elastic plastic pad, or a rubber pad. The shape of the insulating pad 16 and the shape of the base plate may be the same or different. In the embodiment of the present disclosure, the shape of the insulating pad 16 is the same as the shape of the bottom plate. The bottom plate is a rectangle with the length of 0.8m and the width of 0.6m, the shape of the insulating pad 16 is also a rectangle, the length of the rectangular insulating pad 16 can be 0.8m, 0.78m or 0.75m, and the width of the rectangular insulating pad 16 can be 0.6m, 0.68m or 0.65 m; in the disclosed embodiment, the material, shape and size of the insulating pad 16 are not particularly limited, and may be set and modified as needed.

In the embodiment of the present disclosure, in the process of cleaning the electrical component, the surface of the insulating pad 16 is smooth, so that dust is not attached to the surface of the insulating pad, which is beneficial to cleaning the dust, and the insulating pad 16 can avoid the electrical component from generating static electricity, thereby preventing the static electricity from damaging the electrical component and improving the safety of the dust removing device.

In another possible implementation manner, the dust removing device further comprises a dust suction device; the dust suction device is connected to the dust suction port 15 for sucking dust in the housing 11.

Wherein the dust collecting device can be a negative pressure fan. The air inlet of the negative pressure fan is connected with one end of a dust absorption pipe, and the other end of the dust absorption pipe is connected with a dust absorption port 15 on the back plate. The negative pressure fan generates suction force to discharge dust in the housing 11 to the outside of the housing 11.

In another possible implementation, the dust extraction device is a dust collector. Wherein the suction pipe of the dust collector is connected with the dust suction opening 15 on the back plate. When the dust collector normally works, negative pressure can be generated in the air in the sealed shell 11 to absorb dust.

In the embodiment of the disclosure, the dust collecting device is connected with the dust collecting port 15 of the dust collecting device, so that negative pressure can be generated in air in the shell 11 when the dust collecting device works normally, dust in the shell 11 is cleaned, and convenience of the dust collecting device is improved.

In another possible implementation, referring to fig. 3, the dust removing device further includes a supporting frame 18; a support bracket 18 is connected to the base plate for supporting the housing 11.

The material of the supporting frame 18 may be metal, such as iron, aluminum, etc.; but also metal alloys such as aluminum alloys; but also polymeric materials such as plastics and the like. In the embodiment of the present disclosure, the material of the support frame 18 is not particularly limited, and may be set and changed as needed.

In a possible implementation manner, the supporting frame 18 may be disposed around the dust removing device, the supporting frame 18 may be a rectangular ring, and the size of the rectangular ring is the same as that of the bottom plate. The rectangular ring and the bottom plate can be connected through a screw and a nut, and can also be fixed together through glue.

In another possible implementation manner, with continued reference to fig. 3, the supporting frame 18 may be a rectangular metal frame, which is disposed around the dust removing device and connected to the bottom plate through screws and nuts, or fixed together through rivets. Wherein, the height of the supporting frame 18 can be 0.4m, also can be 0.5m, also can be 0.6 m; in the embodiment of the present disclosure, the height of the supporting frame 18 is not particularly limited, and may be set and changed as needed.

In this disclosed embodiment, support dust collecting equipment's bottom plate through support frame 18, promoted dust collecting equipment's height, the clearance personnel of being convenient for clear up electrical components, improved dust collecting equipment's comfort level.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. A dust removing device for an electric component, comprising: the device comprises a shell, a first operation port, a second operation port, a third operation port and a dust collection port;

the shell comprises a left side plate, a right side plate, an upper cover plate, a bottom plate, a back plate, a left front door and a right front door; the first operation port is arranged on the left side plate, the second operation port is arranged on the right side plate, the third operation port is arranged on the upper cover plate, and the dust collection port is arranged on the back plate;

the left front door is connected with the left side plate, and the right front door is connected with the right side plate;

when the left front door and the right front door are opened, the electric appliance component is put in; when the left front door and the right front door are closed, the left front door and the right front door are mutually engaged;

the first operation port, the second operation port and the third operation port are used for cleaning dust on the electrical appliance element when a cleaning tool enters the shell;

the dust suction port is used for discharging dust in the shell.

2. The dust extraction device of claim 1, further comprising an insulating mat;

the insulating pad is paved on the bottom plate;

the insulating pad is used for preventing the electrical appliance element from being damaged by static electricity.

3. The dust extraction apparatus of claim 1, further comprising a dust extraction device;

the dust collection equipment is connected with the dust collection port and used for sucking dust in the shell.

4. The dust removing device according to claim 1, wherein a first operation window is provided on the first operation port, a second operation window is provided on the second operation port, and a third operation window is provided on the third operation port;

the first operation window for preventing dust in the housing from being discharged out of the housing through the first operation port;

the second operation window for preventing dust in the housing from being discharged out of the housing through the second operation port;

the third operation window is used for preventing the dust in the shell from being discharged out of the shell through the third operation port.

5. The dust removing apparatus of claim 4, wherein the first operating window, the second operating window, and the third operating window are louvers.

6. The dust extraction device of claim 1, further comprising a support frame;

the support frame is connected with the bottom plate and used for supporting the shell.

7. The dust extraction device of claim 1, further comprising a hinge;

the left front door is connected with the left side plate through a hinge, and the right front door is connected with the right side plate through a hinge.

8. The dusting apparatus of claim 1 whereby the material of the housing is plexiglass.

9. A dusting apparatus according to claim 3, characterized in that the dust-collecting device is a dust collector.

10. The dusting apparatus of claim 1 wherein the cleaning tool comprises an electrostatic dusting gun and a brush.

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