CN211875512U - Plasma cladding process monitoring device for fly ash of waste incineration power plant - Google Patents

Abstract

The utility model discloses a waste incineration power plant flying dust plasma cladding process monitoring device, including the camera, the camera passes through universal base fixed connection supporting mechanism, the supporting mechanism surface is fixedly connected with dust absorption mechanism and dust removal mechanism respectively, and dust absorption mechanism and dust removal mechanism are located camera upper and lower both sides respectively. The utility model relates to a novelty, there can be following mode to camera fixed mounting through supporting mechanism, magnetic path magnetism through backup pad right side wall intermediate position is inhaled and is fixed on the metal sheet surface, the screw of seting up through retaining member running through backup pad surface symmetry, spring clamp centre gripping through backup pad bottom fixed connection is fixed on the support piece surface, the lewis hole of seting up through the backup pad top hangs on the support piece surface, the suitability is more extensive, it lies in camera upper and lower both sides respectively to construct with dust removal mechanism through the dust absorption, improve work area's cleanliness factor and transparency, improve the definition of shooting.

Description

Plasma cladding process monitoring device for fly ash of waste incineration power plant

Technical Field

The utility model relates to a monitoring device technical field especially relates to a waste incineration power plant flying dust plasma covers process monitoring device.

Background

The garbage incineration power generation is characterized in that garbage incineration plants and garbage incineration equipment are introduced, digested and absorbed and innovated, China is required to walk a garbage incineration road sooner or later, land is more scarce than foreign cities, the garbage incineration power generation system cannot be introduced in the field on a whole, 0.25 yuan is additionally pasted for each degree of electricity according to relevant regulations, and simultaneously, value-added tax is not paid and tax is not paid. The cladding layer is a surface coating which covers the surface of the base material by melting and forms a metallurgical bond with the base material.

The prior device for monitoring the fly ash plasma cladding process of the waste incineration power plant has the following defects when in use: 1. the installation mode is single, most of the installation modes are locked and fixed through screws, and the application range has great limitation; 2. the environment of control shooting has floated dust, uses for a long time, can influence the transparency of camera, reduces the definition of shooing. Therefore, a device for monitoring the fly ash plasma cladding process of a waste incineration power plant is provided.

SUMMERY OF THE UTILITY MODEL

The utility model provides a fly ash plasma cladding process monitoring device of a waste incineration power plant, which aims to solve the problems that when the prior fly ash plasma cladding process monitoring device of the waste incineration power plant in the background technology is used, the installation mode is single, most of the fly ash plasma cladding process monitoring device is locked and fixed by screws, and the application range has great limitation; the environment of control shooting has floated dust, uses for a long time, can influence the transparency of camera, reduces the problem of the definition of shooing.

The utility model provides a specific technical scheme as follows:

the utility model provides a pair of waste incineration power plant flying dust plasma cladding process monitoring device, including the camera, the camera passes through universal base fixed connection supporting mechanism, the supporting mechanism surface is fixedly connected with dust absorption mechanism and dust removal mechanism respectively, and dust absorption mechanism and dust removal mechanism are located camera upper and lower both sides respectively.

Optionally, the supporting mechanism includes a supporting plate, a magnetic block, a screw hole, a power line jack, a spring clamp and a hanging hole.

Optionally, the magnetic path is inlayed to backup pad right side wall intermediate position, and backup pad surface symmetry has seted up the screw, backup pad surface mounting has the power cord jack, backup pad bottom fixed connection spring clamp, the lewis hole has been seted up on the backup pad top, and in the fixed camera of installation, there are following several kinds of mounting methods, and magnetic path magnetism through backup pad right side wall intermediate position is inhaled and is fixed on the metal sheet surface, runs through the screw that backup pad surface symmetry was seted up through the retaining member, and spring clamp centre gripping through backup pad bottom fixed connection fixes on the support piece surface, and the lewis hole of seting up through the backup pad top hangs on the support piece surface.

Optionally, dust absorption mechanism includes the second connecting rod respectively, the fan of breathing in and filters the otter board, second connecting rod both ends respectively with backup pad and the fan fixed connection that breathes in, the end of breathing in of fan can be dismantled and connect and filter the otter board, starts the fan of breathing in, and floaters such as the dust of camera work area receive the effect of negative pressure, and the laminating is on filtering the otter board surface, improves work area's cleanliness factor and brightness, improves the definition of shooing.

Optionally, dust removal mechanism includes first connecting rod, blowing fan and first connecting rod respectively, first connecting rod both ends respectively with backup pad and blowing fan fixed connection, the end turn-on connection air guide cover that blows of blowing fan blows floaters such as the dust of work area through blowing fan cooperation air guide cover and blowing, blows away the dust, improves work area's cleanliness factor and transparency, improves the definition of shooing.

Optionally, the suction fan and the blowing fan are respectively located on the upper side and the lower side of the camera, and through the matching operation of the suction fan and the blowing fan, the cleanliness and the transparency of a working area are improved, and the shooting definition is improved.

The utility model has the advantages as follows:

1. the utility model discloses the camera passes through universal base fixed connection supporting mechanism, supporting mechanism includes the backup pad respectively, the magnetic path, the screw, the power cord jack, spring clamp and lewis hole, there can be following mode to camera fixed mounting through supporting mechanism, the magnetic path magnetism through backup pad right side wall intermediate position is inhaled and is fixed on the metal sheet surface, run through the screw that backup pad surface symmetry was seted up through the retaining member, spring clamp centre gripping through backup pad bottom fixed connection is fixed on the support piece surface, the lewis hole of seting up through the backup pad top hangs on the support piece surface, the suitability is more extensive.

2. The utility model discloses a dust absorption mechanism and dust removal mechanism are located camera upper and lower both sides respectively, and dust absorption mechanism includes the second connecting rod respectively, the fan of breathing in and crosses filter plate, and dust removal mechanism includes first connecting rod, the fan of blowing and first connecting rod respectively, improves work area's cleanliness factor and transparency, improves the definition of shooting.

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 view of the overall structure of a device for monitoring the flying ash plasma cladding process of a waste incineration power plant in an embodiment of the present invention.

Fig. 2 is a schematic structural view of a supporting mechanism of a fly ash plasma cladding process monitoring device in a waste incineration power plant according to an embodiment of the present invention.

Fig. 3 is a schematic structural view of a dust removing mechanism of the device for monitoring the flying ash plasma cladding process of the waste incineration power plant in the embodiment of the present invention.

Fig. 4 is a schematic structural view of a dust collection mechanism of the device for monitoring the flying ash plasma cladding process of the waste incineration power plant in the embodiment of the present invention.

In the figure: 1. a support mechanism; 101. a support plate; 102. a magnetic block; 103. a screw hole; 104. a power line jack; 105. a spring clip; 106. hoisting holes; 2. a universal base; 201. a camera; 3. a dust suction mechanism; 301. a second link; 302. an air suction fan; 303. a filter screen plate; 4. a dust removal mechanism; 401. a first link; 402. an air blowing fan; 403. and a gas guide hood.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The following will explain in detail a fly ash plasma cladding process monitoring device of a waste incineration power plant according to an embodiment of the present invention with reference to fig. 1 to 4.

Referring to fig. 1, fig. 2, fig. 3 and fig. 4, the embodiment of the utility model provides a fly ash plasma cladding process monitoring device of waste incineration power plant, including camera 201, camera 201 passes through universal base 2 fixed connection supporting mechanism 1, supporting mechanism 1 surface difference fixedly connected with dust absorption mechanism 3 and dust removal mechanism 4, and dust absorption mechanism 3 and dust removal mechanism 4 are located camera 201 both sides from top to bottom respectively.

Referring to fig. 2, the support mechanism 1 includes a support plate 101, a magnetic block 102, a screw hole 103, a power cord insertion hole 104, a spring clip 105, and a hanging hole 106, respectively.

Referring to fig. 2, magnetic block 102 is inlayed at the right side wall intermediate position of supporting plate 101, and screw 103 has been seted up to supporting plate 101 surface symmetry, supporting plate 101 surface mounting has power cord jack 104, supporting plate 101 bottom fixed connection spring clamp 105, lifting hole 106 has been seted up on supporting plate 101 top, and when the fixed camera 201 of installation, there are following several kinds of mounting means, fix on the metal sheet surface through magnetic block 102 magnetism of supporting plate 101 right side wall intermediate position, run through the screw 103 that supporting plate 101 surface symmetry was seted up through the retaining member, fix on the support piece surface through the spring clamp 105 centre gripping of supporting plate 101 bottom fixed connection, hang on the support piece surface through lifting hole 106 that supporting plate 101 top was seted up.

Referring to fig. 4, the dust suction mechanism 3 includes a second connecting rod 301, an air suction fan 302 and a filter screen 303, two ends of the second connecting rod 301 are respectively fixedly connected with the supporting plate 101 and the air suction fan 302, an air suction end of the air suction fan 302 is detachably connected with the filter screen 303, the air suction fan 302 is started, and floating objects such as dust in a working area of the camera 201 are attached to the surface of the filter screen 303 under the action of negative pressure, so that the cleanliness and the transparency of the working area are improved, and the shooting definition is improved.

Referring to fig. 3, the dust removing mechanism 4 includes a first connecting rod 401, a blowing fan 402 and a first connecting rod 401, two ends of the first connecting rod 401 are respectively and fixedly connected to the supporting plate 101 and the blowing fan 402, a blowing end of the blowing fan 402 is in conduction connection with the air guide cover 403, and the blowing fan 402 is matched with the air guide cover 403 to blow air to floating objects such as dust in a working area, so that the dust is blown away, the cleanliness and the transparency of the working area are improved, and the shooting definition is improved.

Referring to fig. 1, the suction fan 302 and the blowing fan 402 are respectively located at the upper side and the lower side of the camera 201, and through the cooperation of the suction fan 302 and the blowing fan 402, the cleanliness and the transparency of a working area are improved, and the shooting definition is improved.

The embodiment of the utility model provides a flying dust plasma cladding process monitoring device of a waste incineration power plant, a camera 201 is fixedly connected with a supporting mechanism 1 through a universal base 2, the supporting mechanism 1 respectively comprises a supporting plate 101, a magnetic block 102, a screw hole 103, a power cord jack 104, a spring clamp 105 and a hanging hole 106, the magnetic block 102 is embedded at the middle position of the right side wall of the supporting plate 101, the screw hole 103 is symmetrically arranged on the surface of the supporting plate 101, the power cord jack 104 is arranged on the surface of the supporting plate 101, the spring clamp 105 is fixedly connected with the bottom end of the supporting plate 101, the hanging hole 106 is arranged at the top end of the supporting plate 101, when the camera 201 is fixed, the magnetic block 102 at the middle position of the right side wall of the supporting plate 101 is fixed on the surface of a metal plate through magnetic attraction, the screw hole 103 symmetrically arranged on the surface of the supporting plate, the hanging hole 106 arranged at the top end of the supporting plate 101 is hung on the surface of the supporting piece; the surface of the supporting mechanism 1 is fixedly connected with a dust collection mechanism 3 and a dust removal mechanism 4 respectively, the dust collection mechanism 3 and the dust removal mechanism 4 are located on the upper side and the lower side of the camera 201 respectively, the dust removal mechanism 4 comprises a first connecting rod 401, an air blowing fan 402 and a first connecting rod 401 respectively, two ends of the first connecting rod 401 are fixedly connected with the supporting plate 101 and the air blowing fan 402 respectively, an air blowing end of the air blowing fan 402 is connected with an air guide cover 403 in a conduction mode, air is blown to floating objects such as dust in a working area through the air blowing fan 402 in cooperation with the air guide cover 403, the dust is blown away, the cleanliness and the transparency of the working area are improved, and the shooting definition; the dust collection mechanism 3 comprises a second connecting rod 301, an air suction fan 302 and a filter screen plate 303, the two ends of the second connecting rod 301 are fixedly connected with the supporting plate 101 and the air suction fan 302 respectively, the air suction end of the air suction fan 302 is detachably connected with the filter screen plate 303, the air suction fan 302 is started, floaters such as dust and the like in the working area of the camera 201 are attached to the surface of the filter screen plate 303 under the action of negative pressure, the cleanliness and the brightness of the working area are improved, and the shooting definition is improved.

It should be noted that, the utility model relates to a waste incineration power plant flying dust plasma cladding process monitoring device, by the needs of technical personnel in the field according to the use, select, install and accomplish the debugging operation of circuit, ensure that each electrical apparatus homoenergetic normally works, the part is the part that general standard component or technical personnel in the field know, its structure and principle all can learn through the technical manual for this technical personnel or learn through conventional experimental method, the applicant does not do specific restriction here.

It is apparent that those skilled in the art can make various changes and modifications to the embodiments of the present invention without departing from the spirit and scope of the embodiments of the present invention. Thus, if such modifications and variations of the embodiments of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (7)

1. The utility model provides a waste incineration power plant flying dust plasma cladding process monitoring device which characterized in that, includes camera (201), camera (201) are through universal base (2) fixed connection supporting mechanism (1), supporting mechanism (1) surface difference fixedly connected with dust absorption mechanism (3) and dust removal mechanism (4), and dust absorption mechanism (3) and dust removal mechanism (4) are located camera (201) both sides from top to bottom respectively.

2. The device for monitoring the fly ash plasma cladding process of the waste incineration power plant according to the claim 1, characterized in that the supporting mechanism (1) comprises a supporting plate (101), a magnetic block (102), a screw hole (103), a power line jack (104), a spring clamp (105) and a hanging hole (106) respectively.

3. The device for monitoring the plasma cladding process of the fly ash in the waste incineration power plant as claimed in claim 2, wherein a magnetic block (102) is embedded in the middle position of the right side wall of the support plate (101), screw holes (103) are symmetrically formed in the surface of the support plate (101), a power line jack (104) is installed on the surface of the support plate (101), the bottom end of the support plate (101) is fixedly connected with a spring clamp (105), and a hanging hole (106) is formed in the top end of the support plate (101).

4. The device for monitoring the fly ash plasma cladding process of the waste incineration power plant according to claim 1, wherein the dust collection mechanism (3) comprises a second connecting rod (301), an air suction fan (302) and a filter screen plate (303), two ends of the second connecting rod (301) are fixedly connected with the supporting plate (101) and the air suction fan (302), and an air suction end of the air suction fan (302) is detachably connected with the filter screen plate (303).

5. The device for monitoring the fly ash plasma cladding process of the waste incineration power plant according to claim 1, wherein the dust removing mechanism (4) comprises a first connecting rod (401), an air blowing fan (402) and a first connecting rod (401), two ends of the first connecting rod (401) are fixedly connected with the supporting plate (101) and the air blowing fan (402), respectively, and an air blowing end of the air blowing fan (402) is in conductive connection with the air guide hood (403).

6. The device for monitoring the fly ash plasma cladding process of a waste incineration power plant according to claim 5, wherein the blowing fan (402) is positioned below the camera (201).

7. The device for monitoring the fly ash plasma cladding process of the waste incineration power plant according to claim 4, wherein the air suction fan (302) is positioned above the camera (201).

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