CN211085301U

CN211085301U - Wing-unfolding support of GIS equipment ray detection device

Info

Publication number: CN211085301U
Application number: CN201922262426.5U
Authority: CN
Inventors: 张晓春; 幸兆森; 欧阳广泽; 刘昱伯; 丁宇洁; 申炜; 陈家辉; 徐钦; 华龙; 吴颛; 张芯; 何毅; 赵松; 苏剑锋; 刘瑞贵; 卢森微
Original assignee: Guizhou Power Grid Co Ltd
Current assignee: Guizhou Power Grid Co Ltd
Priority date: 2019-12-16
Filing date: 2019-12-16
Publication date: 2020-07-24
Anticipated expiration: 2029-12-16

Abstract

The utility model discloses a GIS equipment ray detection device exhibition wing support, include: the device placing frame can be used for placing a detection device, the height adjusting rod can be used for adjusting the height of the whole support, and the bottom supporting structure can provide good stability for the whole device; after being provided with the altitude mixture control pole, the altitude mixture control pole is including adjusting the quarter butt and adjusting the stock, adjusts the quarter butt and adjusts the stock and be rectangular shaft-like structure, adjusts and is provided with on quarter butt and the regulation stock and adjusts the fixed knot structure, adjusts the fixed knot structure and be removable pin and insertion groove integrated configuration, adjusts the quarter butt and is connected with adjusting the stock through adjusting the fixed knot structure, adjusts the quarter butt and adjusts the stock and pass through nut and nut with adjusting the fixed knot structure and screw up fixedly.

Description

Wing-unfolding support of GIS equipment ray detection device

Technical Field

The utility model relates to a GIS technical field specifically is GIS equipment ray detection device exhibition wing support.

Background

Gis (gas Insulated substation) is the english name of a gas Insulated substation. In a gas insulated substation, most electrical equipment is directly or indirectly sealed in a pipeline tree consisting of metal pipelines and bushings, no switch, line or connecting terminal is seen from the outside, SF6 gas is used as an insulating medium in the pipeline tree, all high-voltage electrical equipment elements are sealed in a grounding metal cylinder, and the high-voltage electrical equipment is a high-voltage distribution device formed by combining 7 high-voltage electrical equipment such as a circuit breaker, a bus, an isolating switch, a voltage transformer, a current transformer, a lightning arrester and a bushing.

However, the existing GIS equipment ray detection device still has some inconvenient places when in use, and the existing GIS equipment ray detection device often needs different heights when in use, and if the existing GIS equipment ray detection device is held by hands, the existing GIS equipment ray detection device is very inconvenient, so that a wing unfolding bracket is needed to solve the height problem.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a GIS equipment ray detection device exhibition wing support to solve the current GIS equipment ray detection device that provides in the above-mentioned background art when using, often need different heights, if hand, just very inconvenient problem.

In order to achieve the above object, the utility model provides a following technical scheme: GIS equipment ray detection device exhibition wing support includes: the device comprises a device placing frame, a height adjusting rod and a bottom supporting structure, wherein the bottom supporting structure is arranged at the bottom, the height adjusting rod is connected with the bottom supporting structure, the device placing frame is connected with the height adjusting rod, a detection device can be placed on the device placing frame, the height of the whole support can be adjusted by the height adjusting rod, and the bottom supporting structure can provide good stability for the whole device.

Further, bottom sprag structure includes supporting seat, supporting leg extension dish and supporting leg, be provided with the supporting seat pivot on the supporting seat, and bottom sprag structure passes through the supporting seat pivot and rotates with the altitude mixture control pole to be connected, the supporting leg extends the dish and installs the bottom at the supporting seat, the supporting leg extends the dish and is the disc structure, just angles such as the bottom that the supporting leg extended the dish are provided with three ball groove, the tip of supporting leg is provided with spherical connecting piece, the supporting leg extends the dish and passes through spherical connecting piece and ball groove swing joint with the supporting leg, and is provided with limit structure on ball groove, the supporting leg is provided with threely, and the angle setting such as three supporting leg extends the dish bottom at the.

Furthermore, the supporting leg is telescopic rod structure, the bottom of supporting leg is provided with the antiskid supporting legs, be provided with flexible chucking limit structure on the supporting leg, and flexible chucking limit structure is the structure among the prior art, and flexible chucking limit structure can adjust the length of supporting leg and can let the length of supporting leg remain unchanged.

Further, altitude mixture control pole is including adjusting the quarter butt and adjusting the stock, it is rectangular shaft-like structure with the regulation stock to adjust the quarter butt, the length of adjusting the stock is greater than the length of adjusting the quarter butt, it adjusts fixed knot to be provided with on quarter butt and the regulation stock, it is removable pin and insertion groove integrated configuration to adjust fixed knot to construct, it is connected with the regulation stock through adjusting fixed knot structure to adjust the quarter butt, adjust the stock and all be provided with nut and nut structure with the junction of adjusting fixed knot structure, and adjust the quarter butt and adjust the stock and pass through nut and nut with the regulation fixed knot structure and screw up fixedly.

Further, the device rack is including placing the connecting piece and placing the base, it is provided with on the connecting piece and places the connecting piece axis of rotation to place, the device rack rotates with the altitude mixture control pole through placing the connecting piece axis of rotation and is connected, place the pedestal mounting at the top of placing the connecting piece.

Further, the method also comprises the following steps: place a towing bracket, place a section of thick bamboo axis of rotation and place a section of thick bamboo, it installs and puts at placing base top central point to place a section of thick bamboo axis of rotation, it installs in placing a section of thick bamboo axis of rotation to place a section of thick bamboo towing bracket, it rotates through placing a section of thick bamboo axis of rotation with placing the base to place a section of thick bamboo towing bracket and be connected, it fixes on placing a section of thick bamboo towing bracket to place a section of thick bamboo level, and places a section of.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model is provided with a height adjusting rod, the height adjusting rod comprises an adjusting short rod and an adjusting long rod, the adjusting short rod and the adjusting long rod are both long rod-shaped structures, the adjusting short rod and the adjusting long rod are provided with an adjusting fixing structure, the adjusting fixing structure is a movable pin and insertion groove combined structure, the adjusting short rod is connected with the adjusting long rod through the adjusting fixing structure, the adjusting short rod and the adjusting long rod are screwed and fixed with the adjusting fixing structure through nuts and nuts, so the height adjusting rod can be simply adjusted between the height adjusting rod and a device rack and a bottom supporting structure, the fixation can be realized, the height after the adjustment can be kept unchanged, a bottom supporting structure is provided, a supporting seat rotating shaft is arranged on the supporting seat, the bottom supporting structure is rotatably connected with the height adjusting rod through the supporting seat rotating shaft, and a supporting leg stretching disc is, the supporting leg is telescopic rod structure, and the bottom of supporting leg is provided with anti-skidding supporting legs, is provided with flexible chucking limit structure on the supporting leg, so bottom sprag structure also can adjust its height, so the whole height of exhibition wing support all can be adjusted, uses special simple, unusual convenience.

Drawings

Fig. 1 is a schematic structural diagram in an embodiment of the present invention;

FIG. 2 is a state diagram of the height adjustment in the embodiment of FIG. 1;

FIG. 3 is a top view of the embodiment of FIG. 1;

FIG. 4 is a view of the embodiment of FIG. 1 in storage;

fig. 5 is a side view of the adjustment fixture in the embodiment of fig. 1.

Reference numerals: 1-device placement rack; 101-placing the connecting piece rotating shaft; 102-placing a connecting piece; 103-placing a base; 104-placing a cylinder bracket; 105-placing cylinder rotating shaft; 106-placing the cylinder; 2-height adjusting rod; 201-adjusting short rods; 202-adjusting the fixed structure; 203-adjusting long rod; 3-a bottom support structure; 301-a support base; 302-supporting the spindle; 303-support leg extension tray; 304-support legs.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, 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 work belong to the protection scope of the present invention.

Please refer to fig. 1-5, wherein fig. 1 is a schematic structural diagram according to an embodiment of the present invention; FIG. 2 is a state diagram of the height adjustment in the embodiment of FIG. 1; FIG. 3 is a top view of the embodiment of FIG. 1; FIG. 4 is a view of the embodiment of FIG. 1 in storage; FIG. 5 is a side view of the adjustment fixture in the embodiment of FIG. 1; wherein, GIS equipment ray detection device exhibition wing support includes: device rack 1, altitude mixture control pole 2 and bottom sprag structure 3, bottom sprag structure 3 installs in the bottom, and altitude mixture control pole 2 is connected with bottom sprag structure 3, and device rack 1 is connected with altitude mixture control pole 2, and detection device can be placed to device rack 1, and the holistic height of support can be adjusted to altitude mixture control pole 2, and bottom sprag structure 3 can provide fine stability for the device is whole.

In this embodiment, it is preferred, bottom sprag structure 3 includes supporting seat 301, the supporting leg extends set 303 and supporting leg 304, be provided with supporting seat pivot 302 on the supporting seat 301, and bottom sprag structure 3 rotates with altitude mixture control pole 2 through supporting seat pivot 302 and is connected, the supporting leg extends the bottom of set 303 and installs at supporting seat 301, supporting leg extends set 303 is the disc structure, and the supporting leg extends the bottom of set 303 and waits that the angle is provided with three ball groove, the tip of supporting leg 304 is provided with spherical connecting piece, supporting leg extends set 303 and supporting leg 304 and passes through spherical connecting piece and ball groove swing joint, and be provided with limit structure on the ball groove, supporting leg 304 is provided with threely, and the angle setting such as three supporting leg 304 is in supporting leg extension.

In this embodiment, preferably, the supporting leg 304 is a telescopic rod structure, the bottom of the supporting leg 304 is provided with an anti-skidding supporting foot, the supporting leg 304 is provided with a telescopic clamping limiting structure, the telescopic clamping limiting structure is a structure in the prior art, the telescopic clamping limiting structure can adjust the length of the supporting leg 304 and can keep the length of the supporting leg 304 unchanged.

In this embodiment, it is preferable, the height adjusting rod 2 includes the adjusting short rod 201 and the adjusting long rod 203, the adjusting short rod 201 and the adjusting long rod 203 are long rod-shaped structures, the length of the adjusting long rod 203 is greater than the length of the adjusting short rod 201, the adjusting short rod 201 and the adjusting long rod 203 are provided with the adjusting fixing structure 202, the adjusting fixing structure 202 is a movable pin and insertion groove combined structure, the adjusting short rod 201 is connected with the adjusting long rod 203 through the adjusting fixing structure 202, the adjusting short rod 201 and the adjusting long rod 203 are provided with a nut and a nut structure at the connection part with the adjusting fixing structure 202, and the adjusting short rod 201 and the adjusting long rod 203 are screwed and fixed with the adjusting fixing structure 202 through nuts and nuts.

In this embodiment, preferably, the device placement rack 1 includes a placement connecting member 102 and a placement base 103, a placement connecting member rotating shaft 101 is disposed on the placement connecting member 102, the device placement rack 1 is rotatably connected to the height adjusting rod 2 through the placement connecting member rotating shaft 101, and the placement base 103 is installed on the top of the placement connecting member 102.

In this embodiment, it is preferable that the method further includes: place a section of thick bamboo bracket 104, place a section of thick bamboo axis of rotation 105 and place a section of thick bamboo 106, place a section of thick bamboo axis of rotation 105 and install and put base 103 top central point, place a section of thick bamboo bracket 104 and install on placing a section of thick bamboo axis of rotation 105, place a section of thick bamboo bracket 104 and place base 103 and rotate through placing a section of thick bamboo axis of rotation 105 and be connected, place a section of thick bamboo 106 level and fix on placing a section of thick bamboo bracket 104, and place a section of thick bamboo 106 and.

To sum up, the utility model provides a GIS equipment ray detection device exhibition wing support, at the during operation, place GIS equipment ray detection device on placing a section of thick bamboo 106, adjust each structure, it just can use to adjust suitable position, in the use, GIS equipment ray detection device keeps the horizontally, bottom sprag structure 3 can provide a fine stability, be provided with after altitude mixture control pole 2, altitude mixture control pole 2 is including adjusting quarter butt 201 and adjusting stock 203, it is rectangular bar-shaped structure to adjust quarter butt 201 and adjusting stock 203, the length of adjusting stock 203 is greater than the length of adjusting quarter butt 201, be provided with on adjusting quarter butt 201 and the adjusting stock 203 and adjust fixed knot structure 202, it is removable pin and insertion groove integrated configuration to adjust fixed knot structure 202, adjust quarter butt 201 and be connected with adjusting stock 203 through adjusting fixed knot structure 202, it all is provided with nut and nut structure to adjust quarter butt 201 and the junction of adjusting fixed knot structure 202 with adjusting fixed knot structure 203 And the adjusting short rod 201, the adjusting long rod 203 and the adjusting fixing structure 202 are screwed and fixed by nuts and nuts, so that the height adjusting rod 2 can be simply adjusted with the device placing rack 1 and the bottom supporting structure 3, and the bottom supporting structure 3 is provided, the bottom supporting structure 3 comprises a supporting seat 301, a supporting leg extending disc 303 and a supporting leg 304, the supporting seat 301 is provided with a supporting seat rotating shaft 302, the bottom supporting structure 3 is rotatably connected with the height adjusting rod 2 by the supporting seat rotating shaft 302, the supporting leg extending disc 303 is installed at the bottom of the supporting seat 301, the supporting leg 304 is a telescopic rod structure, the bottom of the supporting leg 304 is provided with an anti-skidding supporting leg, the supporting leg 304 is provided with a telescopic clamping limiting structure, so that the bottom supporting structure 3 can also adjust the height thereof, the whole height of the wing-unfolding bracket can be adjusted, and the use is, this is particularly convenient.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

GIS equipment ray detection device exhibition wing support, its characterized in that includes: device rack (1), altitude mixture control pole (2) and bottom sprag structure (3), bottom sprag structure (3) are installed in the bottom, altitude mixture control pole (2) are connected with bottom sprag structure (3), device rack (1) is connected with altitude mixture control pole (2), detection device can be placed in device rack (1), altitude mixture control pole (2) can adjust the holistic height of support, bottom sprag structure (3) can wholly provide fine stability for the device.
2. The GIS equipment ray detection device wing spreading support frame according to claim 1, wherein the bottom support structure (3) comprises a support base (301), a support leg extension disc (303) and support legs (304), the support base (301) is provided with a support base rotating shaft (302), the bottom support structure (3) is rotatably connected with the height adjusting rod (2) through the support base rotating shaft (302), the support leg extension disc (303) is installed at the bottom of the support base (301), the support leg extension disc (303) is of a disc structure, three ball grooves are arranged at equal angles at the bottom of the support leg extension disc (303), the end of each support leg (304) is provided with a spherical connecting piece, the support leg extension disc (303) is movably connected with the support legs (304) through the spherical connecting piece and the ball grooves, and a limiting structure is arranged on each ball groove, the number of the support legs (304) is three, and the three support legs (304) are arranged at the bottom of the support leg extension disc (303) at equal angles.
3. The GIS equipment ray detection device wing spreading support frame according to claim 2, wherein the supporting leg (304) is a telescopic rod structure, the bottom of the supporting leg (304) is provided with an anti-skidding supporting leg, the supporting leg (304) is provided with a telescopic clamping limiting structure, the telescopic clamping limiting structure is a structure in the prior art, and the telescopic clamping limiting structure can adjust the length of the supporting leg (304) and can keep the length of the supporting leg (304) unchanged.
4. The GIS equipment ray detection device span wing support of claim 1, the height adjusting rod (2) comprises an adjusting short rod (201) and an adjusting long rod (203), the adjusting short rod (201) and the adjusting long rod (203) are both long rod-shaped structures, the length of the adjusting long rod (203) is greater than that of the adjusting short rod (201), the adjusting short rod (201) and the adjusting long rod (203) are provided with an adjusting fixing structure (202), the adjusting and fixing structure (202) is a movable pin and insertion groove combined structure, the adjusting short rod (201) is connected with the adjusting long rod (203) through the adjusting and fixing structure (202), the joints of the adjusting short rod (201) and the adjusting long rod (203) and the adjusting fixing structure (202) are provided with nut and nut structures, and the adjusting short rod (201) and the adjusting long rod (203) are screwed and fixed with the adjusting and fixing structure (202) through nuts and nuts.
5. The winging bracket for the GIS equipment ray detection device according to claim 1, wherein the device placement frame (1) comprises a placement connecting piece (102) and a placement base (103), a placement connecting piece rotating shaft (101) is arranged on the placement connecting piece (102), the device placement frame (1) is rotatably connected with the height adjusting rod (2) through the placement connecting piece rotating shaft (101), and the placement base (103) is installed at the top of the placement connecting piece (102).
6. The GIS equipment ray detection device span wing support of claim 5, characterized by further comprising: place a section of thick bamboo bracket (104), place a section of thick bamboo axis of rotation (105) and place a section of thick bamboo (106), it installs and puts at base (103) top central point to place a section of thick bamboo axis of rotation (105), place a section of thick bamboo bracket (104) and install on placing a section of thick bamboo axis of rotation (105), it rotates through placing a section of thick bamboo axis of rotation (105) with placing base (103) to place a section of thick bamboo bracket (104) and is connected, place a section of thick bamboo (106) horizontal fixation on placing a section of thick bamboo bracket (104), and place a section of thick bamboo (106) and be hollow cylinder structure.