CN215532828U - Insulator goods shelf - Google Patents

Abstract

The utility model discloses an insulator shelf which comprises a shelf body, wherein the shelf body comprises a shelf body and a layer plate arranged on the shelf body, and one end of an insulator is connected with the layer plate so as to be suspended on the layer plate. The notch has been seted up on the plywood, the notch including the breach portion that can supply the link fitting of insulator to pass and with breach portion link up and with the link fitting joint complex bayonet part of insulator. The utility model can be used for storing insulators with different sizes, can avoid mutual extrusion of the insulators and clearly and intuitively display the number of the insulators. Meanwhile, the number of the ground insulators placed on each layer and each plate can be regulated, so that rapid statistics can be realized, and the counting is convenient; and simple structure, whole preparation is low price, easily loading and unloading.

Description

Insulator goods shelf

Technical Field

The utility model belongs to the technical field of the power industry, and particularly relates to an insulator shelf.

Background

The electric power industry is the national economy prop industry of China, and the electric power storage system is an important component of the electric power system, and provides a solid foundation and effective support for the normal operation of the electric power industry. With the improvement of the modernization technology level and the deep development of the power industry, how to reduce the storage cost of the power materials and the loss rate of the materials during storage is a hot spot of the industry.

In the power industry, insulators are important materials in a power warehouse, and the insulators stored in the power warehouse are various and large in quantity due to the requirement of power operation. However, because the sizes of the insulators are different in length and shapes, the insulators cannot be stored by using a unified standardized shelf, and the specification of the insulator storage shelf is difficult to determine. Meanwhile, when the insulator is stored, the silicon rubber composite umbrella skirt can not be extruded mutually, so that the determination of the shelf shape and the storage mode of the insulator also becomes a challenge.

The mode of storing insulators in the existing market at present mainly has two kinds:

1. stacked flat type

The storage mode is that the insulators are horizontally placed on the cross bars to be stacked like a pipe rack for placing pipes. The storage device can be a goods shelf or a storage cage. The storage mode meets the requirements of classification, arrangement, moisture prevention and the like during insulator storage.

The disadvantages are as follows:

firstly, the silicon rubber composite umbrella skirts are mutually extruded and are easy to deform and damage, and the normal use function of the insulator is influenced.

Secondly, only one (or a plurality of similar insulators with similar lengths) can be stored in one device. If the storage requirements of insulators with various specifications are required to be met, shelves with various specifications are required to be customized.

And thirdly, the lower insulator can not be conveniently taken out (if the lower insulator with a certain specification is required).

And fourthly, disordered stacking is not beneficial to material checking.

To sum up, the stacked storage is not the closest to the storage requirement of the insulator.

2. Single layer horizontal laying type

Similar to the stacked and flat storage, the insulator is also laid on the horizontal bar in the mode, but the insulator is not stacked, and only one layer of insulator is placed in each layer of space. Compared with the stacked storage mode, the method avoids mutual extrusion between insulators.

The disadvantages are as follows:

firstly, only a few kinds of insulators with different specifications can be stored. When the number of insulator types increases, the shelf size needs to be newly determined, which leads to an increase in time cost, design cost, and manufacturing cost.

② the single-layer storage capacity is limited. For example, the average diameter of the insulator silicon rubber shed is about 20cm, and if the shelf width is 1m, only 5 insulators can be placed at most. Therefore, the storage capacity of the shelf can be improved only by increasing the number of layers, and once the number of layers of the shelf is increased, the manufacturing cost of the shelf is greatly increased. Meanwhile, the dense multilayer arrangement mode is not beneficial to the loading and unloading operation of the insulator.

Compared with a stacked flat storage device, the single-layer flat storage device is more complex in structure and needs to consume more material cost and time cost during manufacturing.

In summary, although the single-layer flat storage method is improved over the stacked flat storage method, it has the disadvantages of insufficient capacity and high manufacturing cost, and is still not the best way to store insulators.

Therefore, the existing insulator storage mode has many defects, and the shelf which completely meets the storage requirement of the insulator is not available in the market at present, so how to design and develop the shelf for solving the problems effectively fills the blank in the field of shelf special for insulators in the industry, and the problem to be solved in the industry is urgently needed.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides an insulator shelf.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides an insulator goods shelves, includes the goods shelves body, the goods shelves body includes the support body and sets up the plywood on the support body, be provided with on the plywood be used for with the one end joint complex notch of insulator, the one end joint of insulator in on the notch of plywood, so that the insulator hang in on the plywood.

According to the utility model, the insulators can be suspended on the laminated plate, the suspension distance between adjacent insulators on the laminated plate can be set according to requirements, so that mutual extrusion between the insulators is avoided, and the suspension height of the laminated plate can be set according to requirements through a suspension mode, so that the insulators with different lengths can be suspended in the same layer of suspension area.

The insulator can be hung in various ways, and can be hung and taken in various ways, for example, a notch is formed in the layer plate for the convenience of hanging and taking. The structural style and the size of the notch are various and can be set according to actual needs.

Preferably, the notch includes the breach portion that can supply the link fitting of insulator to pass and with the breach portion link up and with the link fitting joint complex bayonet part of insulator. When adopting this kind of mode to hang the insulator, at first be located the plywood below with the insulator to make the link fitting of insulator correspond with breach portion position, then pass breach portion with the link fitting tip of insulator, make the link fitting remove to bayonet part at last, the recess position of link fitting then can cooperate with bayonet part joint, can realize hanging of insulator. When the insulator needs to be taken out, the insulator is moved to the notch part, and then the connecting hardware fitting of the insulator is downwards penetrated out from the notch.

The arrangement modes of the notches are various, the existing various modes can be adopted, in order to enable the insulator to be suspended regularly, the number of the notches on the laminate is preferably multiple, and the notches are arranged at intervals along the length direction or the width direction of the laminate.

The distance between the adjacent notches can be set according to the requirement, and preferably, the distance between the adjacent notches is equal.

Preferably, the notch is strip-shaped. The strip-shaped notch can be used for simultaneously suspending a plurality of insulators of the same type in one notch and also suspending insulators of different types.

The notch portions may be disposed at various positions, for example, at the middle or end of the notch, or at one or more positions, and preferably, the notch portions are located at the end of the notch.

The shape of the notch portion may be various, and as long as the aperture of the notch portion is larger than the diameter of the connecting fitting of the insulator, the connecting fitting can pass through the notch portion.

Preferably, the diameter of the notch is 70mm, and the width of the bayonet part is 30 mm.

In the utility model, each layer of suspension area can be provided with one layer of laminate or a plurality of laminates, the laminates can be arranged according to the suspension storage amount, one layer or a plurality of layers of suspensions can be arranged according to the actual requirement, and preferably, each layer is provided with a plurality of laminates.

The frame body can be in various structural forms, the existing various structural forms can also be adopted, and preferably, the frame body comprises a plurality of stand columns and cross beams arranged between the stand columns, and the area surrounded by the cross beams forms the installation area of the laminate. In the utility model, the shelf body consists of the cross beam and the upright post, and sufficient space is reserved in the shelf body, thereby being convenient for storing insulators; the goods shelves can be as required, place the crossbeam on different positions, freely adjust the goods shelves number of piles. In addition, the materials and the bearing of the stand column, the cross beam and the laminate can be customized according to requirements, and the storage requirements of insulators with different specifications are met.

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

(1) solving the problem of 'size difference': the insulator can be hung on the shelf no matter the length of the insulator is long enough as the height of the shelf is enough. If the grooves at the connecting hardware fitting are different in size, the laminated plates with different bayonets can be customized to adapt to insulators with different specifications. Meanwhile, the laminated plates with different bayonets can be replaced mutually; when the shelf is installed, a user can freely select the laminates according to the requirements so as to achieve the purpose that a single shelf group stores multiple types of insulators.

(2) The problem of 'non-squeezable' is solved: after the insulator is hung, the mutual extrusion and collision of multiple rows of insulators can be avoided as long as the width of the laminated plate is controlled to be larger than the diameter of the silicon rubber umbrella skirt of the insulator. The suspension type insulator rack can ensure that each insulator has an independent storage space, and the inside and the outside of the insulator are ensured to be intact to the greatest extent.

(3) The price is low: the suspension type insulator frame has simple structure and low integral manufacturing cost; if laminates of different bayonets are used, the cost of customizing the laminates is much lower than the cost of customizing the entire set of shelves (to change the cross-bar distance).

(4) The checking is convenient: the suspension type insulator rack avoids the insulators from being placed in an overlapping mode, and the number of the insulators is clearly and visually displayed. Meanwhile, the number of the ground insulators placed on each layer and each plate can be regulated, so that rapid statistics is realized, and the counting is convenient.

(5) Easy handling: the suspension insulator frame adopts a non-closed design, is convenient to store and take, and can be obtained in a short time even if the target insulator is positioned at the innermost side of the shelf. The insulators can be orderly arranged according to a rule; when the operating personnel need the target insulator, can realize quick location, accurate acquisition promotes the operating efficiency greatly.

Drawings

FIG. 1 is a schematic top view of the present invention.

FIG. 2 is a schematic view of the structure of the laminate of the present invention.

Fig. 3 is a schematic perspective view of the present invention (without hanging insulators).

Fig. 4 is a schematic perspective view of the present invention (suspension insulator).

Reference numerals:

1. laminating the board; 2. a cross beam; 3. a column; 11. a notch; 111. a bayonet part; 112. a notch portion.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 4, the present embodiment is an insulator shelf, which includes a shelf body, the shelf body includes a shelf body and a layer board 1 disposed on the shelf body, and one end of an insulator is connected to the layer board 1, so that the insulator is suspended on the layer board 1.

In this embodiment, can hang the insulator on plywood 1, can set up the suspension interval between the adjacent insulator on plywood 1 as required, avoid squeezing each other between the insulator, through the mode that hangs, can also set up the height that hangs of plywood 1 as required moreover for can hang the insulator of different length sizes in same layer hangs the region.

In addition, in this embodiment, one layer of the laminate 1 may be disposed on each layer of the suspension area, or a plurality of layers of the laminate 1 may be disposed, which may be set according to the amount of the suspension storage, or one or more layers of the suspensions may be disposed according to the actual requirement, and each layer has a plurality of layers of the laminate 1.

The structure of the frame body in this embodiment may be various, and various existing structure forms may also be adopted, for example, the frame body in this embodiment includes a plurality of columns 3 and beams 2 disposed between the columns 3, and the region surrounded by the beams 2 forms the installation region of the floor panel 1.

The suspension manner of the insulator in this embodiment may be multiple, and it is also possible to adopt multiple existing manners, for example, in order to facilitate suspension and taking, as shown in fig. 2, a notch 11 is formed in the middle panel 1 in this embodiment, and the notch 11 includes a notch portion 112 through which a connector fitting of the insulator can pass and a bayonet portion 111 which is through the notch portion 112 and is in snap fit with the connector fitting of the insulator. When adopting this kind of mode to hang the insulator, at first be located plywood 1 below with the insulator to make the link fitting of insulator correspond with breach portion 112 position, then pass breach portion 112 with the link fitting tip of insulator, make the link fitting remove to bayonet portion 111 at last, the groove part of link fitting then can cooperate with bayonet portion 111 joint, can realize hanging of insulator. When the insulator needs to be taken out, the insulator is moved to the notch part 112, and then the connecting hardware fitting of the insulator is downwards penetrated out from the notch.

The arrangement mode of the notches 11 in the embodiment has various types, the existing various types can be adopted, in order to enable the insulator to be suspended regularly, the notches 11 on the layer plate 1 in the embodiment are multiple, and the notches 11 are arranged at intervals along the length direction or the width direction of the layer plate 1.

The distance between the adjacent notches 11 in this embodiment can be set according to the requirement, for example, the distance between the adjacent notches 11 in this embodiment is equal. The notches 11 are strip-shaped, and the strip-shaped notches 11 can be used for simultaneously suspending a plurality of insulators of the same type or suspending insulators of different types in one notch 11.

In addition, the notch 112 may be disposed at various positions, for example, at the middle or end of the slot 11, or at one or more positions, and the notch 112 is located at the end of the slot 11 in this embodiment.

The shape of the notch 112 in this embodiment may be various, and as long as the aperture of the notch 112 is larger than the diameter of the connector of the insulator, the connector may pass through the notch 112, for example, the notch of the notch 112 in this embodiment is circular.

According to the above description, the structural form of the shelf in this embodiment may be various, for example, the weight of the insulator may be analyzed in this embodiment, and the load of each layer of the shelf is uniformly designed to be 500KG by the investigator in this embodiment; through analyzing the length of the insulator, the investigator divides the insulator into two grades, wherein the upper limit of the length of one grade is 1500mm, and the upper limit of the length of the other grade is 2500mm, so that two types of shelves are designed.

The specifications of the newly designed two insulator shelf types are shown in table 1.

TABLE 1

In this example, the two shelf sizes are 2m long by 1m wide by 3m high. The first style is a single-layer design, the layer height is 3m, and the insulator is suitable for insulators with the length of 2-3 meters; the second style is a double-layer design, each layer is 1.5m high, and the insulator is suitable for 1-1.5m long insulators. Each layer of the shelf is designed to be provided with 10 laminates 1, each laminate 1 bears 50KG of load and can be provided with about 6-8 insulators; the single-layer load-bearing shelf is 500KG, and 60-80 insulators can be placed. Due to the two-layer design, the total load bearing capacity reaches 1000KG, and about 120 and 160 insulators can be placed.

In the embodiment, the insulator shelf is supported by the upright posts 3, the cross beams 2 and the supports, and the laminates 1 are laid between the cross beams 2. Bayonets with the width of 30mm are arranged in all the laminated plates 1 to clamp grooves at the connecting hardware fittings of the insulators. The middle part of the laminate 1 is cut into a notch 11 by laser, and the top of the notch 11 is provided with a circular notch (notch part 112) with the diameter of 70mm so as to facilitate the entering and exiting of the insulator, as shown in fig. 2. The length and width of the laminate 1 are slightly longer than the design dimensions and the excess can be used to bend over to support the laminate 1.

The embodiment has good operation after being put into use, does not have the bad phenomena of unstable support, incapability of hanging, insufficient bearing and the like, and achieves the design target. Through adjusting the crossbeam position, the operation personnel can freely decide the goods shelves number of piles, and insulator hangs height to satisfy different length insulators and deposit the demand. Once the storage rack is put into production for use, the storage bottleneck of the insulators in the warehouse is directly and effectively solved, and the market demand is met.

In addition, the structure of each part of the utility model can be changed in various ways, for example, the structural form of the laminate can be changed, the size can be changed in various ways, for example, the laminate can be in the shape of rectangle, etc., the size can be set according to the number of insulators stored as required, in addition, the shape and size of the notch and the bayonet part on the laminate can also be in various situations, for example, the notch can be round or square, and of course, the size can be in other shapes, the size can be only required to be passed through by the connecting hardware of the insulator, the shape of the bayonet part can be correspondingly set according to the clamping position of the insulator, for example, the notch is matched with the connecting hardware, the connecting hardware of the insulator is provided with a groove, the size and the shape can be set according to the actual situation as long as the notch can be clamped with the groove. The structure of the cross beam and the structural shape, size and the like of the upright column can be set according to actual conditions, for example, the cross beam can be cylindrical or other shapes.

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 utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an insulator goods shelves, includes the goods shelves body, its characterized in that, the goods shelves body includes the support body and sets up the plywood on the support body, be provided with on the plywood be used for with the one end joint complex notch of insulator, the one end joint of insulator in on the notch of plywood, so that the insulator hang in on the plywood.

2. The insulator shelf according to claim 1, wherein the notch comprises a notch portion through which a connecting fitting of the insulator can pass and a bayonet portion which is communicated with the notch portion and is in clamping fit with the connecting fitting of the insulator.

3. The insulator shelf according to claim 2, wherein the notches in the shelf are a plurality of notches, and the plurality of notches are arranged at intervals along the length direction or the width direction of the shelf.

4. The insulator rack of claim 3, wherein the spacing between adjacent notches is equal.

5. The insulator rack of claim 2, wherein the slot is strip-shaped.

6. The insulator shelf of claim 5, wherein the notch portion is located at an end of the slot.

7. The insulator shelf according to claim 6, wherein the notch of the notch portion is circular in shape.

8. The insulator shelf according to claim 7, wherein the notch has a diameter of 70mm and the width of the bayonet portion is 30 mm.

9. An insulator rack according to any one of claims 1 to 8, wherein a plurality of laminates are provided on each layer.

10. The insulator rack according to claim 1, wherein the rack body comprises a plurality of columns and beams arranged between the columns, and the area enclosed by the beams forms a mounting area of the laminate.

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