CN214152633U - Transformer shock-absorbing structure convenient to install on site - Google Patents

Abstract

The utility model discloses a transformer shock-absorbing structure convenient for field installation, which comprises a spring installation channel steel, a transformer body installation channel steel and two shock absorbers, wherein the groove bottoms of the spring installation channel steel and the transformer body installation channel steel are all arranged downwards, two ends of the spring installation channel steel are respectively provided with two connecting lugs which are oppositely arranged, two connecting lugs at each end of the spring installation channel steel are jointly provided with an L-shaped supporting block, the two L-shaped supporting blocks are oppositely arranged, two ends of the transformer body installation channel steel are respectively arranged on the L-shaped supporting blocks, and two ends of the transformer body installation channel steel are respectively detachably arranged on the corresponding L-shaped supporting blocks through a fixing structure; the two shock absorbers are respectively arranged between the spring mounting channel steel and the transformer body mounting channel steel and are respectively arranged at two ends of the transformer body mounting channel steel. Compared with the prior art, only need to dismantle fixed knot constructs, need not to carry out the aggregate erection to transformer and transformer shock-absorbing structure again, the field installation is comparatively simple, also avoids omitting spare part and the condition that can't install appears.

Description

Transformer shock-absorbing structure convenient to install on site

Technical Field

The utility model relates to a shock-absorbing structure, more specifically say and relate to a transformer shock-absorbing structure of convenient field installation.

Background

The transformer is a device for changing alternating voltage by using the principle of electromagnetic induction, mainly comprises a primary coil and an iron core, and is mainly used for voltage transformation, current transformation, impedance transformation, isolation, voltage stabilization and the like. In the transportation process of the transformer, the transformer and the damping structure are transported separately, so that the transformer does not have an anti-seismic function, the internal parts of the transformer are easily damaged in the transportation process, the transformer is damaged, the damping structure is generally installed on the site, and the situation of missing parts is easily caused, so that the site installation is troublesome.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a transformer shock-absorbing structure convenient to on-the-spot installation, it dispatches from the factory with transformer shock-absorbing structure and installs on the transformer, has reduced the trouble of on-the-spot installation, because of transformer shock-absorbing structure's existence simultaneously in the transportation for the transformer has shock-resistant function, makes the transformer not fragile.

In order to achieve the above purpose, the utility model discloses a solution is:

a transformer damping structure convenient for field installation comprises a spring installation channel steel, a transformer body installation channel steel and two dampers, wherein the groove bottoms of the spring installation channel steel and the transformer body installation channel steel are arranged downwards, two ends of the spring installation channel steel are respectively provided with two connecting lugs which are oppositely arranged, two connecting lugs on each end of the spring installation channel steel are jointly provided with an L-shaped supporting block, the two L-shaped supporting blocks are oppositely arranged, two ends of the transformer body installation channel steel are respectively installed on the L-shaped supporting blocks, and two ends of the transformer body installation channel steel are respectively detachably installed on the corresponding L-shaped supporting blocks through fixing structures; the two shock absorbers are respectively arranged between the spring mounting channel steel and the transformer body mounting channel steel and are respectively arranged at two ends of the transformer body mounting channel steel.

The two L-shaped supporting blocks respectively comprise a bearing plate and a limiting plate connected with the bearing plate, two ends of the device body mounting channel steel are respectively lapped on the corresponding bearing plates, and the two limiting plates are respectively positioned on the outer sides of the corresponding bearing plates.

Two corresponding mounting holes are formed in the device body mounting channel steel and the two L-shaped supporting blocks respectively, fixing bolts are inserted into the two corresponding mounting holes respectively, and free ends of the fixing bolts are provided with fixing nuts respectively in a matched mode.

Two reinforcing plates are further arranged between the spring mounting channel steel and the device body mounting channel steel, and the two reinforcing plates are located between the two shock absorbers.

And the two shock absorbers are damping type spring shock absorbers.

The upper side surfaces of the two shock absorbers are arranged on the shock absorber body mounting channel steel, and the lower side surfaces of the two shock absorbers are fixedly arranged at the upper side surfaces of the spring mounting channel steel.

After the structure is adopted, the utility model discloses following beneficial effect has:

1. when leaving a factory, the transformer is directly installed on the transformer body installation channel steel, then the transformer body installation channel steel and the L-shaped supporting block are fixed together by adopting a fixing structure so as to position the shock absorbers, and the two shock absorbers play a role in shock absorption and shock resistance on the transformer in the transportation process, so that the transformer is prevented from being damaged due to shaking in the transportation process; and, when transporting to the scene, directly with the transformer together the utility model discloses carry together and install in the transformer case, compare with prior art, only need dismantle fixed knot structure, need not to carry out the aggregate erection to transformer and transformer shock-absorbing structure again, the field installation is comparatively simple, also avoids omitting spare part and the condition appearance that can't install.

2. Mounting holes corresponding to each other are respectively formed in the vessel body mounting channel steel and the L-shaped supporting block, and each two mounting holes corresponding to each other are respectively provided with a fixing bolt and a fixing nut, so that the vessel body mounting channel steel and the L-shaped supporting block are mounted or dismounted; and the tightness of the fixing bolt is matched through the fixing nut so as to adjust the expansion amount of the two shock absorbers, so that the buffer amount of the transformer in the transportation process is adjusted, and the shock resistance of the transformer is flexibly adjusted.

3. The strength between the installation channel steel of the transformer body and the installation channel steel of the spring is enhanced by the arrangement of the two reinforcing plates.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure:

10-mounting a channel steel on a spring; 11-connecting lugs;

20-installing channel steel on the transformer body; 30-a shock absorber;

a 40-L shaped support block; 41-bearing plate;

42-a limiting plate; 51-a fixing bolt;

52-a fixing nut; 60-a reinforcing plate;

70-transformer.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

The utility model provides a transformer shock-absorbing structure convenient to on-spot installation, for convenient the description, with the utility model discloses normal use state does the utility model discloses a reference direction.

As shown in fig. 1, the shock absorber includes a spring mounting channel 10, a body mounting channel 20, and two shock absorbers 30. Spring installation channel-section steel 10 and ware body installation channel-section steel 20 all arrange downwards, and spring installation channel-section steel 10 is located ware body installation channel-section steel 20 under, and two bumper shock absorbers 30 all install between spring installation channel-section steel 10 and ware body installation channel-section steel 20 to the both ends department of spring installation channel-section steel 10 is located to the branch.

Specifically, two ends of the upper side of the spring mounting channel 10 are respectively provided with two connecting members, that is, two connecting members, each of the two connecting members includes two connecting lugs 11 arranged oppositely, that is, each end of the spring mounting channel 10 is provided with two connecting lugs 11, and each of the connecting lugs 11 is arranged up and down and is square. The connecting lugs 11 at the two ends of the spring mounting channel steel 10 have the same structure, so that the two connecting lugs 11 at one end of the spring mounting channel steel 10 are taken as an example for explanation, the two connecting lugs 11 are sequentially arranged along the width direction of the spring mounting channel steel 10 at the same end of the spring mounting channel steel 10, and the two connecting lugs 11 are respectively arranged at the side edges of the two sides of the spring mounting channel steel 10.

The two connecting lugs 11 on the same end of the spring mounting channel steel 10 are provided with L-shaped supporting blocks 40 together, that is, there are two L-shaped supporting blocks 40 in this embodiment, and the two L-shaped supporting blocks 40 are arranged oppositely. The two L-shaped supporting blocks 40 each include a receiving plate 41 and a limiting plate 42 connected to the receiving plate 41, the two receiving plates 41 are respectively arranged with the two connecting members one to one, the two receiving plates 41 are respectively overlapped on the corresponding connecting members, the limiting plate 42 is located on the outer side of the receiving plate 40 when the L-shaped supporting blocks 40 and the connecting members are installed, the outer side refers to the direction away from the center line of the spring installation channel steel 10 extending in the vertical direction, and the inner side refers to the position of the center line of the spring installation channel steel 10 extending in the vertical direction. Two ends of the vessel body installation channel steel 20 are respectively lapped on the corresponding bearing plates 40, and two ends of the vessel body installation channel steel 20 are respectively detachably installed on the corresponding bearing plates 40 through fixing structures.

Further, the lower ends of the two dampers 30 are respectively fixedly mounted on the upper side surface of the spring mounting channel 10, and the upper ends of the two dampers 30 are respectively fixedly mounted on the body mounting channel 20. Preferably, the shock absorbers 30 are damping spring shock absorbers, which are conventional shock absorbers and are widely available on the market, and therefore, will not be described again.

Further, the fixing structure specifically includes: two ends of the body mounting channel steel 20 and the two L-shaped supporting blocks 40 are respectively provided with two corresponding mounting holes, namely, the body mounting channel steel 20 is provided with two mounting holes, the two L-shaped supporting blocks 40 are respectively provided with mounting holes, the two corresponding mounting holes are respectively inserted with a fixing bolt 51, totally two fixing bolts 51, the free ends of the two fixing bolts 51 are respectively provided with a fixing nut 52, and the two fixing bolts 51 are respectively in spiral fit with the corresponding fixing nuts 52.

During installation, the fixing bolt 51 is inserted into two corresponding installation holes from bottom to top, then the free end of the fixing bolt 51 is located on the upper side of the head of the fixing bolt 51, and then the fixing nut 52 is screwed outside the fixing bolt 51, so that the body installation channel steel 20 is fixed on the corresponding L-shaped support block 40. The more the fixing nut 52 is fed, the closer the body mounting channel 20 is fixed to the L-shaped support block 40, and the compression amount of the two dampers 30 located between the body mounting channel 20 and the spring mounting channel 10 is limited, so that the damping degree of the two dampers is adjusted to prevent the transformer from being influenced by too large damping during transportation.

Preferably, two reinforcing plates 60 are further provided between the spring mounting channel 10 and the body mounting channel 20, and both the reinforcing plates 60 are located between the dampers 30 to increase the strength of the variable pressure damping structure, so that the variable pressure damping structure is not easily damaged during transportation.

The utility model discloses in, transformer shock-absorbing structure has two, and two transformer shock-absorbing structure arrange side by side, and transformer 70 installs on two transformer shock-absorbing structure, and wherein, transformer shock-absorbing structure (spring mounting channel-section steel 10 promptly) can set up in the transformer box, in the carriage, level ground such as level land or basement department to ensure that spring mounting channel-section steel 10 is difficult for rocking.

The utility model relates to a transformer shock-absorbing structure convenient to on-the-spot installation, when dispatching from the factory, transformer 70 installs in two transformer shock-absorbing structure departments, then adopts fixed knot to construct and fixes two ware body installation channel-section steel 20's both ends respectively on the L type supporting shoe 40 that corresponds to this avoids the transformer too violently to rock on the way in the transportation and makes the transformer damage. When the transformer is installed on site, the transformer is communicated with the two transformer damping structures and directly enters the transformer box together, recombination and installation are not needed, and only fixing nuts and fixing bolts are needed to be disassembled, so that the transformer is convenient and simple to install on site.

The above description is only a preferred embodiment of the present invention, and all equivalent changes and modifications made within the scope of the claims of the present invention should belong to the scope of the claims of the present invention.

Claims (6)

1. The utility model provides a transformer shock-absorbing structure of convenient field installation which characterized in that: the spring installation channel steel and the device body installation channel steel are arranged downwards, two ends of the spring installation channel steel are respectively provided with two oppositely arranged connecting lugs, two L-shaped supporting blocks are jointly arranged on the two connecting lugs at each end of the spring installation channel steel and are oppositely arranged, two ends of the device body installation channel steel are respectively installed on the L-shaped supporting blocks, and two ends of the device body installation channel steel are respectively detachably installed on the corresponding L-shaped supporting blocks through fixing structures; the two shock absorbers are respectively arranged between the spring mounting channel steel and the transformer body mounting channel steel and are respectively arranged at two ends of the transformer body mounting channel steel.

2. The transformer damping structure convenient for field installation according to claim 1, wherein: the two L-shaped supporting blocks respectively comprise a bearing plate and a limiting plate connected with the bearing plate, two ends of the device body mounting channel steel are respectively lapped on the corresponding bearing plates, and the two limiting plates are respectively positioned on the outer sides of the corresponding bearing plates.

3. The transformer damping structure convenient for field installation according to claim 1 or 2, wherein: two corresponding mounting holes are formed in the device body mounting channel steel and the two L-shaped supporting blocks respectively, fixing bolts are inserted into the two corresponding mounting holes respectively, and free ends of the fixing bolts are provided with fixing nuts respectively in a matched mode.

4. The transformer damping structure convenient for field installation according to claim 1, wherein: two reinforcing plates are further arranged between the spring mounting channel steel and the device body mounting channel steel, and the two reinforcing plates are located between the two shock absorbers.

5. The transformer damping structure convenient for field installation according to claim 1, 2 or 4, wherein: and the two shock absorbers are damping type spring shock absorbers.

6. The transformer damping structure convenient for field installation according to claim 5, wherein: the upper side surfaces of the two shock absorbers are arranged on the shock absorber body mounting channel steel, and the lower side surfaces of the two shock absorbers are fixedly arranged at the upper side surfaces of the spring mounting channel steel.

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