Substation equipment erection bracing frame
Technical Field
The invention relates to the technical field of power transformation equipment, in particular to a power transformation equipment mounting support frame.
Background
The transformer substation is an electric facility for transforming voltage, receiving and distributing electric energy, controlling the flow direction of electric power and adjusting voltage in an electric power system, and connects power grids of voltages of various levels through a transformer thereof, various types of equipment are required in the transformer substation, the equipment comprises a transformer type, a switch type, a four-small device type, a reactive device type, other equipment and auxiliary devices, such as a wave damper, an insulator, a high-voltage bushing, a guide wire, a grounding device, secondary equipment, high-voltage direct current equipment and the like, the equipment is collectively called as transformer equipment, the quality of the transformer equipment is higher, a mounting frame of the transformer equipment needs to bear higher pressure, and the support performance of the mounting frame needs to be improved, so that a support frame for mounting the transformer equipment is required.
But present substation equipment erection bracing frame still has life weak point, and is unstable, and the commonality is poor, uses inconvenient problem.
Therefore, a transformer equipment mounting support frame which is long in service life, stable in whole device, strong in universality and convenient to use is necessary.
Disclosure of Invention
The invention aims to provide a power transformation equipment mounting support frame to solve the problems in the background technology.
In order to realize the purpose, the invention provides the following technical scheme: a power transformation equipment mounting support frame comprises a support base plate, a limiting crossheading, a first limiting transverse sliding column, a second limiting transverse sliding column, a limiting guide rod, a power transformation equipment box body, an external thread, an internal thread limiting round block, a limiting support block, a limiting sleeve, an adjusting pipe, a first limiting support seat, a second limiting support seat, a first limiting bulge, a second limiting bulge, a first limiting slide block, a second limiting slide block, a first hinged connection arm, a second hinged connection arm, a hinged shaft, a rigid buffer spring, a first hydraulic cylinder, a second hydraulic cylinder, a fastening stud, a limiting inserted column and a limiting insertion hole, wherein the first limiting transverse sliding column and the second limiting transverse sliding column are connected onto the support base plate in a sliding manner; two rigid buffer springs are fixed on the first limiting transverse sliding column along the length direction; two rigid buffer springs are fixed on the second limiting transverse sliding column along the length direction; the rigid buffer springs are respectively connected and fixed with a limiting supporting block; the two longitudinal limiting support blocks are connected through a limiting sleeve and an adjusting pipe; the limiting sleeve is connected with the adjusting pipe; a second limit supporting seat and a first limit supporting seat are respectively fixed at two ends of the supporting bottom plate; a first limiting bulge is fixed on the first limiting support seat; a second limiting bulge is fixed on the second limiting support seat; the first limiting bulge is connected with a first limiting sliding block in a sliding manner; two first hinged connecting arms are hinged to the first limiting sliding block; the two first hinge connecting arms are respectively hinged with a first limiting transverse sliding column and a second limiting transverse sliding column; the second limiting bulge is connected with a second limiting sliding block in a sliding manner; two second hinged connecting arms are hinged to the second limiting sliding block; the two second hinge connecting arms are respectively hinged with the first limiting transverse sliding column and the second limiting transverse sliding column; a first hydraulic cylinder is fixed on the supporting bottom plate; a first limiting slide block is fixed at the telescopic end of the first hydraulic cylinder; a second hydraulic cylinder is fixed on the supporting bottom plate; a second limiting slide block is fixed at the telescopic end of the second hydraulic cylinder; limiting guide rods are respectively fixed on the four limiting support blocks; a power transformation equipment box body is arranged between the four limiting guide rods; limited inserting columns are respectively fixed at four corners of the bottom of the substation equipment box body; limiting jacks are respectively formed in the four limiting support blocks; the transformer equipment box body is connected with the limiting support block through the limiting insertion column and the limiting insertion hole; and the limiting guide rod is in threaded connection with an internal thread limiting round block.
Preferably, two limiting crossroads are arranged on the supporting bottom plate along the length direction; the first limiting transverse sliding column and the second limiting transverse sliding column slide.
Preferably, the limiting support block is provided with a limiting jack for mounting a limiting insertion column.
Preferably, the first limiting sliding block is fixedly connected with the first limiting bulge through a fastening stud; and the second limiting sliding block is fixedly connected with the second limiting sliding block through a fastening stud.
Preferably, the first limiting sliding block is hinged with the first hinge connecting arm through a hinge shaft; the two first hinged connecting arms are respectively hinged with a first limiting transverse sliding column and a second limiting transverse sliding column through hinged shafts; the two limiting sliding blocks are hinged with the second hinged connecting arm through a hinged shaft; and the two second hinged connecting arms are respectively hinged with the first limiting transverse sliding column and the second limiting transverse sliding column through hinged shafts.
Preferably, the limit inserting column is inserted into the limit inserting hole; the limiting insertion column is matched with the limiting insertion hole.
Preferably, the limiting guide rod is provided with an external thread which is in threaded connection with the internal thread limiting round block.
Preferably, the first limiting sliding block is matched with the first limiting bulge; the second limiting bulge is matched with the second limiting slide block.
Preferably, a first hydraulic cylinder is welded on the support bottom plate; and a second hydraulic cylinder is welded on the support bottom plate.
Compared with the prior art, the invention has the beneficial effects that:
1. the transformer equipment is provided with a support frame, and four limiting support blocks are respectively fixed with a limiting guide rod; a transformation equipment box body is arranged between the four limiting guide rods; the limiting guide rod is in threaded connection with an internal thread limiting round block; be provided with on the spacing guide arm and be used for with the external screw thread of the spacing round piece threaded connection of internal thread, owing to be provided with spacing guide arm, the spacing round piece of internal thread to injectd and fix the substation equipment box for the substation equipment box is difficult to break away from this device, falls on the ground, and four spacing guide arms protect the substation equipment box, make the life of substation equipment box than longer.
2. The two ends of a supporting bottom plate of the transformer equipment mounting support frame are respectively fixed with a second limit supporting seat and a first limit supporting seat; a first limiting bulge is fixed on the first limiting support seat; a second limiting bulge is fixed on the second limiting support seat; the first limiting bulge is connected with a first limiting slide block in a sliding manner; two first hinged connecting arms are hinged to the first limiting sliding block; the two first hinged connecting arms are respectively hinged with the first limiting transverse sliding column and the second limiting transverse sliding column; the second limiting bulge is connected with a second limiting slide block in a sliding manner; two second hinged connecting arms are hinged to the second limiting sliding block; the two second hinged connecting arms are respectively hinged with the first limiting transverse sliding column and the second limiting transverse sliding column; a first hydraulic cylinder is fixed on the supporting bottom plate; a first limiting slide block is fixed at the telescopic end of the first hydraulic cylinder; the first limiting sliding block is fixedly connected with the first limiting bulge through a fastening stud; the second limit slide block is fixedly connected with the second limit slide block through a fastening stud, the first hydraulic cylinder is started, the telescopic end of the first hydraulic cylinder drives the first limit slide block to slide on the first limit bulge, meanwhile, the second hydraulic cylinder is started, the telescopic end of the second hydraulic cylinder drives the second limit slide block to slide on the second limit bulge, the first hinged connecting arm and the second hinged connecting arm are further driven to move, the first limit transverse sliding column and the second limit transverse sliding column slide on the limit crossheading, the distance between the first limit transverse sliding column and the second limit transverse sliding column is further adjusted, the distance between the first limit transverse sliding column and the second limit transverse sliding column is matched with the transformer equipment box body, then the fastening stud is screwed, the first limit slide block is fixed on the first limit bulge, and the second limit bulge is fixed on the second limit slide block, so that the whole device is relatively stable.
3. The two ends of a supporting bottom plate of the transformer equipment mounting support frame are respectively fixed with a second limit supporting seat and a first limit supporting seat; a first limiting bulge is fixed on the first limiting supporting seat; a second limiting bulge is fixed on the second limiting support seat; the first limiting bulge is connected with a first limiting slide block in a sliding manner; two first hinged connecting arms are hinged to the first limiting sliding block; the two first hinged connecting arms are respectively hinged with the first limiting transverse sliding column and the second limiting transverse sliding column; the second limiting bulge is connected with a second limiting slide block in a sliding manner; two second hinged connecting arms are hinged to the second limiting sliding block; the two second hinged connecting arms are respectively hinged with the first limiting transverse sliding column and the second limiting transverse sliding column; a first hydraulic cylinder is fixed on the supporting bottom plate; a first limiting slide block is fixed at the telescopic end of the first hydraulic cylinder; the first limiting sliding block is fixedly connected with the first limiting bulge through a fastening stud; the second limiting sliding block is fixedly connected with the second limiting sliding block through the fastening stud, and the distance between the first limiting transverse sliding column and the second limiting transverse sliding column is adjusted, so that the distance between the first limiting transverse sliding column and the second limiting transverse sliding column is adaptive to the transformation equipment box body, the transformation equipment box body is suitable for transformation equipment box bodies with different widths, and the universality is high.
4. When the distance between the first limiting cross sliding column and the second limiting cross sliding column is adjusted, the first hydraulic cylinder is started, the telescopic end of the first hydraulic cylinder drives the first limiting slide block to slide on the first limiting bulge, meanwhile, the second hydraulic cylinder is started, the telescopic end of the second hydraulic cylinder drives the second limiting slide block to slide on the second limiting bulge, further, the first hinged connecting arm and the second hinged connecting arm are driven to move, further, the first limiting cross sliding column and the second limiting cross sliding column slide on the limiting crossheading, further, the distance between the first limiting cross sliding column and the second limiting cross sliding column is adjusted, the distance between the first limiting cross sliding column and the second limiting cross sliding column is matched with the box body of the power transformation equipment, then, the fastening stud is screwed, the first limiting slide block is fixed on the first limiting bulge, the second limiting bulge is fixed on the second limiting slide block, then place the substation equipment box between four spacing tray to make spacing post of inserting insert in spacing jack, then rotate the spacing disk of internal thread, make the spacing disk of internal thread tightly support the substation equipment box, it is more convenient to use.
Drawings
Fig. 1 is a first structural schematic diagram of a power transformation device mounting support frame of the invention;
FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1;
fig. 3 is a structural schematic diagram of a transformer equipment mounting support frame according to the second embodiment of the invention;
fig. 4 is a schematic structural view three of the mounting support frame for the power transformation equipment of the present invention;
FIG. 5 is a schematic diagram of a partial structure of a mounting bracket for a power transformation device according to the present invention;
fig. 6 is a schematic view of a connection structure of a support bottom plate, a first limit support seat and a second limit support seat of the mounting support frame for substation equipment according to the present invention;
fig. 7 is a schematic structural diagram of a substation equipment box of the substation equipment mounting support frame of the invention.
In the figure: 1-a support floor; 2-limiting gate slot; 3-a first limiting transverse sliding column; 4-a second limiting transverse sliding column; 5-limiting guide rods; 6-a transformation equipment box body; 7-external threads; 8-internal thread limit round block; 9-limiting supporting blocks; 10-a limit sleeve; 11-a conditioning tube; 12-a first limit support seat; 13-a second limit support seat; 14-a first stop lug; 15-a second limiting bulge; 16-a first limit slide block; 17-a second limit slide block; 18-a first articulated connecting arm; 19-a second articulated connecting arm; 20-a hinged axis; 21-a rigid buffer spring; 22-a first hydraulic cylinder; 23-a second hydraulic cylinder; 24-a fastening stud; 25-limiting inserting columns; 26-limiting insertion hole.
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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.
Referring to fig. 1 to 7, the present invention provides a technical solution for a mounting support frame of a power transformation device: a power transformation equipment mounting support frame comprises a support base plate 1, a limiting gate way 2, a first limiting transverse sliding column 3, a second limiting transverse sliding column 4, a limiting guide rod 5, a power transformation equipment box body 6, an external thread 7, an internal thread limiting round block 8, a limiting support block 9, a limiting sleeve 10, an adjusting pipe 11, a first limiting support seat 12, a second limiting support seat 13, a first limiting bulge 14, a second limiting bulge 15, a first limiting slide block 16, a second limiting slide block 17, a first hinged connecting arm 18, a second hinged connecting arm 19, a hinged shaft 20, a rigid buffer spring 21, a first hydraulic cylinder 22, a second hydraulic cylinder 23, a fastening stud 24, a limiting inserting column 25 and a limiting inserting hole 26, wherein the first limiting transverse sliding column 3 and the second limiting transverse sliding column 4 are connected onto the support base plate 1 in a sliding mode; two rigid buffer springs 21 are fixed on the first limiting transverse sliding column 3 along the length direction; two rigid buffer springs 21 are fixed on the second limiting transverse sliding column 4 along the length direction; the rigid buffer springs 21 are respectively fixedly connected with a limiting supporting block 9; the two longitudinal limiting supporting blocks 9 are connected through a limiting sleeve 10 and an adjusting pipe 11; the limiting sleeve 10 is connected with the adjusting pipe 11; a second limit supporting seat 13 and a first limit supporting seat 12 are respectively fixed at two ends of the supporting bottom plate 1; a first limit bulge 14 is fixed on the first limit support seat 12; a second limiting bulge 15 is fixed on the second limiting support seat 13; the first limiting bulge 14 is connected with a first limiting slide block 16 in a sliding manner; two first hinged connecting arms 18 are hinged to the first limiting sliding block 16; the two first hinge connecting arms 18 are respectively hinged with the first limiting transverse sliding column 3 and the second limiting transverse sliding column 4; the second limiting bulge 15 is connected with a second limiting slide block 17 in a sliding manner; two second hinged connecting arms 19 are hinged to the second limiting sliding block 17; the two second hinged connecting arms 19 are respectively hinged with the first limiting transverse sliding column 3 and the second limiting transverse sliding column 4; a first hydraulic cylinder 22 is fixed on the support bottom plate 1; a first limiting slide block 16 is fixed at the telescopic end of the first hydraulic cylinder 22; a second hydraulic cylinder 23 is fixed on the support bottom plate 1; a second limiting slide block 17 is fixed at the telescopic end of the second hydraulic cylinder 23; the four limiting support blocks 9 are respectively fixed with a limiting guide rod 5; a power transformation equipment box body 6 is arranged between the four limiting guide rods 5; four corners at the bottom of the transformation equipment box body 6 are respectively fixed with limiting inserting columns 25; limiting jacks 26 are respectively arranged on the four limiting support blocks 9; the transformation equipment box body 6 is connected with the limiting support block 9 through a limiting insertion column 25 and a limiting insertion hole 26; and the limiting guide rod 5 is in threaded connection with an internal thread limiting round block 8.
In the embodiment, two limiting gate grooves 2 are formed in the supporting bottom plate 1 along the length direction; used for sliding the first limit cross sliding column 3 and the second limit cross sliding column 4.
In this embodiment, the limiting support block 9 is provided with a limiting insertion hole 26 for installing a limiting insertion column 25.
In this embodiment, the first limit slider 16 is fixedly connected with the first limit protrusion 14 through a fastening stud 24; the second limit sliding block 17 is fixedly connected with the second limit sliding block 17 through a fastening stud 24.
In this embodiment, the first limiting slider 16 is hinged to the first hinge connecting arm 18 through a hinge shaft 20; the two first hinged connecting arms 18 are respectively hinged with the first limiting transverse sliding column 3 and the second limiting transverse sliding column 4 through hinged shafts 20; the two limiting sliding blocks 17 are hinged with a second hinged connecting arm 19 through a hinged shaft 20; the two second hinged connecting arms 19 are hinged to the first limiting sliding column 3 and the second limiting sliding column 4 through hinged shafts 20 respectively.
In this embodiment, the limiting insertion column 25 is inserted into the limiting insertion hole 26; the limiting insertion column 25 is matched with the limiting insertion hole 26.
In this embodiment, the limiting guide rod 5 is provided with an external thread 7 for being in threaded connection with an internal thread limiting round block 8.
In this embodiment, the first limiting sliding block 16 is adapted to the first limiting protrusion 14; the second limiting bulge 15 is adapted to the second limiting slide block 17.
In this embodiment, a first hydraulic cylinder 22 is welded on the support base plate 1; a second hydraulic cylinder 23 is welded on the support bottom plate 1.
The working principle is as follows: firstly, according to the width of the power transformation equipment box body 6, adjusting the distance between a first limiting transverse sliding column 3 and a second limiting transverse sliding column 4, when adjusting the distance between the first limiting transverse sliding column 3 and the second limiting transverse sliding column 4, starting a first hydraulic cylinder 22 to enable a telescopic end of the first hydraulic cylinder 22 to drive a first limiting slide block 16 to slide on a first limiting bulge 14, simultaneously starting a second hydraulic cylinder 23 to enable a telescopic end of the second hydraulic cylinder 23 to drive a second limiting slide block 17 to slide on a second limiting bulge 15, further driving a first hinged connecting arm 18 and a second hinged connecting arm 19 to move, further enabling the first limiting transverse sliding column 3 and the second limiting transverse sliding column 4 to slide on a limiting crossheading 2, further adjusting the distance between the first limiting transverse sliding column 3 and the second limiting transverse sliding column 4, and enabling the distance between the first limiting transverse sliding column 3 and the second limiting transverse sliding column 4 to be adapted to the power transformation equipment box body 6, then tighten fastening stud 24, fix first spacing slider 16 on first spacing arch 14, fix second spacing arch 15 on second spacing slider 17, then place substation equipment box 6 between four spacing tray 9 to make spacing post 25 insert in spacing jack 26, then rotate the spacing round piece 8 of internal thread, make the spacing round piece 8 of internal thread tightly support substation equipment box 6, this device has just been installed and has been accomplished.
The technical effects are as follows: the transformer equipment is provided with a support frame, and four limiting support blocks 9 are respectively fixed with a limiting guide rod 5; a transformation equipment box body 6 is arranged between the four limiting guide rods 5; the limiting guide rod 5 is in threaded connection with an internal thread limiting round block 8; be provided with on the spacing guide arm 5 and be used for external screw thread 7 with 8 threaded connection of the spacing round piece of internal thread, owing to be provided with spacing guide arm 5, the spacing round piece of internal thread 8 is injectd and is fixed to substation equipment box 6 for substation equipment box 6 is difficult to break away from this device, falls on the ground, and four spacing guide arms 5 protect substation equipment box 6, make substation equipment box 6's life than longer. In the transformer equipment mounting support frame, a second limit support seat 13 and a first limit support seat 12 are respectively fixed at two ends of a support base plate 1; a first limit bulge 14 is fixed on the first limit support seat 12; a second limit bulge 15 is fixed on the second limit support seat 13; the first limiting bulge 14 is connected with a first limiting slide block 16 in a sliding manner; two first hinged connecting arms 18 are hinged on the first limiting sliding block 16; the two first hinged connecting arms 18 are respectively hinged with the first limiting transverse sliding column 3 and the second limiting transverse sliding column 4; the second limiting bulge 15 is connected with a second limiting slide block 17 in a sliding manner; two second hinged connecting arms 19 are hinged on the second limiting sliding block 17; the two second hinged connecting arms 19 are respectively hinged with the first limiting transverse sliding column 3 and the second limiting transverse sliding column 4; a first hydraulic cylinder 22 is fixed on the support base plate 1; a first limit slider 16 is fixed at the telescopic end of the first hydraulic cylinder 22; the first limit slider 16 is fixedly connected with the first limit bulge 14 through a fastening stud 24; the second limit slider 17 is fixedly connected with the second limit slider 17 through a fastening stud 24, the first hydraulic cylinder 22 is started, the telescopic end of the first hydraulic cylinder 22 drives the first limit slider 16 to slide on the first limit bulge 14, meanwhile, the second hydraulic cylinder 23 is started, the telescopic end of the second hydraulic cylinder 23 drives the second limit slider 17 to slide on the second limit bulge 15, the first hinged connecting arm 18 and the second hinged connecting arm 19 are driven to move, the first limit cross sliding column 3 and the second limit cross sliding column 4 slide on the limit crossheading 2, the distance between the first limit cross sliding column 3 and the second limit cross sliding column 4 is adjusted, the distance between the first limit cross sliding column 3 and the second limit cross sliding column 4 is matched with the power transformation equipment box 6, then the fastening stud 24 is screwed, and the first limit slider 16 is fixed on the first limit bulge 14, the second limit bulge 15 is fixed on the second limit slide block 17, so that the whole device is stable. In the transformer equipment mounting support frame, a second limit support seat 13 and a first limit support seat 12 are respectively fixed at two ends of a support base plate 1; a first limit bulge 14 is fixed on the first limit support seat 12; a second limit bulge 15 is fixed on the second limit support seat 13; the first limiting bulge 14 is connected with a first limiting slide block 16 in a sliding manner; two first hinged connecting arms 18 are hinged on the first limiting sliding block 16; the two first hinged connecting arms 18 are respectively hinged with the first limiting transverse sliding column 3 and the second limiting transverse sliding column 4; the second limiting bulge 15 is connected with a second limiting slide block 17 in a sliding manner; two second hinged connecting arms 19 are hinged on the second limiting sliding block 17; the two second hinged connecting arms 19 are respectively hinged with the first limiting transverse sliding column 3 and the second limiting transverse sliding column 4; a first hydraulic cylinder 22 is fixed on the support base plate 1; a first limit slider 16 is fixed at the telescopic end of the first hydraulic cylinder 22; the first limit slider 16 is fixedly connected with the first limit bulge 14 through a fastening stud 24; the second limiting slide block 17 is fixedly connected with the second limiting slide block 17 through a fastening stud 24, and the distance between the first limiting transverse sliding column 3 and the second limiting transverse sliding column 4 is adjusted, so that the distance between the first limiting transverse sliding column 3 and the second limiting transverse sliding column 4 is adaptive to the transformation equipment box 6, the transformation equipment box 6 is suitable for transformation equipment boxes 6 with different widths, and the universality is high. When the distance between the first limiting cross sliding column 3 and the second limiting cross sliding column 4 is adjusted, the first hydraulic cylinder 22 is started, the telescopic end of the first hydraulic cylinder 22 drives the first limiting slide block 16 to slide on the first limiting bulge 14, meanwhile, the second hydraulic cylinder 23 is started, the telescopic end of the second hydraulic cylinder 23 drives the second limiting slide block 17 to slide on the second limiting bulge 15, the first hinged connecting arm 18 and the second hinged connecting arm 19 are driven to move, the first limiting cross sliding column 3 and the second limiting cross sliding column 4 slide on the limiting crossheading 2, the distance between the first limiting cross sliding column 3 and the second limiting cross sliding column 4 is adjusted, the distance between the first limiting cross sliding column 3 and the second limiting cross sliding column 4 is matched with the power transformation equipment box body 6, then the fastening stud 24 is screwed, and the first limiting slide block 16 is fixed on the first limiting bulge 14, fix the spacing arch 15 of second on the spacing slider 17 of second, then place substation equipment box 6 between four spacing tray blocks 9 to make spacing post 25 insert spacing jack 26 in, then rotate the spacing round piece 8 of internal thread, make the spacing round piece 8 of internal thread tightly support substation equipment box 6, it is more convenient to use.
It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.