CN218437172U - Assembled foundation of box-type power station - Google Patents

Abstract

The application relates to the technical field of box-type power changing stations, in particular to a box-type power changing station assembled foundation which comprises a left assembling block, a right assembling block, a transition assembling block, an end assembling block and a fixed steel pipe; two groups of fixed steel pipes penetrate through the end splicing blocks and the transition splicing blocks and are symmetrically distributed, and two groups of fixed steel pipes extend from the transition splicing blocks and respectively penetrate through the left splicing blocks and the right splicing blocks; the left assembling block, the right assembling block, the transition assembling block and the end assembling block comprise annular channel steel, an upper steel mesh and a lower steel mesh and support iron with bearing iron are installed in the annular channel steel, and the bottom of the support iron is clamped with a fixed steel pipe. The utility model provides an installation effectiveness that has improved box power station ground, the cost is reduced can satisfy and has increased the power station construction demand now day by day.

Description

Assembled foundation of box-type power station

Technical Field

The application relates to the technical field of box-type power stations, in particular to a pin-connected foundation of a box-type power station.

Background

Environmental pollution and insufficient petroleum resources are bottlenecks in the development of the current automobile industry. Under the background, new energy pure electric vehicles are produced at the same time. The pure electric vehicle is a vehicle which takes a vehicle-mounted power supply as power and drives wheels to run by using a battery, and meets various requirements of road traffic pollution and safety regulations. Although the pure electric vehicle uses clean energy, the endurance capacity of the pure electric vehicle is limited due to the limitation of the current battery technology, and therefore the pure electric vehicle needs to be charged or the battery needs to be replaced in time.

Therefore, the electric vehicle battery replacement station is developed at any time, and for the battery replacement mode, the battery replacement station comprising the battery replacement robot, the charging rack, the charger and other equipment is established, the battery which is used up by the electric vehicle is taken out by the battery replacement robot and put into the charging rack for charging, and the fully charged battery is put into the electric vehicle, so that the endurance requirement of the electric vehicle is met. At present, the traditional power station foundation has the defects of large occupied area, large project amount, high construction cost, fixed site selection, limited distribution area and the like in the construction process.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problem that exists among the prior art, this application provides a box trades power station pin-connected panel ground.

The application provides a box trades power station pin-connected panel ground adopts following technical scheme:

a box type power station assembly type foundation comprises a left assembly block, a right assembly block, a transition assembly block, an end assembly block and a fixed steel pipe; two groups of fixed steel pipes penetrate through the end splicing blocks and the transition splicing blocks and are symmetrically distributed, and two groups of fixed steel pipes extend from the transition splicing blocks and respectively penetrate through the left splicing blocks and the right splicing blocks; the left assembling block, the right assembling block, the transition assembling block and the end assembling block all comprise annular channel steel, an upper steel mesh and a lower steel mesh and support iron with bearing iron are installed in the annular channel steel, and a fixed steel pipe is clamped at the bottom of the support iron.

Through adopting above-mentioned technical scheme, the box trades the ground of power station pin-connected panel, assembles the combination of piece and the right side of assembling the piece through the left side of the end of one end assembling piece and the other end, forms a whole firm ground structure to added the piece is assembled in a plurality of transition between the two, increased the whole area of ground. Each assembly block is fixedly connected with each other through a fixed steel pipe, the fixed steel pipe is limited through bracket iron on each assembly block, and bearing iron on the bracket iron is used for supporting poured cement blocks. The whole structure is assembled conveniently, the construction process is efficient and convenient, the limitation of site selection is avoided, and the construction requirements of the power conversion station are increased day by day.

Preferably, bearing iron is fixedly installed at the top of the support iron, wherein the bearing iron is a steel plate with a rectangular structure, a groove is formed in one face, far away from the bearing iron, of the bearing iron, and the groove is matched with the fixed steel pipe.

Through adopting above-mentioned technical scheme, the bearing iron adopts the steel sheet of rectangle structure, can with the steel mesh laminating from top to bottom to support the support iron with the position phase-match of fixed pipeline, the recess that the support iron bottom was seted up can play the restriction of position to fixed pipeline, avoids the skew of fixed pipeline at the in-process position of wearing to establish.

Preferably, upper and lower steel mesh includes the steel wire net of double-deck, and wherein the laminating has bearing iron on the upper steel net, and setting up of support iron and fixed steel pipe is between upper steel mesh and lower floor's steel mesh.

Through adopting above-mentioned technical scheme, the upper steel mesh in the upper and lower steel mesh carries out fixed connection to the bearing iron, fixes the position of bearing iron, and the space between upper steel mesh and the lower floor's steel mesh is used for holding support iron and fixed steel pipe to the holistic intensity of double-deck structure is bigger more stable.

Preferably, the annular channel steel in the end splicing block comprises two side channel steel, end channel steel and connecting channel steel, wherein the two side channel steel is arranged on the wide edge of the end splicing block, the connecting channel steel is arranged on the side connected with the transition splicing block, and the end channel steel is arranged on the side far away from the transition splicing block; the annular groove steel in the transition assembling block comprises channel steel on two sides and connecting channel steel, wherein the channel steel on the two sides is arranged on the wide edge of the transition assembling block.

Through adopting above-mentioned technical scheme, in the end piece together the piece through two both sides channel-section steels, an end channel-section steel and one be used for with the transition assemble the connection channel-section steel that the piece is connected and constitute, the long limit of only one side of end piece together the piece is used for connecting, the transition is assembled the piece and is used for the holistic connection of ground through the long limit connection channel-section steel in both sides.

Preferably, the left assembling block and the right assembling block are symmetrically installed, wherein the annular channel steel on the left assembling block and the right assembling block comprises a left connecting channel steel, a right side frame channel steel, an upper frame channel steel and a lower connecting channel steel, and the left connecting channel steel and the right connecting channel steel are fixedly connected with the transition assembling block through a left connecting channel steel.

Through adopting above-mentioned technical scheme, the piece is assembled on a left side and the piece is assembled on the right side and the long epaxial connection channel-section steel fixed connection of piece one side is assembled through the broadside of its own one side and transition to the piece is assembled on a left side and the piece is assembled on the right side and is connected through the lower connection channel-section steel that both laminated each other, thereby the connection of ground is through the coupling mechanism of like this "T" type, and overall structure is more firm.

Preferably, two support irons corresponding to a single fixed steel pipe are adopted in the end splicing block, the left splicing block and the right splicing block, and one support iron corresponding to a single fixed steel pipe is adopted in the transition splicing block.

Through adopting above-mentioned technical scheme, the piece is assembled to the end of tip and the piece is assembled on a left side and the piece is assembled to the right side and a fixed steel pipe corresponds two support irons, forms firm connection to fixed steel pipe tip, assembles the piece at a plurality of transitions in the centre, sets up a support iron and can realize spacing to it in the intermediate position to the fixed structure in cooperation both sides, the support iron of the fixed steel pipe of a restriction just can guarantee to pass through and assemble the connection stability of piece.

Preferably, the cross section in the annular channel-section steel is "U" type structure, and the opening of annular channel-section steel is inboard towards, and wherein the both ends of connecting the channel-section steel are equipped with the extension, and the one end of connecting channel-section steel and connecting the channel-section steel down on a left side is equipped with the extension, installs the reinforcing plate in the middle of in the recess of extension, through bolt fixed connection between the extension, and bolt symmetric distribution is in the both sides of reinforcing plate.

Through adopting above-mentioned technical scheme, the opening of the holistic cross section of ring channel steel adoption "U" type structure inboard for hold inside upper and lower steel mesh, and the extension that sets up on it for connect between the steel groove and the connection steel groove, connect steel groove and left connection steel groove, connect down the construction bolt between the steel groove and connect, the reinforcing plate of the middle installation of extension recess can also further consolidate the adjacent connection of assembling between the piece.

Preferably, the reinforcing plate is of a right-angle trapezoidal plate structure, wherein the right-angle waist of the reinforcing plate is fixedly connected with the outer surface of the adjacent annular groove steel.

Through adopting above-mentioned technical scheme, the steel channel reinforcing plate adopts right trapezoid's structure, and the bottom surface is fixed in the inboard of annular channel-section steel, and the right angle waist is fixed on the annular surface of vertically with it to reinforced the connection between these two, makeed its difficult skew that takes place connection angle.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the bearing iron is a steel plate with a rectangular structure and can be attached to the upper steel mesh and the lower steel mesh, so that the support iron is supported to be matched with the position of the fixed pipeline, the fixed pipeline can be limited by the groove formed in the bottom of the support iron, and the position deviation of the fixed pipeline in the penetrating process is avoided;

2. the reinforcing plate arranged in the middle of the extending part groove can further reinforce the connection between the adjacent assembling blocks, the reinforcing plate adopts a right-angled trapezoid structure, the bottom surface of the reinforcing plate is fixed on the inner side of the annular channel steel, and the right-angled waist of the reinforcing plate is fixed on the annular outer surface vertical to the annular channel steel, so that the connection between the reinforcing plate and the annular channel steel is reinforced, and the reinforcing plate is not easy to deviate in connection angle;

3. each assembly block is fixedly connected with each other through a fixed steel pipe, the fixed steel pipe is limited through bracket iron on each assembly block, and bearing iron on the bracket iron is used for supporting poured cement blocks. The whole structure is assembled conveniently, the construction process is efficient and convenient, the limitation of site selection is avoided, and the construction requirements of the power conversion station are increased day by day.

Drawings

FIG. 1 is a schematic view of the overall structure of a box-type power station assembly type foundation;

FIG. 2 is a schematic structural diagram of a middle-end assembly block of an assembly foundation of a box-type power conversion station;

FIG. 3 isbase:Sub>A schematic view of the section A-A of FIG. 2;

FIG. 4 is a schematic view of a transition assembly block structure in a box-type power conversion station assembly foundation;

FIG. 5 is a schematic structural view of a left assembly block in an assembly foundation of a box-type power station;

FIG. 6 is a schematic view of the section B-B in FIG. 5;

fig. 7 is a schematic structural diagram of a right assembly block in a box-type power conversion station assembly type foundation.

Description of the reference numerals: 1. a left splicing block; 2. a right splicing block; 3. a transitional assembly block; 4. end assembling blocks; 5. fixing the steel pipe; 6. annular channel steel; 61. channel steel on two sides; 62. end channel steel; 63. connecting channel steel; 64. the left connecting channel steel; 65. a right side frame channel steel; 66. upper frame channel steel; 67. a lower connecting channel steel; 7. upper and lower steel nets; 71. an upper layer of steel mesh; 72. a lower steel mesh; 8. bearing iron; 9. a support iron; 10. an extension portion; 11. a reinforcing plate; 12. and (4) bolts.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses a box-type power station pin-connected panel ground.

Referring to fig. 1-7, a box-type power station assembly foundation comprises a left assembly block 1, a right assembly block 2, a transition assembly block 3, an end assembly block 4 and a fixed steel pipe 5; two groups of fixed steel pipes 5 penetrate through the end assembling blocks 4 and the transition assembling blocks 3 and are symmetrically distributed, and two groups of fixed steel pipes 5 extending from the transition assembling blocks 3 respectively penetrate through the left assembling block 1 and the right assembling block 2; piece 1 is assembled on a left side, piece 2 is assembled on the right side, piece 3 is assembled in the transition and piece 4 is assembled to the end all includes annular channel-section steel 6, installs steel mesh 7 about and has support iron 9 of bearing iron 8 in the annular channel-section steel 6, and wherein the bottom block of support iron 9 has fixed steel pipe 5. The box-type power station assembled foundation is formed into an overall stable foundation structure by combining the end assembling block 4 at one end and the left assembling block 1 and the right assembling block 2 at the other end, and the transition assembling blocks 3 are added between the end assembling block 4 and the right assembling block 2, so that the overall area of the foundation is increased. Each assembly block is fixedly connected with the fixed steel pipe 5, the fixed steel pipe 5 is limited through a support iron 9 on each assembly block, and a bearing iron 8 on the support iron 9 is used for supporting a poured cement block. The whole structure is assembled conveniently, the construction process is efficient and convenient, the limitation of site selection is avoided, and the construction requirements of the power conversion station are increased day by day.

Referring to fig. 2 and 3, the bearing iron 8 is fixedly installed at the top of the bracket iron 9, wherein the bearing iron 8 is a steel plate with a rectangular structure, a groove is formed in one surface of the bearing iron 8, which is far away from the bearing iron 8, and the groove is matched with the fixed steel pipe 5. Bearing iron 8 adopts the steel sheet of rectangle structure, can with 7 laminating of upper and lower steel meshes to support iron 9 with the position phase-match of fixed pipeline, the recess that 9 bottoms of support iron were seted up can play the restriction of position to fixed pipeline, avoids the skew of fixed pipeline at the in-process position of wearing to establish.

Referring to fig. 1, 2 and 3, the upper and lower steel nets 7 include double steel nets, wherein the upper steel net 71 is attached with the bearing iron 8, and the bracket iron 9 and the fixing steel pipe 5 are disposed between the upper steel net 71 and the lower steel net 72. The upper steel mesh 71 in the upper and lower steel meshes 7 is fixedly connected with the bearing iron 8, the position of the bearing iron 8 is fixed, a gap between the upper steel mesh 71 and the lower steel mesh 72 is used for accommodating the support iron 9 and the fixed steel pipe 5, and the overall strength of the double-layer structure is larger and more stable.

Referring to fig. 1 and 2, the ring channel steel 6 in the end splicing block 4 comprises two side channel steels 61, an end channel steel 62 and a connecting channel steel 63, wherein the two side channel steels 61 are arranged on the wide edge of the end splicing block 4, the connecting channel steel 63 is arranged on the side connected with the transition splicing block 3, and the end channel steel 62 is arranged on the side far away from the transition splicing block 3; the annular channel steel 6 in the transition splicing block 3 comprises two side channel steel 61 and a connecting channel steel 63, wherein the two side channel steel 61 is arranged on the wide edge of the transition splicing block 3. The end is assembled in piece 4 and is assembled through two both sides channel-section steels 61, an end channel-section steel 62 and one and be used for assembling the connection channel-section steel 63 that piece 3 is connected with the transition and constitute, and the long limit of one side of end is used for connecting piece 4, and the transition is assembled piece 3 and is used for the holistic connection of ground through the connection channel-section steel 63 on the long limit of both sides.

Referring to fig. 1, 5, 6 and 7, the left assembling block 1 and the right assembling block 2 are symmetrically installed, wherein the annular channel steel 6 on the left assembling block 1 and the right assembling block 2 comprises a left connecting channel steel 64, a right frame channel steel 65, an upper frame channel steel 66 and a lower connecting channel steel 67, and the left connecting channel steel 64 and the transition assembling block 3 are fixedly connected. Piece 1 is assembled on a left side and piece 2 is assembled on the right side through the broadside of its own one side and the long edge-on connection channel-section steel 63 fixed connection of piece 3 one side of transition to piece 1 is assembled on a left side and piece 2 is assembled on the right side and piece 67 is connected through the lower connection channel-section steel of laminating each other between them, thereby the connection of ground is through the coupling mechanism of like this "T" type, and overall structure is more firm.

Referring to fig. 1, 2 and 3, two support irons 9 corresponding to a single fixed steel pipe 5 are adopted in the end assembling block 4, the left assembling block 1 and the right assembling block 2, and one support iron 9 corresponding to a single fixed steel pipe 5 is adopted in the transition assembling block 3. Piece 4 is assembled to the end of tip and a left side is assembled piece 1 and right side and is assembled piece 2 and go up a fixed steel pipe 5 and correspond two support irons 9, forms firm connection to fixed steel pipe 5 tip, assembles piece 3 at a plurality of transitions in the centre, sets up a support iron 9 and can realize spacing to it in the intermediate position to the fixed structure in cooperation both sides, the support iron 9 of a restriction fixed steel pipe 5 just can guarantee that the connection of piece 3 is assembled in the transition is stable.

Referring to fig. 1 and 6, the cross section of the annular channel steel 6 is a U-shaped structure, the opening of the annular channel steel 6 faces the inner side, the two ends of the connecting channel steel 63 are provided with the extending portions 10, one end of the left connecting channel steel 64 and one end of the lower connecting channel steel 67 are provided with the extending portions 10, the reinforcing plate 11 is installed in the middle of the groove of the extending portions 10, the extending portions 10 are fixedly connected through bolts 12, and the bolts 12 are symmetrically distributed on two sides of the reinforcing plate 11. The opening of the "U" type structure that the holistic cross section of annular channel-section steel 6 adopted is inboard for hold inside upper and lower steel mesh 7, and the extension 10 that sets up on it for connect between the steel groove and the connection steel groove, connect steel groove and left connection steel groove, connect down construction bolt 12 between the steel groove and connect, the reinforcing plate 11 of the middle installation of extension 10 recess can also further consolidate the adjacent connection of assembling between the piece.

Referring to fig. 1 and 6, the reinforcing plate 11 has a right-angled trapezoidal plate structure, wherein a right-angled waist of the reinforcing plate 11 is fixedly connected with an outer surface of the adjacent annular channel steel 6. The steel channel reinforcing plate 11 adopts a right trapezoid structure, the bottom surface is fixed on the inner side of the annular channel steel 6, and the right-angle waist is fixed on the outer surface of the annular channel steel vertical to the right-angle waist, so that the connection between the steel channel reinforcing plate and the annular channel steel is reinforced, and the steel channel reinforcing plate is not easy to deviate in connection angle.

The working principle is as follows: piece 4 is assembled through the end that connects gradually in the box trades power station pin-connected panel ground, the piece is spliced in the transition, piece 1 is assembled on a left side and piece 2 is assembled on the right side, two fixed steel pipes 5 run through the end and assemble piece 4 and transition and assemble piece 3, and fixed steel pipe 5 extends respectively every day and runs through left side and splice piece and right side and splice piece, wherein the fixed steel pipe of a strip 5 is at end assembly piece 4, piece 1 is assembled on a left side and the right side is assembled and is corresponded two sets of support irons 9 on piece 2, correspond a set of support iron 9 on the piece is spliced in the transition. The end is assembled and is included both sides channel-section steel 61 on the piece 4, end channel-section steel 62 and connect the upper and lower steel mesh 7 in the ring channel-section steel 6 and the ring channel-section steel 6 that channel-section steel 63 formed, the piece 3 is assembled including both sides channel-section steel 61 and the upper and lower steel mesh 7 in the ring channel-section steel 6 and the ring channel-section steel 6 that connect channel-section steel 63 to the transition, it all includes left connection channel-section steel 64 to assemble piece 1 and the right side with the right side about the piece 2 is assembled to the left side, right side frame channel-section steel 65, go up frame channel-section steel 66 and connect the ring channel-section steel 6 that channel-section steel 67 formed down about the steel mesh 7 in the ring channel-section steel 6. Between the connection channel-section steel 63, between connection channel-section steel 63 and the left side connection channel-section steel 64, all through bolt 12 fixed connection between the lower connection channel-section steel 67, and connect channel-section steel 63, the left side and connect channel-section steel 64, be equipped with reinforcing plate 11 in the middle of the extension portion 10 that lower connection channel-section steel 67 tip was equipped with, bolt 12 fixes in the both sides of reinforcing plate 11.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a box trades power station pin-connected panel ground which characterized in that: comprises a left splicing block (1), a right splicing block (2), a transition splicing block (3), an end splicing block (4) and a fixed steel pipe (5); two groups of fixed steel pipes (5) penetrate through the end assembling blocks (4) and the transition assembling blocks (3) and are symmetrically distributed, and two groups of fixed steel pipes (5) extend from the transition assembling blocks (3) and respectively penetrate through the left assembling block (1) and the right assembling block (2); piece (2), transition are assembled to piece (3) and end and are assembled piece (4) and all include annular channel-section steel (6) to a left side assembly piece (1), the right side, install steel mesh (7) about in annular channel-section steel (6) and have support iron (9) of bearing iron (8), wherein the bottom block of support iron (9) has fixed steel pipe (5).

2. The box-type power conversion station assembled foundation of claim 1, wherein: bearing iron (8) fixed mounting is at the top of support iron (9), and wherein bearing iron (8) are the steel sheet of rectangle structure, bearing iron (8) keep away from the one side of bearing iron (8) and seted up the recess, and recess and fixed steel pipe (5) adaptation.

3. The box-type power conversion station assembled foundation of claim 2, wherein: the upper steel mesh and the lower steel mesh (7) comprise double layers of steel meshes, wherein the upper layer steel mesh (71) is attached with bearing iron (8), and the support iron (9) and the fixed steel pipe (5) are arranged between the upper layer steel mesh (71) and the lower layer steel mesh (72).

4. The box-type power conversion station assembled foundation of claim 1, wherein: the annular channel steel (6) in the end assembling block (4) comprises two side channel steels (61), end channel steel (62) and connecting channel steel (63), wherein the two side channel steels (61) are arranged on the wide side of the end assembling block (4), the connecting channel steel (63) is arranged on one side connected with the transition assembling block (3), and the end channel steel (62) is arranged on one side far away from the transition assembling block (3); the annular channel steel (6) in the transition assembling block (3) comprises two side channel steel (61) and a connecting channel steel (63), wherein the two side channel steel (61) are arranged on the wide edge of the transition assembling block (3).

5. The box-type power conversion station assembled foundation of claim 1, wherein: piece (2) symmetrical installation is assembled on the piece (1) and the right side to a left side, wherein block (1) is assembled on a left side and annular channel-section steel (6) on piece (2) is assembled on the right side including left side connection channel-section steel (64), right side frame channel-section steel (65), go up frame channel-section steel (66) and lower connection channel-section steel (67) to both all assemble piece (3) fixed connection through left side connection channel-section steel (64) and transition.

6. The box-type power conversion station assembled foundation of claim 1, wherein: two support irons (9) corresponding to the single fixed steel pipe (5) are adopted in the end assembling block (4), the left assembling block (1) and the right assembling block (2), and one support iron (9) corresponding to the single fixed steel pipe (5) is adopted in the transition assembling block (3).

7. The box-type power conversion station assembled foundation of claim 5, wherein: the cross section in annular channel-section steel (6) is "U" type structure, and the opening of annular channel-section steel (6) is inboard, and wherein the both ends of connecting channel-section steel (63) are equipped with extension (10), and the one end of connecting channel-section steel (64) and connecting channel-section steel (67) down is equipped with extension (10) on a left side, reinforcing plate (11) are installed to the centre in the recess of extension (10), through bolt (12) fixed connection between extension (10), and bolt (12) symmetric distribution is in the both sides of reinforcing plate (11).

8. The box-type power conversion station assembled foundation of claim 7, wherein: the reinforcing plate (11) is of a right-angle trapezoidal plate structure, wherein the right-angle waist of the reinforcing plate (11) is fixedly connected with the outer surface of the adjacent annular groove steel (6).

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