CN112490855B - Distribution box modulization installation framework - Google Patents

Abstract

The application relates to the field of distribution box mounting frameworks, in particular to a distribution box modular mounting framework, which has the technical scheme that the distribution box modular mounting framework comprises four vertical support groups, wherein the four vertical support groups are respectively arranged at the positions of four vertical edges of a distribution box; each vertical support group comprises a plurality of vertical support plates which are vertically arranged, and the vertical support plates which are adjacent up and down are connected through bolts; the upper end and the lower end of the vertical support group are provided with a transverse support group; the purpose that the modulization is realized in order to be applicable to not unidimensional block terminal to make block terminal installation skeleton, and then reduce the work load and the cost of block terminal processing has been reached.

Description

Distribution box modulization installation framework

Technical Field

The application relates to a block terminal installation skeleton field especially relates to a block terminal modulization installation skeleton.

Background

With the development of the power distribution industry, the mounting structure of the distribution box is gradually subjected to more and more requirements; when the distribution box is processed, a framework supporting rod is needed to be used for mounting all box body plates together; when the framework supporting rods are machined, according to the layout of electrical elements in the distribution box and the required size of the distribution box, selecting proper framework supporting rod sizes and machining each framework supporting rod according to requirements; therefore, the framework supporting rods with various sizes are required to be processed according to the sizes of distribution boxes with different models, and the workload and the cost for processing the distribution boxes are increased to a certain extent.

Disclosure of Invention

In order to make block terminal installation skeleton realize the modulization in order to be applicable to not unidimensional block terminal, and then reduce the work load and the cost of block terminal processing, this application provides a block terminal modulization installation skeleton.

The application provides a pair of block terminal modulization installation skeleton adopts following technical scheme:

a distribution box modularized installation framework comprises four vertical support groups, wherein the four vertical support groups are respectively arranged at the positions of four vertical edges of a distribution box; each vertical support group comprises a plurality of vertical support plates which are vertically arranged, and the vertical support plates which are adjacent up and down are connected through bolts; the upper end and the lower end of the vertical support group are provided with a transverse support group.

By adopting the technical scheme, when the plate is required to be installed, the proper number of vertical support plates are selected according to the vertical height of the distribution box, the vertical support plates are connected through the bolts, and after the vertical support plates are installed, the transverse support group is installed on the vertical support plates, so that the installation of the installation framework is completed; like this, can realize the modularization of installation skeleton in height, and then when the block terminal to co-altitude not, only need select the perpendicular backup pad of suitable quantity can and need not reprocess the skeleton bracing piece in vertical side of certain length, and then reduced the work load and the cost of block terminal processing.

Preferably, the vertical support plate is an L-shaped plate, horizontal first connecting plates are arranged at two ends of the vertical support plate, and the first connecting plates are fixedly connected with two surfaces of the vertical support plate; the first connecting plates on the two vertical supporting plates which are adjacent from top to bottom are mutually attached and connected through bolts.

Through adopting above-mentioned technical scheme, when needs are installed a plurality of perpendicular backup pads together, stack each perpendicular backup pad from the top down in proper order together, this moment, the first connecting plate laminating of ground is kept away from with the perpendicular backup pad that is located the below to the first connecting plate that is close to of the perpendicular backup pad that is located the top, and link together first connecting plate through the bolt, and then realized two adjacent perpendicular backup pad fixed connection from top to bottom, in addition, the mutual laminating of first connecting plate can hinder and take place relative slope between the perpendicular connecting plate, then the straightness accuracy after a plurality of first connecting plates equipment together has been improved.

Preferably, the number of the transverse support groups is eight, and the transverse support groups are respectively arranged at the positions of eight horizontal transverse edges of the distribution box; each group of transverse support groups comprises a first transverse support plate and a second transverse support plate, and the first transverse support plate and the second transverse support plate are respectively and fixedly connected with one of two transversely adjacent vertical support plates; the first transverse supporting plate is connected with the second transverse supporting plate through bolts.

By adopting the technical scheme, when the first transverse supporting plate and the second transverse supporting plate are required to be installed together, the position relation between the first transverse supporting plate and the second transverse supporting plate is adjusted according to the length and the width of the distribution box in the horizontal direction, so that the length of the first transverse supporting plate and the second transverse supporting plate in the horizontal direction is equal to the distance between two horizontally adjacent vertical supporting plates; when the distance between the two vertical support plates is close, the first transverse support plate and the second transverse support plate are enabled to move towards the direction close to each other continuously, the area of the first transverse support plate and the area of the second transverse support plate which are overlapped with each other are increased continuously, the total length of the first transverse support plate and the second transverse support plate in the horizontal direction is shortened continuously until the total length of the first transverse support plate and the second transverse support plate is equal to the distance between the two adjacent vertical support plates, the first transverse support plate and the second transverse support plate are fixedly connected through bolts, and finally the first transverse support plate and the second transverse support plate are fixed on the vertical support plates; like this, realized the infinitely variable control to the horizontal direction of installation skeleton upward size, only need according to the width and the length adjustment first horizontal support board of block terminal promptly and the mutual position relation of second horizontal support board can, and need not reprocess the skeleton bracing piece on the horizontal direction of certain length, further reduced the work load and the cost of block terminal processing.

Preferably, one end of the first transverse support plate, which is far away from the second transverse support plate, is provided with a second connecting plate which is perpendicular to the first transverse support plate, and the surface of the first transverse support plate, which is provided with the second connecting plate, is provided with a third connecting plate; a fourth connecting plate perpendicular to the second transverse supporting plate is arranged at one end, away from the first transverse supporting plate, of the second transverse supporting plate, and a fifth connecting plate is arranged on the surface, provided with the fourth connecting plate, of the second transverse supporting plate; the second connecting plate and the fourth connecting plate are both connected with the vertical supporting plate through bolts; the third connecting plate and the fifth connecting plate are both connected with the first connecting plate through bolts.

Through adopting above-mentioned technical scheme, when needs are installed first cross bracing board and second cross bracing board in erecting the backup pad, all fix second connecting plate and fourth connecting plate on erecting the backup pad surface and all fix third connecting plate and fifth connecting plate on first connecting plate through the bolt can.

Preferably, the first transverse supporting plate is provided with a second connecting plate, a first transverse sinking groove is formed in the surface of the second transverse supporting plate, a second transverse sinking groove is formed in the surface, far away from the second connecting plate, of the second transverse supporting plate, and the groove bottom of the first transverse sinking groove is attached to the groove bottom of the second transverse sinking groove.

Through adopting above-mentioned technical scheme, when needs make first horizontal support plate and the laminating of the horizontal backup pad of second and pass through bolted connection, make the tank bottom laminating of the horizontal heavy groove of first horizontal heavy groove and second, and then reduced first horizontal support plate and the horizontal backup pad of second and caused the unevenness on the horizontal backup pad surface of first horizontal support plate and second owing to piling up each other, can make promptly be in the coplanar as far as possible between the horizontal backup pad surface of first horizontal support plate and second, and then reduced the outside arch of installation skeleton.

Preferably, all set up the horizontal mounting hole of waist type on first horizontal supporting plate and the second horizontal supporting plate, run through two horizontal mounting holes simultaneously and can set up the bolt in order to fix first horizontal supporting plate and second horizontal supporting plate.

Through adopting above-mentioned technical scheme, when needs utilize first horizontal backup pad of bolt fastening and second horizontal backup pad, need make the collineation of horizontal mounting hole on first horizontal backup pad and the second horizontal backup pad one end distance, run through two horizontal mounting holes simultaneously with the bolt again and install the bolt on first horizontal backup pad and the horizontal backup pad of second, the fixed position of bolt can be confirmed to horizontal mounting hole to can make the position according to the stepless adjusting bolt of fixed position's needs.

Preferably, the vertical support plate is provided with a lap joint plate group for placing large-scale electric elements; the lap joint plate groups can be fixed on vertical support plates with different heights, and two lap joint plate groups on the same height plane are arranged and are parallel to each other.

Through adopting above-mentioned technical scheme, lap joint board group is fixed on the perpendicular backup pad of co-altitude not according to electrical element's high position needs, and then has satisfied different operating mode demands, has improved the compatibility of block terminal to a certain extent.

Preferably, the lap plate group comprises a plurality of first lap plates arranged horizontally; the adjacent first lap joint plates are mutually attached and connected through bolts; the first lapping plate is connected with the vertical support plate.

Through adopting above-mentioned technical scheme, when needs installation overlap joint board group, earlier according to the horizontal distance between the perpendicular backup pad select the first overlap joint board of suitable quantity, rethread bolt with adjacent two first overlap joint boards fixed can, like this, when installation overlap joint board group, only need earlier according to the horizontal distance between the perpendicular backup pad select the first overlap joint board of suitable quantity can and need not process the member of certain length as required again, further reduced the work load and the cost of block terminal processing.

Preferably, the two ends of the first lapping plate are provided with first sinking grooves, the two first sinking grooves are respectively arranged on the two surfaces of the first lapping plate, and the depth of the first sinking grooves is equal to half of the thickness of the first lapping plate; the bottoms of the first sunken grooves in the two adjacent first lapping plates are mutually attached.

By adopting the technical scheme, when two adjacent first bridging plates are required to be fixed together, the groove bottom of the first sunken groove of one first bridging plate is attached to the groove bottom of the first sunken groove of the other first bridging plate, and then the first bridging plates are fixedly connected through bolts; the first sinking grooves can enable the surfaces of the first lap joint plates to be in the same plane, and therefore the electric elements placed on the lap joint plate group are more stable.

Preferably, two lap joint plate groups on the same plane are provided with hanging plate groups for hanging small-sized electric elements, each hanging plate group comprises a plurality of hanging plates with vertical surfaces, the surfaces of the adjacent hanging plates are attached and connected through bolts, and the two hanging plates close to the first lap joint plate are connected with the hanging plates; the hitching holes are formed in the hitching plates and are evenly distributed along the extending direction of the hitching plates.

Through adopting above-mentioned technical scheme, when needs installation hanging panel group, the hanging plate of suitable quantity is selected according to the size of block terminal now, and rethread bolt links together each hanging plate can, and do not process the member of certain length according to the size of different model block terminals specially, further reduced the work load and the cost of block terminal processing.

In summary, the present application has the following technical effects:

1. the vertical support groups are arranged, so that the modulization of the installation framework in height can be realized, and when the distribution box is designed for different heights, only a proper number of vertical support plates are needed to be selected without reprocessing framework support rods with certain length in the vertical direction, so that the workload and the cost for processing the distribution box are reduced;

2. the transverse support group is arranged, so that the size of the mounting framework in the horizontal direction can be adjusted in a stepless manner, namely, the mutual position relation of the first transverse support plate and the second transverse support plate is adjusted according to the width and the length of the distribution box, the framework support rod in the horizontal direction with a certain length does not need to be processed, and the processing workload and the processing cost of the distribution box are further reduced;

3. by arranging the lap joint plate group, on one hand, the lap joint plate group is fixed on the vertical support plates with different heights according to the height position requirements of the electrical element, so that different working condition requirements are met, and the compatibility of the distribution box is improved to a certain extent; in addition, when the lap joint plate group is installed, only the first lap joint plates with proper quantity need to be selected according to the horizontal distance between the vertical supporting plates, the rod piece with certain length does not need to be processed according to needs, and the workload and the cost of processing the distribution box are further reduced.

Drawings

Fig. 1 is an overall structural view of a mounting frame in the embodiment of the present application;

FIG. 2 is a structural view of a vertical support plate in the embodiment of the present application;

FIG. 3 is a block diagram of a first cross support plate in an embodiment of the present application;

FIG. 4 is a structural view of a second cross support plate in the embodiment of the present application;

FIG. 5 is an enlarged view of a portion of FIG. 1 at A;

FIG. 6 is a structural view of a first strap in an embodiment of the present application;

FIG. 7 is a structural view of a second strap in an embodiment of the present application;

FIG. 8 is an enlarged view of a portion of FIG. 1 at B;

FIG. 9 is a structural view of a third strap in an embodiment of the present application;

fig. 10 is a partially enlarged view at C in fig. 1.

In the figure, 1, a vertical support group; 11. a vertical support plate; 12. a first connecting plate; 13. a vertical mounting hole; 2. a transverse support group; 21. a first cross support plate; 211. a first horizontal sink tank; 212. a second connecting plate; 213. a third connecting plate; 22. a second cross support plate; 221. a second horizontal sink tank; 222. a fourth connecting plate; 223. a fifth connecting plate; 23. a transverse mounting hole; 3. a lapping plate group; 31. a first strap; 311. a first sink tank; 32. a second strap; 321. a second sink tank; 33. a third strap; 331. a third sink tank; 34. a sixth connecting plate; 35. a lap joint hole; 4. a hitch plate group; 41. a hanging plate; 42. hanging holes; 43. a connecting member; 431. a support plate; 432. an extension plate.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

Referring to fig. 1, the application provides a modular installation framework of a distribution box, which comprises vertical support groups 1 and transverse support groups 2, wherein the vertical support groups 1 are provided with four and are respectively arranged at four vertical edges of the distribution box; the number of the transverse support groups 2 is eight, and the transverse support groups are respectively arranged at the position of eight horizontal edges of the distribution box; each vertical support group 1 comprises a plurality of vertical support plates 11 with vertical surfaces and collinear surfaces, when the transverse support group 2 needs to be assembled, a proper number of vertical support plates 11 are selected according to needs, and the vertical support plates 11 can be assembled into vertical support groups 1 with different heights to be suitable for sizes of distribution boxes with different models; each transverse support group 2 comprises a first transverse support plate 21 and a second transverse support plate 22, the surfaces of the first transverse support plate 21 and the second transverse support plate 22 are vertically arranged, and two ends, far away from each other, of the first transverse support plate 21 and the second transverse support plate 22 are fixed on the vertical support plate 11; the surfaces of the first transverse support plate 21 and the second transverse support plate 22 are attached to each other, and the overlapping area can be adjusted in the direction of approaching to or separating from each other, so that the total length of the first transverse support plate 21 and the second transverse support plate 22 in the horizontal direction can be adjusted.

For distribution boxes of different models, the horizontal distance between the vertical support groups 1 is changed, at the moment, the overlapping area between the first transverse support plate 21 and the second transverse support plate 22 is adjusted according to the model of the distribution box to change the total length of the transverse support group 2 formed by the first transverse support plate 21 and the second transverse support plate 22, and the first transverse support plate 21 and the second transverse support plate 22 are connected through bolts after adjustment is completed; like this, when needs equipment installation skeleton, only need highly select the perpendicular backup pad 11 of suitable quantity and according to the length and the width adjustment first horizontal support board 21 of different model block terminals and the position relation of second horizontal support board 22 according to different model block terminals can, and need not process the skeleton bracing piece of different length to the not unidimensional of block terminal, like this, make block terminal installation skeleton realize the modulization in order to be applicable to not unidimensional block terminal, and then reduce the work load and the cost of block terminal processing.

Referring to fig. 1 and 2, the vertical support plates 11 are L-shaped plates, and the surfaces of two horizontally adjacent vertical support plates 11 are coplanar; the upper end and the lower end of the vertical support plate 11 are both fixed with a horizontal first connecting plate 12, the first connecting plate 12 is rectangular, and two edges of the first connecting plate 12 parallel to the two surfaces of the vertical support plate 11 are respectively fixedly connected with the two surfaces of the vertical support plate 11; the first connecting plates 12 on two vertically adjacent vertical supporting plates 11 are attached, and the first connecting plate 12 close to the upper relative position is fixedly connected with the first connecting plate 12 close to the lower relative position through bolts; in this way, the vertical support plates 11 are fixed in the vertical direction, and the installation of the vertical support group 1 is completed.

Referring to fig. 3 and 4, the first and second horizontal support plates 21 and 22 are two rectangular plates having the same size, and the surfaces of the first and second horizontal support plates 21 and 22 are perpendicular to the surface of the vertical support plate 11; a second connecting plate 212 is arranged at one end of the first transverse support plate 21 far away from the second transverse support plate 22, and the second connecting plate 212 is vertical to the surface of the first transverse support plate 21; the surface of the first transverse support plate 21 provided with the second connecting plate 212 is provided with a third connecting plate 213, and the third connecting plate 213 is simultaneously vertical to the first transverse support plate 21 and the second connecting plate 212 and is simultaneously fixedly connected with the first transverse support plate 21 and the second connecting plate 212; a fourth connecting plate 222 is arranged at one end of the second transverse support plate 22 far away from the first transverse support plate 21, and the fourth connecting plate 222 is vertical to the surface of the second transverse support plate 22; the surface of the second transverse supporting plate 22 provided with the fourth connecting plate 222 is provided with a fifth connecting plate 223, and the fifth connecting plate 223 is perpendicular to the second transverse supporting plate 22 and the fourth connecting plate 222 and is fixedly connected with the second transverse supporting plate 22 and the fourth connecting plate 222.

Referring to fig. 5 again, when a plurality of transverse support groups 2 need to be installed on the vertical support group 1, for the position on the same vertex of the installation framework, the situation that the first transverse support plate 21 of one transverse support group 2 and the second transverse support plate 22 of the other transverse support group 2 are all fixed on the same vertical support plate 11 can be met, the first connecting plate 12, the third connecting plate 213 and the fifth connecting plate 223 are fixedly connected through bolts, the first surface of the vertical support plate 11, the second connecting plate 212 and the second transverse support plate 22 are fixedly connected through bolts, and the other surface of the vertical support plate 11, the first transverse support plate 21 and the fourth connecting plate 222 are fixedly connected through bolts, so that the first support plate 431 and the second support plate 431 are sequentially fixed on each vertical support plate 11 along the circumference of the distribution box.

Referring to fig. 3 and 4, a first transverse sinking groove 211 is formed in the surface of the first transverse supporting plate 21 where the second connecting plate 212 is disposed, the first transverse sinking groove 211 is formed in a position where the first transverse supporting plate 21 is far away from the second connecting plate 212, and the depth of the first transverse sinking groove 211 is equal to half of the thickness of the first transverse supporting plate 21; the surface of the second transverse support plate 22 far from the fourth connecting plate 222 is provided with a second transverse sinking groove 221, the second transverse sinking groove 221 is arranged at the position of the second transverse support plate 22 far from the fourth connecting plate 222, and the groove depth of the second transverse sinking groove 221 is equal to half of the thickness of the second transverse support plate 22; when first horizontal support plate 21 and second horizontal support plate 22 are required to be fixedly connected, the tank bottom of first horizontal sunken tank 211 and the tank bottom of second horizontal sunken tank 221 are attached to each other and then first horizontal support plate 21 and second horizontal support plate 22 are fixedly connected, so that the surfaces of first horizontal support plate 21 and second horizontal support plate 22 can be coplanar, and unevenness of the surfaces of first horizontal support plate 21 and second horizontal support plate 22 caused by mutual stacking of first horizontal support plate 21 and second horizontal support plate 22 is reduced, and surface protrusions of an installation framework are reduced.

Referring to fig. 3 and 4, the first transverse support plate 21 and the second transverse support plate 22 are both provided with transverse mounting holes 23, and the transverse mounting holes 23 are waist-shaped holes and extend along the extending direction of the first transverse support plate 21 or the second transverse support plate 22; after the first transverse supporting plate 21 and the second transverse supporting plate 22 are fixed on the vertical supporting rod, the transverse mounting holes 23 on the first transverse supporting plate 21 and the second transverse supporting plate 22 are collinear and partially overlapped; at this time, bolts are simultaneously arranged through the transverse mounting holes 23 on the first transverse support plate 21 and the second transverse support plate 22 so as to fixedly connect the first transverse support plate 21 and the second transverse support plate 22; due to different models of the distribution box, the overlapping area between the first transverse supporting plate 21 and the second transverse supporting plate 22 is changed, the transverse mounting holes 23 can determine the fixing positions of the bolts, and the positions of the bolts can be adjusted in a stepless mode according to the requirements of the fixing positions.

Referring to fig. 1, a horizontal lap plate group 3 for placing large electrical components is arranged on a vertical support group 1, the lap plate group 3 is provided with two lap plate groups which are parallel to each other, a plurality of vertical mounting holes 13 are formed in two surfaces of a vertical support plate 11, and the vertical mounting holes 13 are uniformly distributed along the extending direction of the vertical support plate 11; the lap joint plate group 3 can be fixed on different vertical mounting holes 13 on the vertical support plate 11 through bolts, and then the distance between the lap joint plate and the ground is adjusted, so that when the height positions required by the electrical elements are different, only the lap joint plate is required to be mounted on the vertical mounting holes 13 with different heights; when a plurality of electric elements are required to be respectively placed at different height positions, the lapping plate groups 3 are added in pairs and are arranged on the vertical support plates 11 at different heights.

Referring to fig. 1 and 6, the lap plate group 3 includes a plurality of first lap plates 31 which are collinear and connected to each other, so that, when the lap plate group 3 is installed, only a proper number of first lap plates 31 need to be selected according to the horizontal distance between the vertical support plates 11, and a rod with a certain length does not need to be processed according to the requirement, thereby further reducing the workload and the cost of processing the distribution box.

The first lapping plate 31 is a waist-shaped plate, and the surface of the first lapping plate 31 is horizontal; the two ends of the first bridging plate 31 are both provided with circular first sinking grooves 311, the diameter of the first sinking grooves 311 is equal to the diameter of the semicircular parts at the two ends of the first bridging plate 31, the first sinking grooves 311 are equal to half of the thickness of the first bridging plate 31, and the two first sinking grooves 311 are respectively arranged on the two surfaces of the first bridging plate 31; when two adjacent first bridging plates 31 need to be fixed together, the groove bottom of the first sunken groove 311 of one first bridging plate 31 is attached to the groove bottom of the first sunken groove 311 of the other first bridging plate 31, and then the first bridging plates 31 are fixedly connected through bolts; the first sunken grooves 311 can make the surfaces of the first strap plates 31 in the same plane, thereby stabilizing the electric components placed on the strap group 3.

Referring to fig. 1, both ends of the lap plate group 3 are provided with a second lap plate 32 and a third lap plate 33, respectively; referring again to fig. 7 and 8, one end of the second strap 32 close to the first strap 31 is semicircular and the other end is rectangular; a second sunken groove 321 is formed in one end, close to the first lapping plate 31, of the second lapping plate 32, the diameter of the second sunken groove 321 is equal to that of the semicircular part of the second lapping plate 32, the second sunken groove 321 is equal to half of the thickness of the second lapping plate 32, and the groove bottom of the second sunken groove 321 is attached to the groove bottom of the first sunken groove 311; a vertical sixth connecting plate 34 is fixed at one end of the second overlapping plate 32 far away from the first overlapping plate 31, and the sixth connecting plate 34 is vertical to the surface of the second overlapping plate 32; the second sunken groove 321 is formed in the surface, provided with the sixth connecting plate 34, of the second lapping plate 32, the sixth connecting plate 34 is attached to the surface, parallel to the sixth connecting plate 34, of the vertical support plate 11 and fixedly connected with the surface through a bolt, and therefore the second lapping plate 32 is fixed on the vertical support plate 11; referring again to fig. 9, one end of the third strap 33 close to the first strap 31 is semicircular and the other end is rectangular; a third sunken groove 331 is formed in one end, close to the first lapping plate 31, of the third lapping plate 33, the diameter of the third sunken groove 331 is equal to that of a semicircular part of the third lapping plate 33, the thickness of the third sunken groove 331 is equal to that of the third lapping plate 33, and the groove bottom of the third sunken groove 331 is attached to the groove bottom of the first sunken groove 311; a vertical sixth connecting plate 34 is also fixed at one end of the third overlapping plate 33 far away from the first overlapping plate 31, and the sixth connecting plate 34 is vertical to the surface of the third overlapping plate 33; the third sunken groove 331 is formed in the surface of the third strap 33 away from the sixth connecting plate 34, and the sixth connecting plate 34 is attached to the surface of the vertical support plate 11 parallel to the sixth connecting plate 34 and fixedly connected to the vertical support plate 11 by bolts, so that the third strap 33 is fixed to the vertical support plate 11.

When the lap plate group 3 needs to be installed on the vertical support plate 11, the first sinking groove 311 on the first lap plate 31 close to the second lap plate 32 is attached to the second sinking groove 321 on the second lap plate 32, the first sinking groove 311 on the first lap plate 31 close to the third lap plate 33 is attached to the third sinking groove 331 on the third lap plate 33, and then the first lap plate 31 is fixed on the third lap plate 33 through bolts, so that the lap plate group 3 is fixed on the vertical support group 1.

Referring to fig. 1 and 10, a hanging plate group 4 for hanging small electrical components is arranged on the lap plate group 3, the hanging plate group 4 comprises a plurality of waist-shaped hanging plates 41, and the hanging plates 41 are fixedly connected through bolts; the hanging plate 41 is provided with a plurality of hanging holes 42, and the hanging holes 42 are uniformly distributed along the extending direction of the hanging plate 41; when the hanging plate group 4 needs to be installed, a proper number of hanging plates 41 are selected according to the size of the distribution box, and then all the hanging plates 41 are connected together through bolts, so that rod pieces with certain lengths are not specially processed according to the sizes of distribution boxes of different models, and the workload and the cost for processing the distribution boxes are further reduced; after the mounting of the hook plate 41 is completed, the electrical components are mounted on the hook plate 41 through the hook holes 42.

Referring to fig. 1 and 10, both ends of the lap plate group 3 are provided with connectors 43 for fixing the hanger plates 41 to the first lap plates 31; the connecting piece 43 comprises a horizontal supporting plate 431, a vertical extending plate 432 is fixed on the upper surface of the supporting plate 431 at a position close to the hanging plate 41, the surface of the extending plate 432 is parallel to the surface of the first bridging plate 31, the extending plate 432 is attached to the surface of the first bridging plate 31, and the extending plate 432 is fixedly connected with the first bridging plate 31 through a bolt; the upper surface of the support plate 431 is attached to the lower surface of the first strap 31 and the support plate 431 is fixed to the first strap 31 by bolts; a plurality of bridging holes 35 have been seted up on first bridging plate 31, and a plurality of bridging holes 35 are along the extending direction evenly distributed of first bridging plate 31, when electric elements need articulate on different horizontal positions, with connecting piece 43 through the bolt fastening on different bridging holes 35 can.

The present embodiment is only for explaining the present application, and it is not limited to the present application, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present application.

Claims (5)

1. The utility model provides a block terminal modulization installation skeleton which characterized in that: the distribution box comprises four vertical support groups (1), wherein the four vertical support groups (1) are respectively arranged at the positions of four vertical edges of the distribution box; each vertical support group (1) comprises a plurality of vertical support plates (11) which are vertically arranged, and the vertical support plates (11) which are adjacent up and down are connected through bolts; the upper end and the lower end of the vertical support group (1) are provided with a transverse support group (2);

the horizontal support groups (2) are totally eight and are respectively arranged at the positions of eight horizontal edges of the distribution box; each group of transverse support group (2) comprises a first transverse support plate (21) and a second transverse support plate (22), and the first transverse support plate (21) and the second transverse support plate (22) are respectively and fixedly connected with one of two transversely adjacent vertical support plates (11); the first transverse support plate (21) is connected with the second transverse support plate (22) through bolts;

the vertical supporting plate (11) is provided with a lap joint plate group (3) for placing large-scale electric elements; the lap joint plate groups (3) can be fixed on vertical support plates (11) with different heights, and two lap joint plate groups (3) on the same height plane are arranged and are parallel to each other;

the lap plate group (3) comprises a plurality of first lap plates (31) which are horizontally arranged; the adjacent first lap joint plates (31) are mutually attached and connected through bolts; the first lapping plate (31) is connected with the vertical supporting plate (11);

two ends of the first lapping plate (31) are provided with first sinking grooves (311), the two first sinking grooves (311) are respectively arranged on two surfaces of the first lapping plate (31), and the depth of the first sinking grooves (311) is equal to half of the thickness of the first lapping plate (31); the bottoms of the first sunken grooves (311) on two adjacent first lapping plates (31) are mutually attached;

the two lap joint plate groups (3) on the same plane are provided with hanging plate groups (4) for hanging small-sized electric elements, each hanging plate group (4) comprises a plurality of hanging plates (41) with vertical surfaces, the surfaces of the adjacent hanging plates (41) are attached and connected through bolts, and the two hanging plates (41) close to the first lap joint plate (31) are connected with the hanging plates (41); the hanging plate (41) is provided with a plurality of hanging holes (42), and the hanging holes (42) are uniformly distributed along the extending direction of the hanging plate (41).

2. The modular mounting framework of a distribution box of claim 1, wherein: the vertical support plate (11) is an L-shaped plate, horizontal first connecting plates (12) are arranged at two ends of the vertical support plate (11), and the first connecting plates (12) are fixedly connected with two surfaces of the vertical support plate (11); the first connecting plates (12) on the two vertical supporting plates (11) which are adjacent up and down are mutually attached and connected by bolts.

3. The modular mounting framework of a distribution box of claim 2, wherein: a second connecting plate (212) perpendicular to the first transverse support plate (21) is arranged at one end, away from the second transverse support plate (22), of the first transverse support plate (21), and a third connecting plate (213) is arranged on the surface, provided with the second connecting plate (212), of the first transverse support plate (21); a fourth connecting plate (222) perpendicular to the second transverse support plate (22) is arranged at one end, away from the first transverse support plate (21), of the second transverse support plate (22), and a fifth connecting plate (223) is arranged on the surface, provided with the fourth connecting plate (222), of the second transverse support plate (22); the second connecting plate (212) and the fourth connecting plate (222) are in bolt connection with the vertical supporting plate (11); the third connecting plate (213) and the fifth connecting plate (223) are both in bolted connection with the first connecting plate (12).

4. The modular mounting framework of a distribution box of claim 3, wherein: the first transverse supporting plate (21) is provided with a first transverse sinking groove (211) on the surface of the second connecting plate (212), the second transverse supporting plate (22) far away from the surface of the second connecting plate (212) is provided with a second transverse sinking groove (221), and the groove bottom of the first transverse sinking groove (211) is attached to the groove bottom of the second transverse sinking groove (221).

5. The modular mounting framework of a distribution box of claim 4, wherein: horizontal mounting hole (23) of waist type all are seted up on first horizontal backup pad (21) and second horizontal backup pad (22), run through two horizontal mounting holes (23) simultaneously and can set up the bolt in order to fix first horizontal backup pad (21) and second horizontal backup pad (22).

Images