CN216042833U - Spliced supporting platform - Google Patents

Abstract

The utility model discloses a spliced supporting platform which comprises a horizontal supporting frame framework, a vertical supporting frame framework and a first connecting piece, wherein the horizontal supporting frame framework comprises four cross beams which are enclosed into a quadrangle and a corner connecting piece arranged at the intersection of two adjacent cross beams; the vertical supporting frame framework comprises two parallel upright posts and a connecting rod for connecting the two upright posts, and one end part of each upright post is connected with the upper end surface or the lower end surface of the cross beam; the first connecting piece is arranged at the connecting part of the upright post and the cross beam, the first connecting piece comprises a bottom plate and a positioning block arranged on the bottom plate, the bottom plate is provided with a first mounting hole for being fixedly connected with the cross beam, the positioning block is used for extending into the upright post, and the positioning block is provided with a second mounting hole for being fixedly connected with the upright post; can realize rapid Assembly, simple to operate is swift.

Description

Spliced supporting platform

Technical Field

The utility model relates to the technical field of assembled supporting structures, in particular to a spliced supporting platform.

Background

The price of the house is high, the living space is narrow, and people in cities are always puzzled. The room space utilization rate of the city centers of the first-line city and the second-third-line city is not high. Apartment house types are favored by urban people, and at present, the manner of building attics in apartments generally comprises a concrete structure, a steel structure platform and the like. At present, a steel structure platform is generally built by welding and fixing on site, and the problems of complex installation, high labor cost, high construction difficulty, high noise and the like exist.

SUMMERY OF THE UTILITY MODEL

The utility model aims to at least solve one of the technical problems in the prior art, and provides a splicing type supporting platform which can be quickly assembled and is convenient and quick to install.

The embodiment of the utility model provides a splicing type supporting platform, which comprises a horizontal supporting frame framework, a vertical supporting frame framework and a first connecting piece, wherein:

the horizontal supporting frame framework comprises four cross beams which are enclosed into a quadrangle and corner connecting pieces which are arranged at the intersection of two adjacent cross beams;

the vertical supporting frame framework comprises two parallel upright posts and a connecting rod for connecting the two upright posts, and one end part of each upright post is connected with the upper end surface or the lower end surface of the cross beam;

the first connecting piece is arranged at the joint of the stand column and the cross beam, the first connecting piece comprises a bottom plate and a positioning block arranged on the bottom plate, the bottom plate is provided with a first mounting hole fixedly connected with the cross beam, the positioning block is used for extending to the inside of the stand column, and the positioning block is provided with a second mounting hole fixedly connected with the stand column.

The splicing type supporting platform provided by the embodiment of the utility model at least has the following beneficial effects: a plurality of cross beams are matched with corner connecting pieces to be assembled to form a horizontal supporting frame structure which is used as a floor of a supporting platform and can provide good bearing capacity; the vertical supporting frame structure can be placed at the bottom of the horizontal supporting frame structure to serve as a support and provide vertical supporting force, and can also be placed above the horizontal supporting frame structure to serve as a partition wall; the horizontal supporting frame body framework and the vertical supporting frame body framework are assembled and fixed through the first connecting pieces, the positioning blocks of the first connecting pieces stretch into the upright posts to realize positioning, then screws or bolts are adopted to penetrate through the second mounting holes in the upright posts to enable the first connecting pieces to be fixedly connected with the upright posts, and screws or bolts are adopted to penetrate through the first mounting holes to enable the first connecting piece cross beams to be fixedly connected; the concatenation formula supporting platform that this embodiment provided can be assembled by a plurality of horizontal supporting framework and vertical supporting framework and form, has good bearing capacity and supporting effect, can realize rapid Assembly, and simple to operate is swift.

In foretell concatenation formula supporting platform, the corner connecting piece includes first connecting block, second connecting block and third connecting block, first connecting block with the second connecting block is connected and is formed first contained angle, first connecting block be used for with one the crossbeam is connected, the second connecting block is used for adjacent with another the crossbeam is connected, the third connecting block respectively with the middle part of first connecting block with the middle part of second connecting block is connected, in order to incite somebody to action first connecting block with space between the second connecting block divides upper operation space and lower floor's operation space, first connecting block with the second connecting block all is provided with and is located the third mounting hole of upper operation space and is located the fourth mounting hole of lower floor's operation space.

The crossing department at two crossbeams, the first connecting block of corner connecting piece is laminated with a crossbeam and is connected, the second connecting block of corner connecting piece is laminated with another crossbeam and is connected, the third connecting block is connected with the middle part of first connecting block and the middle part of second connecting block respectively, the effect of strengthening corner connecting piece intensity has been played on the one hand, thereby strengthen the intensity of horizontal support frame framework, the space between the first connecting block of on the other hand and the second connecting block divides upper operation space and lower floor's operation space, make the upper portion and the lower part of corner connecting piece all have sufficient space to operate, screw or bolt in the dismouting third mounting hole of being convenient for and the fourth mounting hole.

In the above splicing type supporting platform, the cross beam includes a middle supporting member, an upper supporting member, a lower supporting member and a side supporting member, and the middle supporting member includes at least one vertical supporting plate extending in a vertical direction; the upper support is arranged above the middle support; the lower support is arranged below the middle support; the side supporting piece is arranged on the side face of the middle supporting piece, a first mounting groove is formed between the side supporting piece and the upper supporting piece, a second mounting groove is formed between the side supporting piece and the lower supporting piece, the position of the third mounting hole corresponds to the position of the first mounting groove, and the position of the fourth mounting hole corresponds to the position of the second mounting groove.

The middle supporting piece comprises at least one vertical supporting plate extending along the vertical direction, and the vertical supporting plate can bear pressure in the vertical direction, so that the bearing capacity of the cross beam can be enhanced, the strength of the cross beam is increased, the cross beam is not easy to deform, and the middle supporting piece is more suitable for serving as a bearing cross beam of the supporting platform; the position of the third mounting hole corresponds to the position of the first mounting groove, and a screw or a bolt can penetrate through the third mounting hole to be in butt joint with the first mounting groove, so that the corner connecting piece and the cross beam are fixed; in the same way, the position of the fourth mounting hole corresponds to the position of the second mounting groove, and a screw or a bolt can be adopted to penetrate through the fourth mounting hole to be in butt joint with the second mounting groove, so that the corner connecting piece and the beam are fixed.

In the splicing type supporting platform, the horizontal supporting frame framework further comprises a reinforcing rod and a connecting clamping piece, wherein the reinforcing rod is used for connecting the two oppositely arranged cross beams; the connecting clamping piece is arranged at the joint of the reinforcing rod and the cross beam to fixedly connect the reinforcing rod and the cross beam.

The reinforcing rods are arranged to connect the oppositely arranged cross beams, so that the effect of reinforcing the framework strength of the horizontal supporting frame body can be achieved.

In the splicing type supporting platform, the connecting clamping piece comprises a supporting groove piece, a clamping piece and a fixing plate, and the supporting groove piece is provided with a groove for placing the reinforcing rod; the buckling piece is connected with the upper part of the supporting groove piece and is used for being clamped into the cross beam to realize pre-positioning; the fixed plate is connected with the lower part of the supporting groove piece, and a fifth mounting hole for fixedly connecting the fixed plate with the cross beam is formed in the fixed plate.

When the reinforcing rod needs to be erected between two oppositely arranged cross beams, the clamping piece of the connecting clamping piece is clamped into the cross beam to achieve pre-positioning, the end portion of the reinforcing rod is placed in the groove of the supporting groove piece, and finally the connecting clamping piece is fixedly connected to the cross beam through the fifth mounting hole through screws or bolts, so that the mounting is flexible, convenient and fast.

In foretell concatenation formula supporting platform, the supporting groove spare includes horizontal support plate and two and is located the vertical locating plate of horizontal support plate both sides, horizontal support plate and two vertical locating plate inject the recess, vertical locating plate be provided with be used for with stiffener fixed connection's sixth mounting hole.

After the end of the reinforcing rod is placed in the groove of the supporting groove piece, the two vertical positioning plates are respectively positioned on two sides of the reinforcing rod, a screw or a bolt can be adopted to penetrate through the sixth mounting hole, the fixed connection between the reinforcing rod and the supporting groove piece is realized, and the reinforcing rod is prevented from loosening and falling.

In the above splicing type supporting platform, the middle supporting piece comprises a first vertical supporting plate and a second vertical supporting plate, a first cavity is arranged inside the middle supporting piece, and the first vertical supporting plate and the second vertical supporting plate are respectively positioned at the left side and the right side of the first cavity.

The first cavity is arranged inside the middle supporting piece, so that materials can be saved, the weight of the section bar can be reduced, and the transportation and the assembly are facilitated. The first vertical supporting plate and the second vertical supporting plate are used for bearing force in the vertical direction, and the two vertical supporting plates can ensure the stability and the strength of the middle supporting piece and ensure that the bearing capacity of the section bar is enough.

In foretell concatenation formula supporting platform, the connecting rod includes the horizontal pole body and sets up the wallboard installation department of horizontal pole body side, the wallboard installation department is including being located the last installation department on the side upper portion of horizontal pole body and being located the lower installation department of the side lower part of horizontal pole body.

Through setting up the wallboard installation department in the side of horizontal pole body, the wallboard installation department includes installation department and installation department down, can convenient and fast ground realize installing the wallboard on the connecting rod, after installing the wallboard on the connecting rod, can shelter from the inner structure of vertical support framework.

In the splicing type supporting platform, the upper mounting part comprises a first horizontal mounting block connected with the upper part of the side surface of the cross rod body and a first vertical mounting block connected with the first horizontal mounting block; the lower mounting part comprises a second horizontal mounting block connected with the lower part of the side surface of the cross rod body and a second vertical mounting block connected with the second horizontal mounting block.

The upper mounting part comprises a first horizontal mounting block and a first vertical mounting block, namely the upper mounting part forms an L-shaped structure, so that the strength of the upper mounting part can be improved, the space of the upper mounting part can be increased, and the mounting is facilitated; similarly, the lower installation part comprises a second horizontal installation block and a second vertical installation block, namely, the lower installation part forms an inverted L-shaped structure, so that the strength of the lower installation part can be improved, and the space of the lower installation part can be increased to facilitate installation.

In foretell concatenation formula supporting platform, the inside cavity of horizontal pole body is in order to form the intermediate channel that extends along length direction, the inner wall of intermediate channel is provided with the third mounting groove that is used for supplying the screw installation, the tip of connecting rod pass through the second connecting piece with the stand is connected, the second connecting piece be provided with the seventh mounting hole that the third mounting groove corresponds and be used for with stand fixed connection's eighth mounting hole.

The cross bar body is of a hollow structure, so that materials can be saved, and the weight of the section bar is reduced; when the connecting rod is installed between the two stand columns, the screw or the bolt is firstly adopted to penetrate through the seventh installation hole of the second connecting piece and is fixed on the third installation groove, the fixed connection between the second connecting piece and the connecting rod is realized, and then the screw or the bolt is adopted to penetrate through the eighth installation hole so as to fixedly connect the second connecting piece and the stand columns, so that the installation is convenient and rapid.

Additional features and advantages of the utility model will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model. The objectives and other advantages of the utility model will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the example serve to explain the principles of the utility model and not to limit the utility model.

The utility model is further described below with reference to the accompanying drawings and examples;

fig. 1 is a schematic overall structure diagram of a splicing type supporting platform provided by an embodiment of the utility model;

fig. 2 is a schematic structural diagram of a horizontal support frame structure of a splicing support platform according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a vertical support frame structure of a splicing support platform according to an embodiment of the present invention;

fig. 4 is an exploded view of a vertical support frame structure of a splicing support platform according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a first connecting member of a splicing type supporting platform according to an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a corner connector of a splicing support platform according to an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a cross beam of a splicing type supporting platform provided by an embodiment of the utility model;

FIG. 8 is a schematic structural diagram of a connection fastener of a splicing type supporting platform according to an embodiment of the utility model;

fig. 9 is a schematic structural diagram of a connecting rod of a splicing type supporting platform provided by an embodiment of the utility model.

Reference numerals: a horizontal support frame structure 100, a beam 110, a middle support 111, a first vertical support 1111, a second vertical support 1112, a first cavity 1113, an upper support 112, a lower support 113, a side support 114, a first mounting groove 115, a second mounting groove 116, a corner connector 120, a first connecting block 121, a second connecting block 122, a third connecting block 123, a third mounting hole 124, a fourth mounting hole 125, a reinforcing rod 130, a connecting fastener 140, a support groove 141, a groove 1411, a horizontal support plate 1412, a vertical positioning plate 1413, a sixth mounting hole 14131 fastener 142, a fixing plate 143, a fifth mounting hole 1431, a vertical support frame structure 200, a column 210, a connecting rod 220, a beam body 221, a middle channel 2211, a third mounting groove 2212, a wall plate mounting portion 222, an upper mounting portion 2221, a first horizontal mounting block 22211, a first vertical mounting block 22212, a lower mounting portion 2222, a second horizontal mounting block 22221, the second vertical mounting block 22222, the second connecting member 230, the seventh mounting hole 231, the eighth mounting hole 232, the first connecting member 300, the base plate 310, the positioning block 320, and the second mounting hole 321.

Detailed Description

Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

In the description of the present invention, if there are first and second described only for the purpose of distinguishing technical features, it is not understood that relative importance is indicated or implied or that the number of indicated technical features or the precedence of the indicated technical features is implicitly indicated or implied.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

The embodiment of the utility model provides a spliced supporting platform which can be assembled quickly and is convenient and quick to install.

The embodiments of the present invention will be further explained with reference to the drawings.

Referring to fig. 1 to 5, an embodiment of the present invention provides a splicing type supporting platform, including a horizontal supporting frame framework 100, a vertical supporting frame framework 200, and a first connector 300, wherein:

as shown in fig. 2, the horizontal support frame structure 100 includes four beams 110 enclosing a quadrilateral shape and a corner connector 120 disposed at the intersection of two adjacent beams 110; it will be appreciated that the tiled support platform can include multiple horizontal support frame structures 100 to form different shaped horizontal support planes.

As shown in fig. 3, the vertical support frame 200 includes two columns 210 parallel to each other and a connection rod 220 connecting the two columns 210, wherein one end of the column 210 is connected to the upper end surface or the lower end surface of the beam 110; similarly, it can be understood that the split-type supporting platform may include a plurality of vertical supporting frame structures 200, and the vertical supporting frame structures 200 may be disposed at the bottom of the horizontal supporting frame structure 100 for supporting, or disposed above the horizontal supporting frame structure 100 for serving as a spacing structure, so as to separate the upper space of the horizontal supporting frame structure 100 into different functional spaces; the vertical support frame 200 is disposed at the bottom of the horizontal support frame 100, and also has a separation function.

As shown in fig. 4 and 5, the first connecting member 300 is disposed at a connection portion of the upright column 210 and the cross beam 110, the first connecting member 300 includes a base plate 310 and a positioning block 320 disposed on the base plate 310, the base plate 310 is provided with a first mounting hole 311 for fixedly connecting with the cross beam 110, the positioning block 320 is configured to extend into the upright column 210, and the positioning block 320 is provided with a second mounting hole 321 for fixedly connecting with the upright column 210.

According to the spliced supporting platform provided by the embodiment of the utility model, the horizontal supporting frame framework 100 is formed by splicing the plurality of cross beams 110 and the corner connecting pieces 120 and is used as a floor of the supporting platform, so that good bearing capacity can be provided; the vertical supporting frame structure 200 is formed by assembling the upright columns 210 and the connecting rods 220, the vertical supporting frame structure 200 can be placed at the bottom of the horizontal supporting frame structure 100 to serve as a support to provide vertical supporting force, and can also be placed above the horizontal supporting frame structure 100 to serve as a partition wall; the horizontal support frame framework 100 and the vertical support frame framework 200 are assembled and fixed through the first connecting pieces 300, the positioning blocks 320 of the first connecting pieces 300 extend into the upright columns 210 to realize positioning, then screws or bolts are adopted to penetrate through the second mounting holes 321 on the upright columns 210 to fixedly connect the first connecting pieces 300 with the upright columns 210, and screws or bolts are adopted to penetrate through the first mounting holes 311 to fixedly connect the cross beams 110 of the first connecting pieces 300; the concatenation formula supporting platform that this embodiment provided can be assembled by a plurality of horizontal supporting framework 100 and vertical supporting framework 200 and form, has good bearing capacity and supporting effect, can realize rapid Assembly, and simple to operate is swift.

Referring to fig. 6, in the above-mentioned spliced supporting platform, the corner connector 120 includes a first connecting block 121, a second connecting block 122 and a third connecting block 123, the first connecting block 121 and the second connecting block 122 are connected to form a first included angle, the first connecting block 121 is used for being connected to one cross beam 110, the second connecting block 122 is used for being connected to another adjacent cross beam 110, the third connecting block 123 is respectively connected to the middle of the first connecting block 121 and the middle of the second connecting block 122 to divide the space between the first connecting block 121 and the second connecting block 122 into an upper operating space and a lower operating space, and both the first connecting block 121 and the second connecting block 122 are provided with a third mounting hole 124 located in the upper operating space and a fourth mounting hole 125 located in the lower operating space.

At the intersection of two beams 110, a first connecting block 121 of a corner connecting piece 120 is attached to and connected with one beam 110, a second connecting block 122 of the corner connecting piece 120 is attached to and connected with the other beam 110, and a third connecting block 123 is connected to the middle of the first connecting block 121 and the middle of the second connecting block 122 respectively, so that on one hand, the strength of the corner connecting piece 120 is enhanced, the strength of the horizontal supporting frame framework 100 is enhanced, on the other hand, the space between the first connecting block 121 and the second connecting block 122 is divided into an upper layer operation space and a lower layer operation space, so that the upper part and the lower part of the corner connecting piece 120 are provided with enough space for operation, and screws or bolts in a third mounting hole 124 and a fourth mounting hole 125 can be conveniently dismounted.

It should be noted that the first included angle may be an acute angle, a right angle, or an obtuse angle, so that the corner connector 120 can meet the use requirements of different scenes.

Referring to fig. 7, in the above-described split type support platform, the cross beam 110 includes a middle support 111, an upper support 112, a lower support 113, and a side support 114, and the middle support 111 includes at least one vertical support plate extending in a vertical direction; the upper support 112 is disposed above the middle support 111; the lower support 113 is disposed below the middle support 111; the side support 114 is disposed at a side of the middle support 111, a first mounting groove 115 is formed between the side support 114 and the upper support 112, a second mounting groove 116 is formed between the side support 114 and the lower support 113, a position of the third mounting hole 124 corresponds to a position of the first mounting groove 115, and a position of the fourth mounting hole 125 corresponds to a position of the second mounting groove 116.

The middle supporting piece 111 comprises at least one vertical supporting plate extending along the vertical direction, and the vertical supporting plate can bear pressure in the vertical direction, so that the bearing capacity of the cross beam 110 can be enhanced, the strength of the cross beam 110 is increased, the cross beam 110 is not easy to deform, and the middle supporting piece is more suitable for serving as a bearing cross beam of a supporting platform; the position of the third mounting hole 124 corresponds to the position of the first mounting groove 115, and screws or bolts can be adopted to penetrate through the third mounting hole 124 to be in butt joint with the first mounting groove 115, so that the corner connecting piece 120 and the cross beam 110 are fixed; similarly, the position of the fourth mounting hole 125 corresponds to the position of the second mounting groove 116, and screws or bolts may be used to pass through the fourth mounting hole 125 and be butted against the second mounting groove 116, so as to fix the corner connector 120 and the cross beam 110.

It is understood that, in order to improve the applicability of the cross beam 110, a side support 114 may be provided at both sides of the middle support 111, such that a first mounting groove 115 and a second mounting groove 116 are formed at both sides of the middle support 111; in addition, the upper and lower supports 112 and 113 may be formed with mounting grooves similar to the first mounting groove 115 or the second mounting groove 116, respectively.

Referring to fig. 7, in the above-mentioned spliced supporting platform, the middle supporting member 111 includes a first vertical supporting plate 1111 and a second vertical supporting plate 1112, a first cavity 1113 is provided inside the middle supporting member 111, and the first vertical supporting plate 1111 and the second vertical supporting plate 1112 are respectively located at left and right sides of the first cavity 1113.

The provision of the first cavity 1113 inside the middle support 111 saves material and reduces the weight of the profile, thereby facilitating transport and assembly. The first vertical support plate 1111 and the second vertical support plate 1112 are used for bearing vertical force, and the two vertical support plates can ensure the stability and strength of the middle support 111 and ensure that the bearing capacity of the profile is enough.

Referring to fig. 2, in the above-mentioned splicing support platform, the horizontal support frame structure 100 further includes a reinforcing bar 130 and a connecting fastener 140, the reinforcing bar 130 is used for connecting two oppositely disposed cross beams 110; the connection clip 140 is provided at the connection of the reinforcing bar 130 and the cross member 110 to fixedly connect the reinforcing bar 130 and the cross member 110.

The reinforcing bar 130 is connected to the cross beam 110, which is disposed opposite to the cross beam, and serves to reinforce the strength of the horizontal supporting frame structure 100.

Referring to fig. 2 and 8, in the above-mentioned splicing type supporting platform, the connection clip 140 includes a supporting groove member 141, a clip member 142 and a fixing plate 143, the supporting groove member 141 is provided with a groove 1411 for placing the reinforcing bar 130; the fastener 142 is connected with the upper part of the supporting groove member 141, and the fastener 142 is used for being clamped into the cross beam 110 to realize pre-positioning; the fixing plate 143 is coupled to a lower portion of the support channel member 141, and the fixing plate 143 is provided with a fifth mounting hole 1431 for fixed coupling with the cross member 110.

When the reinforcing rod 130 needs to be erected between two oppositely arranged cross beams 110, the clamping piece 142 of the connecting clamping piece 140 is clamped into the cross beam 110 to achieve pre-positioning, then the end part of the reinforcing rod 130 is placed in the groove 1411 of the supporting groove piece 141, and finally the connecting clamping piece 140 is fixedly connected with the cross beam 110 by a screw or a bolt penetrating through the fifth mounting hole 1431, so that the installation is flexible, convenient and rapid.

It can be understood that the lateral surface of the cross beam 110 is provided with the first mounting groove 115 and the second mounting groove 116, and when the latch 142 of the connection latch 140 is latched into the cross beam 110 to achieve the pre-positioning, it is generally latched into the first mounting groove 115, so that the connection latch 140 is hung on the lateral wall of the cross beam 110, and in addition, the fifth mounting hole 1431 is generally disposed to correspond to the first mounting groove 115, so that a screw or a bolt can be fixed in the first mounting groove 115 through the fifth mounting hole 1431.

Referring to fig. 8, in the above-described split type support platform, the support channel member 141 includes a horizontal support plate 1412 and two vertical positioning plates 1413 positioned at both sides of the horizontal support plate 1412, the horizontal support plate 1412 and the two vertical positioning plates 1413 define a groove 1411, and the vertical positioning plate 1413 is provided with a sixth mounting hole 14131 for fixedly coupling with the reinforcing bar 130.

After the end of the reinforcing bar 130 is placed in the groove 1411 of the supporting groove member 141, the two vertical positioning plates 1413 are respectively located at two sides of the reinforcing bar 130, and a screw or a bolt can be used to pass through the sixth mounting hole 14131, so that the reinforcing bar 130 and the supporting groove member 141 are fixedly connected, and the reinforcing bar 130 is prevented from loosening and falling off.

Referring to fig. 4 and 9, in the above-described spliced type supporting platform, the connecting rod 220 includes a rail body 221 and a wall plate mounting portion 222 provided at a side of the rail body 221, and the wall plate mounting portion 222 includes an upper mounting portion 2221 located at an upper portion of the side of the rail body 221 and a lower mounting portion 2222 located at a lower portion of the side of the rail body 221.

Through set up wallboard installation department 222 in the side of horizontal pole body 221, wallboard installation department 222 includes installation department 2221 and lower mounting department 2222, can convenient and fast ground realize installing the wallboard on connecting rod 220, behind the installation wallboard on connecting rod 220, can shelter from the inner structure of vertical support frame framework 200.

Referring to fig. 9, in the above-described split type support platform, the upper mounting portion 2221 includes a first horizontal mounting block 22211 connected to the upper portion of the lateral side of the cross bar body 221 and a first vertical mounting block 22212 connected to the first horizontal mounting block 22211; the lower mounting part 2222 includes a second horizontal mounting block 22221 connected to a lower portion of the side of the rail body 221 and a second vertical mounting block 22222 connected to the second horizontal mounting block 22221.

The upper mounting portion 2221 includes a first horizontal mounting block 22211 and a first vertical mounting block 22212, that is, the upper mounting portion 2221 forms an L-shaped structure, which can increase the strength of the upper mounting portion 2221, and can increase the space of the upper mounting portion 2221, thereby facilitating mounting; similarly, the lower mounting portion 2222 includes a second horizontal mounting block 22221 and a second vertical mounting block 22222, that is, the lower mounting portion 2222 forms an inverted L-shaped structure, which can increase the strength of the lower mounting portion 2222, and can increase the space of the lower mounting portion 2222, thereby facilitating the mounting.

Referring to fig. 9, in the above-described spliced supporting platform, the inside of the rail body 221 is hollow to form a middle passage 2211 extending in the length direction, the inner wall of the middle passage 2211 is provided with a third mounting groove 2212 for mounting a screw, the end of the connecting rod 220 is connected to the column 210 by the second connecting member 230, and the second connecting member 230 is provided with a seventh mounting hole 231 corresponding to the third mounting groove 2212 and an eighth mounting hole 232 for fixedly connecting to the column 210.

The cross bar body 221 is of a hollow structure, so that materials can be saved, and the weight of the section bar is reduced; when the connecting rod 220 is installed between the two columns 210, a screw or a bolt is firstly used to pass through the seventh installation hole 231 of the second connecting member 230 and is fixed on the third installation groove 2212, so as to realize the fixed connection between the second connecting member 230 and the connecting rod 220, and then a screw or a bolt is used to pass through the eighth installation hole 232, so as to fixedly connect the second connecting member 230 and the columns 210, so that the installation is convenient and fast.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims (10)

1. A spliced support platform, comprising:

the horizontal supporting frame structure comprises four cross beams which are enclosed to form a quadrangle and corner connecting pieces arranged at the intersection of the two adjacent cross beams;

the vertical supporting frame structure comprises two parallel upright posts and a connecting rod for connecting the two upright posts, and one end part of each upright post is connected with the upper end surface or the lower end surface of the cross beam;

the first connecting piece is arranged at the joint of the stand column and the cross beam, the first connecting piece comprises a bottom plate and a positioning block arranged on the bottom plate, the bottom plate is provided with a first mounting hole used for being fixedly connected with the cross beam, the positioning block is used for extending to the inside of the stand column, and the positioning block is provided with a second mounting hole used for being fixedly connected with the stand column.

2. The splicing type supporting platform of claim 1, wherein the corner connecting piece comprises a first connecting block, a second connecting block and a third connecting block, the first connecting block and the second connecting block are connected to form a first included angle, the first connecting block is used for being connected with one cross beam, the second connecting block is used for being connected with another adjacent cross beam, the third connecting block is respectively connected with the middle portion of the first connecting block and the middle portion of the second connecting block so as to divide the space between the first connecting block and the second connecting block into an upper layer operation space and a lower layer operation space, and the first connecting block and the second connecting block are provided with a third mounting hole located in the upper layer operation space and a fourth mounting hole located in the lower layer operation space.

3. The tiled support platform of claim 2 wherein the beam includes a middle support, an upper support, a lower support, and side supports, the middle support including at least one vertical support plate extending in a vertical direction; the upper support is arranged above the middle support; the lower support is arranged below the middle support; the side supporting piece is arranged on the side face of the middle supporting piece, a first mounting groove is formed between the side supporting piece and the upper supporting piece, a second mounting groove is formed between the side supporting piece and the lower supporting piece, the position of the third mounting hole corresponds to the position of the first mounting groove, and the position of the fourth mounting hole corresponds to the position of the second mounting groove.

4. The spliced support platform of claim 1, wherein the horizontal support frame framework further comprises a reinforcing bar and a connecting clip, the reinforcing bar being used to connect the two oppositely disposed cross beams; the connecting clamping piece is arranged at the joint of the reinforcing rod and the cross beam to fixedly connect the reinforcing rod and the cross beam.

5. The spliced support platform of claim 4, wherein the connecting clamp comprises a support groove member, a clamping member and a fixing plate, and the support groove member is provided with a groove for placing the reinforcing rod; the buckling piece is connected with the upper part of the supporting groove piece and is used for being clamped into the cross beam to realize pre-positioning; the fixed plate is connected with the lower part of the supporting groove piece, and a fifth mounting hole for fixedly connecting the fixed plate with the cross beam is formed in the fixed plate.

6. The splicing support platform of claim 5, wherein the support channel member comprises a horizontal support plate and two vertical positioning plates disposed on opposite sides of the horizontal support plate, the horizontal support plate and the two vertical positioning plates defining the recess, the vertical positioning plates being provided with sixth mounting holes for fixed connection to the reinforcing rods.

7. The spliced support platform of claim 3, wherein the middle support member comprises a first vertical support plate and a second vertical support plate, a first cavity is arranged inside the middle support member, and the first vertical support plate and the second vertical support plate are respectively positioned at the left side and the right side of the first cavity.

8. The spliced support platform of claim 1, wherein the connecting rod comprises a cross rod body and a wall plate mounting portion disposed at a side of the cross rod body, the wall plate mounting portion comprising an upper mounting portion located at an upper portion of the side of the cross rod body and a lower mounting portion located at a lower portion of the side of the cross rod body.

9. The spliced support platform of claim 8, wherein the upper mounting portion comprises a first horizontal mounting block connected to an upper portion of a side of the crossbar body and a first vertical mounting block connected to the first horizontal mounting block; the lower mounting part comprises a second horizontal mounting block connected with the lower part of the side surface of the cross rod body and a second vertical mounting block connected with the second horizontal mounting block.

10. The splicing type supporting platform of claim 9, wherein the cross bar body is hollow inside to form a middle channel extending along the length direction, a third mounting groove for mounting a screw is formed in the inner wall of the middle channel, the end of the connecting rod is connected with the upright post through a second connecting piece, and the second connecting piece is provided with a seventh mounting hole corresponding to the third mounting groove and an eighth mounting hole fixedly connected with the upright post.

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