CN218643795U - Detachable quick-connection scaffold - Google Patents

Abstract

The utility model belongs to the technical field of the scaffold frame, a can dismantle and connect scaffold frame soon is disclosed. The utility model builds the scaffold in a simple and detachable way, wherein the bottom support seat and the top support platform are provided with the inserting parts; the splicing frame is positioned between the bottom support seat and the top support platform and is provided with at least one layer, the two ends of the splicing frame are respectively provided with an inserting part, the bottom support seat and the splicing frame are mutually inserted through the inserting part, the top support platform and the splicing frame are mutually inserted through the inserting part, and when multiple layers are arranged on the splicing frame, the adjacent two layers of splicing frames are mutually inserted through the inserting part; the both ends of spacing block are provided with hook portion respectively, and hook portion can be hooked in end brace seat, top strut platform and splice rack, and it is spacing through the spacing block hook between end brace seat and the splice rack, and it is spacing through the spacing block hook between top strut platform and the splice rack, when the splice rack was provided with the multilayer, it is spacing through the spacing block hook between the adjacent two-layer splice rack, realize that the scaffold frame does not have annex quick detach fast-assembling.

Description

Detachable quick-connection scaffold

Technical Field

The utility model relates to a scaffold technical field especially relates to a can dismantle fast and connect scaffold frame of annex connection exempts from.

Background

The scaffold is a convenient frame for construction workers in external walls, interior decorations, high-altitude areas and the like, and is widely applied to advertising industry, municipal engineering, mining, traffic roads, bridges, construction industry and the like. General scaffold can be divided into fastener type scaffold, wheel buckle scaffold, bowl buckle type scaffold, gate-type scaffold, socket joint type buckle type scaffold.

During the use of the scaffold, steel pipes, fasteners, bases and the like are often used, and most of the scaffolds are built by welding, pin-hinged connection, bolt connection or special member connection. The method is complex in disassembly and assembly, other parts are sometimes needed for assisting in disassembly and assembly, the operation efficiency is reduced, meanwhile, the assembly cannot be reused, and the disassembly and assembly cost of the scaffold is increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can dismantle and connect scaffold frame soon realizes not having the annex and builds the scaffold frame.

To achieve the purpose, the utility model adopts the following technical proposal:

a detachable quick connect scaffold comprising: the bottom support seat is provided with an inserting part; the jacking table is provided with the inserting part; the splicing frame is positioned between the bottom support seat and the top support platform and is provided with at least one layer, the two ends of the splicing frame are respectively provided with the splicing parts, the bottom support seat and the splicing frame are spliced with each other through the splicing parts, the top support platform and the splicing frame are spliced with each other through the splicing parts, and when multiple layers are arranged on the splicing frame, the two adjacent layers of the splicing frames are spliced with each other through the splicing parts; spacing block, this spacing block's both ends are provided with hook portion respectively, and this hook portion can be hung in this end-opening seat, this top stay platform and this splice frame, and it is spacing through this spacing block hook between this end-opening seat and this splice frame, and it is spacing through this spacing block hook between this top stay platform and this splice frame, and when this splice frame was provided with the multilayer, it was spacing through this spacing block hook between the adjacent two-layer this splice frame.

Optionally, the bottom bracket includes a support frame and a bottom bracket, the support frame is mounted on the bottom bracket, and the insertion portion is disposed on the support frame.

Optionally, the bottom bracket further includes a positioning element adjustably connected to the bottom bracket, the supporting frame abuts against the positioning element when being erected on the bottom bracket, and the positioning element can adjust the supporting height of the supporting frame.

Optionally, the top support table includes the support frame and a top bracket, and the top bracket is detachably disposed on the support frame.

Optionally, the insertion part includes a first insertion part and a second insertion part, and the first insertion part and the second insertion part can be inserted into each other.

Optionally, the bottom support base is provided with the first inserting portion and the second inserting portion, and the top support platform is provided with the first inserting portion and the second inserting portion.

Optionally, the splicing frame includes a first connecting rod and two splicing rods, the two splicing rods are connected to two ends of the first connecting rod, one end of the splicing rod is provided with the first inserting portion, the other end of the splicing rod is provided with the second inserting portion, and the hooking portion can be hooked on the first connecting rod.

Optionally, four splicing frames inserted into each other form a layer, the four splicing frames on each layer are divided into two groups, and the two splicing frames in each group are parallel to each other and arranged at intervals.

Optionally, a hooking hole is provided on the first connecting rod, and the hooking portion can extend into the hooking hole to hook the first connecting rod.

Optionally, the hooking portion at one end of the limiting member is a hinged hooking member, the hinged hooking member includes a fixing shaft and a hooking head rotatably connected to the fixing shaft, the fixing shaft is connected to the limiting member, and when the hinged hooking member hooks the first connecting rod, the fixing shaft is inserted into the hooking hole.

The utility model has the advantages that:

the bottom bracing seat and the top bracing platform guarantee the overall stability of the detachable quick-connection scaffold. Every two joggles can peg graft each other, need not other auxiliary members for can dismantle fast and connect scaffold frame and dismantle installation operating efficiency, a plurality of joggles are pegged graft simultaneously and can be promoted the use height that can dismantle fast and connect scaffold frame, have increaseed the frequency of utilization of joggle frame when the cooperation engineering operation needs, reduce cost. The limiting part is also connected with the splicing frames in a hooking mode without auxiliary parts, so that the purpose of quick disassembly and assembly is achieved, and the stability of the splicing frames after being spliced is further enhanced.

Drawings

Fig. 1 is an overall structure diagram of the detachable quick-connect scaffold according to the embodiment of the present invention after being spliced;

FIG. 2 is a structural diagram of the un-spliced parts of the detachable quick-connect scaffold according to the embodiment of the present invention;

FIG. 3 is a block diagram of a splicing frame according to an embodiment of the present invention;

fig. 4 is a structural diagram of four splicing frames according to the embodiment of the present invention after being spliced;

FIG. 5 is a block diagram of a stop block according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a support frame according to an embodiment of the present invention;

FIG. 7 is a structural diagram of the bottom bracket and the positioning member after being connected according to the embodiment of the present invention;

fig. 8 is a structural diagram of the top bracket and the positioning member after being connected according to the embodiment of the present invention.

In the figure:

1-splicing frames; 2-a stop member; 3-a support frame; 4-bottom shelf; 5-a positioning member; 6-top support; 11-a first connecting rod; 111-hook holes; 12-splicing rods; 21-hinged hook and pendant; 211-a stationary shaft; 212-hook head; 22-cylindrical pin; 221-hook-like structure; 31-a second connecting rod; 311-a fixation hole; 32-short diagonal rods; 33-support rods; 41-a base; 42-a first strut bar; 51-cylindrical handle; 61-a top plate; 62-a baffle; 63-second cradling piece.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar parts throughout, or parts having the same or similar functions. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1-8, the present embodiment provides a detachable quick-connect scaffold, which includes a bottom bracing seat, a top bracing platform, a splicing frame 1 and a limiting component 2. Wherein, be provided with grafting portion on end brace seat and the top brace bench respectively, splice frame 1 is located between end brace seat and the top brace bench, be provided with at least one deck, splice frame 1 both ends are provided with grafting portion respectively, peg graft through grafting portion each other between end brace seat and the splice frame 1 and between top brace table and the splice frame 1, when splice frame 1 is provided with the multilayer, adjacent two-layer splice frame 1 pegs graft each other through grafting portion, stop block 2's both ends are provided with hook portion respectively, hook portion can be hitched in end brace seat, top brace table and splice frame 1, end brace seat and splice frame 1 between, between top brace table and the splice frame 1 and between splice frame 1 spacing through stop block 2 hooks.

The utility model discloses in, the base prop seat improves the stability that can dismantle the scaffold, the top vaulting platform can also be installed with other parts when guaranteeing the overlap joint height, and convenient to use, splice frame 1 pegs graft each other, need not other auxiliary members, accelerate to dismantle installation operating efficiency, can adjust overall height through the grafting number of piles of splice frame 1 as required, strengthen splice frame 1's frequency of use, reduce construction cost, spacing part 2 is to the base prop seat through the hook, it is spacing that top vaulting platform and splice frame 1 carry out the hook, overall structure's stability has been improved, thereby realize holistic hoist and mount and move the fortune.

The following is a description of the overall technical solution of the detachable quick-coupling scaffold of this embodiment.

As shown in figure 1, the utility model provides a can dismantle and connect scaffold frame soon includes end brace seat, top brace platform, splice frame 1 and spacing part 2, and the end brace seat includes support frame 3, end support 4 and setting element 5, and the top brace platform includes support frame 3, top support 6 and setting element 5. Support frame 3 and setting element 5 are used in end brace seat and top brace platform simultaneously, improve the support frame 3 utilization ratio, reduce the concatenation that spare part kind too much leads to and accomodate the scheduling problem, further save the operating cost.

As shown in fig. 1 and 2, the splicing frame 1 is located between the bottom support seat and the top support platform, the two ends of the splicing frame 1 are respectively provided with a plugging portion, the bottom support seat and the top support platform are also provided with a plugging portion, the splicing frame 1 and the bottom support seat are mutually plugged through the plugging portion, and meanwhile, the splicing frame 1 and the top support platform are also mutually plugged through the plugging portion. Splice frame 1 sets up to the one deck at least, and when setting up multilayer splice frame 1, adjacent two-layer splice frame 1 pegs graft each other through grafting portion to can adjust in a flexible way and dismantle the holistic height of quick-witted scaffold frame of connecing.

Specifically, as shown in fig. 3, the splice tray 1 includes a first connecting rod 11 and two splicing rods 12, and the two splicing rods 12 are connected to both ends of the first connecting rod 11. First connecting rod 11 and concatenation pole 12 all adopt the structure of round steel in this embodiment, and two concatenation pole 12 structure sizes are the same completely, can choose the rod-like structure of other different materials or structure for use in other embodiments. Further, be provided with two hook hanging holes 111 on the head rod 11, two hook hanging holes 111 set up for 11 length direction's of head rod midpoint symmetry, conveniently can dismantle quick-witted overlap joint of scaffold frame overlap joint in-process spacing to concatenation frame 1.

In this embodiment, the grafting portion of splice rack 1 sets up on concatenation pole 12, the grafting portion is first grafting portion and second grafting portion, first grafting portion and second grafting portion can peg graft fixedly each other, set splice pole 12's one end to first grafting portion in this embodiment, the other end sets up to second grafting portion, for stability and the reliability of pegging graft each other that improves splice rack 1, splice rack 1 is parallel to each other set up to first grafting portion and second grafting portion respectively with two splice pole 12's same one end, and the two is different at the 11 ascending extension lengths of perpendicular to head rod.

Specifically, two splice bars 12 set up along the central symmetry of head rod 11 for splice frame 1 atress when connecting is more even, has also improved the overlap joint, dismantles and arranges the work efficiency that can dismantle the scaffold frame of connecing soon in order, also can use other connection forms in other embodiments, the concatenation of a plurality of splice frames 1 can directly change the height that can dismantle the scaffold frame of connecing soon as required simultaneously, to a great extent has reduced the management of many parts and has collected the degree of difficulty, has reduced the cost of whole operation material.

As shown in fig. 2, the splicing frames 1 can be spliced with each other two by the splicing parts on the splicing rods 12, alternatively, in this embodiment, four splicing frames 1 spliced with each other can form a layer of splicing main body, and the four splicing frames 1 on each layer are arranged into two groups, and the two splicing frames 1 of each group are arranged in parallel and at intervals. Specifically, as shown in fig. 4, in this embodiment, four splicing frames 1 spliced with each other are set to be a square structure, so that splicing is facilitated, the stability of the multi-layer splicing frame 1 after splicing is also enhanced, deformation is reduced, after splicing is completed, two splicing rods 12 are connected in series at each corner of the square structure, a first connecting rod 11 is arranged on each side, and the first connecting rods 11 on two adjacent sides are arranged in a vertically staggered manner.

As shown in fig. 5, the two ends of the limiting component 2 are provided with hook portions, through the hook portions, the limiting component 2 can hook the bottom bracing seat and the splicing frame 1 as well as the top bracing table and the splicing frame 1 for limitation, and when the multilayer splicing frame 1 is arranged, the limiting component 2 can stretch into the hook holes 111 on the splicing frame 1 between two adjacent layers to hook the limiting splicing frame 1. The hook limiting mode does not need other auxiliary parts for dismounting, the mounting and dismounting operations are simple, the operation cost is reduced, and the work progress is further accelerated.

As shown in fig. 5, the position limiting member 2 in this embodiment is a rod-shaped structure, the structures of the hook parts at both ends are different, one end of the hook part is provided as a hinged hook 21, and includes a fixed shaft 211 and a hook head 212 rotatably connected to the fixed shaft 211, and the fixed shaft 211 is connected to the position limiting member 2. When the limiting component 2 is hooked to connect the bottom bracing seat, the top bracing table and the splicing frame 1, the hook head 212 can rotate at any angle around the fixed shaft 211 as required, so that the hook limiting operation can be conveniently completed.

Furthermore, the other end hook part of the limiting component 2 is set to be a cylindrical pin 22, a hook-shaped structure 221 is arranged on the cylindrical pin 22, and the hook-shaped structure 221 is slightly larger than the hook hole 111 of the splicing frame 1. After the cylindrical pin 22 of the limiting component 2 passes through the hooking hole 111 of the splicing frame 1, under the condition that no force is applied along the axial direction of the cylindrical pin 22, the cylindrical pin 22 can rotate and rotate but cannot be separated from the hooking hole 111; when certain force is exerted, the cylindrical pin 22 can be separated from the hooking hole 111, so that quick mounting and dismounting are realized, and the limit detachable quick-connection scaffold is realized.

As shown in fig. 2, when the splicing frames 1 are arranged in multiple layers, in this embodiment, the hook head 212 of the hinged hook 21 of the position limiting component 2 can penetrate through the hook hole 111 of one layer of the splicing frame 1 in two adjacent layers, and the hook head 212 of the penetrated hinged hook 21 naturally falls around the fixed shaft 211 due to gravity, so as to complete the position limitation; the cylindrical pin 22 at the other end of the limiting component 2 penetrates through the hook hole 111 of the splicing frame 1 on the other layer on the same plane, and after the cylindrical pin 22 penetrates through the hook hole 111, the hook-shaped structure 221 completes limiting. For the stability of multilayer splicing frame 1, the slope of stop part 2 sets up, and the hook hole 111 that cylindric lock 22 wore to establish misplaces from top to bottom with the hook hole 111 that articulated hook pendant 21 wore to establish, and the spacing operation of hook is simple and convenient, does not have auxiliary component, and a plurality of stop part 2 just can realize spacingly, and the saving of bigger degree can be dismantled and connect scaffold frame cost soon.

As shown in fig. 6, the first inserting portion and the second inserting portion of the base support seat are disposed on the support frame 3. In this embodiment, the support frame 3 includes the second connecting rod 31, short down tube 32 and bracing piece 33, wherein be provided with fixed orifices 311 on the second connecting rod 31, be equipped with two fixed orifices 311 on every second connecting rod 31 in this embodiment, and two fixed orifices 311 set up for second connecting rod 31 length direction's midpoint symmetry, spacing part 2 realizes through fixed orifices 311 and hook hole 111 that the hook of support frame 3 and splice frame 1 is spacing, its hook mode is the same with the hook mode of spacing part 2 between the multilayer splice frame 1, can realize from this that the base frame seat is stably installed.

Optionally, in this embodiment, the support frame 3 includes four second connecting rods 31, the four second connecting rods 31 have the same length, and are welded to form a square structure, and two ends of the short diagonal rod 32 are welded to two adjacent second connecting rods 31, respectively, so that the support frame 3 is more stable, the structural strength is higher, and the deformation is reduced.

As shown in fig. 6, the supporting frame 3 includes four supporting rods 33, one supporting rod 33 is vertically disposed at the joint of every two second connecting rods 31, and a first inserting portion or a second inserting portion is disposed on the supporting rod 33, specifically, every two supporting rods 33 are in a group, one end of one group is set as the first inserting portion, and one end of the other group is set as the second inserting portion. Two bracing pieces 33 of every group are the same in this embodiment length, and two sets of length is inequality each other, and the length of bracing piece 33 cooperatees with splice rack 1, realizes balanced stable plug connection.

Optionally, the four support rods 33 are welded and fixed on the square structure formed by the second connecting rod 31, and other fixing manners may be selected in other embodiments. One side of the supporting frame 3 formed after fixing is equal in height, the other side is unequal in height, and the unequal-height side is a first inserting part and a second inserting part. The equal-height sides are conveniently connected with the bottom support 4 and the positioning piece 5, the unequal-height sides are conveniently connected with the splicing frame 1, and the aims of integrally and stably connecting the detachable quick-connecting scaffold and quickly splicing and detaching the detachable quick-connecting scaffold with the splicing frame 1 are further fulfilled.

Second connecting rod 31, short down tube 32 and the bracing piece 33 of support frame 3 in this embodiment adopt the round steel, reduce and to dismantle the whole spare part use cost of connecing the scaffold soon, also can be other building materials such as square steel in other embodiments.

As shown in fig. 7, the bottom bracket 4 is composed of a base 41 and a first bracket rod 42 in the present embodiment, wherein the base 41 is a square structure with a hole and a certain thickness, which aims to reduce the weight of the bottom bracket 4 and optimize the cost.

Specifically, four bottom brackets 4 are configured on one support frame 3, a positioning part 5 is configured on each bottom bracket 4, a first support rod 42 on each bottom bracket 4 is a round steel and can be inserted into one support rod 33, and the first support rod 42 is welded or fixed at the center of the base 41 in other modes, so that the base 41 is stressed in a concentrated manner, and the bottom is more stable when the detachable quick-connection scaffold is built.

As shown in fig. 2, the supporting frame 3 is erected on the bottom bracket 4, the positioning member 5 is adjustable and connected to the bottom bracket 4, and when the supporting frame 3 is erected on the bottom bracket 4, the supporting frame 3 can abut against the positioning member 5. The support height of the support frame 3 can be adjusted by the positioning member 5, and the bottom bracket 4 and the support frame 3 are connected at the same time, in this embodiment, the positioning member 5 is arranged to be screwed with the thread of the bottom bracket 4, that is, the positioning member 5 is provided with a threaded hole, and the top of the first bracket rod 42 of the bottom bracket 4 is provided with a thread screwed with the top.

Furthermore, the equal-height sides of the bottom of the support frame 3 are inserted with the first support rod 42 and are supported on the positioning piece 5, so that stable connection of the bottom of the detachable quick-connection scaffold is realized, and the detachable quick-connection scaffold is ensured to be integrally and smoothly built.

Specifically, as shown in fig. 7, in order to facilitate the adjustment operation of the positioning member 5, two cylindrical handles 51 are welded to two sides of the positioning member 5, so as to facilitate the connection between the positioning member 5 and the supporting frame 3 and the bottom bracket 4, and simultaneously, the supporting height of the supporting frame 3 can be quickly adjusted.

As shown in fig. 8, the first and second insertion parts of the top support platform are also arranged on the support frame 3. The inserting mode of the supporting frame 3 and the splicing frame 1 in the top supporting table is the same as that of the bottom supporting seat, and the details are not described herein.

Specifically, the top bracket 6 is detachably disposed on the supporting frame 3, and the top bracket 6 in this embodiment includes a top plate 61, a baffle plate 62 and a second bracket rod 63, wherein the top plate 61 is a rectangular structure with a hole and a certain thickness, and the size of the hole is symmetrically disposed on the rectangular structure, so as to reduce the weight of the top bracket 6 and facilitate the connection with other components, thereby optimizing the function while optimizing the cost.

The four baffle plates 62 of the top bracket 6 in this embodiment are arranged in an arc structure, and the four baffle plates 62 are respectively arranged at the four corners of the top plate 61, so that the four baffle plates can be tightly overlapped and fixed with the upper component. Specifically, second cradling piece 63 is the round steel, and second cradling piece 63 welds or fixes in the center department of roof 61 through other modes to this makes roof 61 concentrate the atress, can dismantle when building the top part and connect soon and can dismantle and connect the scaffold top soon more firm.

As shown in fig. 2, the top bracket 6 is erected on the supporting frame 3, the positioning member 5 is adjustable and connected to the supporting frame 3, and when the top bracket 6 is erected on the supporting frame 3, the positioning member 5 of the top bracket 6 can abut against the supporting frame 3. The supporting height of the adjustable top support 6 of setting element 5, connect top support 6 and support frame 3 simultaneously, the connected mode in the base props the seat with being connected of setting element 5 and support frame 3 in the top props the platform in this embodiment, the connection of setting element 5 and top support 6 also sets up to the screw thread and connects soon simultaneously, setting element 5 is provided with the screw hole promptly, be provided with the screw thread that closes soon with it on the second cradling piece 63 of top support 6, with this realize dismantling the stable connection at fast joint scaffold top, and then ensure to dismantle fast joint scaffold and wholly build smoothly.

Can dismantle quick-connect scaffold frame overlap joint process:

the four positioning pieces 5 are screwed with the four bottom brackets 4, the positioning pieces 5 are adjusted through the cylindrical handles 51, so that the screwed positions of the bottom brackets 4 are positioned on the same plane, and then the supporting frame 3 is connected with the first supporting frame rod 42 in an inserting mode and then abutted to the positioning pieces 5, and the lapping work of the bottom supporting seat is completed.

Four setting elements 5 close with four top supports 6 mutually soon, adjust setting element 5 through cylindricality handle 51 for top support 6 closes soon the position and is in the coplanar, then supports support frame 3 by setting element 5 behind the support frame 3 with second cradling piece 63 grafting, accomplishes the overlap joint work of top brace platform.

When the splicing frame 1 is set to one layer:

the four splicing frames 1 are divided into two groups, each group is two, the two splicing frames 1 of the first group are inserted into the supporting rod 33 of the bottom support seat, the two splicing frames 1 of the second group are inserted into the two splicing frames 1 of the first group to form one layer of splicing frame 1, the supporting rod 33 of the top support platform is inserted into the two splicing frames 1 of the second group, and the whole inserting work is completed.

Selecting one surface, hooking and limiting a cylindrical pin 22 of a limiting component 2 through a fixing hole 311 of the bottom support seat, and hooking and limiting a hinged hook 21 through a hook hole 111 which is staggered up and down; and then the cylindrical pin 22 of the other limiting component 2 is inserted into the rest hook hole 111 for hook limiting, the hinged hook 21 is inserted into the fixing hole 311 of the top support table which is staggered up and down for hook limiting, and the other three surfaces of the detachable quick-connection scaffold are hooked and limited in the same way to complete limiting work.

When the splice rack 1 is set to multiple layers:

the splicing and limiting modes of the bottom bracing seat, the top bracing platform and the adjacent splicing frames 1 are the same as the lap joint mode of the detachable quick-joint scaffold of one layer of splicing frame 1.

The adjacent two layers of the multilayer splicing frame 1 are sequentially spliced through the splicing parts to complete the splicing work.

The limiting mode between two adjacent layers of the multilayer splicing frame 1 is that one side is selected at first, the cylindrical pin 22 of the limiting component 2 is arranged in the hook hole 111 hook of the one-layer splicing frame 1 in a penetrating mode, the hinged hook 21 is arranged in the hook hole 111 hook of the two-layer splicing frame 1 which is staggered up and down in a penetrating mode in a limiting mode, and the other three sides are hooked in a limiting mode in the same mode, so that limiting work can be finished.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. A can dismantle quick connect scaffold, its characterized in that includes:

the bottom support seat is provided with an inserting part;

the jacking platform is provided with the insertion part;

the splicing frame (1) is positioned between the bottom support seat and the top support platform, at least one layer is arranged, the inserting parts are respectively arranged at two ends of the splicing frame (1), the bottom support seat and the splicing frame (1) are mutually inserted through the inserting parts, the top support platform and the splicing frame (1) are mutually inserted through the inserting parts, and when multiple layers of the splicing frame (1) are arranged, the adjacent two layers of the splicing frame (1) are mutually inserted through the inserting parts;

spacing part (2), the both ends of spacing part (2) are provided with hook portion respectively, hook portion can hook in the end props the seat the top prop the platform with splice frame (1), the end props the seat with pass through between splice frame (1) spacing part (2) hook, the top prop the platform with pass through between splice frame (1) spacing part (2) hook, when splice frame (1) is provided with the multilayer, adjacent two-layer pass through between splice frame (1) spacing part (2) hook is spacing.

2. The detachable quick-connection scaffold according to claim 1, wherein the base support seat comprises a support frame (3) and a base support (4), the support frame (3) is erected on the base support (4), and the insertion part is arranged on the support frame (3).

3. The detachable quick-connecting scaffold according to claim 2, wherein the bottom bracket further comprises a positioning member (5), the positioning member (5) is adjustably connected to the bottom bracket (4), the supporting frame (3) abuts against the positioning member (5) when erected on the bottom bracket (4), and the positioning member (5) can adjust the supporting height of the supporting frame (3).

4. A detachable quick-connect scaffold according to claim 2, characterized in that said top bracing table comprises said supporting frame (3) and a top bracket (6), said top bracket (6) being detachably arranged on said supporting frame (3).

5. The detachable quick-connection scaffold according to claim 1, wherein the insertion part comprises a first insertion part and a second insertion part, and the first insertion part and the second insertion part can be inserted into each other.

6. A detachable quick-connecting scaffold according to claim 5, wherein the bottom support base is provided with the first insertion part and the second insertion part, and the top support platform is provided with the first insertion part and the second insertion part.

7. The detachable quick-connect scaffold according to claim 6, wherein the splicing frame (1) comprises a first connecting rod (11) and two splicing rods (12), the two splicing rods (12) are connected to two ends of the first connecting rod (11), one end of each splicing rod (12) is provided with the first insertion portion, the other end of each splicing rod is provided with the second insertion portion, and the hook portion can be hooked on the first connecting rod (11).

8. The detachable quick-connecting scaffold according to claim 7, wherein four splicing frames (1) which are mutually spliced form a layer, the four splicing frames (1) on each layer are divided into two groups, and the two splicing frames (1) in each group are arranged in parallel and at intervals.

9. A detachable quick-connect scaffold according to claim 7, characterized in that the first connecting rod (11) is provided with a hooking hole (111), and the hooking portion can extend into the hooking hole (111) to hook the first connecting rod (11).

10. The detachable quick-coupling scaffold according to claim 9, wherein the hooking portion at one end of the position-limiting component (2) is a hinged hooking piece (21), the hinged hooking piece (21) comprises a fixed shaft (211) and a hooking head (212) rotatably connected to the fixed shaft (211), the fixed shaft (211) is connected to the position-limiting component (2), and when the hinged hooking piece (21) hooks the first connecting rod (11), the fixed shaft (211) is inserted into the hooking hole (111).

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