CN219826051U - Be applied to assembled scaffold frame base of removal scaffold frame - Google Patents

Abstract

The assembled scaffold base comprises a grounding plate for supporting the scaffold on the ground, wherein the grounding plate is detachably connected to the outer side of the scaffold through a positioning assembly and a reinforcing assembly; the two ends of the positioning component are detachably connected with the scaffold and the grounding plate respectively and are used for placing the grounding plate on the ground; the two ends of the fixing component are fixedly connected with the scaffold and the grounding plate respectively and can rotate relatively, and are used for locking the grounding plate on the ground at the side part of the scaffold, and after the positioning component is dismantled, the fixing component can be folded inwards and turned over to the scaffold; the positioning assembly is arranged on the lower inner side of the reinforcing assembly, and a first matching piece and a second matching piece which are connected with the grounding plate and the scaffold are respectively arranged on the positioning assembly and the grounding plate. The utility model can be directly applied to the movable scaffold without disassembling the movable wheels, and can be retracted together with the scaffold for integral storage when the movable scaffold is not needed to be used.

Description

Be applied to assembled scaffold frame base of removal scaffold frame

Technical Field

The utility model relates to a scaffold base, in particular to an assembled scaffold base applied to a movable scaffold, and belongs to the technical field of scaffolds.

Background

The scaffold is mainly used for solving the problems of high-rise and horizontal transportation, a scaffold base is often used in the installation and use process, the contact area between the scaffold and the ground can be enlarged through the base, the scaffold is stably supported on the ground, and the assembled scaffold can be further heightened for use.

At present, a known assembled scaffold base, patent publication number is CN218714994U, and this assembled scaffold base is through the locking component that sets up, can be convenient for the staff dismantle supporting seat and connecting rod, has effectively improved the space utilization of supporting seat and connecting rod simultaneously, has reduced the area occupied of supporting seat and connecting rod to rationally reduced the transportation cost of supporting seat and connecting rod.

However, the above-mentioned assembled scaffold base in the prior art has the following problems when applied to a conventional moving scaffold having moving wheels: the movable wheels are required to be detached to be connected with the scaffold, and a certain storage space is occupied when the movable wheels are not required to be used.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides an assembled scaffold base applied to a movable scaffold, which can be directly applied to the movable scaffold without dismantling movable wheels and can be integrally stored together with the scaffold when the movable scaffold is not needed to be used.

The technical scheme adopted for solving the technical problems is as follows:

the assembled scaffold base comprises a grounding plate for supporting the scaffold on the ground, wherein the grounding plate is detachably connected to the outer side of the scaffold through a positioning assembly and a reinforcing assembly; the two ends of the positioning component are detachably connected with the scaffold and the grounding plate respectively and are used for placing the grounding plate on the ground; the two ends of the fixing component are fixedly connected with the scaffold and the grounding plate respectively and can rotate relatively, and are used for locking the grounding plate on the ground at the side part of the scaffold, and after the positioning component is dismantled, the fixing component can be folded inwards and turned over to the scaffold; the positioning assembly is arranged on the lower inner side of the reinforcing assembly, and a first matching piece and a second matching piece which are connected with the grounding plate and the scaffold are respectively arranged on the positioning assembly and the grounding plate.

Optionally, one end of the positioning component is clamped at the supporting leg part of the scaffold, and the other end of the positioning component is detachably and fixedly connected to the grounding plate; one end of the reinforcing component is detachably and fixedly connected to the supporting leg part of the scaffold, the reinforcing component can rotate relative to the scaffold at the end, and the other end of the reinforcing component is rotationally and fixedly connected with the grounding plate.

Optionally, the locating component includes the Z type connecting plate that the right angle was buckled, Z type connecting plate includes flat board, well riser and the lower flat board of end to end, and the tip an organic whole of flat board is connected with the first joint board that is used for with scaffold frame joint, and the tip of flat board is pegged graft in the draw-in groove that sets up on the earth plate down.

Optionally, the first matching piece is a magnetic attraction piece arranged on the surface of the middle vertical plate, and the magnetic attraction piece is used for being in magnetic attraction connection with the grounding plate.

Optionally, the magnetic attraction piece is a straight plate-shaped magnet embedded on the surface of the middle vertical plate.

Optionally, the reinforcement component comprises a frame, a U-shaped seat and a locking piece, wherein the lower end of the frame is hinged on the grounding plate, and the upper end of the frame is hinged at the rear end of the U-shaped seat; the locking piece is fixedly connected to the front end of the U-shaped seat and used for being detachably and fixedly connected with the support leg of the scaffold.

Optionally, the locking piece includes the block portion that is the shape of block on the scaffold frame that integrally connected is on U type seat, an organic whole is connected on the block portion and is used for contracting the locking portion to and can dismantle the bolt assembly of connection on the locking portion.

Optionally, the locking member is a clip connector; the grounding plate is a plate body made of metal.

Optionally, the second fitting is at least one second clamping plate fixedly connected to the upper surface of the grounding plate, and the bayonet of the second clamping plate is upwards used for being connected with the scaffold in a clamping mode.

Optionally, the first clamping plate and the second clamping plate have the same structure and are square plate bodies provided with circular notches; the square plate body is made of deformed materials corresponding to the periphery of the round notch, and the root part, which is used for connection, of the square plate body is made of hard materials corresponding to the periphery of the round notch.

Compared with the prior art, the assembled scaffold base applied to the movable scaffold has at least the following advantages:

according to the assembled scaffold base, the grounding plate with the enlarged contact area is arranged to effectively support the scaffold, and then the grounding plate is limited and fixed on the outer side of the scaffold by utilizing the positioning component and the reinforcing component, so that the assembled scaffold base can be applied to moving the scaffold without dismantling moving wheels. Meanwhile, the scaffold can be contracted and fixed on the scaffold when not in use by rotating and detachably connecting the scaffold and the first matching piece and the second matching piece.

Drawings

The utility model will be further described with reference to the drawings and examples.

Fig. 1 is a schematic perspective view of an assembled scaffold base according to an embodiment of the present utility model.

Fig. 2 is a schematic front view of an assembled scaffold base according to an embodiment of the present utility model, wherein the assembled scaffold base is mounted on a scaffold in a use state.

Fig. 3 is a schematic front view of an assembled scaffold base according to an embodiment of the present utility model, wherein the assembled scaffold base is received on a scaffold in a non-use state.

The meaning of the reference signs in the figures indicates:

10-an assembled scaffold base;

11-a ground plate; 11-1-clamping grooves; 111-a second mating member; 1111-a second card;

12-positioning assembly; 121-Z-shaped connecting plates; 1211-upper plate; 1212-middle riser; 1213-lower plate; 122-a first card; 123-a first mating member; 1231-magnetic attraction member;

13-a reinforcement assembly; 131-a frame; 132-U-shaped seat; 133-locking member; 1331-an engaging portion; 1332-locking part; 1333-bolt assembly;

20-scaffold; 21-leg portion.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to fall within the scope of the utility model.

Fig. 1 to 3 show a schematic structural view of a preferred embodiment of the present utility model, in which an assembled scaffold base 10 applied to a mobile scaffold includes a ground plate 11 for assisting the scaffold to be supported on the ground, the ground plate 11 being detachably connected to the outside of the scaffold 20 through a positioning assembly 12 and a reinforcement assembly 13; the two ends of the positioning component 12 are respectively detachably connected with the scaffold 20 and the grounding plate 11, and are used for placing the grounding plate 11 on the ground; the two ends of the fixing component are fixedly connected with the scaffold 20 and the grounding plate 11 respectively and can rotate relatively, and are used for locking the grounding plate 11 on the ground at the side part of the scaffold 20 and enabling the fixing component to be folded inwards and turned over to the scaffold 20 after the positioning component 12 is removed; the positioning component 12 is arranged on the lower inner side of the reinforcement component 13, and the positioning component 12 and the grounding plate 11 are respectively provided with a first matching piece 123 and a second matching piece 111 which are connected with the grounding plate 11 and the scaffold 20.

The assembled scaffold base 10 applied to the movable scaffold of the embodiment can be directly assembled to the movable scaffold under the condition of avoiding dismantling the movable wheels at the bottom end of the traditional scaffold by means of the arrangement of the positioning assembly 12, so that the operation and the use of the base are more convenient and efficient. The assembled scaffold base 10 for the mobile scaffold of the present embodiment can firmly fix the grounding plate 11 at the ground-contacting position by means of the fixing component which is arranged above the positioning component 12 and is also connected between the grounding plate 11 and the scaffold 20, so that the function of enlarging the contact area between the scaffold 20 and the ground by the base is ensured. Furthermore, the assembled scaffold base 10 for the mobile scaffold of the present embodiment further uses the detachable design of the positioning component 12 and the detachable and rotatable design of the fixing component, and uses the combination of the first matching piece 123 and the second matching piece 111 to realize the shrinkage fixation of the base and the scaffold 20 when not in use, so that the scaffold base does not occupy too much storage space.

In a further alternative implementation manner of the present embodiment, one end of the positioning assembly 12 is clamped at the leg portion 21 of the scaffold 20, and the other end thereof is detachably and fixedly connected to the ground plate 11; one end of the reinforcement component 13 is detachably and fixedly connected to the leg portion 21 of the scaffold 20, and the reinforcement component 13 is rotatable relative to the scaffold 20 at the end, and the other end is rotatably and fixedly connected to the ground plate 11.

The leg portion 21 of the scaffold 20 is usually a steel pipe, and the first fitting 123, the positioning unit 12 and the fixing unit are all fitted and connected to the steel pipe. When the scaffold is used, one end of the positioning assembly 12 is clamped with the scaffold 20, but the connecting strength is low, and the positioning assembly and the scaffold can slide relatively, so that the positioning assembly 12 is installed, only the pre-positioning effect of the grounding plate 11 and the scaffold 20 is achieved, and then the reinforcement assembly 13 is used for completing secondary fixation, so that the whole base is ensured to be fixed on the scaffold 20.

In a further alternative implementation manner of this embodiment, the positioning assembly 12 includes a Z-shaped connecting plate 121 bent at right angles, the Z-shaped connecting plate 121 includes an upper plate 1211, a middle vertical plate 1212 and a lower plate 1213 connected end to end, the end portion of the upper plate 1211 is integrally connected with a first clamping plate 122 for clamping with the scaffold 20, and the end portion of the lower plate 1213 is inserted into a clamping groove 11-1 provided on the grounding plate 11.

In a specific implementation, the clamping groove 11-1 may be directly opened at the side portion of the grounding plate 11, or may be integrally connected at the side portion of the grounding plate 11 as a groove body of an independent module. After the complete positioning assembly 12 is assembled, the connection (use) process is as follows: the Z-shaped connecting plate 121 is inserted into the clamping groove 11-1 to assemble the positioning assembly 12 and the grounding plate 11, and then the first clamping plate 122 is connected with the scaffold 20 and slides to enable the grounding plate 11 to be contacted with the ground, so that the pre-positioning of the base can be generally completed.

In a further alternative implementation of the present embodiment, the reinforcement assembly 13 includes a frame 131, a U-shaped seat 132, and a locking member 133, wherein a lower end of the frame 131 is hinged to the ground plate 11, and an upper end of the frame 131 is hinged to a rear end of the U-shaped seat 132; the locking member 133 is fixedly connected to the front end of the U-shaped seat 132 for detachable and fixed connection with the leg portion 21 of the scaffold 20.

In a further alternative implementation manner of this embodiment, the locking member 133 includes an engaging portion 1331 integrally connected to the U-shaped seat 132 and having a shape capable of being engaged with the scaffold 20, a locking portion 1332 integrally connected to the engaging portion 1331 and used for contracting the engaging portion 1331, and a bolt assembly 1333 detachably connected to the locking portion 1332.

In a further alternative of this embodiment, the locking member 133 may be a clip connector of various forms; preferably, the grounding plate 11 is a metal plate body, and can be used in combination with the first mating member 123 of the magnetic attraction member.

In a further alternative implementation of this embodiment, the first mating member 123 is a magnetic attraction member 1231 disposed on a surface of the middle riser 1212, and the magnetic attraction member 1231 is configured to magnetically attract and connect with the ground plate 11. The removed positioning assembly 12 is accommodated in a concentrated manner by the magnetic attraction member 1231 and the ground plate 11 retracted on the scaffold 20.

In a further alternative implementation of this embodiment, the magnetic attraction member 1231 is a plate-shaped magnet embedded on the surface of the middle riser 1212.

The surface of the middle riser 1212 facilitates placement of a larger magnetic attraction area to achieve better connection.

In a further alternative implementation of this embodiment, the second mating member 111 is at least one second engaging plate 1111 fixedly connected to the upper surface of the ground plate 11, and the second engaging plate 1111 has a bayonet facing upwards for being in snap connection with the scaffold 20.

In a further alternative implementation manner of this embodiment, the first engaging plate 122 and the second engaging plate 1111 have the same structure and are square plate bodies with circular notches; the square plate body is made of deformed materials corresponding to the periphery of the round notch, and the root part, which is used for connection, of the square plate body is made of hard materials corresponding to the periphery of the round notch.

The first engaging plate 122 is used as follows: the circular notch of the first clamping plate 122 faces the bottom end of the scaffold 20 to form a vertical steel pipe, although the diameter of the inner clamping part of the circular notch is matched with the steel pipe, the diameter of the notch is smaller than that of the steel pipe, the notch is impacted to the steel pipe, the steel pipe expands the notch, the first clamping plate 122 can be sleeved outside the steel pipe due to the fact that the part forming the circular notch is made of a stressed deformation material, the circular notch can be reset after being expanded without stress, and then the first clamping plate 122 is limited outside the steel pipe. The second engaging plate 1111 is identical to the first engaging plate 122 in use, and will not be described again.

The connection and use process of the complete reinforcing component 13 in this embodiment are as follows:

one end of the reinforcement assembly 13 is rotatably mounted on the ground plate 11, and then the frame 131 is rotated to drive the locking member 133 to one side of the steel pipe of the scaffold 20, wherein the locking member 133 is fixedly connected with the steel pipe by matching two parts of the clamping part 1331 and the locking part 1332. The engaging portion 1331 is consistent with the principle of the first engaging plate 122/the second engaging plate 1111, namely, is used for extruding, expanding and wrapping the steel pipe, and resetting when not stressed, and the locking portion 1332 can continuously shrink the engaging portion 1331 so that the whole locking piece 133 is firmly fixed outside the steel pipe, and therefore the base is limited and fixed under the action of the locking piece 133.

In the present embodiment, the assembly scaffold base 10 is applied to a mobile scaffold, and the installation step is to complete the connection of the positioning assembly 12 and then complete the connection of the reinforcement assembly 13.

The assembled scaffold base 10 of the present embodiment is applied to a mobile scaffold, and when the assembled scaffold base is to be contracted into a whole with the scaffold 20 after not being used, the reinforcement component 13 needs to be detached firstly, and the concrete process is as follows:

the locking element 133 of the reinforcement assembly 13 is first removed from the scaffold 20; the positioning assembly 12 is pulled by force to be detached from the scaffold 20 and the grounding plate 11 respectively; the locking member 133 of the reinforcement assembly 13 is then reattached to the scaffold 20; then, the grounding plate 11 is turned inwards and is connected with the scaffold 20 integrally through the second clamping plate 1111 on the grounding plate 11, so that the grounding plate 11 and the reinforcing component 13 are shrunk and fixed on the scaffold 20 together; finally, the detached positioning assembly 12 is attached to the grounding plate 11 by magnetic members, so that the whole assembled scaffold base 10 is folded and stored on the scaffold 20.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the utility model in any way, but any simple modification and equivalent variation of the above embodiment according to the technical spirit of the present utility model falls within the scope of the present utility model.

Claims (10)

1. Be applied to assembled scaffold frame base of removal scaffold frame, including being used for assisting the scaffold frame to support the ground plate at ground, characterized by: the grounding plate is detachably connected to the outer side of the scaffold through the positioning component and the reinforcing component; the two ends of the positioning component are detachably connected with the scaffold and the grounding plate respectively and are used for placing the grounding plate on the ground; the two ends of the fixing component are fixedly connected with the scaffold and the grounding plate respectively and can rotate relatively, and are used for locking the grounding plate on the ground at the side part of the scaffold, and after the positioning component is dismantled, the fixing component can be folded inwards and turned over to the scaffold; the positioning assembly is arranged on the lower inner side of the reinforcing assembly, and a first matching piece and a second matching piece which are connected with the grounding plate and the scaffold are respectively arranged on the positioning assembly and the grounding plate.

2. The assembled scaffold base applied to the mobile scaffold according to claim 1, wherein: one end of the positioning component is clamped at the supporting leg part of the scaffold, and the other end of the positioning component is detachably and fixedly connected to the grounding plate; one end of the reinforcing component is detachably and fixedly connected to the supporting leg part of the scaffold, the reinforcing component can rotate relative to the scaffold at the end, and the other end of the reinforcing component is rotationally and fixedly connected with the grounding plate.

3. An assembled scaffold base for a mobile scaffold according to claim 2, characterized in that: the positioning assembly comprises a right-angle bent Z-shaped connecting plate, the Z-shaped connecting plate comprises an upper flat plate, a middle vertical plate and a lower flat plate which are connected end to end, a first clamping plate used for being clamped with a scaffold is integrally connected to the end part of the upper flat plate, and the end part of the lower flat plate is inserted into a clamping groove arranged on the grounding plate.

4. A modular scaffolding base for use in a mobile scaffolding as claimed in claim 3 wherein: the first matching piece is a magnetic attraction piece arranged on the surface of the middle vertical plate, and the magnetic attraction piece is used for being in magnetic attraction connection with the grounding plate.

5. The assembled scaffold base for a mobile scaffold of claim 4, wherein: the magnetic attraction piece is a straight plate-shaped magnet embedded on the surface of the middle vertical plate.

6. An assembled scaffold base for a mobile scaffold according to claim 2 or 3 or 4 or 5, characterized in that: the reinforcing component comprises a frame, a U-shaped seat and a locking piece, wherein the lower end of the frame is hinged to the grounding plate, and the upper end of the frame is hinged to the rear end of the U-shaped seat; the locking piece is fixedly connected to the front end of the U-shaped seat and used for being detachably and fixedly connected with the support leg of the scaffold.

7. The assembled scaffold base for a mobile scaffold of claim 6, wherein: the locking piece comprises a clamping part which is integrally connected to the U-shaped seat and can be clamped on the scaffold, a locking part which is integrally connected to the clamping part and used for shrinking the clamping part, and a bolt assembly which is detachably connected to the locking part.

8. The assembled scaffold base for a mobile scaffold of claim 7, wherein: the locking piece is a clamp connecting piece; the grounding plate is a plate body made of metal.

9. An assembled scaffold base for a mobile scaffold according to claim 3 or 4 or 5, characterized in that: the second matching piece is at least one second clamping plate fixedly connected to the upper surface of the grounding plate, and the bayonet of the second clamping plate faces upwards and is used for being connected with a scaffold in a clamping mode.

10. The assembled scaffold base applied to the mobile scaffold according to claim 9, wherein: the first clamping plate and the second clamping plate have the same structure and are square plate bodies provided with round notches; the square plate body is made of deformed materials corresponding to the periphery of the round notch, and the root part, which is used for connection, of the square plate body is made of hard materials corresponding to the periphery of the round notch.