CN215331284U - Construction frame with anti-toppling structure - Google Patents

Abstract

The utility model discloses a building scaffold with an anti-toppling structure, which comprises an underframe, a connecting assembly, a supporting assembly and a placing footing, wherein the placing footing is fixed at the bottom end of the underframe, and the surface of the placing footing is provided with a screw hole groove; the connecting assembly is arranged at the top end of the underframe; an upper connecting rod connected to an upper end of the connecting assembly; the supporting component is arranged on the outer side of the underframe; a cross bar connected to an outer side of the connection assembly; a mounting member welded to an outer side of an upper end of the underframe; the movable shaft penetrates through the middle part of the mounting part; an adjustment lever connected to a lower end of the mounting member. This building scaffold with prevent structure of empting is provided with the regulation pole, runs through in the inside regulation pole of installed part can comply with the activity that the loose axle carries out the upset activity of certain angle, and then carries out angle modulation to the connecting piece of whole regulation pole bottom for adjust the pole and be the laminating of slope form and support the reinforcement to the chassis on ground.

Description

Construction frame with anti-toppling structure

Technical Field

The utility model relates to the technical field of construction frames, in particular to a construction frame with an anti-toppling structure.

Background

In order to obtain sufficient construction height during the construction of a building, a common tool is a scaffold, also called scaffold, for supporting people and materials during the construction or repair of the building, and the construction scaffold is of various types.

The upper end of a building scaffold on the market is heavy in placed objects, the building scaffold is high in erection, the bottom is high in pressure bearing, the scaffold is prone to being unstable and even toppling, and therefore the building scaffold with the anti-toppling structure is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a building scaffold with an anti-toppling structure, which aims to solve the problems that the building scaffold on the market is heavy in upper end placing object, high in erection and large in bottom pressure bearing, and the scaffold is easy to be unstable and even topple.

In order to achieve the purpose, the utility model provides the following technical scheme: a construction frame having an anti-toppling structure, comprising:

a chassis;

further comprising:

the placing bottom foot is fixed at the bottom end of the bottom frame, and a screw hole groove is formed in the surface of the placing bottom foot;

the connecting assembly is arranged at the top end of the underframe;

an upper connecting rod connected to an upper end of the connecting assembly;

the supporting component is arranged on the outer side of the underframe;

a cross bar connected to an outer side of the connection assembly;

the support assembly includes:

a mounting member welded to an outer side of an upper end of the underframe;

the movable shaft penetrates through the middle part of the mounting part;

an adjusting rod connected to the lower end of the mounting member;

the sliding rod is connected to the lower end inside the adjusting rod, and the surface of the sliding rod is provided with an elastic buckle;

the connecting pad foot is arranged at the bottom end of the adjusting rod;

and the binding buckle is fixed on the outer side of the lower end of the bottom frame.

Preferably, the adjusting rod penetrates through the mounting part, and the adjusting rod forms a turnover structure with the mounting part through the movable shaft.

Preferably, the sliding rod is in sliding connection with the adjusting rod, and the elastic buckle is in elastic connection with the sliding rod.

Preferably, the connecting pad foot is movably connected with the adjusting rod, and the adjusting rod is connected with the buckle in a buckling manner.

Preferably, the connection assembly includes:

a lower limiting hoop;

the upper limiting hoop is connected to the upper end of the lower limiting hoop and is connected with the lower limiting hoop through a fixing screw;

and the connecting groove hole is formed in the outer side of the upper limiting hoop.

Preferably, the structural size of the lower limiting hoop is consistent with that of the upper limiting hoop, and the lower limiting hoop and the upper limiting hoop form a fixing structure through a fixing screw.

Preferably, the cross rod penetrates through the lower limiting hoop, and the cross rod forms a buckling structure through the lower limiting hoop and the upper limiting hoop.

The utility model provides a building scaffold with an anti-toppling structure, which has the following beneficial effects: according to the building scaffold with the anti-toppling structure, the inclined support piece at the bottom end and the scaffold form a triangular structure so as to support and reinforce the whole scaffold, so that the stability of the whole scaffold is improved, and the possibility of shaking and even toppling of the scaffold is effectively reduced;

the building scaffold with the anti-toppling structure is provided with an adjusting rod, the adjusting rod penetrating through the inside of the mounting piece can perform overturning movement at a certain angle in compliance with the activity of the movable shaft, and further perform angle adjustment on a connecting piece at the bottom end of the whole adjusting rod, so that the adjusting rod is attached to the ground in an inclined manner to support and reinforce the underframe;

the building scaffold with the anti-toppling structure is provided with a sliding rod, the sliding rod is connected inside a hollow adjusting rod, the sliding rod can horizontally slide along the opening direction of the adjusting rod, the degree of the supporting rod formed by the inclined adjusting rod and the sliding rod is increased, the supporting rod is supported against the ground, the stability of the installation of the whole underframe is guaranteed, the vibration and toppling are avoided, correspondingly, in the sliding process of the sliding rod, an elastic buckle on the surface of the elastic buckle can be buckled with an open hole formed in the surface of the adjusting rod, the connection between the sliding rod and the adjusting rod is further positioned, the situation that the sliding rod retracts due to pressure in the supporting process is avoided, and the supporting cannot be carried out;

this building scaffold with prevent empting structure is provided with down spacing hoop, and a plurality of connection slotted holes have been seted up in the outside of the connecting piece that constitutes with last spacing hoop laminating mutually to spacing hoop down, and spacing hoop and last spacing hoop phase separation time down place the end of horizontal pole inside spacing hoop down, then with last spacing hoop in spacing hoop laminating mutually down to link firmly through the set screw, make the spacing buckle of horizontal pole inside it.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 3 is a schematic perspective view of a connecting assembly of the present invention;

in the figure: 1. a chassis; 2. placing bottom feet; 3. a screw hole groove; 4. a connecting assembly; 401. a lower limiting hoop; 402. an upper limit hoop; 403. connecting the slotted holes; 404. fixing screws; 5. an upper connecting rod; 6. a support assembly; 601. a mounting member; 602. a movable shaft; 603. adjusting a rod; 604. a slide bar; 605. an elastic buckle; 606. connecting the pad feet; 607. fastening; 7. a cross bar.

Detailed Description

As shown in fig. 1, a construction frame having an anti-toppling structure, comprising: a chassis 1; further comprising: the placing bottom foot 2 is fixed at the bottom end of the bottom frame 1, and a screw hole groove 3 is formed in the surface of the placing bottom foot 2; the connecting assembly 4 is arranged at the top end of the underframe 1; an upper connecting rod 5 connected to the upper end of the connecting assembly 4; a support assembly 6 disposed at an outer side of the base frame 1; a cross bar 7 connected to the outside of the connection assembly 4; a mounting member 601 welded to an upper end outer side of the underframe 1; a movable shaft 602 penetrating the middle of the mounting member 601; adjust pole 603, its lower extreme that connects in installed part 601, it runs through inside installed part 601 to adjust pole 603, and adjusts pole 603 and pass through to constitute flip structure between loose axle 602 and the installed part 601, runs through and carry out the upset activity of certain angle in the inside regulation pole 603 of installed part 601 can comply with the activity of loose axle 602, and then carries out angle modulation to the connecting piece of whole regulation pole 603 bottom for adjust pole 603 and be the laminating of slope form and support the reinforcement to chassis 1 on ground.

As shown in fig. 2, a sliding rod 604 connected to the lower end of the inside of the adjusting rod 603, an elastic buckle 605 arranged on the surface of the sliding rod 604, the sliding rod 604 and the adjusting rod 603 being connected in a sliding manner, the elastic buckle 605 is elastically connected with the sliding rod 604, the sliding rod 604 is connected inside the hollow adjusting rod 603, and the sliding rod 604 can horizontally slide along the opening direction of the adjusting rod 603, thereby increasing the supporting rod formed by the inclined adjusting rod 603 and the sliding rod 604, so as to support against the ground, ensure the stability of the installation of the whole underframe 1, avoid vibration and toppling, correspondingly in the sliding process of the sliding rod 604, the elastic buckle 605 on the surface can be buckled with the opening on the surface of the adjusting rod 603, the connection between the sliding rod 604 and the adjusting rod 603 is positioned, so that the situation that the sliding rod 604 retracts and cannot be supported due to compression in the supporting process is avoided; a connecting pad 606 disposed at the bottom end of the adjusting lever 603; restraint and detain 607, it is fixed in the lower extreme outside of chassis 1, it is swing joint between foot 606 and the regulation pole 603 to connect and fill up, and it is the buckle connection to adjust between pole 603 and the restraint knot 607, it has a connection pad foot 606 to adjust pole 603 top swing joint, it also can comply with and adjust pole 603 and carry out certain angle upset regulation, make it can in time adjust to the ground on the upset angle of adjusting pole 603 or different inclined planes, it laminates in ground to be the level form all the time, improve whole support piece's supporting effect, and when need not use or when transporting, will adjust pole 603 and laminate in the chassis 1 outside downwards, and then detain 607 looks buckle spacing with the restraint of chassis 1 bottom, it is not hard up to avoid adjusting pole 603, contact with chassis 1 and take place wearing and tearing.

As shown in fig. 3, a lower spacing clip 401; the upper limiting hoop 402 is connected to the upper end of the lower limiting hoop 401, the cross rod 7 penetrates through the lower limiting hoop 401, the cross rod 7 forms a buckling structure through the space between the lower limiting hoop 401 and the upper limiting hoop 402, a plurality of connecting slotted holes 403 are formed in the outer side of a connecting piece formed by the lower limiting hoop 401 and the upper limiting hoop 402 in a fit mode, when the lower limiting hoop 401 is separated from the upper limiting hoop 402, the end of the cross rod 7 is placed in the lower limiting hoop 401, then the upper limiting hoop 402 is fitted to the lower limiting hoop 401 and fixedly connected through a fixing screw 404, and the cross rod 7 is limited and buckled in the lower limiting hoop 401; the upper limiting hoop 402 is connected with the lower limiting hoop 401 through a fixing screw 404, the structural size of the lower limiting hoop 401 is consistent with that of the upper limiting hoop 402, the lower limiting hoop 401 forms a fixing structure with the upper limiting hoop 402 through the fixing screw 404, the upper limiting hoop 402 and the lower limiting hoop 401 which are consistent in structural size are fixed through the screw of the fixing screw 404 to form a whole, and the bottom frame 1 welded with the upper limiting hoop 402 and the lower limiting hoop 401 is fixedly connected with the upper connecting rod 5; a connecting slot 403 which opens out on the outside of the upper spacing clip 402.

In summary, when the construction frame with the anti-toppling structure is used, according to the structure shown in fig. 1 and fig. 2, a plurality of connecting slots 403 are formed on the outer side of a connecting piece formed by attaching the lower limiting hoop 401 and the upper limiting hoop 402, when the lower limiting hoop 401 is separated from the upper limiting hoop 402, the end of the cross rod 7 is placed inside the lower limiting hoop 401, then the upper limiting hoop 402 is attached to the lower limiting hoop 401 and is fixedly connected through the fixing screw 404, so that the cross rod 7 is buckled inside the lower limiting hoop for limiting and fixing, the adjusting rod 603 penetrating through the mounting piece 601 can perform a certain-angle overturning movement in compliance with the movement of the movable shaft 602, and further perform an angle adjustment on the connecting piece at the bottom end of the whole adjusting rod 603, so that the adjusting rod 603 is obliquely attached to the ground to support and reinforce the underframe 1, and the corresponding hollow adjusting rod 603 is internally connected with the sliding rod 604, the sliding rod 604 can horizontally slide along the opening direction of the adjusting rod 603, so that the supporting rod formed by the inclined adjusting rod 603 and the sliding rod 604 can increase the supporting degree to support the ground, thereby ensuring the installation stability of the whole chassis 1, avoiding vibration and toppling, and in the sliding process of the sliding rod 604, the elastic buckle 605 on the surface can be buckled with the open hole formed on the surface of the adjusting rod 603, so as to position the connection between the sliding rod 604 and the adjusting rod 603, avoiding the situation that the sliding rod 604 retracts and cannot support due to pressure in the supporting process, and the top end of the adjusting rod 603 is movably connected with a connecting pad foot 606 which can also conform to the adjusting rod 603 to perform certain angle turnover adjustment, so that the adjusting rod 603 can timely adjust the turnover angle of the adjusting rod 603 or the ground with different inclined planes, and can be always horizontally attached to the ground, improve whole support piece's supporting effect, and when need not use or transportation, will adjust pole 603 and laminate in the chassis 1 outside downwards, and then detain 607 looks buckle spacing with the restraint of chassis 1 bottom, avoid adjusting pole 603 not hard up, contact with chassis 1 and take place wearing and tearing, just so accomplished the whole use that has the construction frame of preventing empting the structure.

Claims (7)

1. A construction frame having an anti-toppling structure, comprising:

a chassis (1);

it is characterized by also comprising:

the bottom frame (1) is provided with a bottom end, the bottom end is provided with a bottom foot (2), and the surface of the bottom end (2) is provided with a screw hole groove (3);

a connecting assembly (4) arranged at the top end of the chassis (1);

an upper connecting rod (5) connected to an upper end of the connecting assembly (4);

a support assembly (6) disposed outside the chassis (1);

a cross bar (7) connected to the outside of the connection assembly (4);

the support assembly (6) comprises:

a mounting member (601) welded to an upper end outer side of the underframe (1);

a movable shaft (602) penetrating through the middle of the mounting member (601);

an adjustment lever (603) connected to a lower end of the mounting member (601);

the sliding rod (604) is connected to the lower end inside the adjusting rod (603), and an elastic buckle (605) is arranged on the surface of the sliding rod (604);

a connecting pad foot (606) arranged at the bottom end of the adjusting rod (603);

and a buckle (607) fixed to the outer side of the lower end of the bottom frame (1).

2. A construction frame with an anti-toppling structure as claimed in claim 1, wherein said adjusting rod (603) penetrates inside the mounting member (601), and the adjusting rod (603) forms a toppling structure with the mounting member (601) through the movable shaft (602).

3. The construction frame with anti-toppling structure, according to claim 1, wherein the sliding rod (604) is slidably connected with the adjusting rod (603), and the elastic buckle (605) is elastically connected with the sliding rod (604).

4. The construction frame with the anti-toppling structure as claimed in claim 1, wherein the connecting foot (606) is movably connected with the adjusting rod (603), and the adjusting rod (603) is connected with the buckle (607).

5. A construction frame with an anti-toppling structure according to claim 1, wherein the connection assembly (4) comprises:

a lower spacing collar (401);

the upper limiting hoop (402) is connected to the upper end of the lower limiting hoop (401), and the upper limiting hoop (402) is connected with the lower limiting hoop (401) through a fixing screw (404);

a connecting slot hole (403) which is opened at the outer side of the upper spacing hoop (402).

6. A construction frame with anti-toppling structure as claimed in claim 5, wherein the structural size of the lower limiting hoop (401) is consistent with that of the upper limiting hoop (402), and the lower limiting hoop (401) and the upper limiting hoop (402) form a fixed structure through a fixing screw (404).

7. A construction frame with anti-toppling structure according to claim 5, wherein the cross bar (7) penetrates inside the lower limiting hoop (401), and the cross bar (7) passes through the lower limiting hoop (401) and the upper limiting hoop (402) to form a snap structure.

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