CN217353591U - Aluminum alloy template dismantles auxiliary device - Google Patents

Abstract

The utility model discloses an aluminum alloy template dismounting auxiliary device, which comprises four bases and four bearing nets, wherein the four bases are respectively wrapped outside a supporting beam and fixed with the ground through bolts; the outer walls of the first arc-shaped plate and the second arc-shaped plate are respectively provided with a right first positioning sleeve, a first support is arranged in the first positioning sleeve on one side of each base, a top rod is connected to the first support in a sliding mode, a second support is inserted into the first positioning sleeve on the other side of each base, a cross beam is arranged at the top of the second support, second supports are arranged at two ends of the cross beam, and a bearing net is arranged between the second supports. The utility model discloses avoid the staff when dismantling aluminum alloy template, the condition that aluminum alloy template large tracts of land weighs down, simultaneously, the template that dismantles can directly fall in the bearing network, reduces the drop, avoids appearing the condition that the people was pounded to the template, simultaneously, avoids the job site the condition that dust flies upward appearing, convenient to use, easy operation.

Description

Auxiliary device is dismantled to aluminum alloy template

The technical field is as follows:

the utility model relates to a safety support, in particular to auxiliary device are dismantled to aluminum alloy template are demolishd to template belongs to construction technical field.

Background art:

when demolising the aluminum mould board at building top, the staff need utilize the rod to tear down the aluminum mould board at top together, at this in-process, the staff all stands in the side below of template, because the rod is at the in-process of dismantling the template, can lead to whole region's template or cement board to link together and fall down simultaneously, the staff of giving construction has brought very big potential safety hazard, and, when the aluminum alloy mould board directly falls to the ground, can swing the dust on ground, seriously influence staff's sight, certain degree of difficulty has been increased for the construction.

The utility model has the following contents:

the utility model discloses the technical problem that will solve is: overcome prior art's not enough, provide an aluminum alloy template and dismantle auxiliary device, when avoiding staff's construction, cement board or aluminum alloy template of large tracts of land fall, improve the security of construction, avoid the condition that dust flies upward to appear in the job site.

The utility model discloses a technical scheme who solves technical problem and take is:

the aluminum alloy template dismounting auxiliary device comprises four bases and a bearing net, wherein each base is composed of a first arc-shaped plate and a second arc-shaped plate, a stud is arranged at the top of the right end of the first arc-shaped plate, and the left end of the second arc-shaped plate is sleeved on the stud and fixed through a nut; the outer walls of the first arc-shaped plate and the second arc-shaped plate are respectively provided with at least two first positioning sleeves, first supporting columns are respectively inserted into the first positioning sleeves outside each base, the first supporting columns are connected with the ejector rods in a sliding mode through the first displacement sleeves, second supporting columns are respectively inserted into the first positioning sleeves inside each base, a cross beam is arranged at the top of the left adjacent second supporting column and the top of the right adjacent second supporting column, third supporting columns are inserted into the two ends of the cross beam, second displacement sleeves are connected onto the third supporting columns in a sliding mode, and bearing nets are connected between the inner walls of the second displacement sleeves through positioning rings.

The second arc-shaped plate is positioned at the top of the first arc-shaped plate, and the first arc-shaped plate and the second arc-shaped plate form a circular cross section.

The first positioning sleeve outside the first arc-shaped plate and the first positioning sleeve outside the second arc-shaped plate are symmetrically distributed on the left and right, and the first support and the second support are fixed with the corresponding first positioning sleeves through bolts respectively.

The ejector rods are distributed in a Z shape, and the adjacent ejector rods on the left and right are distributed symmetrically; the first displacement sleeve and the first support column are fixedly connected together through a bolt.

Through holes are respectively dug at two ends of the cross beam, a second positioning sleeve is arranged above the through holes, and the third support penetrates through the through holes in the second positioning sleeve and the lower portion of the third support in sequence and is fixed with the second positioning sleeve through bolts.

The second displacement sleeve is positioned above the cross beam, and the second displacement sleeve and the third support are fixedly connected together through a bolt.

The outer side of the bottom of the first arc-shaped plate is provided with an outer ring extension plate, a through hole is formed in the outer ring extension plate in an excavating mode, and the outer ring extension plate is fixed with the ground through a bolt.

The four corners of the bearing net are respectively connected with positioning rings, and the inner wall of each second displacement sleeve is respectively provided with a positioning ring.

The utility model discloses an actively be intentional the effect is:

1. the utility model discloses a sliding connection has the ejector pin on first support, and the staff is through the height of adjustment ejector pin, and it is tight to dismantle the aluminum alloy template top outside the region with the top, like this, at the in-process of dismantling, can avoid dropping of large tracts of land aluminum mould board or cement board.

2. The utility model discloses a set up the bearing net between four bases, when the staff dismantled the aluminum alloy template, the template of dismantling can drop in the bearing net, reduces the drop, avoids appearing the condition that the people was pounded to the template, simultaneously, also avoids the aluminum mould board directly to fall to the ground, causes the condition that dust flies upward.

3. The utility model discloses a set up first position sleeve at the outer wall of first arc and second arc, the stability that the device used is guaranteed in the fixed of the ejector pin or second pillar of being convenient for.

Description of the drawings:

FIG. 1 is a diagram illustrating the usage of the present invention;

FIG. 2 is a schematic view of a partial structure of the base of the present invention;

wherein: 1-a first arc-shaped plate, 2-a second arc-shaped plate, 3-a stud, 4-a first positioning sleeve, 5-a first support, 6-a first displacement sleeve, 7-a top rod, 8-a second support, 9-a cross beam, 10-a second positioning sleeve and 11-a third support. 12-second displacement sleeve, 13-positioning ring, 14-bearing net.

The specific implementation mode is as follows:

the invention will be further explained and explained with reference to the drawings, in which:

example (b): referring to fig. 1-2, the aluminum alloy template dismounting auxiliary device comprises four bases and a bearing net 14, wherein the four bases are used for tightly wrapping the bottoms of template supporting frames and are fixed on the ground through bolts, each base is composed of a first arc-shaped plate 1 and a second arc-shaped plate 2, a stud 3 is arranged at the top of the right end of the first arc-shaped plate 1, and the left end of the second arc-shaped plate 2 is sleeved on the stud 3 and is fixed through a nut; the outer walls of the first arc-shaped plate 1 and the second arc-shaped plate 2 are respectively provided with at least two first positioning sleeves 4, the first positioning sleeves 4 on the outer sides of the bases are respectively inserted with first supporting columns 5, the first supporting columns 5 are connected with the ejector rods 7 in a sliding mode through first displacement sleeves 6, the first positioning sleeves 4 on the inner sides of the bases are respectively inserted with second supporting columns 8, the tops of the left and right adjacent second supporting columns 8 are provided with cross beams 9, the two ends of each cross beam 9 are inserted with third supporting columns 11, the third supporting columns 11 are connected with second displacement sleeves 12 in a sliding mode, and the inner walls of the second displacement sleeves 12 are connected with bearing nets 14 through positioning rings 13.

The second arc 2 is located on top of the first arc 1 and the second arc 2 form a circular cross-section.

The first positioning sleeve 4 outside the first arc-shaped plate 1 and the first positioning sleeve 4 outside the second arc-shaped plate 2 are symmetrically distributed on the left and right, and the first support column 5 and the second support column 8 are fixed with the corresponding first positioning sleeve 4 through bolts respectively.

The ejector rods 7 are distributed in a Z shape, and the adjacent ejector rods 7 on the left and the right are distributed symmetrically; the first displacement sleeve 6 and the first strut 5 are fixedly connected together through bolts.

Through holes are respectively dug at two ends of the cross beam 9, a second positioning sleeve 10 is arranged above the through holes, and a third support 11 sequentially penetrates through the second positioning sleeve 10 and the through holes below the second positioning sleeve 10 and is fixed with the second positioning sleeve 10 through bolts.

The second displacement sleeve 12 is located above the cross beam 9, and the second displacement sleeve 12 and the third support 11 are fixedly connected together by bolts.

The outer side of the bottom of the first arc-shaped plate 1 is provided with an outer ring extension plate, a through hole is dug in the outer ring extension plate, and the outer ring extension plate is fixed with the ground through a bolt.

The four corners of the bearing net 14 are respectively connected with a positioning ring 13, and the inner wall of each second displacement sleeve 12 is respectively provided with a positioning ring 13.

The base will wrap up in the bottom of template support frame to fix in ground through the bolt.

In the above description, the size of the load-bearing net is determined by the distance between the four bases, and the four corners of the load-bearing net are respectively and fixedly connected together by the positioning ring.

In the above description, the height of the second pillar satisfies: the second support column can be vertically inserted into the first positioning sleeve, and the ejector rod can move upwards along the second support column, so that the top of the ejector rod tightly pushes the aluminum alloy template at the top.

In the above description, the length of the cross bar at the top of the ejector rod satisfies: the top of two ejector pins adjacent to each other on the left and right sides can tightly push the aluminum alloy template outside the disassembly area.

In the above description, the height of the second pillar satisfies: the second support column can be vertically inserted into the cross beam, and the top of the second support column is not contacted with the aluminum alloy template at the top; the top of the second pillar is positioned at the middle position between the aluminum alloy template and the ground or the position on the upper part of the middle part, and the position of the bearing net meets the following requirements: the staff stands on the ground and can take out the aluminum mould board from the bearing net.

In the above description, the first positioning sleeves of the outer walls of the first arc-shaped plate and the second arc-shaped plate are distributed in a left-right symmetrical manner.

In the above description, the positions of the two first pillars in the left and right bases correspond to each other left and right; the positions of the two second pillars in the left base and the right base correspond to each other left and right.

In the above description, the base is used for clamping and fixing the template support frame on site, when the second arc-shaped plate is sleeved on the stud, the first arc-shaped plate and the second arc-shaped plate can tightly wrap the bottom of the template support frame on site, and then the outer annular extension plate is fixed with the ground through the bolt; the circular cross-section of the first arcuate plate and the second arcuate plate taken together is sized according to the outer diameter of the field support beam.

In actual use, when a worker inserts the first support or the second support, the worker can select the first positioning sleeve outside the first arc-shaped plate or the first positioning sleeve outside the second arc-shaped plate according to the situation, and the selection can be determined according to the situation; in the in-service use, when the aluminum alloy template of dismantling dropped on the bearing net, still a benefit reduced the condition that dust flies upward, because the aluminum alloy template directly weighs down the ground, can cause the condition that the dust drifted everywhere, and falls to in the bearing net, has reduced the drop, then the staff can take out the aluminum mould board of dismantling on the bearing net well orderly.

The utility model discloses avoid the staff when dismantling aluminum alloy template, the condition that aluminum alloy template large tracts of land weighs down, simultaneously, the template that dismantles can directly fall in the bearing network, reduces the drop, avoids appearing the condition that the people was pounded to the template, simultaneously, avoids the job site the condition that dust flies upward appearing, convenient to use, easy operation.

Claims (8)

1. The utility model provides an auxiliary device is dismantled to aluminum alloy template, includes base and bearing net (14), its characterized in that: the number of the bases is four, each base is composed of a first arc-shaped plate (1) and a second arc-shaped plate (2), a stud (3) is arranged at the top of the right end of the first arc-shaped plate (1), and the left end of the second arc-shaped plate (2) is sleeved on the stud (3) and fixed through a nut; be provided with two at least first position sleeve (4) on the outer wall of first arc (1) and second arc (2) respectively, insert respectively in the first position sleeve (4) in every base outside and be equipped with first pillar (5), first pillar (5) are in the same place through first displacement cover (6) and ejector pin (7) sliding connection, insert respectively in the first position sleeve (4) of every base inboard and be equipped with second pillar (8) to be provided with crossbeam (9) at the top of left and right adjacent second pillar (8), the both ends of crossbeam (9) are inserted and are equipped with third pillar (11) to sliding connection has second displacement cover (12) on third pillar (11), be connected with bearing net (14) through holding ring (13) between the inner wall of second displacement cover (12).

2. The aluminum alloy formwork disassembly assisting device as recited in claim 1, wherein: the second arc-shaped plate (2) is positioned at the top of the first arc-shaped plate (1), and the first arc-shaped plate (1) and the second arc-shaped plate (2) form a circular section.

3. The aluminum alloy formwork disassembly assisting device as recited in claim 1, wherein: first position sleeve (4) outside first arc (1) and first position sleeve (4) outside second arc (2) are left and right symmetrical form and distribute, first pillar (5), second pillar (8) are fixed through the bolt with first position sleeve (4) that correspond respectively.

4. The aluminum alloy formwork disassembly assisting device as recited in claim 1, wherein: the ejector rods (7) are distributed in a Z shape, and the left and right adjacent ejector rods (7) are symmetrically distributed; the first displacement sleeve (6) and the first support (5) are fixedly connected together through a bolt.

5. The aluminum alloy formwork disassembly assisting device as recited in claim 1, wherein: through holes are respectively dug at two ends of the cross beam (9), a second positioning sleeve (10) is arranged above the through holes, and the third support column (11) sequentially penetrates through the through holes in the second positioning sleeve (10) and the lower portion and is fixed with the second positioning sleeve (10) through bolts.

6. The aluminum alloy formwork disassembly assisting device as recited in claim 1, wherein: the second displacement sleeve (12) is positioned above the cross beam (9), and the second displacement sleeve (12) and the third support column (11) are fixedly connected together through bolts.

7. The aluminum alloy formwork disassembly assisting device as recited in claim 1, wherein: the outer side of the bottom of the first arc-shaped plate (1) is provided with an outer ring extension plate, a through hole is dug in the outer ring extension plate, and the outer ring extension plate is fixed with the ground through a bolt.

8. The aluminum alloy formwork disassembly assisting device as recited in claim 1, wherein: the four corners of the bearing net (14) are respectively connected with the positioning rings (13), and the inner wall of each second displacement sleeve (12) is respectively provided with the positioning rings (13).

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