CN214459665U - A bent cap template dismouting machine for single cylinder mound - Google Patents

Abstract

The utility model discloses a cap beam template dismounting machine for a single cylindrical pier, which comprises a first supporting leg, a second supporting leg, a third supporting leg and a fourth supporting leg which are fixedly connected on the single cylindrical pier, wherein the upper ends of the first supporting leg and the fourth supporting leg are connected with a first cross support beam, and the upper ends of the second supporting leg and the third supporting leg are connected with a second cross support beam; the left part of the first cross support beam and the left part of the second cross support beam are connected with a first motor support frame, and the front part and the rear part of the first motor support frame are respectively connected with a first lifting mechanism and a second lifting mechanism; and the right part of the first cross supporting beam and the right part of the second cross supporting beam are connected with a second motor support frame, and the front part and the rear part of the second motor support frame are respectively connected with a third lifting mechanism and a fourth lifting mechanism. The capping beam template dismounting and mounting machine is simple and novel in structure, and can complete the capping beam template dismounting and mounting work more safely and efficiently.

Description

A bent cap template dismouting machine for single cylinder mound

Technical Field

The utility model relates to an engineering construction field, concretely relates to bent cap template dismouting machine for single cylinder mound.

Background

With the economic development of China, the economic level of people is continuously improved, and more dirt roads are built into roads. There are also more and more remote areas where roads are built. In the process of constructing highways, particularly expressways, viaducts are increasingly constructed, and bridge piers are required to be used during the construction of the viaducts or the viaducts. For a single cylinder pier style bridge pier. In the process of constructing the single-cylinder pier stud, a cover beam needs to be processed and poured above the single-cylinder pier stud. Before the capping beam is processed and poured, a capping beam template needs to be erected, the existing erection mode is that a tower crane is used for hoisting the capping beam template to the upper end of a single cylindrical pier, and then the capping beam template is installed. The bent cap formwork is installed and then the bent cap formwork is poured, the formwork is lifted down by using the tower crane after pouring is finished, the tower crane needs to be used for a long time in the process of machining and pouring the bent cap, and when the tower crane lifts the formwork, safety and accuracy are poor, construction is slow, and risk is high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a bent cap template dismouting machine for single cylinder mound, this bent cap template dismouting machine simple structure is novel, can accomplish bent cap template dismouting work by safer efficient.

The utility model discloses a realize above-mentioned purpose, the technical solution who adopts is:

a cover beam template dismounting machine for a single cylindrical pier comprises a first supporting leg, a second supporting leg, a third supporting leg and a fourth supporting leg which are fixedly connected to the single cylindrical pier, wherein the upper end of the first supporting leg and the upper end of the fourth supporting leg are connected with a first cross support beam, and the upper ends of the second supporting leg and the third supporting leg are connected with a second cross support beam; the left part of the first cross support beam and the left part of the second cross support beam are connected with a first motor support frame, and the front part and the rear part of the first motor support frame are respectively connected with a first lifting mechanism and a second lifting mechanism; and the right part of the first cross supporting beam and the right part of the second cross supporting beam are connected with a second motor support frame, and the front part and the rear part of the second motor support frame are respectively connected with a third lifting mechanism and a fourth lifting mechanism.

Preferably, first landing leg, second landing leg, third landing leg and fourth landing leg are lower margin strut beam structure, and lower margin strut beam structure includes first perpendicular I-shaped steel post, and the first lower extreme of erecting the I-shaped steel post has linked firmly first lower margin connecting plate, and first lower margin connecting plate links firmly through first lower margin nut component and pre-buried finish rolling screw thread steel pole in single cylinder mound.

Preferably, the upper end of the first vertical I-shaped steel column is fixedly connected with a first top connecting plate, and the first top connecting plate is fixedly connected with the first cross support beam or the second cross support beam through a first connecting bolt assembly;

and each first ground foot connecting plate is connected with two finish-rolled deformed steel bars in an adaptive manner, and the two finish-rolled deformed steel bars are respectively arranged on the front side and the rear side of the first vertical I-shaped steel column.

Preferably, the first cross support beam and the second cross support beam are both in an I-shaped steel beam shape, the left part of the first cross support beam and the left part of the second cross support beam are both connected with a first steel beam connecting plate, and the first steel beam connecting plate is connected with the first motor support frame through bolts;

and the right part of the first cross support beam and the right part of the second cross support beam are both connected with a second steel beam connecting plate, and the second steel beam connecting plate is connected with a second motor support frame through bolts.

Preferably, the first motor strut comprises a first front motor strut beam, a first rear motor strut beam, a first left motor strut beam and a first right motor strut beam, and the first front motor strut beam, the first rear motor strut beam, the first left motor strut beam and the first right motor strut beam are connected through bolts and then are in a rectangular frame shape;

the first front motor supporting beam, the first rear motor supporting beam, the first left motor supporting beam and the first right motor supporting beam are I-shaped steel beams, at least two first hanging plates are arranged on the first left motor supporting beam and the first right motor supporting beam respectively, and first hanging holes are formed in the first hanging plates.

Preferably, the second motor strut comprises a second front motor strut beam, a second rear motor strut beam, a second left motor strut beam and a second right motor strut beam, and the second front motor strut beam, the second rear motor strut beam, the second left motor strut beam and the second right motor strut beam are connected through bolts and then are in a rectangular frame shape;

the second front motor supporting beam, the second rear motor supporting beam, the second left motor supporting beam and the second right motor supporting beam are I-shaped steel beams, at least two second hoisting plates are arranged on the first left motor supporting beam and the first right motor supporting beam respectively, and second hoisting holes are formed in the second hoisting plates.

Preferably, the first lifting mechanism, the second lifting mechanism, the third lifting mechanism and the fourth lifting mechanism are all hoisting electric hoist assemblies, and each hoisting electric hoist assembly comprises an electric hoist jack and a jack base connected to the lower end of the electric hoist jack;

the first lifting mechanism, the second lifting mechanism, the third lifting mechanism and the fourth lifting mechanism are connected with a first master controller through a first circuit.

Preferably, the first line is connected in parallel with a second line, the second line comprises four second sub-lines, and the four second sub-lines are respectively connected with the first lifting mechanism, the second lifting mechanism, the third lifting mechanism and the fourth lifting mechanism; and each second sub-circuit is connected with a second sub-controller.

The utility model has the advantages that:

the utility model provides a bent cap template dismouting machine for single cylinder mound, holistic structural connection is simple, and the electric block subassembly of first motor strut, second motor strut and top can have enough to meet the need the use. The bent cap template dismounting machine can more conveniently complete the dismounting work of the bent cap template in the working process, the working efficiency is higher, and the hoisting work is safer and more reliable.

Drawings

In order to clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic front view of the overall structure of a capping beam template changer for a single cylindrical pier.

Fig. 2 is a left side view of the overall structure of the capping beam template changer for a single cylindrical pier.

Figure 3 is a schematic top view of the overall construction of the capping beam template changer for a single cylindrical pier.

Fig. 4 is a schematic view of the capping template removal machine in the process of removing the capping template.

Detailed Description

The utility model provides a bent cap template dismouting machine for single cylinder mound, for making the utility model discloses a purpose, technical scheme and effect are clearer, more clear and definite, it is following right the utility model discloses further detailed description. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

The present invention will be described in detail with reference to the accompanying drawings:

with reference to fig. 1 to 4, a capping beam template dismounting and mounting machine for a single cylindrical pier comprises a first supporting leg 11, a second supporting leg 12, a third supporting leg 13 and a fourth supporting leg 14 which are fixedly connected to the single cylindrical pier 1, wherein the upper ends of the first supporting leg 11 and the fourth supporting leg 14 are connected with a first cross support beam 2, and the upper ends of the second supporting leg 12 and the third supporting leg 13 are connected with a second cross support beam 3.

The left part of the first cross-brace beam 2 and the left part of the second cross-brace beam 3 are connected with a first motor strut 4, and the front part and the rear part of the first motor strut 4 are respectively connected with a first lifting mechanism 401 and a second lifting mechanism 402.

The right part of the first cross-brace beam 2 and the right part of the second cross-brace beam 3 are connected with a second motor strut 5, and the front part and the rear part of the second motor strut 5 are respectively connected with a third lifting mechanism 501 and a fourth lifting mechanism 502.

The first landing leg 11, the second landing leg 12, the third landing leg 13 and the fourth landing leg 14 are foundation support beam structures, each foundation support beam structure comprises a first vertical I-shaped steel column 15, the lower end of the first vertical I-shaped steel column 15 is fixedly connected with a first foundation connecting plate 16, and the first foundation connecting plates 16 are fixedly connected with finish rolling deformed steel bars 18 pre-buried in the single cylindrical pier 1 through first foundation nut components 17.

The upper end of the first vertical I-shaped steel column 15 is fixedly connected with a first top connecting plate 19, and the first top connecting plate 19 is fixedly connected with the first cross support beam 2 or the second cross support beam 3 through a first connecting bolt component.

Each first foot connecting plate 16 is connected with two finish-rolled deformed steel bar 18 in an adaptive manner, and the two finish-rolled deformed steel bars 18 are respectively arranged on the front side and the rear side of the first vertical I-shaped steel column 15.

First spreader beam 2 and second spreader beam 3 all are I-shaped girder steel form, all are connected with first girder steel connecting plate 21 on the 2 left parts of first spreader beam and the 3 left parts of second spreader beam, and first girder steel connecting plate 21 passes through the bolt and is connected with first motor strut 4.

All be connected with second girder steel connecting plate 31 on the right part of first cross brace roof beam 2 and the right part of second cross brace roof beam 3, second girder steel connecting plate 31 passes through the bolt and is connected with second motor strut 5.

The first motor strut 4 comprises a first front motor supporting beam 41, a first rear motor supporting beam 42, a first left motor supporting beam 43 and a first right motor supporting beam 44, and the first front motor supporting beam 41, the first rear motor supporting beam 42, the first left motor supporting beam 43 and the first right motor supporting beam 44 are in a rectangular frame shape after being connected through bolts.

The first front motor supporting beam 41, the first rear motor supporting beam 42, the first left motor supporting beam 43 and the first right motor supporting beam 44 are all i-shaped steel beams, at least two first hoisting plates 45 are arranged on the first left motor supporting beam 43 and the first right motor supporting beam 44, and first hoisting holes 46 are formed in the first hoisting plates 45.

The second motor strut 5 comprises a second front motor supporting beam 51, a second rear motor supporting beam 52, a second left motor supporting beam 53 and a second right motor supporting beam 54, and the second front motor supporting beam 51, the second rear motor supporting beam 52, the second left motor supporting beam 53 and the second right motor supporting beam 54 are connected through bolts and then are in a rectangular frame shape.

The second front motor supporting beam 51, the second rear motor supporting beam 52, the second left motor supporting beam 53 and the second right motor supporting beam 54 are all i-shaped steel beams, at least two second hoisting plates are arranged on the first left motor supporting beam 43 and the first right motor supporting beam 44, and second hoisting holes are formed in the second hoisting plates.

The first lifting mechanism 401, the second lifting mechanism 402, the third lifting mechanism 501 and the fourth lifting mechanism 502 are hoisting electric hoist assemblies, and each hoisting electric hoist assembly comprises an electric hoist jack 45 and a jack base connected to the lower end of the electric hoist jack 45.

The first lifting mechanism 401, the second lifting mechanism 402, the third lifting mechanism 501, and the fourth lifting mechanism 502 are connected to a first master controller 61 through a first line 6.

The first line 6 is connected with a second line 7 in parallel, the second line 7 comprises four second sub-lines, and the four second sub-lines are respectively connected with a first lifting mechanism, a second lifting mechanism, a third lifting mechanism and a fourth lifting mechanism; each second sub-line is connected with a second sub-controller, and four sub-controllers 71 are arranged in a second main control box 72.

When the capping beam template dismounting and mounting machine for the single cylindrical pier is used, the capping beam template dismounting and mounting machine is hoisted by a tower crane or a crane, and the first hoisting and connecting plate and the second hoisting and connecting plate are hoisting and connecting points of the lifting hooks. After the capping beam template dismounting machine is hoisted to the designated position, the capping beam template dismounting machine is connected to the upper end of the single cylindrical pier through eight finish-rolled threaded steel rods 18, and the capping beam template dismounting machine completes preliminary positioning installation. The bent cap template dismouting machine during operation all is connected with electric block couple 9 on four electric block, and electric block couple 9 can hoist the bent cap template simultaneously and rise, and the in-process that rises is through first total controller control motion, and when four electric block's lifting rope length is not short, the length of lifting rope is controlled respectively to accessible second total control box 72.

After the bent cap template 8 is lifted, a worker installs and positions the template, then concrete mortar is poured in the bent cap template, and in the pouring process, the main structures below the first motor support frame and the second motor support frame are embedded in the concrete mortar, so that the structural strength of the bent cap and the connecting structural strength of the single cylindrical pier and the pier stud are enhanced. After the concrete mortar is solidified, the cover beam 81 completes the pouring. After the bent cap templates are disassembled and assembled, the electric hoist lifts the disassembled bent cap templates and puts the disassembled bent cap templates on the ground, and the corresponding template frame is disassembled and assembled. And after the work is finished, the first motor support frame and the second motor support frame are disassembled, and the first motor support frame and the second motor support frame are lifted and put down through an external tower crane or a crane.

The utility model provides a bent cap template dismouting machine for single cylinder mound, holistic structural connection is simple, and the electric block subassembly of first motor strut, second motor strut and top can have enough to meet the need the use. The bent cap template dismounting machine can more conveniently complete the dismounting work of the bent cap template in the working process, the working efficiency is higher, and the hoisting work is safer and more reliable.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

The parts not mentioned in the utility model can be realized by adopting or using the prior art for reference.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and the changes, modifications, additions or substitutions made by those skilled in the art within the scope of the present invention should also belong to the protection scope of the present invention.

Claims (8)

1. A cover beam template dismounting machine for a single cylindrical pier is characterized by comprising a first supporting leg, a second supporting leg, a third supporting leg and a fourth supporting leg which are fixedly connected to the single cylindrical pier, wherein the upper end of the first supporting leg and the upper end of the fourth supporting leg are connected with a first cross support beam, and the upper ends of the second supporting leg and the third supporting leg are connected with a second cross support beam; the left part of the first cross support beam and the left part of the second cross support beam are connected with a first motor support frame, and the front part and the rear part of the first motor support frame are respectively connected with a first lifting mechanism and a second lifting mechanism; and the right part of the first cross supporting beam and the right part of the second cross supporting beam are connected with a second motor support frame, and the front part and the rear part of the second motor support frame are respectively connected with a third lifting mechanism and a fourth lifting mechanism.

2. The capping beam template dismounting and mounting machine for the single cylindrical pier is characterized in that the first supporting leg, the second supporting leg, the third supporting leg and the fourth supporting leg are supporting beam structures, each supporting beam structure comprises a first vertical I-shaped steel column, a first foundation connecting plate is fixedly connected to the lower end of the first vertical I-shaped steel column, and the first foundation connecting plate is fixedly connected with a finish-rolled threaded steel rod embedded in the single cylindrical pier through a first foundation nut component.

3. The capping beam template dismounting and mounting machine for the single cylindrical pier is characterized in that a first top connecting plate is fixedly connected to the upper end of the first vertical I-shaped steel column, and the first top connecting plate is fixedly connected with the first cross support beam or the second cross support beam through a first connecting bolt assembly;

and each first ground foot connecting plate is connected with two finish-rolled deformed steel bars in an adaptive manner, and the two finish-rolled deformed steel bars are respectively arranged on the front side and the rear side of the first vertical I-shaped steel column.

4. The capping beam template disassembly and assembly machine for the single cylindrical pier is characterized in that the first cross support beam and the second cross support beam are in an I-shaped steel beam shape, a first steel beam connecting plate is connected to the left portion of the first cross support beam and the left portion of the second cross support beam, and the first steel beam connecting plate is connected with the first motor support frame through bolts;

and the right part of the first cross support beam and the right part of the second cross support beam are both connected with a second steel beam connecting plate, and the second steel beam connecting plate is connected with a second motor support frame through bolts.

5. The capping beam template disassembly and assembly machine for the single cylindrical pier of claim 1, wherein the first motor strut comprises a first front motor strut beam, a first rear motor strut beam, a first left motor strut beam and a first right motor strut beam, and the first front motor strut beam, the first rear motor strut beam, the first left motor strut beam and the first right motor strut beam are connected through bolts and then form a rectangular frame;

the first front motor supporting beam, the first rear motor supporting beam, the first left motor supporting beam and the first right motor supporting beam are I-shaped steel beams, at least two first hanging plates are arranged on the first left motor supporting beam and the first right motor supporting beam respectively, and first hanging holes are formed in the first hanging plates.

6. The capping beam template dismounting machine for the single cylindrical pier is characterized in that the second motor strut comprises a second front motor strut beam, a second rear motor strut beam, a second left motor strut beam and a second right motor strut beam, and the second front motor strut beam, the second rear motor strut beam, the second left motor strut beam and the second right motor strut beam are connected through bolts and then are in a rectangular frame shape;

the second front motor supporting beam, the second rear motor supporting beam, the second left motor supporting beam and the second right motor supporting beam are I-shaped steel beams, at least two second hoisting plates are arranged on the first left motor supporting beam and the first right motor supporting beam respectively, and second hoisting holes are formed in the second hoisting plates.

7. The capping beam template dismounting and mounting machine for the single cylindrical pier is characterized in that the first lifting mechanism, the second lifting mechanism, the third lifting mechanism and the fourth lifting mechanism are hoisting electric hoist assemblies, and each hoisting electric hoist assembly comprises an electric hoist jack and a jack base connected to the lower end of the electric hoist jack;

the first lifting mechanism, the second lifting mechanism, the third lifting mechanism and the fourth lifting mechanism are connected with a first master controller through a first circuit.

8. The capping beam template dismounting and mounting machine for the single cylindrical pier is characterized in that the first line is connected with a second line in parallel, the second line comprises four second sub-lines, and the four second sub-lines are respectively connected with the first lifting mechanism, the second lifting mechanism, the third lifting mechanism and the fourth lifting mechanism; and each second sub-circuit is connected with a second sub-controller.

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