KR101720243B1 - All weather covering structure for construction with gang form building and removing device - Google Patents

Abstract

In particular, the present invention relates to a covering device for a building, and more particularly, to a roof covering device for a building, in which a roof frame having a cover system and a gantry are integrally installed in an elevator that ascends and descends along an elevating frame installed on an outer wall of a building, By covering the top layer of the construction under construction, it is possible to block the snow, rain and sunlight to create the optimum concrete curing condition and to provide a pleasant working environment, while it is possible to open and close the cover if necessary. Capable gusset-type covering device.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a gang-

The present invention relates to a construction covering device, and more particularly, to a construction covering device for a building, in which the covering device itself is lifted up to the upper layer together with the gantry without lowering or transferring the covering device to the floor, and the uppermost layer of the construction under construction is covered, The work environment that can work all the weather without interruption and the air delay is created, and the manual attachment and removal process is automated to shorten the air, prevent safety accidents, cut off the snow, rain and sunlight Integrated covering device capable of supplying various building materials to the uppermost layer during construction while providing an optimal concrete curing condition and providing a pleasant working environment while being able to be opened and closed when necessary.

Generally, in the case of building construction, delay of air due to construction interruption due to the rainy season and rainy season in the winter season causes construction companies to endure a huge loss such as labor costs, on-site maintenance cost, and depreciation cost of materials.

Also, there is a problem that a lot of construction time and manpower are required for the attachment and removal process of the gangue which proceeds by hand, and the risk of safety accident arises due to the process proceeding from the outer wall of the building.

In addition, concrete is poured and cured in the uppermost layer of the building under construction. In the summer, curing speed becomes inadequate due to strong heat due to sunlight, and cracks are generated. In the case of rainfall, rainwater penetrates into the concrete in the uppermost layer during curing, Is excessively increased, the construction quality is deteriorated.

During the winter season, the water content of the curing concrete is excessively increased or frozen due to snowfall or cold weather, resulting in poor construction quality.

In addition, the workers who work on the top floor of the building under construction are exposed to the cold wind and cold in winter, and exposed to intense sunlight during the summer season, resulting in poor working efficiency.

As a representative solution for solving such a problem, Korean Patent Registration No. 10-0509622 entitled 'Heat-shielding roofing roof for building construction' and Registered Patent No. 10-0845461 'Cover truss for building construction' and Registered Patent Publication No. 10-1126781 ' As shown in FIGS. 1 and 2, includes a rigid structure formed by connecting a rigid body and a hooking means installed on the rigid structure to hook the hook of the crane. And the tent is covered thereon.

The structure of the rigid structure will be described in detail. The structure of the rigid structure includes a lower frame composed of rigid bodies connected to front, rear, left, and right sides, an upper frame connected to rigid bodies on the lower frame to be convex upward, And a connection wire for connecting at least two of the lower frame, the upper frame and the connecting members to each other.

In order to cover the uppermost layer of the building being constructed, the worker climbs up the upper part of the heat-shielding roof frame to hook the hook-hooking means to the hook of the crane and then raises the uppermost layer of the building under construction Then, the worker goes up to the upper part of the roof of the cover, and the hooking means is removed from the hook of the crane to complete the installation.

By covering the uppermost layer of the building with the roof frame as described above, it is possible to prevent the snow, rain, and sunlight to provide optimum concrete curing conditions, to provide an improved working environment, and to prevent exposure of the construction site.

However, when it is necessary to supply materials and equipment necessary for the construction as the top layer of the building, the inevitably installed heat-shielded roofing frame is lifted up to the ground, and the crane is lifted up to the ground and the materials and equipment There is an inconvenience that it is necessary to reinstall the heat-insulating roof truck by lifting the crane to the uppermost floor again.

Also, when the uppermost construction of the building is finished, the gang form, which is a large formwork, must be reinstalled every time the floor is raised. In such a case, there is inconvenience that the roof frame should be placed on the ground and then the gang-

A safety accident can occur during the lifting and lowering of the heavy lifting lid, and it is necessary to provide a space on the ground to lay the lid on the ground. It is difficult to provide a separate space for lifting the roof. .

In addition, due to these works, the efficiency of construction is greatly reduced, and construction cost and air are increased.

Literature 1. Korea Patent Office Registration No. 10-0509622, 'Insulation cover roof for building construction' Document 2: Korean Intellectual Property Office Registration No. 10-1126781, 'All-weather covering system for construction' Literature 3. Korea Patent Office Registration No. 10-0845461, 'Cover truss for building construction' Document 4: Korean Patent Application Publication No. 10-2012-0029818, "All-weather covering system for construction"

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a covering device on the uppermost layer of a building under construction, It is an object of the present invention to provide a covering device capable of continuously covering the uppermost layer of a building by configuring the covering device to rise by the next construction layer together with the gang form as the number of the buildings increases .

It is also an object of the present invention to provide a gang-foam integrated covering device capable of drastically shortening the air by constructing the worktable and the protection fence to rise together with the covering device when the covering device is lifted by itself, It is an object of the present invention.

In order to achieve the above object, the gang-foam integrated type covering apparatus according to the present invention includes a lifting frame 102 longitudinally fastened at predetermined intervals on an outer wall of an upper part of a building under construction, A cylinder 114 installed at one side of the elevator 110 to move the gantry 103 in the horizontal direction and a cylinder 114 which traverses the uppermost portion of the building under construction and is connected to the elevator 110 And a cover system installed on the roof frame 104 so as to be opened and closed so that the elevator 110 moves up and down along the elevating frame 102 The roof frame 104 formed integrally with the elevator 110 and the gantry 103 are configured to ascend and descend together with the elevator 110. [

The lifting frame 102 is constructed by continuously connecting the unit frames in the longitudinal direction so that the unit frame located at the lowermost part of the lifting frame 102 is separated each time the lifting unit 110 is lifted, So that the elevator 110 can be continuously elevated along the elevation frame 102. [0052] As shown in FIG.

The driving means includes a motor 112 installed in the elevator 110 to drive the pinion 113 and a rack 102a longitudinally installed on the lifting frame 102 and engaged with the pinion 113 So that the elevator 110 is configured to move up and down along the lifting frame 102 by driving the motor 112.

It is preferable that a rachet mechanism is provided between the lift frame 102 and the elevator 110 to prevent the elevator 110 from falling.

The supporting frame 101 is fastened to the upper outer wall of the building at predetermined intervals and the elevating frame 102 is fastened to the outside of each of the supporting frames 101 so that the gantry 103 It is preferable to provide a space for driving the light source device.

The work table 105 having the protection fence 106 integrated with the elevator 110 is provided so that the work table 105 which is a space in which the worker can work can be raised and lowered together with the elevator 110 desirable.

The cover system includes a rail provided at a lower portion of each roof frame 104, a cover frame 121 having both side ends thereof moved along the rail, and a cover 123 So that the cover frame 121 moves along the rails and the cover 123 is opened and closed.

At this time, the rollers 122 are fastened to both sides of the cover frame 121 and the bearings are provided between the rollers 122 and the cover frame 121, so that when the rollers 122 move along the rails, 121 are not rotated so that the cover 123 does not curl on the cover frame 121. [

The rail includes a first rail 126 and a second rail 127 coupled to a rail support 124 at a lower portion of a roof frame 104. The second rail 127 is connected to a first rail 126 so that the end portions of the covers 123 on both sides of the roof frame 104 are overlapped with each other so as not to snow or rain.

The side curtain 107 is installed in the gap formed between the gantry 103 and the lift frame 102 so that the wind does not enter the gaps between the gantry 103 and the lift frame 102 .

The gantry-integrated covering device of the present invention configured as described above does not need to lower the covering device even when it is required to supply materials or various facilities required for the construction as the uppermost layer of the building under construction. As the number of buildings increases The cover layer can be continuously covered with the next construction layer together with the gang foam to cover the uppermost layer of the building.

In addition, when the covering device is raised by itself, the worktable and the protection fence, which work outside the building, are lifted together with the covering device during the construction, so that the air can be remarkably shortened and the construction cost can be reduced.

1 and 2 are views showing a conventional heat-insulating lid for building construction;
FIG. 3 is a state of use showing the use state of the ganged foam covering device according to the present invention. FIG.
4 is a perspective view showing the main structure of the present invention.
5 is a perspective view showing an elevator structure of the present invention.
6 is a sectional view showing an elevator structure of the present invention.
7 is a view showing a state in which the elevator of the present invention is elevated and lowered and a state in which the elevator is detached and attached.
FIG. 8 is a perspective view showing a structure of a combination of an elevator and a roof frame and a lift frame according to the present invention. FIG.
9 is a perspective view showing a cover portion having an open / close structure according to the present invention.
10 is a sectional view showing a cover portion having an open / close structure according to the present invention.

DETAILED DESCRIPTION OF THE INVENTION Hereinafter, the present invention will be described in detail with reference to preferred embodiments of the present invention and the accompanying drawings, wherein like reference numerals refer to like elements.

It is to be understood that when an element is referred to as being "comprising" another element in the description of the invention or in the claims, it is not to be construed as being limited to only that element, And the like.

As shown in FIGS. 3, 4 and 6, the gang-foam integrated covering apparatus according to the present invention is characterized in that a supporting frame 101 is provided at an outer wall of an upper part of a building under construction at a predetermined interval, An elevator 110 is installed to elevate the elevator frame 102 along the elevator frame 102.

8, a roof frame 104 crossing the uppermost layer of the building under construction is fastened to the upper portion of the elevator 110, and a protection fence (not shown) is attached to the lower portion of the elevator 110 as shown in FIGS. 106 are fastened.

As shown in FIGS. 5 and 6, a supporting frame 101 attached to an upper outer wall of a building, and a lifting frame 102 fastened to the supporting frame 101, Racks 102a are formed on both sides of the lifting frame 102 in the longitudinal direction.

The elevator frame 102 constructed as described above is inserted into the elevator 110 to elevate the elevator 110 along the elevator frame 102.

As shown in FIG. 5, the elevator 110 is provided with cylinders 114 on one side and the other on one side of the elevator body 111, and a cylinder 114 is provided on the elevator body 111 (corresponding to the elevator frame 102a) 111 is provided with a motor 112 having a pinion 113.

The cylinder 114 of the elevator 110 is configured such that a piston rod (not shown) is protruded or inserted from the cylinder 114 by hydraulic pressure or pneumatic pressure. As shown in FIG. 6, (103) is fastened and fixed.

The pinion 113 of the motor 112 installed on the elevator body 111 is engaged with the rack 102a of the lift frame 102. When power is supplied to the motor 112, The elevator 110 is vertically raised and lowered along the elevation frame 102 as well.

8, a roof frame 104 crossing the uppermost layer of the building under construction is fastened to the upper portion of the elevator 110, and a work table 105 is fastened to the lower portion of the elevator 110, The roof frame 104 and the worktable 105 are simultaneously raised and lowered along the elevator 110 when the elevator frame 110 is lifted and lowered along the elevator frame 102. [

As described above, the roof frame 104 is fastened to the upper portion of the elevator 110, and the elevator frame 102 is inserted into the elevator 110, so that the elevator is elevated and lowered along the elevator frame 102 The elevator frame insertion opening 104a is formed so that the elevator frame 102 is inserted into the upper portion of the elevator 110 of the roof frame 104 so as to pass therethrough, So that the roof frame 104 and the lift frame 102 are prevented from interfering with each other when raising and lowering.

The driving of the elevator constructed as described above will be described in detail.

When the uppermost construction of the building under construction is completed, the gantry 103 fastened to the fixture 115 of the piston rod is separated from the cured concrete wall surface while the piston rod of the cylinder 114 is inserted by the operation of the operator.

When power is supplied to the motor 112 of the elevator 110 by the operation of the operator, the pinion 113 fastened to the shaft of the motor 112 and meshed with the elevator frame pinion 113 is rotated and the elevator 110 And moves up along the lifting frame 102.

The roof frame 104 fastened to the upper portion of the elevator 110 and the gantry 103 fastened to the cylinder 114 of the elevator 110 and the worktable 105 fastened to the lower portion of the elevator 110, And simultaneously moves upward together with the elevator 110.

Since the roof frame 104, the gantry 103 and the worktable 105 fastened to the elevator 110 are heavy loads, a speed reducer is installed between the axis of the motor 112 of the elevator 110 and the pinion 113 So that the motor 112 can stably lift the heavy object.

Although it is not shown in the drawings, it is preferable to provide a rachet mechanism, which is a known technique, between the elevator 110 and the elevator frame 102 to prevent the elevator 110 from falling down.

As described above, the elevator 110 lifts the roof frame 104, the workbench 105, and the gantry 103, which are high-load structures. In the course of a work process or an elevating operation, A rachet mechanism may be installed between the elevator 110 and the elevator frame 102 to cause a safety accident in which the elevator 110 falls.

Since the ratchet mechanism is a well-known technique, a detailed description thereof will be omitted.

After the elevator 110 moves upward from the uppermost layer as described above, the cylinder 114 is operated to project the piston rod, and the gable foam fastened to the fastener 115 at the end of the piston rod is moved to the position where the outer wall is to be installed Respectively.

As the cylinder 114 is operated, the gantry foam 103 is moved in the horizontal direction and moved to the position where the outer wall of the building is to be formed. After the outer wall is installed, A supporting frame 101 is installed on the outer wall of the building at predetermined intervals as shown in FIG. 6 in order to secure a driving distance for detachable attachment of the gantry 103, and the supporting frame 101 So that the moving distance of the gantry 103 is secured.

Since the roof frame 104, the gantry 103 and the work table 105 are both moved upward when the elevator 110 is moved upward as described above, the construction preparation work is very simple and the preparation preparation time is shortened So that the air can be remarkably shortened.

After the elevator 110 is moved upward along the lifting frame 102 as described above, the unit supporting frame 101 located at the lowermost part of the supporting frame 101 attached to the outer wall of the building is separated and the uppermost part of the supporting frame 101 And the unit lift frame 102 located at the lowermost portion of the lift frame 102 is separated and fastened to the uppermost portion of the lift frame 102 so that the support frame 101 and the lift frame 102 can be continuously installed upward .

The roof frame 104 is provided with a cover system that can open and close to block sunlight, rain, and snow.

As shown in FIGS. 9 and 10, the cover system is provided with a predetermined number of cover frames 121 connecting between a roof frame 104 and a neighboring roof frame 104, And both end portions of the frame 123 are fastened to the respective cover frames 121.

A roller 122 is fastened to both ends of the cover frame 121 and the roller 122 is configured to open and close the cover 123 while moving along a rail provided below the roof frame 104.

9 and 10, a first rail 126 and a second rail 127 are provided under the roof frame 104, and the first rail 126 and the second rail 127 2 rails 127 to be fixed to the roof frame 104 through the rail support 124. Fig.

The roller 122 provided on the end of the cover frame 121 located on one side of the roof frame 104 is mounted on the first rail 126 and the roller 122 mounted on the end of the cover frame 121 located on the other side of the roof frame 104 The roller 122 mounted on the end portion is seated on the second rail 127 so that the cover frame 121 moves along the first rail 126 or the second rail 127 to open and close the cover 123. [

At this time, it is preferable to provide a bearing (not shown) between the cover frame 121 and the roller 122 to move the roller 122 along the rail without rotating the cover frame when it rolls along the rail .

In addition, the second rails 127 are configured to be positioned laterally from the lower portion of the first rail 126, so that a part of the cover 123 formed on both sides of the roof frame 104, as shown in Fig. 10, Thereby preventing a gap from being generated between the cover 123 and the cover 123 to prevent rainwater from leaking into the gap between the covers 123 even if it rains.

The cover system configured as described above can open / close the cover 123, so that when a material or various facilities required for construction are to be supplied to the uppermost layer of the building, the cover 123 at the point where the material or equipment is to be supplied is partially opened, The cover 123 can be easily closed again after the material and the equipment prepared on the ground are lifted up and the material and equipment are supplied to the uppermost layer through the open cover 123.

1, the cover system is formed so as to be inclined for smooth drainage of rainwater when the rain is lowered. A gap is formed between the gantry 103 and the cover system, rainwater can be caught in the gap, and cold wind The work environment can get worse.

To prevent this, a side curtain 107 may be installed in the gap between the cover and the gaps 103 in the inclined cover system, as shown in Fig. 1, to prevent the gap between the cover system and the gaps 103. [

In other words, the gang-foam integrated covering apparatus of the present invention does not require the covering device to be lowered on the ground even when the material or various facilities required for the construction are supplied as the uppermost layer of the building under construction. As the number of the buildings increases, And the covering device can be self-raised to the next construction layer, thereby continuously covering the uppermost layer of the building.

In addition, when the covering device is raised by itself, the worktable and the protection fence, which work outside the building, are lifted together with the covering device during the construction, so that the air can be remarkably shortened and the construction cost can be reduced.

The technical idea of the present invention has been described above with reference to the embodiments.

It will be apparent to those skilled in the art that various changes and modifications may be made to the embodiments described above from the description of the present invention.

Further, although not explicitly shown or described, those skilled in the art can make various modifications including the technical idea of the present invention from the description of the present invention Which is still within the scope of the present invention.

The above-described embodiments described with reference to the accompanying drawings are for the purpose of illustrating the present invention, and the scope of the present invention is not limited to these embodiments.

101: Support frame 102: Lift frame
102a: rack 103: gang form
104: roof frame 104a: lift frame insertion opening
105: Work table 106: Protective fence
110: elevator 111: elevator body
112: motor 113: pinion
114: cylinder 115: fastener
121: cover frame 122: roller
123: cover 124: rail support
126: first rail 127: second rail

Claims (11)

A lifting frame (102) fastened longitudinally at predetermined intervals on an upper outer wall of a building under construction;
An elevator (110) having a driving means and moving up and down along the elevating frame (102);
A cylinder 114 installed at one side of the elevator 110 to move the gauze 103 in a lateral direction;
A roof frame 104 which traverses the uppermost portion of the building under construction and is coupled to the upper portion of the elevator 110 and ascends and descends with the elevator 110; And
And a cover system installed on the roof frame (104) and openable and closable,

The cover system comprises:
A rail provided at the bottom of each roof frame 104;
A cover frame (121) having both side ends thereof moved along the rails; And
And a cover 123 on both sides of which is fastened to the cover frame 121. Thus, the cover frame 121 moves along the rails to open / close the cover 123,

A roller 122 is fastened to both sides of the cover frame 121 and a bearing is provided between the roller 122 and the cover frame 121 so that the roller 122 moves along the rail,

The rail
A first rail 126 and a second rail 127 coupled to a rail support 124 at a lower portion of the roof frame 104,
The second rails 127 are spaced apart from the first rails 126 by a predetermined distance so that the ends of the covers 123 on both sides of the roof frame 104 overlap,

Wherein the cover (123) is made of a flexible material and the folds are partially formed by self weight according to opening and closing.
The method according to claim 1,
Wherein the lifting frame (102) is configured such that unit frames are continuously connected in the longitudinal direction.
The method according to claim 1,
The driving means includes:
A motor 112 installed in the elevator 110 to drive the pinion 113,
The elevator 110 is vertically installed on the elevating frame 102 and is configured to move up and down along the elevating frame 102 by driving the motor 112 by forming a rack 102a to be engaged with the pinion 113 Gang - foam integrated covering device.
The method according to claim 1,
Wherein a rachet mechanism is provided between the lift frame (102) and the elevator (110) to prevent the elevator (110) from falling.
The method according to claim 1,
A support frame (101) is fastened to the upper outer wall of the building at predetermined intervals,
Wherein the lifting frame (102) is fastened to the respective support frames (101) in the longitudinal direction.
The method according to claim 1,
Wherein the work table (105) is coupled to the elevator (110) so that the work table (105) is elevated and lowered together with the elevator (110).
The method according to claim 6,
(105) is provided with a protection fence (106).
delete delete delete The method according to claim 1,
Wherein a side curtain (107) is provided in a gap generated between the gantry (103) and the lift frame (102).

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