KR200450970Y1 - Slab formwork for building - Google Patents

Abstract

The present invention relates to a device for transporting and automatically lubricating slab formwork of a building to an upper floor, and in particular, the present invention relates to a stationary motor installed to drive a power transmission chain coupled to a power transmission gear and an oil storage container for storing oil. A base frame to which the first support member, the second support member, and the third support member are coupled, the support frame coupled to one end of the base frame to firmly support the base frame, and having a locking plate mounted at the center thereof; It is coupled to, the first transfer gear is mounted on the first transfer chain, the mounting member and the formwork support on which the formwork is mounted a plurality of rollers, and the movable by the first transfer chain, the mold is transported to the upper layer The guide frame is provided with a conveying member to be rotated by receiving the power of the power transmission gear mounted on the base frame And a pair of first transfer gears and a pair of second transfer gears, and an extension shaft coupled to an upper end of the guide frame and mounted on a position corresponding to the engaging plate, and mounted on the extension shaft. A second transfer gear driven by a second transfer chain connected to a second transfer gear is mounted, an oil roller and an oil supply barrel for oiling the formwork are mounted, and the first support member fixedly coupled to the base frame. And a pair of fourth support members and fifth support members respectively coupled to the second support member fixedly coupled to the base frame and the first connecting rod vertically coupled to the third support member, and the fifth support member. It is composed of a second connector that is connected to the limit switch (Limit Switch) in the center.
Therefore, according to the constitution of the present invention, the slab formwork of the building can be easily transported from the lower floor to the upper floor, and the formwork can be automatically oiled while transporting the formwork to the upper floor, thereby minimizing manpower consumption, thereby reducing the cost of reducing labor costs. And the work efficiency can be drastically improved, and the small formwork conveying device allows the operator to move directly to the upper floor, and the stable transport is possible by transporting the formwork by the device, thereby reducing the safety accidents occurring during transport. As the formwork moves to the upper floor, it is automatically oiled and stopped, so that the worker can work quickly, so it is a very useful design that can work more efficiently.

Description

Apparatus for carrying slab panels of a building}

The present invention relates to a device for transporting and automatically oiling the formwork of a building. In particular, the slab formwork of the building can be easily transported from the lower floor to the upper floor, and the oil can be automatically oiled to the formwork, thereby minimizing the manpower consumption. The present invention relates to a slab formwork for a building that can reduce costs and significantly improve work efficiency.

In general, when building a multi-layered building such as an apartment or a building, wall formwork is first installed, and ceiling slab formwork is installed on the upper part of the wall formwork, and concrete is then installed to construct wall and ceiling slab structures. The upper layer is constructed by gradually moving from the lower layer to the upper layer.

In addition, when constructing a high-rise building with the same structure as the upper floor and the lower floor, such as an apartment, building materials (including formwork, plywood, wood, and props) used in the lower floor are generally transported to the upper floor for reuse.

In particular, the ceiling slab formwork is mainly used a plywood having a constant area, for example, while being supported on a temporary support in the form of a temporary column is fixed to be positioned in a flat position on the ceiling slab area.

In particular, the ceiling slab formwork is greased on one side of the formwork in order to prevent the loss caused by damage to the formwork, such as sticking to the wood due to cement contact with the wood used as formwork, or the water penetrates into the formwork. Will be

On the other hand, the support for supporting the ceiling slab formwork is mainly used in the wood, the top of the wall formwork is arranged in a posture perpendicular to each other, that is, checkered structure and the ceiling slab formwork is set by the vertical load, that is, the weight of the cast concrete It is installed firmly so that posture does not change.

Referring to the installation process of the ceiling slab formwork, after installing the support so as to correspond to the ceiling slab area, the ceiling slab formwork is fixed to the upper portion of the support.

The installation work of the support is fixed to the wall formwork using a fastening member such as a nail using a separate ladder or climbed up the wall formwork to the ceiling slab area spaced from the floor, and the support and the bottom surface installed as above Between the plurality of supports are spaced apart in order to secure the support of the support.

In addition, when dismantling the ceiling slab formwork after curing the ceiling slab, the worker dismantles the support and the formwork by looking at the ceiling from the bottom.

In addition, the dismantled ceiling slab formwork will be transported from the lower floor to the upper floor using the manpower of the operator.

However, the worker consumes a lot of manpower, such as carrying the slab formwork to the upper layer and oiling again using manpower, work efficiency is also significantly reduced.

In addition, safety accidents often occur when transporting the ceiling slab formwork, an automatic conveying device is urgently required to compensate for these disadvantages.

Therefore, the present applicant is a device that can be automatically oiled while moving the formwork to the upper layer through the conveying device, and applied for and registered the Utility Model Registration Application No. 2009-0011787 (Slab formwork and automatic oiling device of the building) have.

However, the form conveying and automatic oiling device registered and registered by the applicant himself is not only inconvenient to move to the upper layer, but also has a disadvantage in that its working speed is lowered and its efficiency is lowered.

That is, when the formwork is moved to the upper layer, oiling works well, but when the formwork is raised and oiled from the upper layer, the worker immediately removes the formwork from the formwork, and if the proper time is not met, the formwork accumulates and the work is delayed. Was done.

Therefore, in order to solve the above problems, the present invention can not only easily transport the slab formwork of the building from the lower floor to the upper floor, but also the automatic formwork and automatic oiling device that can reduce labor costs by automatically lubricating the formwork. Its first purpose is to provide a compact formwork, so that the operator can move it directly to the upper floor, and the work is automatically stopped after the formwork is oiled while moving to the upper floor. It is the second purpose.

In order to achieve the above object, the present invention provides a stationary motor installed to drive a power transmission chain coupled to a power transmission gear, an oil storage container for storing oil, and a first support member, a second support member, and a third support member. A base frame, a support frame coupled to one end of the base frame to firmly support the base frame and having a locking plate mounted thereon, and a first transfer gear coupled to the support frame and having a first transfer chain mounted thereon; A guide frame provided with a mounting member on which a plurality of rollers are mounted and a mold support on which formwork is mounted, a transport member movable by the first transport chain and carrying the formwork to an upper layer, and mounted on the base frame. It is rotatable by receiving the power of the power transmission gear, and is equipped with a pair of first transfer gear and a pair of second transfer gears A latch is mounted at a position corresponding to the extension shaft coupled to an upper end of the guide frame, and a second transfer gear driven by a second transfer chain connected to a second transfer gear mounted on the extension shaft. An oil roller and an oil supply container for lubricating the formwork are mounted and vertically coupled to the first support member fixedly coupled to the base frame and the second support member and third support member fixedly coupled to the base frame. Each of the pair of fourth and fifth supporting members coupled to the first connecting rod and the second supporting member connecting the fifth supporting member and mounted with a limit switch in the center thereof.

According to the configuration of the present invention as described above, not only can easily transport the slab formwork of the building from the lower floor to the upper floor, but also can automatically grease the formwork while transporting the formwork to the upper floor, thereby minimizing manpower consumption and reducing labor costs. Cost reduction and work efficiency can be dramatically improved.

In addition, since the formwork transporting device is small, the operator can directly move to the upper floor, and by transporting the formwork by the device can be transported stably to reduce the safety accidents occurring during transport.

Furthermore, since the formwork is moved to the upper layer and automatically oiled and stopped, the worker can work quickly, which is a very useful design for more efficient work.

1 is a perspective view of a formwork conveying apparatus for a building according to a preferred embodiment of the present invention
Figure 2 is a perspective view showing the formwork loaded in the formwork conveying apparatus of the building of the present invention
Figure 3 is a perspective view showing the formwork to be transported to the upper floor by the formwork conveying device of the building of the present invention
4 is a perspective view of a formwork conveying apparatus for a building according to another embodiment of the present invention

In order to achieve the above object, the present invention provides a stationary motor installed to drive a power transmission chain coupled to a power transmission gear, an oil storage container for storing oil, and a first support member, a second support member, and a third support member. A base frame, a support frame coupled to one end of the base frame to firmly support the base frame and having a locking plate mounted thereon, and a first transfer gear coupled to the support frame and having a first transfer chain mounted thereon; A guide frame provided with a mounting member on which a plurality of rollers are mounted and a mold support on which formwork is mounted, a transport member movable by the first transport chain and carrying the formwork to an upper layer, and mounted on the base frame. It is rotatable by receiving the power of the power transmission gear, and is equipped with a pair of first transfer gear and a pair of second transfer gears A latch is mounted at a position corresponding to the extension shaft coupled to an upper end of the guide frame, and a second transfer gear driven by a second transfer chain connected to a second transfer gear mounted on the extension shaft. An oil roller and an oil supply container for lubricating the formwork are mounted and vertically coupled to the first support member fixedly coupled to the base frame and the second support member and third support member fixedly coupled to the base frame. Each pair of fourth and fifth support members coupled to the first connecting rod and the second connecting member connecting the fifth supporting member and mounted with a limit switch in the center thereof.

Hereinafter, an embodiment according to the present invention will be described with reference to the accompanying drawings.

1 is a perspective view of a formwork conveying apparatus for a building according to a preferred embodiment of the present invention, referring to FIG. 1, in a device for transporting a slab formwork 10 used in the construction of a building to an upper floor, The transport apparatus supports the base frame 100 and the guide frame 200 and the support frame 300 by being coupled to each other, and the base frame 100 has an oil roller 420 for oiling the slab formwork 10. And oil supply tank 430 and the stationary motor 310 and the oil reservoir 120 is mounted on the structure.

The material of the base frame 100 and the guide frame 200 and the support frame 300 may be used in a variety of ways, it is preferable that a solid metal iron to support the formwork (10).

The support frame 300 is coupled to one side end of the base frame 100 to firmly support the base frame 100 and a locking plate 33 is mounted at the center thereof.

The base frame 100 is one side is coupled to the support frame 300, in particular, the base frame 100 is a stationary motor (30) installed to drive the power transmission chain 30 coupled to the power transmission gear 20 ( 310 and an oil reservoir 120 for storing oil for lubricating the slab formwork, and oiled with the first support member 411 for supporting the oil roller 420 and the oil supply container 430. The second support member 412 and the third support member 413 installed to support the formwork 10 are combined.

The guide frame 200, one side of which is coupled to the support frame 300, is driven by being coupled to the first transfer gear 21 and the first transfer gear 21 to which power is transmitted by the power transmission gear 20. The first transfer chain 31 is provided, and the mounting member 220 is formed on the guide frame 200 to mount the roller 210 to the mounting member 220.

In addition, the guide frame 200 is coupled to the formwork support 230 and the first transfer chain 31 for loading and supporting the slab formwork 10 is driven by the first transfer chain 31 and the The transport member 240 for transporting the formwork 10 to the upper layer is provided.

On the other hand, since the worker may be injured by the first transfer chain 31, to install the safety panel 500 on the side of the guide frame 200 to protect the operator from the first transfer chain (31). .

The extension shaft 511 is rotatable by receiving power from the power transmission gear 20 mounted on the base frame 100, and includes a pair of first transfer gears 21 and a pair of second transfer gears ( 22 is mounted, and the locking hole 23 is mounted at a position corresponding to the locking plate 33 and is coupled to an upper end of the guide frame 200.

In particular, the extension shaft 511 is equipped with a locking hole 23 in a position corresponding to the locking plate 33 coupled to the support frame 300.

The latch 23 has a saw-toothed projection formed on the outer circumferential surface, rotates in the direction (clockwise) to raise the formwork 10, when the counterclockwise rotation is caught by the locking plate 33 It will not be able to rotate.

In addition, the first support member 411 is fixedly coupled to the base frame 100 and driven by a second transfer chain 32 connected to the second transfer gear 22 mounted on the extension shaft 511. The second transfer gear 22 is mounted, and an oil roller 420 and an oil supply container 430 for oiling the formwork 10 are mounted. It is fixedly coupled to the base frame 100.

In addition, the base frame 100 is connected to the pair of the fifth support member 415 and the fifth support member 415 for supporting the oiled formwork (10) transported to the upper layer limit switch (Limit Switch) And a second connecting rod 512 on which the 600 is mounted is coupled to the first connecting rod 510 and vertically coupled to the second supporting member 412 and the third supporting member 413 to support the first connecting rod. do.

The second support member 412 and the third support member 413 are fixed to the base frame 100.

Meanwhile, the fifth supporting member 415 fixed to the first connecting rod 510 is fixedly coupled with a predetermined inclination. The angle formed by the fifth supporting member 415 fixed to the first connecting rod 510 is the above-mentioned. The guide frame 200 is preferably equal to the angle formed with the ground.

That is, after the die 10 to be transported to the upper layer through the guide frame 200 is oiled, the angle so that the operator can be stably mounted until the operator moves the formwork 10 from the form conveying device of the present invention It is preferable to determine.

Particularly, the limit switch 600 coupled to the second connector 512 may automatically stop the stationary motor 310 when the formwork 512 transported to the upper layer through the guide frame 200 comes into contact. As a configuration to be able to, in the drawings of the present invention is not shown because the connection configuration of the limit switch 600 and the stationary motor 310 is the same as the general public notice on the market.

Therefore, the stationary motor 310 is stopped when the die 10, which is transported to the upper layer through the guide frame 200 and is oiled by the oil roller 420, is brought into contact with the limit switch 600. Accordingly, the formwork 10 is directed to the lower layer by the weight of the formwork 10, the extension shaft 511 is rotated counterclockwise.

In order to prevent the formwork 10 from falling back to the lower layer, it is necessary to prevent rotation of the extension shaft 511 in the counterclockwise direction, thereby supporting the rotation of the latch 23 mounted to the extension shaft 511. The locking plate 33 mounted on the frame 300 is prevented from rotating in the counterclockwise direction because the locking plate 33 is fitted to the locking hole 23.

Thus, the stationary motor 310 stops operating, but the formwork 10 does not go back to the lower floor.

The operator can move the oiled formwork 10 to a desired place from the stationary formwork of the present invention.

Figure 2 is a perspective view showing the formwork loaded on the formwork conveying device of the building of the present invention, Figure 3 is a perspective view showing the formwork transported to the upper floor by the formwork conveying device of the building of the present invention.

2 to 3, the formwork 10 is loaded on the formwork support 230 of the formwork conveying apparatus of the present invention when driving the stationary motor 310, the power transmission gear connected to the stationary motor 310 ( 20) and the first transfer chain 31 fastened to the first transfer gear 21 and the first transfer gear 21 by the power transmission chain 30, the first transfer chain 31 It is conveyed upward by the carrying member 240 driven by.

At this time, the formwork 10 reaches the upper side more smoothly riding the roller 210 mounted on the mounting member 220 formed in the guide frame 200.

Meanwhile, the extension shaft 511 on which the first transfer gear 21 driven by the stationary motor 310 is mounted is rotated, and is mounted on the extension shaft 511 together with the rotation of the extension shaft 511. The second feed gear 22 is rotated, and the second feed chain 32 is rotated by the rotation of the second feed gear, so that the oil roller 420 is supplied with oil from the oil feed container 430. ) Rotates.

Therefore, the die 10 conveyed upward is oiled on one side by the oil roller 420 which is supplied with oil and rotates.

4 is a perspective view of a formwork conveying apparatus for a building according to another embodiment of the present invention. Referring to FIG. 4, the base frame 100, the guide frame 200, and the support frame 300 are coupled to each other and supported. The base frame 100 is equipped with a pair of oil rollers 420 and one oil supply container 430 and a stationary motor 310 and an oil storage container 120 to lubricate the slab formwork 10. It is a structure.

The support frame 300 is coupled to one side end of the base frame 100 to firmly support the base frame 100 and a locking plate 33 is mounted at the center thereof.

The base frame 100 is one side is coupled to the support frame 300, in particular, the base frame 100 is a stationary motor (30) installed to drive the power transmission chain 30 coupled to the power transmission gear 20 ( 310 and an oil reservoir 120 for storing oil for lubricating the slab formwork, the first support member 411 for supporting the oil roller 420, the oil roller 420 and the oil supply. The sixth support member 416 for supporting the barrel 430 and the second support member 412 and the third support member 413 installed to support the oiled mold 10 are combined.

Therefore, the oil is supplied from the oil inlet pipe 122, and the oil is stored in the oil supply container 430, and the oil roller 420 rotates to grease the die 10.

The oil roller 420 is in contact with each other and the second transfer gear 22 is coupled to the second transfer gear 22 and the second transfer gear mounted on the extension shaft 511 coupled to the first transfer gear 21. It is driven by 32.

The guide frame 200, one side of which is coupled to the support frame 300, is driven by being coupled to the first transfer gear 21 and the first transfer gear 21 to which power is transmitted by the power transmission gear 20. The first transfer chain 31 is provided, and the mounting member 220 is formed on the guide frame 200 to mount the roller 210 to the mounting member 220.

In addition, the guide frame 200 is coupled to the formwork support 230 and the first transfer chain 31 for loading and supporting the slab formwork 10 is driven by the first transfer chain 31 and the The transport member 240 for transporting the formwork 10 to the upper layer is provided.

On the other hand, since the worker may be injured by the first transfer chain 31, to install the safety panel 500 on the side of the guide frame 200 to protect the operator from the first transfer chain (31). .

The extension shaft 511 is rotatable by receiving power from the power transmission gear 20 mounted on the base frame 100, and includes a pair of first transfer gears 21 and a pair of second transfer gears ( 22 is mounted, and the locking hole 23 is mounted at a position corresponding to the locking plate 33 and is coupled to an upper end of the guide frame 200.

In particular, the extension shaft 511 is equipped with a locking hole 23 in a position corresponding to the locking plate 33 coupled to the support frame 300.

In addition, the first support member 411 is fixedly coupled to the base frame 100 and driven by a second transfer chain 32 connected to the second transfer gear 22 mounted on the extension shaft 511. The second transfer gear 22 is mounted, and an oil roller 420 and an oil supply container 430 for oiling the formwork 10 are mounted. It is fixedly coupled to the base frame 100.

In addition, the base frame 100 is connected to the pair of the fifth support member 415 and the fifth support member 415 for supporting the oiled formwork (10) transported to the upper layer limit switch (Limit Switch) And a second connecting rod 512 on which the 600 is mounted is coupled to the first connecting rod 510 and vertically coupled to the second supporting member 412 and the third supporting member 413 to support the first connecting rod. do.

The second support member 412 and the third support member 413 are fixed to the base frame 100.

Particularly, the limit switch 600 coupled to the second connector 512 may automatically stop the stationary motor 310 when the formwork 512 transported to the upper layer through the guide frame 200 comes into contact. As a configuration for enabling, the connection configuration of the limit switch 600 and the stationary motor 310 is not shown in the drawings of the present invention.

※ Explanation of reference numerals for main parts of drawing ※
10: die 20: power transmission gear
21: first transfer gear 22: second transfer gear
23: hanger 30: power transmission chain
31: 1st transfer chain 32: 2nd transfer chain
33: stopping plate 100: base frame
120: oil reservoir 122: oil inlet pipe
200: guide frame 210: roller
220: mounting member 230: formwork support
240: carrying member 300: support frame
310: stationary motor 411: first supporting member
412: second support member 413: third support member
414: fourth support member 415: fifth support member
416: sixth support member 420: oil roller
430: oil supply container 500: safety panel
510: first connecting rod 511: extension shaft
512: second connection block 600: limit switch

Claims (1)

A stationary motor 310 installed to drive the power transmission chain 30 coupled to the power transmission gear 20, an oil storage container 120 for storing oil, a first support member 411, and a second support member 412. And, the base frame 100 to which the third support member 413 is coupled,
A support frame 300 coupled to one end of the base frame 100 to firmly support the base frame 100 and to which a locking plate 33 is mounted at the center thereof;
Combined with the support frame 300, the first transfer gear 21, the first transfer chain 31 is mounted, the mounting member 220 and the formwork 10 is mounted with a plurality of rollers 210 is loaded A guide frame 200 which is provided with a formwork support 230 and a transport member 240 which is movable by the first transfer chain 31 and carries the formwork 10 to an upper layer,
It is rotatable by receiving power from the power transmission gear 20 mounted on the base frame 100, and a pair of first transfer gears 21 and a pair of second transfer gears 22 are mounted and are caught. An extension shaft 511 mounted at a position corresponding to the plate 33 and coupled to an upper end of the guide frame 200;
The second transfer gear 22 driven by the second transfer chain 32 connected to the second transfer gear 22 mounted on the extension shaft 511 is mounted, and oil for oiling the die 10. A roller 420 and the oil supply container 430 is mounted, the first support member 411 is fixedly coupled to the base frame 100,
A pair of fourth support members 414 coupled to the second support member 412 fixedly coupled to the base frame 100 and to the first connector 510 that is vertically coupled to the third support member 413. And a second connector 512 connecting the fifth support member 415 and the fifth support member 415 and having a limit switch 600 mounted thereon. Formwork

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