KR101067696B1 - Panel carrier device - Google Patents

Abstract

The present invention relates to a panel conveying apparatus, and more particularly, to a panel conveying apparatus that allows the panel used in the building site to be quickly transferred to the next floor of the next construction site.
The present invention for achieving the above object is characterized by consisting of a body portion, a transfer portion installed in the body portion, and a power generation unit installed in the body portion to operate the transfer portion.

Description

Panel carrier device

The present invention relates to a panel conveying apparatus, and more particularly, to a panel conveying apparatus that allows the panel used in the building site to be quickly transported to the upper floor of the next construction site.

In general, in order to construct a concrete building, first, a reinforcing structure is formed on the inside, and then a mold is formed by applying a panel made of wood or metal on the inner and outer surfaces, and then poured by pouring a crete in the form of dough, and then hardening the floor, wall, We are constructing ceiling and the like.

The formwork is framed by plywood, or a ready-made product made of a metal such as Eurofoam is used.

First, the formwork by the plywood construction method, the formwork of the four sides around the column to install the frame of plywood and lumber in the same manner as the dimensions of the column, and the concrete is injected into the column (for convenience of explanation) Column as an example).

However, in the construction method using plywood, the number of times that the plywood and the lumber can be reused is lowered, and the rigidity of the formwork is not so great that the dimensional precision of the concrete column is degraded due to deformation and damage of the formwork due to reuse. .

In particular, the materials used for the installation of the formwork are difficult to be transferred to other construction sites, so the total amount is disposed of, resulting in waste of valuable resources and environmental pollution due to waste disposal, as well as a predetermined height due to strength problems. Temporary completion of the columnar form with was difficult.

On the other hand, in order to improve the above problems, a recyclable metal flow path is used, and by connecting a plurality of the flow path as described above to enable to form a column having a predetermined height or the like at one time.

The above-described flow path is impossible to move by manual operation at the time of connection to connect the hook connected to the upper portion of the flow path to the crane to complete the column form at a predetermined position while moving.

However, the euroform as described above also has to be moved by a crane, so that the movement work is cumbersome at the site where the steel structures of the beams and the beams connecting the first are installed, and the occurrence of safety accidents during the operation frequently occurs. It is.

And, in order to lift the formwork with a crane, it must be transported to the outside of the building. Since various materials are used in the building site, the transportation is very inconvenient, and the position of the crane is limited, so that the formwork can be connected to the crane. Since the primary transport to the location (outside of the building) there is a problem that the air is long and the work is inefficient.

In addition, conventionally, at least one worker in the upper floor and the lower floor, respectively, has a problem in that the work efficiency is lowered by carrying the work directly by hand to take the formwork.

In order to solve this problem, Korean Patent Application No. 2007-0032910 "Formwork Lift" is presented.

The formwork lift according to the prior art has a problem that it is difficult to transport because of the large volume, it is difficult to use in different buildings.

In addition, in order to raise the formwork panel to the formwork holder and to raise another formwork panel, the formwork holder has to be lowered to its original position.

The present invention has been made in order to solve the above-mentioned problems, the front and rear having a plurality of rollers corresponding to each other so that the panel is transported while passing through the rollers, the structure of the panel conveying apparatus for transferring the panel The purpose is to simplify the size and to make the overall size smaller.

In addition, by passing between the plurality of rollers provided in each of the front and rear, so that the panel is transported, it is an object to be able to transfer to the upper layer by applying all panels regardless of the size of the panel.

In addition, the power transmission unit is installed in the roller provided at the front side, and a plurality of rollers provided at the rear side have an elastic unit to automatically adjust the gap, so that the panel transferred between the rollers is pressurized to the roller by the elastic unit. The purpose is to allow the panel to be transported safely.

In addition, by providing a guide plate for guiding the panel at the bottom, the purpose is to allow the panel to enter and transport safely between a plurality of rollers provided in the front, rear.

And, there is provided a guide plate corresponding to each other between the plurality of rollers provided in the front, rear, to guide the panel transported between the plurality of rollers to be safely transported.

The present invention for achieving the above object is characterized by consisting of a body portion, a transfer portion installed in the body portion, and a power generation unit installed in the body portion to operate the transfer portion.

Here, the body portion is formed in a rectangular tube shape so that the hollow is formed on the inside is characterized in that a pair of bodies provided with spaced apart from each other.

At this time, between the lower end of the pair of body is characterized in that the guide plate is further formed extending downward.

Further, it characterized in that the sensor is provided to protrude to the front of the guide plate.

In addition, the pair of body is characterized in that a pair of guide plates are provided in the front, rear to be spaced apart from each other.

And, the transfer unit is installed between the pair of the body, the main roller is installed to be located in front of the pair between the body, and the support roller is installed between the rear of the pair of the body to correspond to the main roller It features.

Here, the main roller is coupled to be located in the hollow formed on each side of the pair of a pair of bodies, a plurality of first shafts are installed in the vertical direction, is coupled to the first shaft fixed and positioned between the pair of bodies A first fixed roller is provided and is provided on both sides of the first shaft, the sprocket is provided to be located in the hollow of the body, and the chain is connected to the sprockets provided in the plurality of first shafts. It is characterized by.

In addition, the support roller is coupled to both sides are located in the hollow formed in each of the pair of bodies, a plurality of second shafts are installed in the vertical direction, is coupled to the second shaft fixed and positioned between the pair of bodies It characterized in that the second roller is provided to be fixed fixedly.

And, the second shaft is characterized in that the elastic support is further provided.

Here, the elastic support portion has a long groove is formed in the through portion of the second shaft in the body, the guide member is coupled to the long groove, the second shaft is coupled to be fixed to be installed, the guide member in the rear of the guide member A first elastic member for elastically supporting is provided.

Alternatively, the elastic support portion is located in the hollow of the body is formed with the first and second fixtures to which the first and second shafts are coupled, the first fixture to which the first shaft is coupled is fixed to the body, the second shaft is The second fastener that is coupled and fixed is hinged to one side to be pivotally rotated, and a through hole is formed in the body of the penetrating portion through which the second shaft penetrates, and a second elastic member connecting the first and second fasteners is provided. It features.

In addition, the power generating unit is provided with a motor on the body side of the body portion, the upper portion of the motor is characterized in that it is provided with a reducer connected to protrude out of the body by extending any one of the first shaft of the transfer unit.

In addition, the auxiliary operation member for manually operating the motor of the power generating unit is characterized in that it is further provided.

In addition, the transfer unit is characterized in that the release coating portion further provided for applying a release agent on the surface of the panel.

Here, the release coating unit is provided between the pair of body, the release agent container in the shape of a container is provided to accommodate the release agent inside, the lower end is located inside the release agent container, the upper end is a plurality of first formed in the transfer part It is characterized in that the withdrawal roller is provided in contact with any one of the rollers.

On the other hand, it is characterized in that the reverse rotation prevention portion for preventing the first shaft of the transfer unit to rotate in reverse.

Here, the reverse rotation prevention portion is provided with a ratchet wheel coupled to the first shaft of the transfer portion, the body hollow inner peripheral surface is characterized in that the pole is bound to the ratchet wheel.

The present invention configured as described above has a plurality of rollers corresponding to each other at the front and the rear so that the panel is transported while passing through the rollers, so that the structure of the panel transfer device for transferring the panel can be simplified to reduce the overall size. It is effective.

In addition, by passing between the plurality of rollers provided in each of the front and rear, so that the panel is transferred, there is an effect that can be transferred to the upper layer by applying all panels regardless of the size of the panel.

In addition, the power transmission unit is installed in the roller provided at the front side, and a plurality of rollers provided at the rear side have an elastic unit to automatically adjust the gap, so that the panel transferred between the rollers is pressurized to the roller by the elastic unit. There is an effect that the panel can be transported safely.

In addition, by providing a guide plate for guiding the panel at the bottom, there is an effect that the panel can safely enter and transport between a plurality of rollers provided in the front, rear.

In addition, the guide plate corresponding to each other is provided between the plurality of rollers provided at the front and the rear, thereby guiding the panel to be transported between the plurality of rollers to be safely transported.

1 is a perspective view showing a panel transfer device according to the present invention.
Figure 2 is a front view showing a panel transfer device according to the present invention.
Figure 3 is a side cross-sectional view showing a panel transfer device according to the present invention.
Figure 4 is an enlarged cross-sectional view of the main portion of the panel transfer apparatus according to the present invention.
Figure 5 is an enlarged view showing the guide of the present invention.
Figure 6 is an enlarged perspective view showing the elastic support of the present invention.
7 is a perspective view showing another example of the first and second rollers according to the present invention;
8 is a view showing an operation relationship for the panel conveying apparatus according to the present invention.
9 is a view showing another embodiment of a panel transport apparatus according to the present invention.
10 is a view showing another embodiment of a panel transport apparatus according to the present invention.
11 is a view showing another embodiment of a panel transport apparatus according to the present invention.

Hereinafter, described in detail with reference to the accompanying drawings for the panel transport apparatus according to the present invention.

1 is a perspective view showing a panel transfer device according to the present invention, Figure 2 is a front view showing a panel transfer device according to the present invention, Figure 3 is a side cross-sectional view showing a panel transfer device according to the present invention, Figure 4 An enlarged cross-sectional view of the main portion of the panel transfer apparatus according to the invention, Figure 5 is an enlarged view showing the guide of the present invention, Figure 6 is an enlarged perspective view showing the elastic support of the present invention, Figure 7 is a first, second according to the present invention This is a perspective view showing another example of the roller.

1 to 7 as shown in the panel conveying apparatus 100 according to the present invention is provided with a body portion 110 is installed in the vertical direction.

Here, the body portion 110 is formed in a rectangular tube shape is formed with a hollow (112a) inside, a pair of body 112 is provided to be spaced apart corresponding to each other.

Further, the pair of bodies 112 are formed on the surface corresponding to each other, a plurality of coupling holes 112b are formed in the vertical direction on the front of the corresponding portion of the body 112, and the coupling holes 112b and the corresponding on the rear surface A plurality of long grooves 112c are formed at the positions.

In addition, a guide plate 114 extending downward is provided between the lower ends of the pair of bodies 112.

At this time, the predetermined position of the guide plate 114 is provided with a detection sensor 116 for detecting a supply state of the panel (P), the detection sensor 116 is applied by a limit switch, in addition to the panel (P) All means for detecting the conveyance status of are applicable.

In addition, a transfer part 210 for transferring the panel P to the upper layer is provided between the pair of bodies 112.

Here, the transfer part 210 is installed between the pair of bodies 112, the main roller 212 is fitted to be installed in the binding hole (112b) to be located in front of the pair of the body 112 is provided.

Furthermore, the main rollers 212 are fitted to the coupling holes 112b formed at both ends of the pair of bodies 112 and are coupled and fixed to be positioned in the hollow 112a so that a plurality of the main rollers 212 are maintained at regular intervals in the vertical direction. The shaft 214 is provided.

At this time, the body 112 and the first shaft 214 is coupled to the position, that is, the coupling hole 112b, the bearing 215 is fitted, any one of the plurality of first shaft 214, for example the top One end of the first shaft 214 located in the coupling is fixed to protrude outward through the body 112.

 In addition, the first roller 216 is fixed to each of the plurality of first shafts 214, the first roller 216 is fixed to the first shaft 214 to be positioned between the pair of body 112, the first On the first shaft 214 located at both sides of the shaft 214, that is, the hollow 112a of the body 112, a plurality of first shafts 214 are connected to each other by a chain C so that the sprocket can rotate. 218 is provided.

In this case, the sprocket 218 may be connected to the sprockets 218 provided in the plurality of first shafts 214 by one chain C, and a pair of both sides of the plurality of first shafts 214, respectively. The sprocket 218 of the upper and the sprocket 218 located at the top and the sprocket 218 located in the next compartment with a chain (C), the lower sprocket 218 and the next compartment connected with the chain (C) The chain C may be fixed to the sprockets 218 provided in the plurality of first shafts 214 by connecting the sprocket 218 and the chain C to each other.

Accordingly, the plurality of first shafts 214 interconnected by the chain C rotate in the same direction.

Meanwhile, the plurality of first shafts 214 may be rotated by using the sprocket 218 and the chain C in a manner of connecting and rotating the plurality of first shafts 214, but the plurality of first shafts 214 are not shown in the drawing. Each of the plurality of first shafts 214 may be rotated by having a pulley and a belt connecting the pulleys. In addition, any means capable of rotating the first shaft 214 is applicable.

In addition, a guide plate 230 is provided between the body 112 so that a pair is installed to correspond to each other to prevent the panel P from being separated when the panel P is transferred upward.

Here, the guide plate 230 is installed to be positioned between each of the plurality of first and second rollers 216 and 224.

In this case, the pair of guide plates 230 may be installed between each of the first and second rollers 216 and 224, and any one position of each of the plurality of first and second rollers 216 and 224. Can also be installed in

In addition, it is provided to correspond to the main roller 212, a support roller 220 is provided between the pair of the body 112 is provided.

Here, the support roller 220 is provided with a plurality of second shafts 222 fixed to be positioned in the hollow 112a of the body 112 by being fitted in the long groove 112c formed at both ends of the body 112. .

  Further, a second roller 224 is fixedly coupled to the second shaft 222 and positioned between the pair of bodies 112 and coupled to the second shaft 222.

In this case, a plurality of grooves 216a may be formed on the outer circumferential surface of the first roller 216 uniformly or non-uniformly as shown in FIG. 7.

In addition, an elastic support part 310 for elastically supporting the second shaft 222 of the support roller 220 is further provided.

Here, the elastic support 310 is fitted in the long groove 112c formed in the body 112, one side is coupled to be located in the hollow 112a of the body 112, the outer groove surface of the long groove 112c The guide member 312 is formed with a guide groove (312a) is fitted into the.

At this time, both ends of the second shaft 222 is coupled to the guide member 312, the coupling portion of the second shaft 222 and the guide member 312 is provided with a bearing 313.

Furthermore, one side is supported on the inner rear side of the hollow 112c of the body 112, and the opposite side is supported by the guide member 312, and the first elastic member 314 is provided to elastically support the guide member 312.

Therefore, when the panel P is transferred between the main roller 212 and the support roller 220 by the operation of the main roller 212, the second roller 224 of the support roller 220 is the panel P. The first elastic member 314 is pushed by pushing the guide member 312 in the direction of the panel (P) to be in close contact with.

In addition, the power generating unit 410 is installed on the outer side of any one of the pair of body 112 to drive the main roller 212 is provided.

Here, the power generator 410 is provided with a motor 412 that is installed on the outer side of the body 112, the motor 412 protrudes out of the body 112 of the plurality of first shafts 214. Reducer 414 is coupled to the first shaft 214 is provided.

In addition, the auxiliary operation member 420 for manually operating the motor 412 of the power generating unit 410 is further provided.

At this time, the auxiliary operation member 420 is formed in a scaffold type so that the operator can operate by using the foot.

Therefore, when the panel P transported between the main roller 212 and the support roller 220 protrudes to a predetermined height to the upper portion of the body 112, the operation of the motor 412 is stopped, in this state. When the operator operates the auxiliary operation member 420 after holding the protrusion of the panel P, the motor 412 is operated so that the panel P is completely pulled out.

Referring to the operational relationship for the panel transport apparatus according to the present invention configured as described above are as follows.

8 is a view showing an operation relationship for the panel transport apparatus according to the present invention.

As shown therein, the panel transport apparatus 100 according to the present invention first installs the layer P to be transported to the panel P to transport the lower panel P to the upper layer.

That is, the panel conveying apparatus 100 is installed upright between floors, and the operator places the panel P in close contact with the guide plate 114 to be positioned between the main roller 212 and the support roller 220.

At this time, the panel (P) is seated on the guide plate 114 at the same time the detection sensor 116 provided in the guide plate 114 detects this to operate the motor 412, the operation of the motor 412 By the main roller 212 is rotated in one direction by the chain (C) connected to each other.

In this way, the panel P seated on the guide plate 114 is transferred upward through the main roller 212 and the support roller 220 by the rotation of the main roller 212.

At this time, the panel (P) is guided by the first elastic member 314 of the elastic support portion 310 provided in the support roller 220 when the panel P is transferred between the main roller 212 and the support roller 220. The member 312 is pressed along the long hole 112a of the body 112 in the direction in which the main roller 212 is provided, the panel (P) is transferred between the main roller 212 and the support roller 220 Pressurized to be transported safely.

As such, when the panel P, which is transferred upward between the main rollers 212 and the support rollers 220, passes through the detection sensor 116 provided in the guide plate 114, the operation of the motor 412 is performed. Will stop.

That is, when the panel P, which is conveyed upwardly between the main rollers 212 and the support rollers 220, is drawn out to about 2/3 of the upper part of the body 112, the panel P is a detection sensor ( Pass 116 to stop the operation of the motor 412.

In this state, when the operator manipulates the auxiliary operation member 420 using the foot in the state of holding the panel P drawn upward, the motor 412 rotates the main roller 212 while operating the motor 412 again. The panel P can be pulled out completely to the top.

In this way, the panel P on the lower layer can be easily and easily transported to the upper layer.

9 is a view showing another embodiment of a panel transport apparatus according to the present invention.

As shown therein, between the body 112 of the body portion 110 is further provided with a release coating unit 510 for applying a release agent on one side of the panel (P).

Here, the release coating unit 510 is provided between the pair of body 112, the release agent container 512 is formed in a container shape so that the release agent is accommodated therein is provided.

At this time, the release agent container 512 is fixed to the inner end surface between the pair of the body 112 is provided with a pair of fixing means such as welding.

Furthermore, the drawer roller 514 is positioned inside the release agent container 512, and the lower end is submerged in the release agent and the upper part is installed to contact any one of the plurality of first rollers 216.

At this time, the outgoing roller 514 is installed in contact with the first roller 216 fixed to the top of the plurality of first rollers 216, that is, the first shaft 214 connected to the motor 412.

The working relationship of the panel transfer apparatus according to the present invention configured as described above is made by the same method as in the former, and the description of the working relationship will be omitted here.

However, when the main roller 212 rotates by the operation of the motor 412, the draw roller 514 in contact with the first roller 216 is rotated, and the release agent during the rotation of the draw roller 514. The release agent accommodated in the container 512 is buried on the surface of the first roller 216 while rotating in a state of being buried on the surface of the drawing roller 514.

Thus, the release agent is applied to the surface of the panel P in the process of passing the panel P through the first roller 216 in a state in which the release agent is deposited on the first roller 216.

10 is a view showing another embodiment of a panel transport apparatus according to the present invention.

As shown therein, the elastic support part 610 is positioned in the hollow 112a of the body 112, and the first and second shafts 214 and 222 which protrude into the hollow 112a of the body 112 are coupled to each other. The first and second fixtures 612 and 614 are fixed to each other, and the first fixture 612 to which the first shaft 214 is coupled is fixed to the body 112 by fixing means such as bolts.

In addition, in the second fixing tool 614 to which the second shaft 222 is coupled and fixed, a flow hole 112d is formed in the body 112 of the through part through which the second shaft 222 penetrates. In order to rotate the second shaft 222 penetrating the (1), that is, the upper portion of the second fixture 614 is fixed to the body 112 by a fixing means such as a bolt.

In addition, binding hinges 612a and 614a are formed at lower ends of the first fixing sphere 612 and lower ends of the second fixing sphere 614, respectively, and binding hinges respectively formed in the first and second fixing spheres 612 and 614 are provided. A second elastic member 616 is connected to each other (612a) and 614a.

The working relationship for the panel transport apparatus according to the present invention configured as described above is made by the same method as in the former, and the description of the working relationship will be omitted here.

However, the panel P is supplied between the first and second rollers 216 and 224 coupled to and fixed to the first and second shafts 214 and 222 so that the upper part is rotated upward by the rotation of the first roller 216. When moved, the second roller 224 flows according to the thickness of the panel P.

That is, when the panel P is supplied between the first and second rollers 216 and 224 in a state where the first and second rollers 216 and 224 are close to each other, the second shaft 222 is coupled and fixed. The second fixture 614 is rotated while tensioning the second elastic member 616 in the rear direction on the flow hole (112d) around the upper end bolt fixed to the body (112).

Accordingly, the rear surface of the panel P supplied between the first and second rollers 216 and 224 is pressed and supported by the second roller 224 by the elastic force of the second elastic member 616. Panel (P) can be safely transported to the top.

In addition, after the panel P is transferred upward through the first and second rollers 216 and 224, the second roller 224 is driven by the elastic force of the second elastic member 616. It returns to the original state close to 216.

11 is a view showing another embodiment of a panel transport apparatus according to the present invention.

As shown in the drawing, the first shaft 212 is further provided with a reverse rotation preventing part 710 for preventing the first roller 216 from rotating in reverse.

Here, the reverse rotation prevention unit 710 is fixed to the ratchet wheel 712 is coupled to any one of the plurality of first shaft 212, the body 112 is bound to the ratchet wheel 712 is rotated only in one direction A fool 714 for intermittent operation is provided.

The working relationship for the panel transport apparatus according to the present invention configured as described above is made by the same method as in the former, and the description of the working relationship will be omitted here.

However, the panel P is moved upward by rotating in one direction by the ratchet wheel 712 coupled to the first shaft 212.

In this case, when an abnormality occurs in the panel transfer device 100 and the operation is stopped, the pole 714 holds the ratchet wheel 712 so that the panel P is the first and second rollers 216 and 224. It is maintained in the state positioned between.

Therefore, when the failure of the panel transfer device 100 occurs by falling down by the weight of the panel (P) it is possible to prevent the occurrence of a safety accident.

In the above description of the preferred embodiment of the panel transfer apparatus according to the present invention, the present invention is not limited to this, and the present invention is not limited to the claims and the detailed description of the invention and various modifications to be carried out within the scope of the accompanying drawings. It is possible that this also belongs to the scope of the present invention.

100: panel feeder 110: body portion
112 body 112a hollow
112b: binding hole 112c: long groove
114: guide plate 116: detection sensor
210: transfer unit 212: main roller
214, 222: 1st, 2nd shaft 216, 224: 1st, 2nd roller
216a: groove 218: sprocket
220: support roller 230: guide plate
310, 610: elastic support 312: guide member
312a: guide grooves 314, 616: first and second elastic members
410: power generating unit 412: motor
414: reducer 510: peeling coating
512: release agent container 514: drawing roller
612, 614: 1st, 2nd fixed mouth 612a, 614a: binding hinge
710: reverse rotation prevention portion 712: ratchet wheel
714: Pool C: Chain
P: Panel

Claims (17)

Body,
A transfer part installed in the body part;
In the panel conveying device provided in the body portion consisting of a power generating unit for operating the conveying unit,
The transfer unit is installed between the pair of body, the main roller is installed to be located in front of the pair of the body,
And a support roller installed at a rear side of the pair of bodies so as to correspond to the main roller. The method of claim 1,
The body portion is formed in a rectangular tube shape so that the hollow is formed on the inside panel conveying apparatus, characterized in that provided with a pair of bodies spaced apart from each other. The method of claim 2,
Panel transfer device, characterized in that further provided with a guide plate extending downward between the lower end of the pair of body. The method of claim 3, wherein
And a sensing sensor provided to protrude to the front of the guide plate. The method of claim 2,
And a pair of guide plates provided before and after the pair of bodies so as to be spaced apart from each other. delete The method of claim 1,
The main roller is coupled to be positioned in both sides of the hollow formed in each of the pair of the body is a plurality of first shafts are installed in the vertical direction,
The first roller is fixedly coupled to the first shaft, the first roller is fixedly positioned to be positioned between the pair of bodies,
Is provided on both sides of the first shaft, the sprocket is provided to be located in the hollow of the body,
And a chain connecting the sprockets provided on the plurality of first shafts to each other. The method of claim 1,
The support rollers are coupled to be positioned at both sides of the hollow formed in the pair of bodies, respectively, and a plurality of second shafts are installed in the vertical direction.
The panel conveying apparatus is coupled to the second shaft, characterized in that the second roller is coupled to be fixed to be positioned between the pair of the body. The method of claim 8,
The second shaft is a panel transfer device characterized in that the elastic support is further provided. The method of claim 9,
Longitudinal grooves are formed in the through portion of the second shaft in the elastic support portion,
Is coupled to the long groove, the guide member is coupled to the second shaft is fixed to be installed,
And a first elastic member for elastically supporting the guide member at a rear portion of the guide member. The method of claim 9,
The elastic support portion is located in the hollow of the body is formed with the first and second fixtures to which the first and second shafts are coupled, the first fixture to which the first shaft is coupled is fixed to the body,
The second fixture which is coupled to the second shaft is fixed to one side hinged to be rotated,
Flow holes are formed in the body of the through part through which the second shaft passes,
And a second elastic member connecting the first fixture and the second fixture. The method of claim 1,
The power generating unit is provided with a motor on the body side of the body portion, the upper portion of the motor is a panel transfer device, characterized in that provided with a reducer extending to any one of the first shaft of the transfer portion to protrude to the outside of the body. The method of claim 1,
And a sub operation member for manually operating a motor of the power generating unit. The method of claim 1,
The conveying unit is a panel conveying apparatus, characterized in that further provided with a peeling coating unit for applying a release agent on the surface of the panel. The method of claim 14,
The release coating unit is installed between a pair of bodies, the container-shaped release agent container is provided to accommodate the release agent inside,
A lower end is located inside the release agent container, and the upper end is a panel conveying apparatus, characterized in that the withdrawal roller is provided in contact with any one of the plurality of first roller formed in the conveying unit. The method of claim 7, wherein
And a reverse rotation preventing unit for preventing the first shaft of the transfer unit from rotating in the reverse direction. 17. The method of claim 16,
The reverse rotation prevention unit is provided with a ratchet wheel coupled to the first shaft of the transfer unit,
The panel conveying apparatus, characterized in that the pawl is coupled to the body hollow inner circumferential surface of the body portion is bound to the ratchet wheel.

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