KR200490810Y1 - Execution equipment for supporter of solarcell module - Google Patents

Abstract

The present invention relates to a construction apparatus for installing a solar module, the construction apparatus for installing a solar module according to the present invention includes a rectangular main body (100); A drill pipe 200 formed vertically toward the front lower side of the rectangular body 100 and having a drill tube 210 mounted at one end thereof, the drill pipe 200 having an empty inside; While the other end of the drill pipe 200 is fixedly coupled to the upper side of the drill pipe 200 is formed by drilling the ground by rotating the drill bit 210 by using a hydraulic drive method and the vibration method to punch the ground and spiral Driving unit 300 for fixing the support to the ground; Vertical transfer device 400 for performing the lifting operation of the drive unit 300 is fixed to the drill pipe 200 in the longitudinal direction of the rectangular body 100; And a swing gear 500 that simultaneously supports forward and backward tilting operation and left and right rotation by combining with a heavy equipment including a fork lane at a rear center portion, wherein the driving part 300 is provided at the front of the rectangular body 100. Device 600; And a blower combined rotary shaft 710 capable of rotating the drill pipe 200 while receiving the hit of the striking device 600 and transmitting it to the drill pipe 200, and having a lower side of the striking device 600. It may be provided; a rotary gear box 700 disposed in the.
Therefore, the present invention, the body portion of the rotary shaft combined with the impactor composed of a hexagonal body and the diameter of the head portion relatively larger than the diameter of the body portion combined with the shaft housing rotation by passing through the shaft housing when hit by the impact device The impact is transmitted directly to the drill bit by the hexagonal body of the shaft, and during rotation, the rotational force is transmitted to the drill bit by the hexagonal body of the rotating shaft coupled to the hexagonal hole of the shaft housing. It is effective to bend the large installation at the same time.

Description

Construction device for solar module installation {EXECUTION EQUIPMENT FOR SUPPORTER OF SOLARCELL MODULE}

The present invention relates to a construction device for installing a solar module, and more particularly, to implement the impact means and the rotation means interlocked with a drill pipe equipped with a drill bit at the end in a single rotary gear box at the same time the ground is solid construction In this difficult area, it is easy to construct spiral struts for installing solar structures, and it can be used in various working environments as well as increase mobility by combining with heavy equipment. It is related with the installation apparatus for module installation.

In general, photovoltaic power generation means concentrating (heating) solar light to a solar cell or a photovoltaic module to perform power generation. The solar module is a kind of solar panel and is called a solar module.

The principle of photovoltaic using the photovoltaic module is carried out by the photovoltaic effect. When solar light is irradiated to pn junction solar panel by n-type doping on silicon crystal The electromotive force generated by the electron-hole is generated, which is called the photovoltaic effect.

Usually, solar panels are connected in parallel and as many times as you want to make the desired power. The system stored in storage battery and used when needed is called individual solar power generation system or stand-alone solar power generation system. When used, it is called grid-connected solar power system.

The advantages of photovoltaic power generation are that there is no pollution, it can generate as much as necessary where it is needed, and it is easy to maintain. On the other hand, the power output is dependent on the amount of sunshine, the installation site is limited, the initial investment cost and the high cost of power generation.

And, once the photovoltaic device is installed, in the case of the fixed type, the slope of the solar panel is fixed, a problem that cannot be changed. The variable type is expensive, but frequently breaks down, so a lot of fixed type is usually selected and installed. However, the fixed type has such a problem.

In general, the photovoltaic structure for photovoltaic power generation is a structure in which a plurality of solar panels are fixed to the top of the support, and the bottom of the support is supported by the foundation concrete. In this structure, the wind pressure received by the solar panels and the loads of the pillars and the solar panels must be firmly supported by the foundation concrete.

However, when constructing by civil engineering to be inclined enough to be difficult to install the foundation concrete or other difficult installation, a lot of costs occur, there was a problem that a lot of seal elapsed.

In order to solve this problem, efforts have been made to use it by directly laying it on the ground without using additional concrete construction, but it is difficult to install in the case where the ground is solid, and it is necessary to install the spiral support beforehand. After the excavation work to proceed to the process of hitting the spiral strut during construction separately there was a problem that the work efficiency is lowered.

Therefore, there is an urgent need for a technique for installing a photovoltaic structure that can be installed in a solid and easy way even on a ground having various conditions and can improve work efficiency.

Patent Registration No. KR 10-1190695 (Registration date 2012.10.08.)

The present invention is conceived to solve the above problems, the present invention, by implementing the impact means and the rotating means in conjunction with the drill pipe equipped with a drill bit at the end in a single rotary gear box at the same time the ground is solid construction It is possible to easily install spiral struts for installing solar structures even in difficult areas, and it can be used in various working environments as well as to increase mobility by combining with heavy equipment. It is an object to provide a installation device for installation.

Construction device for solar module installation according to an embodiment of the present invention, the rectangular body 100; A drill pipe 200 formed vertically toward the front lower side of the rectangular body 100 and having a drill tube 210 mounted at one end thereof, the drill pipe 200 having an empty inside; While the other end of the drill pipe 200 is fixedly coupled to the upper side of the drill pipe 200 is formed by rotating the drill bit 210 and applying a shock in a vibrating manner to puncture the ground and to fix the spiral struts to the ground To drive unit 300; And a vertical transfer device 400 which performs the lifting and lowering operation of the driving unit 300 to which the drill pipe 200 is fixedly coupled along the longitudinal direction of the rectangular body 100.

The rectangular main body 100 may include a swing gear 500 that simultaneously supports forward and backward tilting motion and left and right pivoting by combining with a heavy equipment including a fork lane at a rear end portion thereof.

The rectangular main body 100 has a pair of guide rods 110 for vertically contacting the ground to the lower side of the swing gear 500, the end of the cylinder rod to the upper side of the swing gear 500 The main body 100 may be vertically lifted up and down along the guide rod 110 by forming a cylinder portion 120 that is fixed and stretched at an upper end of the main body 100.

The swing gear 500, the upper end of the guide rod 110 is coupled to the lower side, the lower end of the cylinder portion 120 is coupled to the upper side, the main body in response to the stretching operation of the cylinder portion 120 A guide plate 510 having a rail portion 511 on the inner side of the body for raising and lowering the rear end portion in a sliding manner; A rotary motor 521 and a reduction gear 522 for performing left and right pivoting operations of the main body 100 around a fixed part coupled with heavy equipment are formed in a circular shape on one side of the guide plate 510. Gear coupling part 520; And a heavy-duty cylinder coupler 530 formed above the gear coupler 520 and coupled to the cylinder rod end of the heavy-duty to perform front and rear tilting of the rectangular body 100 using the cylinder of the heavy-duty. can do.

The driving unit 300 includes a striking device 600 disposed in front of the rectangular body 100; And a blower combined rotary shaft 710 capable of rotating the drill pipe 200 while receiving the hit of the striking device 600 and transmitting it to the drill pipe 200, and below the striking device 600. It may be provided; a rotary gear box 700 disposed in the.

The rotary gear box 700 constituting the drive unit 300 includes a box housing 701 having a rectangular box shape having through holes 701a and 701b formed on upper and lower surfaces thereof; The upper end is exposed upward through the through hole 701a formed in the upper surface of the box housing 701 and the lower end is exposed downward through the through hole 701b formed in the lower surface of the box housing 701. Compressor combined rotary shaft 710 formed of the hexagonal processed body; A shaft housing 720 having a hexagonal shaft hole 721 formed at a center thereof to surround and accommodate the body of the rotary shaft 10 combined with the striker; A plurality of shaft roller bearings 730 formed around upper and lower inner through holes of the box housing 701 and configured to support a rotation operation of the shaft housing 720; A circular deceleration rotating gear 740 formed to surround the shaft housing; A drive gear 750 for transmitting a driving force to the reduction gear 740; And a deceleration drive motor 760 which generates a driving force necessary for the drive gear 750 and is formed on one side of the upper surface of the box housing 701.

The drive unit 300 is disposed in the lower side of the rotary gear box 700, the upper side is coupled to the lower end of the rotary shaft 710 combined with the striker and the lower side is a cylindrical rotary shaft adapter coupled to the upper end of the drill pipe 200 800 may be further provided.

The rotary shaft adapter 800, the cylindrical shaft coupling portion 810 is coupled to interlock with the striking operation of the rotary shaft combiner (710); And a cylindrical drill pipe coupling part 820 coupled to be interlocked with the rotating operation of the rotary hammer 710 of the striker.

The shaft coupling portion 810, the cylindrical outer housing (811) to maintain a state fixed to the rectangular body 100 independently; And a rotating part 812 penetrating the inside of the outer housing 811 so as to be hit and rotate in conjunction with a hitting operation and a rotating operation of the double-shaft rotary shaft 710.

The drill pipe coupling portion 820, the connection portion 821 is formed to protrude to the top to the lower side of the rotating portion 812 constituting the shaft coupling portion 810 and the linking operation is interlocked; And a drill pipe fixing part 822 to which an upper side of the drill pipe 200 is inserted and fixedly coupled to a lower side thereof.

The rotary shaft adapter 800 may further include an air supply means 830 for supplying air to the inside through one side of the shaft coupling part 810.

The air supply means 830, the main air supply hose 831; One end is coupled to the air supply pipe 813 protruding from the outer surface of the shaft coupling portion 810 and the other end is coupled to the main air supply hose 831 and the main supply portion is formed by assembling and coupling a plurality of pipe bodies ( 832); Return air supply hoses 833 which both ends are respectively coupled to a pair of 'T' shaped pipes of the pipes constituting the main supply unit 832; And an air passage 834 formed in the rotary shaft adapter 800 so that air introduced through the air supply pipe 813 is introduced into the drill pipe 200.

The vertical transfer device 400, the guide rail 410 formed along the longitudinal direction in front of the rectangular body 100; A driving unit transfer plate 420 supporting and fixing the driving unit 300 and performing a transfer operation along the guide rail 410; A transfer chain 430 which moves up and down about the rollers formed at the top and bottom of the rectangular main body 100 while both ends are connected to the top and bottom of the driving unit transfer plate 420; A chain drive motor 440 for transmitting a driving force to the transfer chain by rotating a roller formed at an upper end of the rectangular body 100; And a conveying chain accommodating space 450 formed as a vertical hollow part in the rectangular body 100 to provide a moving space of the conveying chain 430.

The construction device for installing a solar module according to the embodiment of the present invention includes a support frame 221 for supporting and fixing a drill pipe 200 coupled to the driving unit 300 and is fixed to the lower side of the driving unit transfer plate 420. Drill pipe conveying plate 220 for performing a conveying operation along the guide rail 410 formed in front of the rectangular body 100 while maintaining a spacing; may be further provided.

The drive unit 300 may be driven in a hydraulic manner in the case of rotating the drill bit 210 or applying an impact in a vibration manner.

As described above, the present invention, by implementing a strike means and a rotating means interlocked with a drill pipe equipped with a drill bit at the end in a single rotary gear box at the same time to build a solar structure even in an area where the ground is hard to construct It is possible to easily install the spiral struts for installation, and it is possible to increase the mobility by combining with heavy equipment, and to provide a construction device for installing solar modules that can be used in various working environments to improve working efficiency. There is.

In addition, the present invention is provided with a cylinder and a guide rod at the rear of the square main body, enabling the lifting and lowering operation of the square main body around the swing gear coupled to the fork-lane to move the drive portion vertically transferred from the front of the square main body The additional radius can be secured, and as a result, the size of the main body can be reduced.

In addition, the present invention, the body portion of the rotary shaft combined with the striker is composed of a hexagonal body and the diameter of the head portion relatively larger than the diameter of the body portion is combined with the shaft housing to rotate through the shaft housing when hit by the impact device The impact is transmitted directly to the drill bit by the hexagonal body of the shaft, and during rotation, the rotational force is transmitted to the drill bit by the hexagonal body of the rotating shaft coupled to the hexagonal hole of the shaft housing. It is effective to bend the large installation at the same time.

1 is a view schematically showing the overall configuration of a construction apparatus for installing a solar module according to an embodiment of the present invention.
2 is a view for explaining a swing gear constituting the construction equipment according to an embodiment of the present invention.
3 to 4b are views for explaining in detail the driving unit constituting the construction equipment according to an embodiment of the present invention.
5 is a view for explaining a rotation shaft adapter and the air supply means constituting the drive unit according to an embodiment of the present invention.
6 to 8 are views for explaining a vertical transfer device according to an embodiment of the present invention.
9 is a view for explaining in detail the use example of a construction device for installing a solar module according to an embodiment of the present invention.

Description of the present invention is only an embodiment for structural or functional description, the scope of the present invention should not be construed as limited by the embodiments described in the text. That is, since the embodiments may be variously modified and may have various forms, the scope of the present invention should be understood to include equivalents capable of realizing the technical idea.

On the other hand, the meaning of the terms described in the present invention should be understood as follows.

Terms such as "first" and "second" are intended to distinguish one component from another component, and the scope of rights should not be limited by these terms. For example, the first component may be named a second component, and similarly, the second component may also be named a first component.

When a component is referred to as being "connected" to another component, it should be understood that there may be other components in between, although it may be directly connected to the other component. On the other hand, when a component is referred to as being "directly connected" to another component, it should be understood that there is no other component in between. On the other hand, other expressions describing the relationship between the components, such as "between" and "immediately between" or "neighboring to" and "directly neighboring to", should be interpreted as well.

Singular expressions should be understood to include plural expressions unless the context clearly indicates otherwise, and terms such as "comprise" or "have" refer to a feature, number, step, operation, component, part or implementation thereof. It is to be understood that the combination is intended to be present and does not exclude in advance the possibility of the presence or addition of one or more other features or numbers, steps, operations, components, parts or combinations thereof.

In each step, an identification code (e.g., a, b, c, etc.) is used for convenience of description, and the identification code does not describe the order of the steps, and each step clearly indicates a specific order in context. Unless stated otherwise, they may occur out of the order noted. That is, each step may occur in the same order as specified, may be performed substantially simultaneously, or may be performed in the reverse order.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art unless otherwise defined. Generally, the terms defined in the dictionary used are to be interpreted as being consistent with the meanings in the context of the related art, and should not be interpreted as having ideal or excessively formal meanings unless clearly defined in the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a view schematically showing the overall configuration of a construction device for installing a solar module according to an embodiment of the present invention, Figure 2 is a view for explaining a swing gear constituting the construction equipment according to an embodiment of the present invention.

As shown in the figure, the installation device for solar module installation according to an embodiment of the present invention, the rectangular body 100, the drill pipe 200, the drive unit 300, the vertical transfer device 400, and the swing gear ( 500).

More specifically, the rectangular body 100, the drill pipe 200, the drive unit 300, and the vertical transfer device 400 is disposed in the front, the rear swing gear 500 to be disposed Can be.

Here, the drill pipe 200 may be formed as a vertical pipe formed vertically to the front lower side of the rectangular body 100 and empty inside while the drill bit 210 is mounted at one end thereof.

In addition, the driving unit 300 is formed above the drill pipe 200 while the other end of the drill pipe 200 is fixedly coupled to the ground by rotating the drill bit 210 and applying an impact in a vibration manner. Perforations and can be fixed to the spiral strut 12 to the ground, a detailed description of the driving unit will be described in Figures 3 to 5 to be described later.

In addition, the vertical transfer device 400, along the longitudinal direction of the rectangular body 100 may perform the lifting and lowering operation of the drive unit 300 is fixed to the drill pipe 200, a detailed description will be described later 6 to 8 will be described below.

On the other hand, in the embodiment of the present invention, the swing gear 500 may be formed to simultaneously support the front and rear tilting operation and the left and right rotation by combining with the heavy equipment including the fork lane in the center of the rear end of the rectangular body 100.

In addition, the swing gear 500 is configured to implement the lifting and lowering operation of the rectangular body 100 in a state coupled to heavy equipment, the movement of the driving unit 300 disposed in front of the rectangular body 100. This has the effect of expanding the radius.

Specifically, as shown in the drawing, the swing gear 500 may include a pair of guide rods 110 for vertically contacting the ground to the rear lower side of the rectangular main body 100.

In addition, an upper end of the swing gear 500 forms an end portion of the main body cylinder rod 120a fixed to the upper end of the main body 100 to form a cylindrical portion 120 so that the rectangular main body 100 has the guide rod 110. Can be raised and lowered vertically.

In this case, a guide tube 101 through which the guide rod 110 penetrates may be formed at a lower end of the rectangular body 100.

Referring to the drawings in more detail the configuration of the swing gear 500 coupled to the rear of the rectangular body 100 as follows.

According to an embodiment of the present invention, the swing gear 500 may include a guide plate 510, a gear coupling part 520, and a heavy equipment cylinder coupling part 530.

More specifically, the guide plate 510, the upper end of the guide rod 110 is coupled to the lower side, the lower end of the cylinder portion 120 is coupled to the upper side, the stretching operation of the cylinder portion 120 Correspondingly, a rear end portion of the main body 100 may be provided on the inner side of the body with a rail portion 511 for lifting up and down in a sliding manner.

That is, as described above, the cylinder rod of the cylinder portion 120 disposed on the upper side of the swing gear 500 in a state in which the guide plate 510 constituting the swing gear 500 is coupled to heavy equipment such as a fork lane. Is stretched and fixed at the top of the main body, the guide rail formed at the rear end of the rectangular main body 100 may rise and fall along the rail of the guide plate 510, and as a result, the lower side of the swing gear 500 The rectangular body 100 is vertically lifted up and down along the guide rod 110 is disposed.

In addition, the gear coupling portion 520 is provided with a rotary motor 521 and a reduction gear 522 for performing the left and right pivoting operation of the rectangular body 100 around the fixed portion and the heavy equipment, the guide It may be formed in a circular shape on one side of the plate 510.

In addition, the heavy equipment cylinder coupling portion 530 is formed to the upper side of the gear coupling portion 520 and the end of the cylinder rod 531 of the heavy equipment is coupled to the front and rear tilting of the rectangular body 100 using the cylinder of the heavy equipment. You can perform the operation.

3 to 4b are views for explaining in detail the driving unit constituting the construction equipment according to an embodiment of the present invention, Figure 5 illustrates a rotation shaft adapter and air supply means constituting the driving unit according to an embodiment of the present invention It is a figure for following.

Referring to the drawings in more detail the drive unit constituting the construction equipment according to an embodiment of the present invention as follows.

In the embodiment of the present invention, the driving unit 300 may include a striking device 600, a rotary gear box 700, and a rotary shaft adapter 800.

More specifically, the striking device 600 is disposed in front of the rectangular body 100, a plurality of hydraulic hoses connected to the hydraulic pump and the hydraulic tank provided in the heavy equipment, such as fork crane is connected to the vibration by the hydraulic pressure In a manner it can be applied to the impact shaft rotary shaft 710 exposed to the upper side of the rotary gear box.

At this time, as shown in the figure, the impact of the impact rod formed on the tip of the striking device 600, the shock absorbing means of the urethane material between the head of the striking device 600 and the rotary shaft 710 rotating shaft ( The front end of the housing box constituting the striking device 600 may be prevented from being damaged by contacting the head of the rotary shaft 710 while safely transmitting to the 710.

In addition, in the embodiment of the present invention, the rotary gear box 700, as shown in detail in the drawing, while receiving the impact of the striking device 600 is delivered to the drill pipe 200 while the drill pipe It is provided with a striker combined rotary shaft 710 capable of rotating the 200 may be disposed to the lower side of the striking device 600.

Referring to the drawings, the rotary gear box 700 constituting the drive unit 300, the box housing 701, the rotary shaft 710 combined with the impactor, the shaft housing 720, the shaft roller bearing 730, The reduction gear 740, the drive gear 750, and the reduction drive motor 760 may be provided.

First, the box housing 701 may be formed in a rectangular box shape having through holes 701a and 701b formed on upper and lower surfaces thereof, and on the upper surface thereof, a deceleration driving motor 760 to be described later. Coupling holes may be further provided.

In addition, the hammer combined rotary shaft 710, the upper end is exposed to the upper side through the through hole 701a formed on the upper surface of the box housing 701 and the lower end is penetrating formed on the lower surface of the box housing 701 Exposed downward through the hole 701b and the outer periphery may be formed as a hexagonally processed body.

That is, according to the embodiment of the present invention, the body portion of the rotary shaft 710 combined with the striking machine can be combined with the shaft housing 720 by configuring the diameter of the head portion relatively larger than the diameter of the body portion.

At this time, the impact is directly transmitted to the drill bit coupled to the rotary shaft adapter 800 by the hexagonal body of the rotary shaft 710 passing through the shaft housing 720 when hitting the bar as shown in FIG. When the deceleration drive motor 760 is rotated, the hexagonal body 710 of the rotary shaft coupled to the hexagonal hole of the shaft housing 720 rotates together with the shaft housing 720 so that it is coupled to the rotary shaft adapter 800. Torque can be transmitted to the drill bit.

Here, the shaft housing 720, as described above, has a hexagonal shaft hole 721 in the center may surround the body of the rotary shaft 10 combined with the striker can be accommodated.

In addition, the shaft roller bearings 730 may be formed around upper and lower inner through holes of the box housing 701, that is, a plurality of shaft roller bearings 730 may be formed to support the rotation operation of the shaft housing 720.

In addition, the circular deceleration rotating gear 740 is formed to surround the circumference of the shaft housing may transmit a rotational force to the shaft housing 720.

In addition, the drive gear 750 is a configuration for transmitting a driving force to the reduction gear 740, the reduction gear motor 760 is formed on one side of the upper surface of the box housing 701 the drive gear The driving force necessary for 750 can be generated.

Here, in order to facilitate the operation of the drive gear 750 and the reduction gear 740, the gear oil can be filled up to the height of the gear of the rotary gear box 700, the gear in the box housing 701 Gear oil drain coke 701c for filling oil may be formed.

In addition, in the embodiment of the present invention, the drive unit 300 may be driven by a hydraulic method provided in heavy equipment such as a fork crane when rotating the drill bit 210 or applying a shock in a vibration manner.

On the other hand, in the embodiment of the present invention, the rotary shaft adapter 800 is disposed to the lower side of the rotary gear box 700, the upper side is coupled with the lower end of the rotary shaft 710 combined with the hammer and the lower side drill pipe 200 It may be formed in a cylindrical shape coupled to the upper end of the).

In more detail, as shown in Figures 4a to 5, the rotary shaft adapter 800, the cylindrical shaft coupling portion 810 is coupled to interlock with the striking motion of the rotary shaft 710 combined blower, and It may be provided with a cylindrical drill pipe coupling portion 820 coupled to interlock with the rotary motion of the striker combined rotary shaft 710.

Here, the shaft coupling portion 810 is provided with a cylindrical outer housing 811 that is independently fixed to the rectangular main body 100, the impact operation and rotation of the hammer combined rotary shaft 710 It may be provided with a rotating part 812 penetrating the inside of the outer housing 811 to enable hitting and rotation in conjunction with the operation.

As shown in the figure, the upper and lower ends of the outer housing 811 may be disposed in the upper and lower cases whose outer periphery coincides with the outer housing 811, the bearing member is formed around the body of the rotating part 812 The shock due to the rotational force and the vibration of the blower combined rotary shaft 710 in the interior of the outer housing 811 can be transmitted well.

In addition, in the embodiment of the present invention, the drill pipe coupling portion 820, the connecting portion is formed to protrude to the top to the lower side of the rotating portion 812 constituting the shaft coupling portion 810 and the linking operation is interlocked. 821, and a drill pipe fixing part 822 to which the upper side of the drill pipe 200 is inserted and fixedly coupled to the lower side.

On the other hand, as shown in the figure, the rotary shaft adapter 800 may further include an air supply means 830 for supplying air to the inside through one side of the shaft coupling portion 810.

Here, the air supply means 830 may include a main air supply hose 831, a main supply unit 832, a return air supply hose 833, and an air flow path 834.

More specifically, the main air supply hose 831 is a configuration for supplying air from an air compressor of heavy equipment such as a fork lane.

In addition, the main supply portion 832, one end is coupled to the air supply pipe 813 protruding on the outer surface of the shaft coupling portion 810, the other end is coupled to the main air supply hose 831 and a plurality of tubular body May be formed by being assembled to each other, it is a configuration for supplying high pressure air.

In addition, both ends of the return air supply hose 833 may be coupled to a pair of 'T' shaped pipes of the pipes constituting the main supply unit 832, and the drill pipe ( 200) serves to continuously supply the low pressure air so as not to get foreign matter inside, or to recover when the amount of air supplied to the drill bit 200 through the main supply 832 is large. Can be done.

In addition, the air flow path 834 may be formed in the rotary shaft adapter 800 so that air introduced through the air supply pipe 813 is introduced into the drill pipe 200. The shaft coupling portion 810 constituting the 800 and the drill pipe coupling portion 820 may be formed in a tubular shape.

Therefore, it is possible to inject high-pressure air to the air supply means 830 according to an embodiment of the present invention crushed stone powder generated in the process of drilling the ground to install a spiral strut constituting the solar structure and Dust such as dust can be scattered to the outside.

6 to 8 are views for explaining a vertical transfer device according to an embodiment of the present invention.

As shown in the figure, the vertical transfer device constituting the installation device for installing a solar module according to an embodiment of the present invention, the guide rail 410, the drive unit transfer plate 420, the transfer chain 430, the chain drive motor 440, and a transport chain accommodating space 450.

Referring to the drawings in more detail, the guide rail 410 is formed along the longitudinal direction in front of the rectangular body 100, the left and right both edges of the rectangular body 100 has a sliding rail structure integrally It can be formed as.

In addition, the driving unit transfer plate 420 may support and fix the driving unit 300 and perform a transfer operation along the guide rail 410.

In this case, the driving unit transfer plate 420 may be simultaneously transported to the driving unit 300 by combining and equipped with a fixed plate (not shown) for fixing the striking device 600 and the rotary gear box 700, respectively. have.

In addition, the transfer chain 430, the both ends are connected to the upper and lower ends of the drive plate transfer plate 420 may perform the lifting operation around the roller formed on the top and bottom of the rectangular body 100. .

At this time, the chain drive motor 440, by rotating the roller formed on the top of the rectangular body 100 can transmit a driving force to the transfer chain.

In addition, the transport chain receiving space 450 may be formed as a vertical hollow inside the rectangular body 100 to provide a moving space of the transport chain 430 as shown in the drawing.

That is, according to the embodiment of the present invention, one end is fixed to the upper end of the striking device 600 constituting the drive chain 300, the other end is fixed to the lower end of the rotary gear box 700 The lifting and lowering operation of the driving unit 300 may be performed by vertically arranging and moving around the rollers formed at the upper and lower ends of the rectangular body 100.

On the other hand, according to an embodiment of the present invention, the installation device for installing a solar module, as shown in the drawing, the drill pipe transfer plate is moved in conjunction with the transfer chain 430 and moved along the guide rail 410 220 may be further provided.

Here, the drill pipe feed plate 220 may include a support frame 221 for supporting and fixing the drill pipe 200 coupled to the drive unit 300, the support frame 221 is the drill pipe ( A pipe hole 221a through which the 200 passes and a pair of transfer chain holes 221b through which the transfer chain 430 passes may be provided.

That is, the drill pipe conveying plate 220 is to perform the conveying operation along the guide rail 410 formed in front of the rectangular body 100 while maintaining a constant distance to the lower side of the drive plate conveying plate 420. Can be.

9 is a view for explaining in detail the use example of a construction device for installing a solar module according to an embodiment of the present invention.

Referring to Figures 1 and 9 will be described the operation method of the solar module installation device according to an embodiment of the present invention.

As shown in FIG. 1, the construction apparatus for installing a solar module according to an embodiment of the present invention, first, of the drill pipe 200 coupled to the lower portion of the drive unit 300 at the point where the spiral support 12 is to be installed. Drilling the ground by rotating the drill bit (210). At this time, it is possible to remove the foreign matter remaining in the drill pipe 200 by injecting a high pressure air.

Next, the spiral strut 12 is inserted into the perforated ground and the spiral perforated adapter 11 is mounted on the opened upper side of the spiral strut 12.

Next, the drill bit 210 of the drill pipe 200 coupled to the lower portion of the drive unit 300 constituting the spiral strut construction equipment is located on the upper side of the spiral boring adapter 11 and the striking device 600 is positioned. Using the vibration method, the spiral strut can be driven to the desired depth of the ground.

As described above, the present invention, by implementing a strike means and a rotating means interlocked with a drill pipe equipped with a drill bit at the end in a single rotary gear box at the same time to install a solar structure even in a region difficult to install due to the solid ground It is easy to construct spiral struts for construction, and it can be used in various working environments as well as to increase mobility by combining with heavy machinery. .

In addition, the present invention is provided with a cylinder and a guide rod at the rear of the square main body, enabling the lifting and lowering operation of the square main body around the swing gear coupled to the fork-lane to move the drive portion vertically transferred from the front of the square main body The additional radius can be secured, and as a result, the size of the main body can be reduced.

In addition, the present invention is composed of a hexagonal body of the body portion of the rotary shaft combined with the striker, and the diameter of the head portion relatively larger than the diameter of the body portion combined with the shaft housing by rotating the shaft through the shaft housing when hit by the impact device The impact is directly transmitted to the drill bit by the hexagonal body of the, and the rotational force is transmitted to the drill bit by the hexagonal body of the rotary shaft coupled to the hexagonal hole of the shaft housing during rotation.

So far, the present invention has been described in detail, but the embodiments mentioned in the process are merely exemplary and are not limited, and the present invention is provided by the following technical model registration claims. However, within the scope not departing from the field, the component change of the degree that can be coped evenly will belong to the scope of the present invention.

11: spiral punching adapter
12: spiral holding stand
100: main body
101: guide tube
110: guide rod
120: cylinder part
120a: main cylinder rod
200: drill pipe
210: drill bit
220: drill pipe feed plate
221: support frame
300 drive unit
400: vertical feeder
410: guide rail
420: transfer plate
430: transfer chain
440: chain drive motor
450: space for transport chain
500: Swing Gear
510: guide plate
511: rail
520: gear coupling
521: rotating motor
522: Reduction Gear
530: heavy equipment cylinder coupling
531: heavy duty cylinder rod
600: blow device
700: Rotating Gear Box
701: box housing
701a, 701b: through hole
710: blower combined rotation shaft
720: shaft housing
721 shaft hole
730: Roller Bearing
740: reduction gear
750: Drive Gear
760: deceleration drive motor
800: rotating shaft adapter
810 shaft coupling
811: external housing
812: rotating part
813: air supply pipe
820: drill pipe joint
821: connection
822 drill pipe fixing part
830: air supply means
831: main air supply hose
832: main supply
833: Return Air Supply Hose
834: Air Euro

Claims (10)

Rectangular body 100;
A drill pipe 200 formed vertically toward the front lower side of the rectangular body 100 and having a drill tube 210 mounted at one end thereof, the drill pipe 200 having an empty inside;
While the other end of the drill pipe 200 is fixedly coupled to the upper side of the drill pipe 200 is formed by drilling the ground by rotating the drill bit 210 by using a hydraulic drive method and the vibration method to punch the ground and spiral A driving unit 300 fixing the support to the ground;
Vertical transfer device 400 for performing the lifting operation of the drive unit 300 is fixed to the drill pipe 200 in the longitudinal direction of the rectangular body 100; And
It is equipped with a swing gear 500 for simultaneously supporting the front and rear tilting operation and the left and right rotation by combining with the heavy equipment including the fork lane in the rear center portion,
The drive unit 300,
A striking device 600 disposed in front of the rectangular body 100; And
Receiving the impact of the striking device 600 is transmitted to the drill pipe 200 and provided with a blower combined rotary shaft 710 that can rotate the drill pipe 200 to the lower side of the striking device 600 It is provided with a rotary gear box 700,
The rectangular body 100,
It is provided with a pair of guide rods 110 for vertically contacting the ground to the lower side of the swing gear 500,
An end of the cylinder rod is fixed to the upper end of the main body 100 to the upper side of the swing gear 500 to form a cylindrical portion 120 that is stretched and contracted so that the main body 100 moves up and down vertically along the guide rod 110. Construction device for installing a solar module, characterized in that
delete The method according to claim 1, The swing gear 500,
The upper end of the guide rod 110 is coupled to the lower side, the lower end of the cylinder portion 120 is coupled to the upper side, the rear end portion of the main body 100 in response to the stretching operation of the cylinder portion 120 A guide plate 510 having a rail portion 511 for lifting up and down on an inner side surface of the body;
A rotary motor 521 and a reduction gear 522 for performing left and right pivoting operations of the main body 100 around a fixed part coupled with heavy equipment are formed in a circular shape on one side of the guide plate 510. Gear coupling part 520; And
A heavy equipment cylinder coupling part 530 which is formed on the upper side of the gear coupling part 520 and is coupled to the cylinder rod end of the heavy equipment to perform the front and rear tilting operation of the rectangular body 100 using the cylinder of the heavy equipment; Construction device for installing a solar module, characterized in that
The method according to claim 1, The rotary gear box 700 constituting the drive unit 300,
A box housing 701 having a rectangular box shape having through holes 701a and 701b formed on upper and lower surfaces thereof;
The upper end is exposed upward through the through hole 701a formed in the upper surface of the box housing 701 and the lower end is exposed downward through the through hole 701b formed in the lower surface of the box housing 701. Compressor combined rotary shaft 710 formed of the hexagonal processed body;
A shaft housing 720 having a hexagonal shaft hole 721 formed at a center thereof to surround and accommodate the body of the rotary shaft 10 combined with the striker;
A plurality of shaft roller bearings 730 formed around upper and lower inner through holes of the box housing 701 and configured to support a rotation operation of the shaft housing 720;
A circular deceleration rotating gear 740 formed to surround the shaft housing;
A drive gear 750 for transmitting a driving force to the reduction gear 740; and
And a deceleration drive motor 760 which generates a driving force necessary for the drive gear 750 and is formed on one side of the upper surface of the box housing 701.
The method of claim 4, wherein the driving unit 300,
A cylindrical rotary shaft adapter 800 disposed below the rotary gear box 700 and coupled to an upper end of the rotary gear box 700 and coupled to an upper end of the drill pipe 200. Construction device for installing a solar module, characterized in that
The method according to claim 5, The rotary shaft adapter 800,
Cylindrical shaft coupling portion 810 coupled in conjunction with the striking operation of the striker combined rotary shaft 710; And
Construction device for a solar module installation comprising: a cylindrical drill pipe coupling portion 820 coupled to interlock with the rotating operation of the rotary shaft 710 of the striker
The method of claim 6, wherein the shaft coupling portion 810,
A cylindrical outer housing 811 that is independently fixed to the rectangular body 100; And
And a rotating part 812 penetrating the inside of the outer housing 811 so as to be hit and rotate in conjunction with the hitting operation and the rotating operation of the rotary shaft 710 combined with the striker. Device
The method according to claim 7, wherein the drill pipe coupling portion 820,
A connection part 821 formed to protrude to an upper end of the rotating part 812 constituting the shaft coupling part 810 so that a hitting and rotating operation is interlocked; And
Construction device for installing a solar module, characterized in that it comprises a; drill pipe fixing part 822 that the upper side of the drill pipe 200 is inserted and fixedly coupled to the lower side inside;
The method of claim 1, wherein the vertical transfer device 400,
A guide rail 410 formed along the longitudinal direction in front of the rectangular body 100;
A driving unit transfer plate 420 supporting and fixing the driving unit 300 and performing a transfer operation along the guide rail 410;
A transfer chain 430 which moves up and down about the rollers formed at the top and bottom of the rectangular main body 100 while both ends are connected to the top and bottom of the driving unit transfer plate 420;
A chain drive motor 440 for transmitting a driving force to the transfer chain by rotating a roller formed at an upper end of the rectangular body 100; And
Construction device for installing a solar module, characterized in that it comprises a; transport chain accommodating space (450) formed in a vertical hollow in the inside of the rectangular body 100 to provide a moving space of the transfer chain (430)
The method according to claim 9,
It has a support frame 221 for fixing the drill pipe 200 coupled to the drive unit 300 and is formed in front of the rectangular body 100 while maintaining a constant distance to the lower side of the drive plate transfer plate 420 Construction device for installing a solar module, characterized in that it further comprises; drill pipe conveying plate 220 for performing a conveying operation along the guide rail 410

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