KR102027851B1 - Solar panel and its construction method - Google Patents

Abstract

The present invention relates to a solar panel which comprises a cleaning unit which moves along an upper surface of a solar module and removes foreign materials of a surface of the solar module. The solar panel can effectively remove contaminants, yellow dust, algae dung, snow and the like on the surface of the solar module.

Description

Solar panel and its construction method

The present invention relates to a solar panel and a construction method thereof, the solar panel including a frame that firmly supports the panel irrespective of the weight of the panel and a buffer member for buffering the shock transmitted to the panel even when an external impact occurs And to a construction method thereof.

In general, in photovoltaic power generation, power is generated by concentrating solar light into a solar cell or a photovoltaic module. Here, the photovoltaic module is called a solar module as a kind of solar panel, and plays an important role in converting light energy into electrical energy in photovoltaic power generation.

Therefore, for solar power generation, the solar module panel should be installed in a sunny sunny area and cleaned. If all the methods of photovoltaic power generation are shaded even in one solar cell, the power generation efficiency of the whole module connected in series may not be lowered, but the power generation efficiency of the entire series connected module may be drastically reduced. If you can't generate power, and birds and organic animals, such as pigeons, sit on the solar panels and leave excreta, they will not only produce power for the contaminated solar cell, but also the entire solar panel until you clean these feces. This is because the efficiency is very low, and when spring yellow dust, pollen and autumn leaves, etc. accumulate on the solar panel, this is also the cause of lowering the power production of the entire solar module connected to the solar panel.

Therefore, in the related art, an automatic device for cleaning the solar module panel has not been developed, and the worker is cleaning by using an appropriate cleaning tool. However, the solar module is not only high in height, but also large in area, making it difficult for an operator to directly clean the light collecting plate, and there is a problem that the safety module or the solar module may be damaged during the cleaning process.

In addition, there was a need for a method that can cushion external shocks so that the solar panel is not damaged by an external force such as an earthquake.

Korean Patent Publication No. 10-2009-0090722

One aspect of the present invention is to provide a solar panel that can efficiently remove contaminants, yellow sand, bird droppings and snow on the surface of the photovoltaic module using a cleaning device that automatically reciprocates.

Another aspect of the present invention is to provide a solar panel that can cushion the external impact so that the solar panel is not damaged by an external force such as an earthquake.

The technical problem of the present invention is not limited to the technical problem mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

The solar panel according to an embodiment of the present invention includes a cleaning unit which moves along the upper surface of the solar module and removes contaminants on the surface of the solar module.

In one embodiment, the support for supporting the solar module, is formed in a vertical frame and a horizontal frame; An inverter unit converting DC power input from the solar module into AC power; A monitoring server unit for monitoring an amount of power generated by the solar module and an operating state of the inverter unit and generating a corresponding monitoring signal related to the amount of power and the operating state; An uninterruptible power supply unit connected to the power input module of the monitoring server unit and supplying alternative power to the power input module of the monitoring server unit when a power failure occurs; And a control unit controlling an operation of at least one of the cleaning unit, the support unit, the inverter unit, the monitoring server unit, and the uninterruptible power supply unit, wherein the cleaning unit rotates an upper surface of the solar module through a rotational movement. Rotary brush to clean; A housing module extending along a width direction of the solar module and coupled to the rotating brush and having a roller formed at a lower portion thereof; Fastening modules formed at both ends of the housing module and having a pinion gear formed at a lower end thereof; The solar module extends along the longitudinal direction of the solar module and includes a gear gear engaged with the pinion gear to guide the movement of the housing module and the rotary bush along the longitudinal direction of the solar module. Guide module; An injection module formed in at least one region of the housing module and spraying a cleaning solution or water onto an upper surface of the solar module; A discharge module formed along an outer circumferential surface of the solar module and configured to guide discharge of the sprayed cleaning liquid or water; And an adsorption part formed on a lower surface of the housing module and sucking or adsorbing a foreign substance on the upper surface of the solar module. And a filtering part connected to the discharge module and the suction part to filter foreign substances, wherein the injection module is formed in the injection module and guides the movement of the cleaning liquid; A second guide tube formed inside the injection module to guide the movement of the water; And a spray nozzle connected to the first guide tube and the second guide tube to discharge any one of the cleaning liquid and the water, wherein the filter part collects the cleaning liquid and the water discharged therein, and A storage module for collecting foreign substances introduced through the adsorption unit; A supply pipe for supplying the cleaning solution, the water, and the foreign matter to the storage module; A discharge pipe installed to be connected to the supply pipe to discharge the cleaning liquid, the water, and the foreign substances introduced into the supply pipe to the storage module: a filtration unit connected to the respective discharge pipes; And at least one temperature control tube formed inside the storage module, wherein a pleat is formed on the outer circumferential surface contacting the cleaning liquid and the water, and cooling water flows therein to control the temperature of the cleaning liquid and the water. And a pressurizing table including a plurality of suction holes for suctioning or adsorbing foreign substances on the upper surface of the solar module, a connection hole communicating in parallel with the suction hole, and a flow path connecting the suction hole and the connection hole; And a plurality of suction plates respectively coupled to the suction holes, wherein the uninterruptible power supply unit includes an uninterruptible power supply module supplying alternative power to a power input module of the monitoring server unit when a power failure occurs; An inner frame having the uninterruptible power supply module coupled therein and having coupling protrusions formed in at least one region of an outer circumferential surface thereof; An outer frame including the inner frame therein and having a coupling groove coupled to the coupling protrusion; And an elastic part which is formed in at least one region of the coupling groove and slides in a left or right direction or an up and down direction by an elastic force to attenuate vibration or shock, and the elastic part supports the at least one region of the coupling protrusion. frame; Four support plates to support the support frame seated on the upper side, and to reduce the vibration or shock by sliding the left and right or up and down directions by the elastic force in response to the vibration or shock transmitted from the support frame; Two frames of the first frame and the second frame are rotatably installed at each lower portion of the four support plates to support the support plate, and adjust the length of the first frame or the second frame to A support frame for determining a support position of the support frame by the support plate; And a lower portion of the first frame is connected to the upper side to allow rotation and horizontal sliding movement, and a lower portion of the second frame is connected to and installed on the one side to enable rotation and vertical sliding movement. Or a support column that absorbs vibration or shock through elastic force of the cross elastic part or the vertical elastic part during the sliding movement of the second frame.

In one embodiment, formed on the lower end of the vertical frame, the buffer for supporting the support from vibration or shock; And a weighing unit formed in one region of the vertical frame and measuring a weight applied to the support unit, wherein the buffer unit includes: a buffer housing member having a space formed therein; A lower elastic body coupled to the lower end of the vertical frame and reducing vibration or impact on elastic force; An upper elastic body formed on an upper portion of the lower elastic body and having the vertical frame coupled to a through hole formed at a center thereof; An upper cover formed on an upper surface of the upper elastic body and covering the buffer housing member; And a horizontal elastic body formed between the protective part formed on the upper surface of the upper cover and the lower elastic body and the upper elastic body, and being orthogonal to the outer circumferential surface of the vertical frame to absorb vibration and shock in a horizontal direction. The protection unit may include a first sheet layer including an inorganic elastic waterproof material; A plurality of waterproof sheets of metal material disposed on the first sheet layer; A soft magnetic joint layer attached to at least one of a joint upper end and a joint lower end between the waterproof sheets; And a second sheet layer formed on the waterproof sheet and made of an inorganic elastic waterproof material. And a coating layer formed on the second sheet layer to protect the second sheet layer from external magnetic poles. A soft buffer disposed between the plurality of waterproof sheets and an adhesive composition applied to at least one region of the waterproof sheet and fixedly bonding the waterproof sheet, wherein the adhesive composition comprises 40 to 80 parts by weight of a thermoplastic resin, 5 to 40 parts by weight of the tackifier resin, 1 to 5 parts by weight of rosin, 1 to 10 parts by weight of plasticizer, 1 to 10 parts by weight of filler, 0.1 to 1 parts by weight of antioxidant, 0.1 to 5 parts by weight of nano silica, and the weight The measuring unit includes a weight housing member including an installation space opened upwardly therein; A deformable member which is moved upward and downward along an installation space of the heavy housing member and whose shape is deformed by a load applied by the support part in a state in which power is applied; A guide member formed between the installation space of the weight housing member and the deformation member; After the deforming member is lifted and maintained, the thread is formed along an outer circumferential surface thereof, and is provided in a rotating bar provided to be rotatable in the heavy housing member and an installation space of the heavy housing member to be elevated by the rotation of the rotary rod. A lifting member including a link arm; A calculation member configured to receive a deformation signal of the deformation member and calculate a load applied to the support part; And a display member for displaying the weight calculated by the calculation member, wherein the control unit sets, by the user, a load applied to the support part by the calculation member that receives the deformation signal of the deformation member when the cleaning part is in operation. If it is calculated that the value exceeds one input value, the spraying of the water or the cleaning liquid of the cleaning unit is stopped, the operation of the cleaning unit is stopped or only the rotary brush is operated, and the control unit is configured to modify the deformation of the cleaning unit. The calculation member receives the deformation signal of the member and calculates a load applied to the support unit to determine whether the injection module is malfunctioning. When the injection module does not spray the water or the cleaning liquid, an alarm is given to the user. to provide.

According to one aspect of the present invention, it is possible to provide a solar panel that can efficiently remove contaminants, yellow dust, algae excretion and snow on the surface of the photovoltaic module by using a cleaning device that automatically reciprocates. .

Another aspect of the present invention is to provide a solar panel that can cushion the external impact so that the solar panel is not damaged by an external force such as an earthquake.

The effects of the present invention are not limited to the above-mentioned effects, and various effects may be included within the scope apparent to those skilled in the art from the following description.

1 is a view showing a solar panel according to an embodiment of the present invention.
2 is a view showing a cleaning unit according to an embodiment of the present invention.
3 shows an injection module according to an embodiment of the present invention.
4 shows an adsorption unit according to an embodiment of the present invention.
Figure 5 shows a side of the adsorption portion according to an embodiment of the present invention.
6 is a partial cross-sectional view of the adsorption part according to an embodiment of the present invention.
Figure 7 shows a filter portion according to an embodiment of the present invention.
8 is a view showing an elastic portion according to an embodiment of the present invention.
9 and 10 are views illustrating the support pillar of FIG. 8.
FIG. 11 is a view illustrating the cross elastic part of FIG. 9.
FIG. 12 is a view showing the vertical elastic part of FIG. 10.
Figure 13 illustrates a buffer according to an embodiment of the present invention.
14 illustrates a protection unit according to an embodiment of the present invention.
15 shows a weighing unit according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE INVENTION The following detailed description of the invention refers to the accompanying drawings that show, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different but need not be mutually exclusive. For example, certain shapes, structures, and characteristics described herein may be embodied in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. In addition, it is to be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the invention. The following detailed description, therefore, is not to be taken in a limiting sense, and the scope of the present invention, if properly described, is defined only by the appended claims, along with the full range of equivalents to which such claims are entitled. Like reference numerals in the drawings refer to the same or similar functions throughout the several aspects.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the drawings.

1 is a view showing a solar panel according to an embodiment of the present invention.

The construction method of the solar panel is as follows. First of all, the solar panel civil works survey the cadastral and current status and proceed according to the civil design. And install the same structure as the solar panel support. After installing the structure, perform wiring work and inspect the solar panel for normal operation.

1, a solar panel 1000 according to an embodiment of the present invention includes a cleaning unit 100, a support unit 200, an inverter unit 300, an uninterruptible power supply unit 400, and a control unit 600. ), May include a monitoring server unit 700.

The cleaning unit 100 may move along the upper surface of the solar module 10 and remove contaminants on the surface of the solar module 10. The cleaning unit 100 may automatically operate according to a predetermined period set by the user along the longitudinal direction of the solar module 10.

The support part 200 supports the solar module 10 and is formed of a vertical frame 210 and a horizontal frame 220. The support 200 may be a buffer 800 to be described later on the lower end of the vertical frame 210 in order to stably support the solar module 10 from the earthquake or wind power or other external force.

The inverter unit 300 may convert DC power input from the solar module 10 into AC power. The inverter unit 300 may be formed in at least one region of the support unit 200 or may be coupled to at least one region of the solar module 10.

The uninterruptible power supply unit 400 is connected to the power input module of the monitoring server unit 700, which will be described later, and can supply alternative power to the power input module of the monitoring server unit 700 when a power failure occurs. That is, the uninterruptible power supply unit 400 is supplied with alternative power immediately when the power supply is cut off or the earth leakage breaker is activated and a power failure occurs, and thus the inverter unit 300 and the monitoring server unit 700 are down. Prevent it. The uninterruptible power supply unit 400 is coupled to the uninterruptible power supply module 410, the uninterruptible power supply module 410 for supplying alternative power to the power input module of the monitoring server 700 when a power failure occurs. The outer frame includes an inner frame 420 having a coupling protrusion 421 formed in at least one region of the outer circumferential surface, and an inner frame 420 therein, and an outer coupling groove 431 having a coupling protrusion 421 formed therein. It may be formed in at least one region of the frame 430 and the coupling groove 431, and may include an elastic portion 500 to reduce the vibration or shock by sliding in the horizontal direction or the vertical direction by the elastic force.

The controller 600 may control operations of at least one of the cleaning unit 100, the support unit 200, the inverter unit 300, the monitoring server unit 700, and the uninterruptible power supply unit 400.

The monitoring server 700 monitors the amount of power generated by the solar module 10 and the operating status of the inverter 300, generates a corresponding monitoring signal related to the amount of power and the operating status, and provides the same to the user. can do.

2 is a view showing a cleaning unit according to an embodiment of the present invention.

2, the cleaning unit 100 according to an embodiment of the present invention is a rotary brush 110, a housing module 120, a fastening module 130, a guide module 140, a spray module 150, It may include a discharge module 160, the adsorption unit 170 and the filtering unit 180.

The rotary brush 110 cleans the upper surface of the solar module through a rotational movement. The housing module 120 extends along the width direction of the solar module 10 and is coupled to the rotating brush 110. A roller 121 is formed below the housing module 120 to facilitate the movement of the housing module 120. The fastening module 130 is formed at both ends of the housing module 120, and the pinion gear 131 is formed at the lower end. The fastening module 130 stably supports the housing module 120 when the housing module 120 moves, and transmits power for moving the housing module 120 by using the rotational force of the pinion gear 131.

 The guide module 140 extends along the longitudinal direction of the photovoltaic module 10 on the bottom surface of the photovoltaic module 10. The guide module 140 includes a rack gear 141 engaged with the pinion gear 131 to guide the movement of the housing module 120 and the rotating brush 110 along the longitudinal direction of the solar module 10.

The injection module 150 may be formed in at least one region of the housing module 120, and may clean the housing module 120 by spraying a cleaning liquid or water on the upper surface of the solar module 10. The injection module 150 may increase the efficiency of cleaning by spraying the cleaning liquid or water toward the lower portion of the rotary brush 110.

The discharge module 160 is formed along the outer circumferential surface of the solar module 10 and guides the discharge of the sprayed cleaning liquid or water. The discharge module 160 may be formed in an inclined form to facilitate the movement of the cleaning liquid or water, or may further include an air spray or water spray configuration therein. In addition, the discharge module 160 may be connected to the filter unit 180 and guide the movement of the sprayed cleaning solution or water to the filter unit 180.

Adsorption unit 170 is formed on the lower surface of the housing module 120, it may suck or adsorb foreign substances located on the upper surface of the solar module (10). Filtering unit 180 is connected to the discharge module 160 and the adsorption unit 170, can filter out the foreign matter.

3 shows an injection module according to an embodiment of the present invention.

Referring to FIG. 3, the injection module 150 according to an embodiment of the present invention may include a first guide tube 151, a second guide tube 152, and an injection nozzle 153.

The first guide tube 151 is formed in the injection module 150, and guides the movement of the cleaning liquid. The second guide pipe 152 is also formed in the injection module 150, and guides the movement of water. The first guide tube 151 and the second guide tube 152 is configured to provide a cleaning liquid or water for cleaning the solar module 10, the injection module 150 for cleaning the first guide tube 151 When spraying the cleaning liquid through the), the second guide tube 152 may be closed. In addition, according to the embodiment, the air may be provided instead of water through the second guide pipe 152.

The injection nozzle 153 may be connected to the first guide tube 151 and the second guide tube 152 to discharge any one of the cleaning liquid and the water. That is, when the user cleans the solar module 10 by adjusting the injection nozzle 153, only the first guide tube 151 is opened to release only the cleaning liquid, or the first guide tube 151 and the second guide tube 152. ) Can be opened simultaneously and mixed with cutting oil and water to be released to the photovoltaic module (10). In addition, according to the exemplary embodiment, only the second guide tube 152 may be opened to clean the solar module 10 with water or air.

4 illustrates an adsorption unit according to an embodiment of the present invention, FIG. 5 illustrates a side surface of the adsorption unit according to an embodiment of the present invention, and FIG. 6 is a partial cross-sectional view of the adsorption unit according to an embodiment of the present invention.

4 to 6, the adsorption part 170 according to the exemplary embodiment of the present invention includes a pressure zone 171, an adsorption plate 172, and a valve part 173.

The pressure bar 171 has a wide plate shape, and a plurality of flow paths 1711 are formed inside the pressure bar 171, and a plurality of suction holes 1712 are formed on the bottom thereof so as to be vertically and horizontally arranged. On the upper surface of the pressure zone 171, a connection hole 1713 is provided in communication with a plurality of suction holes 1712 connected in parallel with the device for generating a negative pressure (1741).

The plurality of suction plates 172 are individually coupled to each suction hole 1712. The adsorption plate 172 may be screwed, or may be fixed to the pressing table 171 in a variety of ways, such as may be fixed by a band after being connected in a fitting manner. Adsorption plate 172 is connected to the first buffer module 1722, the first buffer module 1722 formed extending from the fixed module 1721, the fixed module 1721 for fixing to the pressure bar 171 as the center It may include a second buffer module (1723) that is part cut off. Such a suction plate 172 has a structure that can appropriately cope with the three-dimensional shape of the plate. The suction plate 172 may be formed of silicon or rubber. The valve portion 173 has a flow hole 1731, one side of which is connected to the flow path 1711 connected to the connection hole 1713 and the other side thereof to the suction hole 1712.

Figure 7 shows a filter portion according to an embodiment of the present invention.

Referring to Figure 7, the filtering portion 180 according to an embodiment of the present invention is a storage module 181, supply pipe 182, discharge pipe 183, filtration unit 184, temperature control tube 185 and connection It may include a tube (not shown).

The storage module 181 stores the cleaning liquid, water, and the like radiated from the injection module 150. That is, after being radiated to the solar module 10, the cleaning liquid, water, foreign matters, etc. that passed through the discharge module 160 for guiding the discharge of the cleaning liquid or water injected. The supply pipe 182 supplies the cleaning liquid, water, and foreign matter that have passed through the discharge module 160 into the storage module 181. The discharge pipe 183 is installed to be connected to the supply pipe 182 so that the cleaning liquid, water, and foreign substances introduced into the supply pipe 182 may be stored in the storage module 18. Discharge to 1). The filter unit 184 is connected to each discharge pipe 183 to filter out foreign substances contained in the cleaning liquid or water. That is, the cleaning liquid or water radiated by the injection module 150 may include foreign substances that existed on the surface of the solar module 10, and the filtration unit 184 filters the filters. The filtering unit 184 may be formed in a configuration in which a filter hole 1841 is formed so that foreign substances having a predetermined size or more may not pass therethrough. In addition, the filtration unit 184 may be formed to have a magnetic configuration to filter the metal material.

The temperature control tube 185 is formed inside the storage module 181, and the outer circumferential surface of the storage module 181 may be formed to have a pleat formed therein so as to widen the contact area with the cleaning liquid or water. In addition, the cooling water flows into the temperature control tube 185 to adjust the temperature of the cleaning liquid or water, and a plurality of such temperature control tubes 185 may be formed. At this time, the cooling water is accommodated in the plurality of temperature control tube 185, with respect to 1000 parts by weight of ion alkaline water and 1000 parts by weight of the ion alkali water, 35 to 55 parts by weight of amethyst, 5 to 10 parts by weight of the serpentine and precious stone 35 To 55 parts by weight. It contains 20-40 weight part of tourmaline powder, 20-35 weight part of jade, 4-8 weight part of silicates, 4-8 weight part of calcium, and 4-8 weight part of tungstens, and 1000 weights of ion alkaline water with respect to 1000 weight part of ion alkaline waters It may include 10 to 15 parts by weight of ganguerite, and 1 to 10 parts by weight of rust preventive agent, 1 to 10 parts by weight of antifoaming agent and 1 to 10 parts by weight of surfactant based on 1000 parts by weight of ionic alkali water. Subsequently, the ratio of amethyst, pyrophyllite and ear stalactite can be produced with 45 parts by weight of amethyst, 7.5 parts by weight of sterly serpentine and 45 parts by weight of earstone, relative to 1000 parts by weight of ion alkaline water.

The connection pipe (not shown) may be connected to the injection module 150 to supply foreign substances to the injection module 150 and supply cleaning liquid or water whose temperature is controlled.

8 is a view showing an elastic portion according to an embodiment of the present invention.

Referring to FIG. 8, the elastic part 500 includes a support frame 540, four support plates 510, four pairs of support frames 520, and a support column 530.

The supporting frame 540 is supported by the supporting plate 510 installed at the lower side, and when the coupling protrusion 521 is coupled to the coupling groove 531, at least one region of the coupling protrusion 521 is formed by using an elastic force. I support it.

The supporting plate 510 supports the supporting frame 540 seated on the upper side and is supported by the supporting pillar 530 by the supporting frame 520 connected to the lower side.

That is, the supporting plate 510 seats the supporting frame 540 on the upper side thereof, and in response to the vibration or shock transmitted from the supporting frame 540, the supporting plate 510 is oriented in the horizontal direction (ie, the first frame 521a). Alternatively, vibration or shock may be attenuated by being absorbed by the support frame 520 sliding in the up and down direction (ie, the second frame 521b).

In addition, the present invention is formed by varying the length of the first frame (521a) or the second frame (521b), to overcome the limitations of the existing elastic body that can reduce the impact by simply adjusting the height in the vertical direction The support position by the plate 510 can be freely adjusted not only in the vertical direction but also in the left and right directions.

The support frame 520 is connected to rotatably two frames of the first frame 521a and the second frame 521b at each lower portion of the four support plates 510 to support the plate 510. As described above, the support position of the support frame 540 by the plate 510 is determined by adjusting the length of the first frame 521a or the second frame 521b.

At this time, the upper part of the first frame 521a and the second frame 521b is connected to the lower part of the support plate 510, and the lower part of the first frame 521a is rotated on the upper side of the support column 530. The lower surface of the second frame 521b is connected and installed to enable horizontal sliding movement, and the lower side of the second frame 521b is connected to one side of the support pillar 530 so as to allow rotational and vertical sliding movement.

That is, the first frame 521a or the second frame 521b may be subjected to vibration or shock transmitted from the support plate 510 through a pivoting or sliding movement by elastic force on the upper surface or one side of the support pillar 530. The support pillar 530 is transferred.

The support pillar 530 is formed in the shape of a square pillar, and the lower portion of the first frame 521a is connected to the upper side so as to be rotated and horizontally slidably moved, and the lower portion of the second frame 521b is one side. It is connected to the rotational and vertical sliding movement in the installation, and the elastic force (ie, the cross-elastic portion 533 or vertical elastic portion 535) during the sliding movement of the first frame (521a) or the second frame (521b) Absorbs vibrations or shocks through.

Each of the supporting plate 510 or the supporting frame 520 is driven by the same method as the symmetrical structure of each other, and the contents described with respect to the one supporting plate 510 or the supporting frame 520 as described above are described. The same may be applied to the other support plate 510 or the other support frame 520, the description thereof will be omitted.

In addition, the elastic part 500 having the above-described configuration may be formed in a vertically symmetrical structure, and the configuration associated with four supporting plates 510 and four pairs of supporting frames 520 may include: The same may be applied to the lower part of the 530.

9 and 10 are views illustrating the support pillar of FIG. 8.

9 and 10, the support pillar 530 includes a pillar body 531, a cross groove 532, a cross elastic portion 533, four vertical grooves 534, and four vertical elastic portions 535. ).

The pillar body 531 is formed in the shape of a square pillar, a cross groove 532 is formed on the upper portion, the vertical groove 534 is formed on each side.

The cross grooves 532 are recessed and formed in the upper portion of the pillar body 531 in a "+" shape, and a cross elastic portion 533 is inserted into the inner space.

The cross resilient portion 533 is formed in a shape corresponding to the shape of the cross groove 532 and is inserted into the cross groove 532, so that the lower side of the first frame 521a is rotatable on the upper ends of the four branches. It is connected and installed to absorb the vibration or shock transmitted from the first frame 521a by using the elastic force to attenuate the vibration or shock.

The vertical groove 534 is formed in each of the surface of the pillar body 531 in the vertical direction, the vertical elastic portion 535 is inserted into the interior space.

The vertical elastic portion 535 is formed in a shape corresponding to the shape of the vertical groove 534 is inserted into the vertical groove 534, the lower side of the second frame 521b is connected to the upper outer side so as to be rotatable and elastic force By absorbing the vibration or shock transmitted from the second frame 521b to reduce the vibration or shock.

FIG. 11 is a view illustrating the cross elastic part of FIG. 9.

Referring to FIG. 11, the cross elastic portion 533 includes a cross case portion 5313, an upper support portion 5332, four upper elastic portions 5333, four upper elastic supports 5332, and four upper connection links. A part 5335 is included.

The cross case portion 5313 has an inner space formed in an empty " + " shape and is inserted into the cross groove 532, and includes an upper support portion 5332, four upper elastic portions 5333, and four which are described later in the inner space. Top elastic support parts 5340 are installed.

At this time, the length of each branch of the cross case portion 5331 is shorter than the length of each branch of the cross groove 532, so that the upper connection link portion 5535 is formed in a space formed outside the cross case portion 5331. It should be possible to form a space for the arrangement and sliding movement.

The upper support part 5332 is formed of a cube, and is disposed at the center of the cross case part 5311, so that the upper elastic part 5333 is disposed outside each of the four surfaces, and supports the upper elastic part 5333. do.

The upper elastic part 5333 is disposed on each side surface of the upper support part 5332 to support the upper elastic support part 5340 by elastic force, thereby absorbing vibrations or shocks transmitted from the upper elastic support part 5344.

The upper elastic support part 5340 is disposed at each end of each branch of the internal space of the cross case part 5313, is supported by the elastic force of the upper elastic part 5333, and is provided between the upper connection link parts 5335. The upper connecting link portion 5335 is supported by the support bar 5336.

The upper link link portion 5335 is disposed at each end of each branch of the cross groove 532, and is provided between the side of the cross case portion 5313 and the support bar 5336 provided between the upper elastic support portion 5340. It is maintained at a predetermined interval by a), and the lower side of the first frame 521a is connected to the upper side so as to be rotatable, and each branch of the cross groove 532 meets in accordance with the vertical movement of the plate 510. Sliding along the groove of the cross groove 532 in the center direction.

FIG. 12 is a view showing the vertical elastic part of FIG. 10.

Referring to FIG. 12, the vertical elastic part 535 includes a vertical case part 5331, a side support part 5332, a side elastic part 5343, a side elastic support part 5344, and a side connection link part 5345. do.

The vertical case portion 5331 is formed in a shape corresponding to the shape of the vertical groove 534 in which the inner space is empty, and the side support portion 5332, the side elastic portion 5431, and the side elastic support portion 5344 are formed from the lower side of the inner space. ) Are installed in order.

The side support part 5332 is formed of a cube, is disposed in a lower space of the vertical case part 5331, and a side elastic part 5435 is disposed on the upper side to support the side elastic part 5435.

The side elastic part 5343 is disposed above the side support part 5332, and supports the side elastic support part 5344 disposed above by the elastic force, thereby preventing vibration, shock, and the like transmitted from the side elastic support part 5344. Will be absorbed.

The side elastic support part 5344 is disposed above the inner space of the vertical case part 5331, is supported by the elastic force of the side elastic part 5435, and is provided between the side connecting link parts 5345. It supports the side link link portion 5345 by.

The side link link portion 5345 is disposed at an upper end of the vertical groove 534 and is provided between a lower side facing the vertical case portion 5331 and an upper side of the side elastic support portion 5344. It is maintained at a predetermined interval by a), and the lower side of the second frame 521b is connected to the outer side so as to be rotatable, and slides along the groove of the vertical groove 534 in the lower direction of the vertical groove 534. .

Figure 13 illustrates a buffer according to an embodiment of the present invention.

Referring to FIG. 13, the buffer 800 according to the embodiment of the present invention is formed at the lower end of the vertical frame 210 and serves to stably support the support 200 from vibration or shock. The buffer unit 800 is coupled to the lower end of the buffer housing member 810, the vertical frame 210, the space is formed inside, the lower elastic body 820, the lower elastic body 820 to reduce the vibration or impact on the elastic force The upper cover 840 is formed on the upper surface of the upper elastic body 830, the upper elastic body 830 to which the vertical frame 210 is coupled to the through-hole formed in the center, the upper elastic body 830, and covers the buffer housing member 810 ), Formed between the protective part 850 formed on the upper surface of the upper cover 840 and the lower elastic body 820 and the upper elastic body 830, and formed to be orthogonal to the outer circumferential surface of the vertical frame 210, and is horizontal. It may include a horizontal elastic body 860 to absorb the vibration and shock in the direction.

The lower elastic body 820, the upper elastic body 830, and the horizontal elastic body 860 may be formed of various materials having elastic restoring force such as spring, urethane, and silicon, thereby stably protecting the solar panel 1000 from an earthquake or impact. I can support it.

14 illustrates a protection unit according to an embodiment of the present invention.

The protection part 850 according to an embodiment of the present invention includes a first sheet layer 851, a waterproof sheet 852, a magnetic joint layer 853, a second sheet layer 854, a coating layer 855, and a buffer part. 856 and the adhesive composition (not shown).

The first sheet layer 851 may be formed on an upper surface of the upper cover 840 and may be made of an inorganic elastic waterproof material, thereby improving weather resistance, corrosion resistance, durability, and the like of the waterproof sheet 852. Herein, the inorganic elastic waterproofing material is composed of a special copolymer emulsion and a cement-based special combination aggregate as a main component, for example, a styrene-butyl acrylic copolymer (STYRENE-BUTYL ACRYLATE COPOLYMER) emulsion and a cement powder (for example, a port It may be prepared by mixing the land cement, alumina, silica sand, antifoaming agent, reducing agent, etc.), or by adding water thereto.

The waterproof sheet 852 may be disposed on the first sheet layer 851 and may function as a secondary waterproof layer. The waterproof sheet 852 may be made of, for example, a metal material such as iron, aluminum, stainless steel, or chromium, and may be formed of a thin panel, and may protect the lower first sheet layer 851 and cope with external shock. In particular, the waterproof sheet 852 may be composed of a plurality of sheets, and may be continuously disposed on the first sheet layer 851. In this case, a magnetic joint layer 853 may be disposed at the joint between the waterproof sheets 852 to correspond to the stress behavior of the waterproof sheet 852 and maintain airtightness.

The magnetic joint layer 853 may be made soft, such as a rubber magnet, and may be attached to the joint between the waterproof sheets 852 to seal the joint. Here, the joint between the waterproof sheets 852 is a surface where the continuous waterproof sheets 952 are in contact with each other and includes a space spaced within a predetermined distance. The magnetic joint layer 853 may be attached to the bottom of the joint and the top of the joint between the waterproof sheets 852 to seal the joint. In addition, the magnetic joint layer 853 is magnetic, and can be easily and stably attached to the metal waterproof sheet 852.

The second sheet layer 854 may be made of the same inorganic elastic waterproof material as the first sheet layer 851, and in particular, the second sheet layer 854 may discharge water vapor to the outside, and may be made of metal, or the like. The waterproof sheet 852 may be prevented from being corroded due to moisture inside.

Coating layer 855 is formed on second sheet layer 854 to protect second sheet layer 854 from external magnetic poles.

The buffer unit 856 is disposed between the plurality of waterproof sheets 852 and may be formed of, for example, a soft material such as rubber. By being disposed between the waterproof sheets 852, it is possible to absorb the behavior of the waterproof sheet 852 in the horizontal direction and to maintain the structure of the protective part 850 more firmly. In particular, even when the soft cushioning portion 856 is contracted / expanded by the waterproof sheet 852, the airtightness can be continuously maintained by the magnetic joint layer 853 fluidly attached at the top and bottom of the buffer portion 856. .

 An adhesive composition (not shown) is applied to at least one region of the protection portion 850 configuration so that the first sheet layer 851, the waterproof sheet 852, the magnetic joint layer 853, the second sheet layer 854, the coating layer At least one of the 855 and the buffer 856 may be stably fixed. Adhesive composition according to an embodiment of the present invention, 40 to 80 parts by weight of thermoplastic resin, 5 to 40 parts by weight of adhesive resin, 1 to 5 parts by weight of rosin, 1 to 10 parts by weight of plasticizer, 1 to 10 parts by weight of filler Contains 0.1 to 1 parts by weight of antioxidant. The present invention is a hot melt adhesive composition, generally manufactured in a state of being bonded between the release agent and the silicone band, it serves to make the silicone band attached to the fabric by performing a press operation after removing the release agent when applied to the fabric. Hereinafter, each component will be described in detail.

The thermoplastic resin serves as a main component of the composition to control adhesion and cohesion. If the type includes a vinyl group or a hydroxyl group, the type thereof is not particularly limited, and examples thereof include ethylene vinyl acetate copolymer, polyvinylacetate, polyvinyl alcohol, ethylene-acrylic acid copolymer and ethylene-methacrylic acid copolymer, and polyurethane. It may be composed of any one or more selected from the group consisting of.

The content of the thermoplastic resin is preferably 40 to 80 parts by weight based on the total composition. If the content is less than 40 parts by weight, the melt viscosity is high and the melt flow index is low, the workability is very poor, if the content is more than 80 parts by weight it is difficult to exert sufficient adhesive force to be applied directly to the fabric.

The tackifier resin is a low molecular weight resin, lowers the melt viscosity to improve workability, improves the initial wettability of adhesion and adhesion of the adhesive on the surface of the adherend, and enables control of the solidification time.

The tackifying resin is not particularly limited in kind, but is preferably a petroleum resin. More specifically, the tackifier resin may be composed of one or more selected from the group consisting of aliphatic hydrocarbon resins, alicyclic hydrocarbon resins, aromatic hydrocarbon resins, aromatic hydrocarbon-modified aliphatic hydrocarbon resins, and hydrogenated hydrocarbon resins.

The aliphatic hydrocarbon resins are commercial products such as Hikorez A-1100, Hikorez A-1100S, Hikorez C-1100, Hikorez R-1100, Hikorez R-1100S, and the like. In addition, alicyclic hydrocarbon resins include hydrocarbon resins containing dicyclopentadiene (DCPD) as monomers, and aromatic hydrocarbon resins are commercially available from Kolon Oil Co., Ltd. of Hikotack P-110S, Hikotack P-120, Hikotack P-120HS, Hikotack P-120S, Hikotack P-140, Hikotack P-140M, Hikotack P-150, Hikotack P-160, Hikotack P-90, Hikotack P-90S, Hirenol PL-1000, Hirenol PL-400. In addition, aromatic hydrocarbon-modified aliphatic hydrocarbon resins include Hikorez T-1080, Hikorez T-1100, etc. of Kolon Oils. Hydrogenated hydrocarbon resins can also be subdivided into hydrogenated aliphatic hydrocarbon resins, hydrogenated aromatic hydrocarbon resins, and the like, and commercially available from Kolon Oil Co., Ltd. Sukorez SU-120, Sukorez SU-130 and Sukorez SU-90.

The tackifier resin is preferably a hydrocarbon resin having 4 to 10 carbon atoms in the monomer, and specifically, a C5 aliphatic resin, a C9 aromatic resin, a C5 / C9 aliphatic / aromatic copolymer resin, or the like may be used.

In addition, the tackifying resin of the present invention is more preferably characterized in that the hydrocarbon hydrocarbon resin containing dicyclopentadiene as a monomer, commercially available from Sukorez D-300, Sukorez D-390, Kolon Emulsifier (Korea), Sukorez SU-100, Sukorez SU-110, Sukorez SU-120, SukorezSU-130 and Sukorez SU-90.

On the other hand, the adhesive composition of the present invention is preferably used by mixing the biodegradable hypoallergenic resin together with the various petroleum resins described above.

The biodegradable hypoallergenic resin may be prepared by melt-mixing a monomer of a polymer into a biodegradable polymer, and polylactic acid is preferably used as the biodegradable polymer.

The polylactic acid is a polyester synthesized by polycondensation of lactic acid or ring-opening polymerization of lactide, and has a medium physical property between polyamide and polyethylene terephthalate. Biodegradability is high, but generally has high hardness, low elasticity, and poor durability.

The biodegradable polymer is melt-mixed with the same polymer monomer, wherein the biodegradable polymer is partially bonded with the monomer to cause chain breakage, thereby lowering the overall number average molecular weight. As the number average molecular weight falls, the physical properties that can be used as an adhesive are exhibited, and the workability is increased.

With respect to 100 parts by weight of the polylactic acid, the lactic acid monomer may be mixed 20 to 30 parts by weight. When the monomer is mixed in less than 20 parts by weight, the number average molecular weight is high and hard to be used as a pressure-sensitive adhesive, when the monomer exceeds 40 parts by weight migration may occur on the surface and may also be difficult to use as an adhesive.

It is preferable that the mixing ratio of the petroleum resin and the biodegradable hypoallergenic resin is 1 to 2: 1 (w / w). When the mixing ratio of the petroleum resin is too high, the biodegradable hypoallergenic effect is less likely to occur. If the mixing ratio is too high, economic efficiency may be lowered and the overall adhesive effect may be lowered.

In addition, the content of the tackifying resin is preferably 5 to 40 parts by weight relative to the total composition. If the content is less than 5 parts by weight, the effect of lowering the melt viscosity due to the addition of the tackifying resin is insufficient, and there is a fear that the increase in the melt flow index is not so large that the workability may not be satisfactorily reached, and the content is more than 30 parts by weight. If the melt flow index increase rate due to the excess of the tackifier resin is not large, the economical efficiency is lowered and the content of the thermoplastic polymer is relatively reduced, thereby reducing the overall physical properties of the composition.

The rosin acts to improve the overall adhesion of the adhesive composition and is harmless to the human body and acts as a natural preservative. The content of the rosin is preferably 1 to 5 parts by weight based on the total composition. If the content is less than 1 part by weight, it is difficult to obtain an effect of improving the adhesive strength, and if the content exceeds 5 parts by weight, there is a problem in that the adhesion is increased during processing, making it difficult to process the product.

The plasticizer is used to impart flexibility and adhesion to the polymer, and the type of plasticizer according to the present invention is not particularly limited, and for example, sorbitol, ethylene glycol, glycerin, glycerin diacetate, and pentaerythritol It may consist of one or more selected from the group consisting of.

The amount of the plasticizer is preferably 1 to 10 parts by weight based on the total composition. If the content is less than 1 part by weight, the effect of the addition of the plasticizer is insignificant. If the content is more than 10 parts by weight, the economical efficiency may be reduced by excessive use of the plasticizer, and there is a concern that the overall physical properties of the adhesive may be lowered.

The filler is used to control the reinforcement and flow of the composition. The type of filler is not particularly limited, and for example, calcium carbonate, clay, bentonite, calcium stearate or the like can be used.

On the other hand, in the present invention, to control the reinforcement and flow of the adhesive composition while reducing odor and bacteria generation, it is preferable to use a mixture of stone powder and pulp powder as a filler. Stone powder can achieve high strength without using additives due to the compactness of the particles, and the cracking of the adhesive hardly occurs even when the temperature change is large due to low volumetric strain according to the surrounding environment.

The stone powder may be used in the form of powder of various rocks such as loess, marble, elvan, granite, gemstone, and is characterized in that the loess having various functions such as antibacterial, antifungal, and ultraviolet radiation is used.

The pulp powder serves to agglomerate the stone powders while sucking the liquid components, to improve the miscibility and improve the cohesion between the components. At this time, the stone powder and the pulp powder is preferably mixed in a ratio of about 7: 3 to 8: 2 (w / w).

The content of the filler is preferably 1 to 10 parts by weight based on the total composition. If the content is less than 1 part by weight, the effect of adding the filler is insignificant, and if the content is more than 10 parts by weight, there is a concern that the overall physical properties of the adhesive is lowered.

The antioxidant is intended to improve the change in viscosity, yellowing, deterioration of adhesion and degradation of durability due to oxidation and decomposition, and the type thereof is not particularly limited and specifically, phenols, aromatic amines, citric acid, or ascorbic acid may be used. Can be.

The content of the antioxidant is preferably 0.1 to 1 parts by weight relative to the total composition. If the content is less than 0.1 part by weight, the effect of the addition of the antioxidant is insignificant, and if the content exceeds 1 part by weight, not only the economical efficiency of the adhesive is lowered but also the overall physical properties may be lowered.

On the other hand, the adhesive composition of the present invention is subjected to a press operation on the fabric, at this time, there is a possibility that the poor adhesion due to the amount of the composition is removed due to the presence of the hole in the fabric.

Thus, the adhesive composition of the present invention may further include a nano silica value that can improve the adhesion by allowing the adhesive composition to be uniformly distributed on the fabric surface. At this time, the content of the nano silica is preferably 0.1 to 5 parts by weight, and the size of the nano silica (primary particles) is preferably 100 nm or less.

If the content of the nano-silica is less than 0.1 parts by weight, the effect of the addition of nano-silica is insignificant, and if the content exceeds 5 parts by weight, not only the adhesive force is lowered but also a bad phenomenon that blooming (blooming) occurs on the surface of the adhesive over time May occur. Hereinafter, the configuration of the present invention and its effects through specific examples and comparative examples will be described in more detail.

Example 1

60 parts by weight of ethylene-vinylacetate copolymer, 25 parts by weight of Sukorez D-300, 3 parts by weight of rosin, 5 parts by weight of ethylene glycol, 4 parts by weight of ocherite, 2 parts by weight of pulp powder and 1 part by weight of ascorbic acid. Melt kneading at ° C to prepare an adhesive composition and then molded into pellets. At this time, the biodegradable hypoallergenic resin was prepared by melt-mixing 2.5 parts by weight of lactic acid monomer to 100 parts by weight of polylactic acid at 160 ° C. for 5 minutes.

 Example 2

60 parts by weight of ethylene-vinylacetate copolymer, 15 parts by weight of Sukorez D-300, 10 parts by weight of biodegradable hypoallergenic resin, 3 parts by weight of rosin, 5 parts by weight of ethylene glycol, 4 parts by weight of loess, 2 parts by weight of pulp powder and ascorb 1 part by weight of acid was mixed and melt kneaded at 170 to 180 ° C. to prepare an adhesive composition, and then molded into pellets. At this time, the biodegradable hypoallergenic resin was prepared by melt-mixing 2.5 parts by weight of lactic acid monomer to 100 parts by weight of polylactic acid at 160 ° C. for 5 minutes.

Example 3

Except for adding 1 part by weight of nanosilica, it was prepared in the same manner as in Example 1, and was made as Example 3.

 [Comparative Example]

It was used after removing the backing paper from the conventional TPU hot melt film.

Experimental Example

(1) Mesh adhesive strength

In order to evaluate the mesh adhesive strength of the hot melt adhesive, the adhesive pellets quantitated between two pieces of overcoat fabrics were melt-coated at 170 ° C., and then pressed at 60 kgf / cm 2 for 30 seconds at 130 ° C. Adhesive strength (kgf / cm 2) was measured.

 (2) Melt Flow Index

The heating cylinder of the melt flow rate meter was filled with a pellet type adhesive and melted at 160 ° C. for about 5 minutes. The weight (g) of the adhesive passed through the cylinder for 10 minutes was measured by putting a weight of 3 kg.

As can be seen from the table, it was confirmed that the adhesive composition of the present invention has improved adhesion and flow index than the existing product, even when using the biodegradable hypoallergenic resin was confirmed that the adhesion and flow index does not fall significantly. Also, when the nano-silica is mixed, the flow index can be seen to increase significantly.

15 shows a weighing unit according to an embodiment of the present invention.

Referring to FIG. 15, the weighing unit 900 according to an embodiment of the present invention includes a weight housing member 910, a deformation member 920, a guide member 930, a lifting member 940, and a calculation member 950. And a display member 960.

The weight housing member 910 is provided with an installation space 912 which is open upward, and the deformation member 920 is moved up and down along the installation space 912 of the housing member 910, and the support part 200. The shape is deformed by the load applied to the

The elevating member 940 lifts and deforms the deforming member 920 and maintains the position. The calculating member 950 receives the deforming signal of the deforming member 920 and calculates the weight of the support 200. That is, the calculation member 950 may calculate the load applied to the support 200 through the deformation signal, and when the load applied to the support 200 is greater than or equal to the load set by the user, the operation of the cleaning unit 100 may be performed. You can stop it.

As the weight calculated by the calculating member 950 is displayed by the display member 960, the load applied to the support 200 may be confirmed. Here, the elevating member 940 is composed of a rotary rod 942 and a link arm 944 as an embodiment. Rotating rod 942 is a screw thread is formed along the outer circumferential surface, is provided to be rotatable in the weight housing member 910, the link arm 944 is provided in the installation space 912 of the housing member 910 is a rotary rod 942 Lifted by the rotation of the elevating member 920 to maintain the elevated position. The rotating rod 942 is rotated by the user or rotated forward and backward by the motor. In addition, the guide member 930 is further provided between the installation space 912 and the deformable member 920 of the weight housing member 910 to elevate the deformable member 920 to be elevated without tilting. On the other hand, such a lifting member 940 is an embodiment, and may be selectively used depending on the case using a pressure such as hydraulic pressure or pneumatic, or if a plurality of gears are engaged to lift the deformation member 920.

In one embodiment, the control unit 600, when the cleaning unit 100, the load applied to the support unit 200 by the calculation member 950 receiving the deformation signal of the deformation member 420 is set by the user If the calculation exceeds the input value, the spraying operation of the cleaning unit 100 may be stopped, the operation of the cleaning unit 100 may be stopped, or only the rotating brush 110 may be operated. This is to prevent the water or the cleaning liquid from remaining in the solar module 100, or the water or the cleaning liquid discharged is not normally discharged to deform or break the present invention.

The control unit 600 calculates the load applied to the support unit 200 by the calculation member 950, which receives the deformation signal of the deformation member 420, during the operation of the cleaning unit 100. You can determine whether there is a malfunction. That is, when the injection module 150 does not operate properly and does not spray water or cleaning solution to the solar module 10 with water or cleaning solution, an alarm may be provided to the user.

The above-described embodiments are for illustrative purposes, and those of ordinary skill in the art to which the above-described embodiments belong may easily change to other specific forms without changing the technical spirit or essential features of the above-described embodiments. I can understand. Therefore, it is to be understood that the above-described embodiments are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope to be protected by the present specification is represented by the following claims rather than the above description, and should be construed to include all changes or modifications derived from the meaning and scope of the claims and their equivalents. .

1000: solar panel
10: solar panel
100: cleaning unit
200: support
300: inverter unit
400: uninterruptible power supply unit
500: elastic part
600: control unit
700: monitoring server unit
800: buffer part
900: weighing unit

Claims (2)

Moving along the upper surface of the solar module, including a cleaning unit for removing contaminants on the surface of the solar module,
A support part supporting the solar module and formed of a vertical frame and a horizontal frame;
An inverter unit converting DC power input from the solar module into AC power;
A monitoring server unit for monitoring an amount of power generated by the solar module and an operating state of the inverter unit and generating a corresponding monitoring signal related to the amount of power and the operating state;
An uninterruptible power supply unit connected to the power input module of the monitoring server unit and supplying alternative power to the power input module of the monitoring server unit when a power failure occurs; And
And a control unit controlling an operation of at least one of the cleaning unit, the support unit, the inverter unit, a monitoring server unit, and the uninterruptible power supply unit.
The cleaning unit includes a rotating brush for cleaning the upper surface of the solar module through a rotational motion; A housing module extending along a width direction of the solar module and coupled to the rotating brush and having a roller formed at a lower portion thereof; Fastening modules formed at both ends of the housing module and having a pinion gear formed at a lower end thereof; The solar module extends along the longitudinal direction of the solar module and includes a gear gear engaged with the pinion gear to guide the movement of the housing module and the rotary brush along the longitudinal direction of the solar module. Guide module; An injection module formed in at least one region of the housing module and spraying a cleaning solution or water onto an upper surface of the solar module; A discharge module formed along an outer circumferential surface of the solar module and configured to guide discharge of the sprayed cleaning liquid or water; And an adsorption part formed on a lower surface of the housing module and sucking or adsorbing a foreign substance on the upper surface of the solar module. And a filtering part connected to the discharge module and the suction part to filter foreign substances, wherein the injection module is formed in the injection module and guides the movement of the cleaning liquid; A second guide tube formed inside the injection module to guide the movement of the water; And a spray nozzle connected to the first guide tube and the second guide tube to discharge any one of the cleaning liquid and the water.
The filter unit, the storage module for collecting the cleaning liquid and the water discharged therein, the storage module for collecting the foreign matter introduced through the adsorption unit; A supply pipe for supplying the cleaning solution, the water, and the foreign matter to the storage module; A discharge pipe installed to be connected to the supply pipe to discharge the cleaning liquid, the water, and the foreign substances introduced into the supply pipe to the storage module: a filtration unit connected to the respective discharge pipes; And at least one temperature control tube formed inside the storage module, wherein at least one temperature control tube is formed on the outer circumferential surface in contact with the cleaning liquid and the water and coolant is introduced therein to control the temperature of the cleaning liquid and the water.
The adsorption unit may include: a pressurization table including a plurality of suction holes for suctioning or adsorbing foreign substances on the upper surface of the solar module, a connection hole communicating in parallel with the suction hole, and a flow path connecting the suction hole and the connection hole; And a plurality of suction plates each coupled to the suction hole,
The uninterruptible power supply unit may include: an uninterruptible power supply module supplying alternative power to a power input module of the monitoring server unit when a power failure occurs; An inner frame having the uninterruptible power supply module coupled therein and having coupling protrusions formed in at least one region of an outer circumferential surface thereof; An outer frame including the inner frame therein and having a coupling groove coupled to the coupling protrusion; And an elastic part which is formed in at least one region of the coupling groove and slides in a horizontal direction or an vertical direction by an elastic force to attenuate vibration or shock.
The elastic unit, a support frame for supporting at least one region of the coupling protrusion; Four support plates to support the support frame seated on the upper side, and to reduce the vibration or shock by sliding the left and right or up and down directions by the elastic force in response to the vibration or shock transmitted from the support frame; Two frames of the first frame and the second frame are rotatably installed at each lower portion of the four support plates to support the support plate, and adjust the length of the first frame or the second frame to A support frame for determining a support position of the support frame by the support plate; And a lower portion of the first frame is connected to the upper side to allow rotation and horizontal sliding movement, and a lower portion of the second frame is connected to and installed on the one side to enable rotation and vertical sliding movement. Or a support column for absorbing vibration or shock through elastic force of the cross elastic part or the vertical elastic part during sliding movement of the second frame,
A buffer part formed at a lower end of the vertical frame and supporting the support part from vibration or impact; And
It is formed in one region of the vertical frame, and further comprising a weighing unit for measuring the weight applied to the support,
The buffer unit, a buffer housing member having a space formed therein; A lower elastic body coupled to the lower end of the vertical frame and reducing vibration or impact on elastic force; An upper elastic body formed on an upper portion of the lower elastic body and having the vertical frame coupled to a through hole formed at a center thereof; An upper cover formed on an upper surface of the upper elastic body and covering the buffer housing member; And a horizontal elastic body formed between the protection part formed on the upper surface of the upper cover and the lower elastic body and the upper elastic body, and being orthogonal to the outer circumferential surface of the vertical frame to absorb vibration and shock in the horizontal direction.
The protective part may include a first sheet layer including an inorganic elastic waterproof material; A plurality of waterproof sheets of metal material disposed on the first sheet layer; A soft magnetic joint layer attached to at least one of a joint upper end and a joint lower end between the waterproof sheets; And a second sheet layer formed on the waterproof sheet and made of an inorganic elastic waterproof material. And a coating layer formed on the second sheet layer to protect the second sheet layer from external magnetic poles. A soft buffer disposed between the plurality of waterproof sheets and an adhesive composition applied to at least one region of the waterproof sheet to fix and couple the waterproof sheet;
The adhesive composition, 40 to 80 parts by weight of thermoplastic resin, 5 to 40 parts by weight of tackifying resin, 1 to 5 parts by weight of rosin, 1 to 10 parts by weight of plasticizer, 1 to 10 parts by weight of filler and 0.1 to 1 parts by weight of antioxidant 0.1 to 5 parts by weight of nanosilica,
The weighing unit may include a weight housing member including an installation space opened upwardly therein; A deformable member which is moved upward and downward along an installation space of the heavy housing member and whose shape is deformed by a load applied by the support part in a state in which power is applied; A guide member formed between the installation space of the weight housing member and the deformation member; After the deforming member is lifted and maintained, the thread is formed along an outer circumferential surface thereof, and is provided in a rotating bar provided to be rotatable in the heavy housing member and an installation space of the heavy housing member to be elevated by the rotation of the rotary rod. A lifting member including a link arm; A calculation member configured to receive a deformation signal of the deformation member and calculate a load applied to the support part; And a display member for displaying the weight calculated by the calculation member.
The controller may be configured to calculate that, when the cleaning member receives a deformation signal of the deformable member and calculates that the load applied to the support portion is greater than an input value set by the user, the water or the cleaning liquid of the cleaning unit. Stop the spraying operation, stop the operation of the cleaning unit or only operate the rotary brush,
The control unit may determine whether the injection module is malfunctioning by calculating a load applied to the support part by the calculation member receiving the deformation signal of the deformation member when the cleaning unit is in operation. When not spraying the cleaning liquid, providing a user alarm, the solar panel.

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