KR102205287B1 - Passage for inspection of solar panels - Google Patents

Abstract

Disclosed is an inspection stand for solar heat collecting plates. The inspection stand for solar heat collecting plates, which supports solar heat collecting plates installed on a ceiling or roof of a building and is installed on the ceiling or roof for inspecting a state of the solar cell collecting plates, comprises: a plurality of first horizontal frames arranged and installed in one direction on a plane of the ceiling or roof; a plurality of vertical frames arranged in a longitudinal direction of each of the first horizontal frames and having a lower end connected to the first horizontal frames and installed upright; a plurality of second horizontal frames connected to upper ends of the vertical frames connected to the first horizontal frames, respectively, installed in the same number as the first horizontal frames, and having the solar heat collecting plates installed in two or more rows to support the solar heat collecting plates; a plurality of inspection stand support frames installed on the second horizontal frames, respectively, to be arranged between rows of each of the solar heat collecting plates and including first and second vertical supports arranged to be spaced apart from each other at regular intervals and fixed to the second horizontal frames, and a footrest support connected between the first and second vertical supports to form a right angle with the first and second vertical supports; a plurality of inspection footrests fixed to the footrest support of each of the inspection stand support frames and arranged along a longitudinal direction of each row of the solar heat collecting plates; and a pair of handrails fixed to each of the second horizontal frames to be extended along an arrangement direction of the inspection footrests, and provided on both sides in a width direction of the inspection footrests. According to the present invention, a manager can check a state of solar heat collecting plates while moving safely, and further, the manager can take immediate action against an accident.

Description

Solar panel inspection table {PASSAGE FOR INSPECTION OF SOLAR PANELS}

The present invention relates to a solar heat collection plate inspection table, and relates to a solar heat collection plate inspection table providing an inspection path around the solar heat collection plate so that the solar heat collection plate installed at a high position can be checked.

Photovoltaic power generation is the production of power from the sun by installing solar cell modules. A solar cell module is installed on the support structure by installing a support structure on the ground, or a solar cell module is installed on the outer wall of a building to generate power. It is a power generation device.

Solar cell modules are installed high from the ground, such as the roof or ceiling of a building.

To check the solar cell module installed in the same place as the ceiling, the manager climbed a ladder from the ground and climbed the ceiling to check the condition of the solar cell module. In this inspection method, there was a risk of falling because the moving path of the worker on the ceiling was not secured.

Registered Patent No. 10-1186349

Therefore, the problem to be solved by the present invention is to provide a solar heat collection plate inspection table in which a manager can safely move and check the state of the solar heat collection plate, and further, take immediate action against an accident of the manager.

A solar heat collection plate inspection table according to an embodiment of the present invention supports a solar heat collection plate installed on a ceiling or roof of a building, and is an inspection table installed on the ceiling or roof to check the condition of the solar heat collection plate, and the ceiling or rooftop A plurality of first horizontal frames arranged and installed in one direction on the plane of the; A plurality of vertical frames arranged along the longitudinal direction of each of the first horizontal frames, and having a lower end connected to the first horizontal frames and installed upright; A plurality of second members connected to upper ends of a plurality of vertical frames connected to each of the first horizontal frames, installed in the same number as the first horizontal frames, and installed in two or more rows of the solar heat collecting plates to support the solar heat collecting plates Horizontal frame; A first vertical support and a second vertical support, which are installed on each of the second horizontal frames to be disposed between each row of the solar heat collecting plate, are disposed to be spaced apart from each other, and fixed to the second horizontal frame, and the first A plurality of inspection table support frames including a scaffolding support connected to form a right angle to the first vertical support and the second vertical support between the vertical support and the second vertical support; A plurality of inspection furnace scaffolds fixed on the scaffolding support of each of the inspection table support frames and arranged along the longitudinal direction of each row of the solar heat collecting plate; And a pair of handrails fixed to each of the second horizontal frames, extending along the arrangement direction of the plurality of inspection path footboards, and provided on both sides of the inspection path footboard in the width direction.

In one embodiment, an inspection path entrance detection sensor installed on each handrail to detect the entry of a worker entering the inspection path between the respective handrails; A plurality of impact detection sensors installed on each of the handrails and measuring an impact sensitivity applied to each of the handrails; It is installed on one side of the inspection path, is electrically connected to each of the impact detection sensors to receive a measured value from each of the impact detection sensors, and a danger signal output reference value for outputting a danger signal is input in advance, and each of the A control unit for comparing the measured value inputted from the impact detection sensor of and the reference value, and outputting a danger signal when the measured value exceeds the reference value; And a buzzer installed on the at least one handrail, controlled by the control unit, and outputting a danger notification alarm when the danger signal is output from the control unit.

In one embodiment, the inspection path scaffolding has a square frame-shaped scaffolding frame, a pair of frame frames having lengths corresponding to the long axis sides of the scaffolding frame, and a cross section connected to the long axis sides having a b-shape, and the And a scaffold placed on the scaffolding frame; When the inspection path scaffolding is coupled between a plurality of adjacent inspection platform support frames, the shortening direction of the scaffolding frame is fixed on the scaffolding support of the inspection path scaffolding, and the vertical portion of the pair of frame frames is the first vertical It may be in close contact with the support and the second vertical support.

According to the solar heat collecting plate inspection table according to the present invention, since a moving path of the manager is provided between the solar heat collecting plates, the manager can safely move and check the state of the solar heat collection plate, determine whether or not the manager has entered, and the manager has entered the state. By detecting the impact of the handrail and outputting a danger warning alarm through a buzzer according to the measured value of the detected impact, the manager can immediately notify an alarm of an accident such as falling off the inspection path. It has the advantage of taking immediate action against it.

1 is a perspective view showing the configuration of a solar heat collecting plate inspection table according to an embodiment of the present invention.
Figure 2 is a side view of Figure 1;
3 is a perspective view for explaining the configuration of the inspection path foot plate shown in FIG.

Hereinafter, a solar heat collecting plate inspection table according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the present invention, various modifications may be made and various forms may be applied, and specific embodiments will be illustrated in the drawings and described in detail in the text. However, this is not intended to limit the present invention to a specific form disclosed, it should be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention. In describing each drawing, similar reference numerals have been used for similar elements. In the accompanying drawings, the dimensions of the structures are shown to be enlarged than the actual size for clarity of the present invention.

Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. These terms are used only for the purpose of distinguishing one component from another component. For example, without departing from the scope of the present invention, a first element may be referred to as a second element, and similarly, a second element may be referred to as a first element.

The terms used in the present application are used only to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, terms such as "comprise" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, but one or more other features. It is to be understood that the presence or addition of elements or numbers, steps, actions, components, parts, or combinations thereof, does not preclude in advance the possibility of being added.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms as defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and should not be interpreted as an ideal or excessively formal meaning unless explicitly defined in this application. Does not.

The solar heat collecting plate inspection table according to an embodiment of the present invention supports the solar heat collecting plate 300 installed on the ceiling or roof of a building, and is installed on the ceiling or roof to check the state of the solar heat collecting plate 300.

1 is a perspective view showing the configuration of a solar heat collecting plate inspection table according to an embodiment of the present invention, FIG. 2 is a side view of FIG. 1, and FIG. 3 is a perspective view for explaining the configuration of the inspection furnace foot plate shown in FIG.

1 to 3, a solar heat collecting plate inspection table according to an embodiment of the present invention includes a plurality of first horizontal frames 110, a plurality of vertical frames 120, a plurality of second horizontal frames 130, and a plurality of Including the inspection table support frame 140, a plurality of inspection furnace foot plate 150, a pair of handrails 160.

A plurality of first horizontal frames 110 may be arranged and installed in one direction on a plane of the ceiling or roof.

A plurality of vertical frames 120 are arranged along the longitudinal direction of each of the first horizontal frames 110, and the lower end may be connected to the first horizontal frame 110 to be installed upright. For example, a plurality of vertical frames 120 may be provided with a'C'-shaped connection bracket 121 at the upper and lower ends, and the connection bracket 121 at the lower end is fixed to the first horizontal frame 110 It may be connected to the first horizontal frame 110.

A plurality of second horizontal frames 130 are connected to upper ends of a plurality of vertical frames 120 connected to each of the first horizontal frames 110, and are installed in the same number as the first horizontal frames 110, Two or more rows of the solar heat collecting plates 300 may be installed to support the solar heat collecting plates 300.

A plurality of inspection table support frames 140 are installed on each of the second horizontal frames 130 to be disposed between each row of the solar heat collecting plate 300. Each of the inspection table support frame 140 is disposed at a predetermined distance from each other and is fixed to the second horizontal frame 130, the first vertical support 141 and the second vertical support 142, the first vertical support ( It may include a footrest support 143 connected to form a right angle to the first vertical support 141 and the second vertical support 142 between the 141 and the second vertical support 142.

A plurality of inspection furnace scaffolding 150 may be fixed on the scaffolding support 143 of each of the inspection table support frames 140 and arranged along the longitudinal direction of each row of the solar heat collecting plate 300.

For example, as long as each inspection path scaffold 150 has a length corresponding to the long axis sides of the square frame-shaped scaffold frame 151, the scaffold frame 151, and the cross section connected to the long axis sides has a b-shape A pair of frame frames 152 and a scaffold 153 placed on the scaffold frames 151 may be included.

When the inspection path scaffolding 150 is coupled between a plurality of adjacent inspection platform support frames 140, the short axis direction of the scaffolding frame 151 is fixed on the scaffolding support 143 of the inspection path scaffolding 150 In this case, the vertical portions of the pair of frame frames 152 may be in close contact with the first vertical support 141 and the second vertical support 142. Accordingly, it may be firmly fixed to the inspection table support frame 140 of the inspection furnace foot plate 150.

A pair of handrails 160 may include a plurality of vertical posts 161 and horizontal rails 162. Each of the vertical posts 161 has a lower end fixed to each of the second horizontal frames 130, and the horizontal rails 162 may extend along the arrangement direction of the plurality of inspection path scaffolds 150. The pair of handrails 160 may be provided on both sides of the inspection path foot plate 150 in the width direction.

Meanwhile, the solar heat collecting plate inspection table according to an embodiment of the present invention may further include an inspection path entrance/exit detection sensor 170, a plurality of impact detection sensors 180, a control unit 190, and a buzzer 200.

The inspection path entrance detection sensor 170 may be installed on each handrail 160 to detect the entry of a worker entering the inspection path between the handrails 160. For example, the inspection path entrance/exit detection sensor 170 may be configured as a proximity sensor.

The plurality of impact detection sensors 180 may be installed to be spaced apart from each handrail 160 at a predetermined interval, and the sensitivity of impact applied to each handrail 160 may be measured. As an example, the plurality of impact detection sensors 180 may be configured with a gyro sensor.

The control unit 190 is installed on one side of the inspection path, and is electrically connected to each of the shock sensors 180 to receive measured values from each of the shock sensors 180, and a danger for outputting a danger signal A signal output reference value is input in advance, and the measurement value input from each of the impact sensors 180 is compared with the reference value, and a danger signal may be output when the measurement value exceeds the reference value.

In addition, the control unit 190 receives a detection signal from the inspection path entrance detection sensor 170, the detection signal is input from the inspection path entrance detection sensor 170, and only when it is determined that the administrator's entry is detected. It may be configured to output a danger signal by comparing a measured value input from each of the impact detection sensors 180 with the reference value.

The buzzer 200 is installed on at least one handrail 160 and is controlled by the control unit 190, and when the danger signal is output from the control unit 190, a danger notification alarm may be output.

The solar heat collecting plate inspection table according to an embodiment of the present invention supports a plurality of solar heat collecting plates 300, and an administrator enters the inspection path as necessary or at a predetermined period, and the state of the solar heat collecting plate 300, for example , Checks such as checking whether the solar heat collecting plate is damaged can be performed.

When the manager enters the inspection route for inspection, the inspection route entrance detection sensor 170 detects the manager's entry and inputs a detection signal to the control unit 190.

When a detection signal is input from the inspection path entrance/exit detection sensor 170, the control unit 190 determines whether or not the measured value is input from the impact detection sensor 180, and when the measured value is input from the impact detection sensor 180, in advance The input reference value and the input measurement value are compared to determine whether the measured value exceeds the reference value.

When the measured value exceeds the comparison value, the control unit 190 outputs a danger signal and operates the buzzer 200 to output a danger notification alarm from the buzzer 200.

In the solar heat collection plate inspection table according to an embodiment of the present invention, since a moving path of the manager is provided between the solar heat collection plates 300, the manager can safely move and check the state of the solar heat collection plate 300, and check whether the manager always enters. It is judged, and the manager detects the impact of the handrail 160 while the manager enters, and causes a danger alarm to be output through the buzzer 200 according to the measured value of the detected impact. There is an advantage of being able to immediately notify an alarm about the problem, and further, to take immediate action against an accident by the manager.

On the other hand, a plurality of first horizontal frames 110, a plurality of second horizontal frames 130, a plurality of vertical frames 120, a plurality of inspection table support frames 140 according to an embodiment of the present invention. ), a corrosion-resistant coating layer may be applied to the surface of the pair of handrails 160 to prevent corrosion of the metal surface.

The coating material of this anticorrosion coating layer is triethanolamine 15% by weight, indiazole 25% by weight, hafnium 20% by weight, molybdenum emulsified (MoS ₂ ) 10% by weight, titanium oxide (TiO ₂ ) 15% by weight, propionamide 15% by weight It is composed of %, and the coating thickness can be formed to 8㎛.

Triethanolamine, indiazole, and propionamide play a role in preventing corrosion and discoloration.

Hafnium is a transition metal element with corrosion resistance and plays a role in having excellent waterproof and corrosion resistance.

Molybdenum emulsified plays a role of imparting wetness and lubricity to the surface of the coating film.

Titanium oxide is added for the purpose of fire resistance and chemical stability.

The reason why the ratio of the constituent components and the coating thickness were numerically limited as described above is that the present inventors analyzed through the test results while repeatedly failing several times, and as a result, the optimum anti-corrosion effect was shown in the ratio.

On the other hand, on the surface of the access detection sensor 170 and the plurality of impact detection sensors 180 through the inspection of the solar heat collecting plate inspection table according to an embodiment of the present invention, contamination prevention coating to effectively achieve the adhesion prevention and removal of contaminants An antifouling coating layer made of a solvent composition may be applied.

The antifouling coating composition contains cocoamphodiacetate and alkyl glycol ether in a molar ratio of 1:0.01 to 1:2, and the total content of cocoamphodiacetate and alkyl glycol ether is 1 to 10% by weight based on the total aqueous solution. to be.

The molar ratio of the cocoamphodiacetate and the alkyl glycol ether is preferably 1:0.01 to 1:2, and if the molar ratio is out of the above range, coating on the entrance/exit detection sensor 170 and a plurality of impact detection sensors 180 There is a problem in that the coating film is removed due to a decrease in properties or an increase in moisture absorption on the surface after application.

The cocoamphodiacetate and alkyl glycol ether are preferably 1 to 10% by weight in the total composition aqueous solution, and if it is less than 1% by weight, the applicability on the entrance/exit detection sensor 170 and the plurality of impact detection sensors 180 is reduced. If it exceeds 10% by weight, crystal precipitation is likely to occur due to an increase in the thickness of the coating film.

On the other hand, as a method of applying the present contamination prevention coating composition on the inspection path entrance/exit detection sensor 170 and a plurality of impact detection sensors 180, it is preferable to apply it by a spray method. In addition, the thickness of the final coating layer on the inspection path entrance/exit detection sensor 170 and the plurality of impact detection sensors 180 is preferably 550 to 2000 Å, more preferably 1100 to 1900 Å. When the thickness of the coating film is less than 550 Å, there is a problem of deterioration in the case of high-temperature heat treatment, and when it exceeds 2000 Å, crystal precipitation on the coated surface is liable to occur.

In addition, the present antifouling coating composition may be prepared by adding 0.1 mol of cocoamphodiacetate and 0.05 mol of alkyl glycol ether to 1000 ml of distilled water, followed by stirring.

On the other hand, in order to improve the bonding force when the access detection sensor 170 and a plurality of impact detection sensors 180 are installed on the handrail 160, the inspection path of the solar heat collecting plate inspection table according to an embodiment of the present invention () An adhesion improving agent may be applied between the surface of the inspection path and the entrance/exit detection sensor 170 and the impact detection sensor 180.

Adhesion improving agent comprises water 60 parts by weight, acrylonitrile 15 parts by weight, N-butoxy-methylacryl amide 17 parts by weight, N-acyl sarcosinate 5 parts by weight, ammonium peroxide 2 parts by weight, buffering agent 1 part by weight. I can.

Acrylonitrile and N-butoxy-methylacrylamide are added to improve adhesion, flexibility, and water resistance, and N-acylsarcosinate serves as a surfactant.

The reason for limiting the constituent materials and constituents as described above and limiting the numerical value of the mixing ratio is that the present inventors have repeatedly failed several times and analyzed through the test results. Indicated.

On the other hand, the surface of the buzzer 200 of the solar heat collecting plate inspection table according to an embodiment of the present invention may be coated with a fragrance material mixed with a functional oil for sterilization.

The mixing ratio of the perfume material and the functional oil is 95 to 97% by weight of the perfume material and 3 to 5% by weight of the functional oil is mixed, and the functional oil is 50% by weight of Conifer note oil, and Wormwood oil. oil) 50% by weight.

Here, the functional oil is preferably mixed in 3 to 5% by weight based on the fragrance material. When the mixing ratio of the functional oil is less than 3% by weight, the effect is insignificant, and when the mixing ratio of the functional oil exceeds 3 to 5% by weight, the effect is not greatly improved, while the manufacturing cost is greatly increased.

Conifer note oil is good for neuralgia, muscle pain, antidepressant, and stress relief.

Wormwood oil has excellent effects on detoxification, treatment of skin diseases, sterilization, relief of itchiness, clearing of the head, and relaxation of tension.

Therefore, as the fragrance material mixed with such a functional oil is coated on the buzzer 200, the surface of the buzzer 200 is sterilized, and insects can be prevented from adhering to the surface of the buzzer 200.

The reason for limiting the constituents and limiting the numerical value of the mixing ratio for the fragrance substance and the functional oil is that the present inventors have repeatedly failed several times and analyzed through the test results. Is shown.

The description of the presented embodiments is provided to enable any person skilled in the art to use or implement the present invention. Various modifications to these embodiments will be apparent to those of ordinary skill in the art, and the general principles defined herein can be applied to other embodiments without departing from the scope of the present invention. Thus, the present invention is not to be limited to the embodiments presented herein, but is to be interpreted in the widest scope consistent with the principles and novel features presented herein.

110: first horizontal frame 120: vertical frame
130: second horizontal frame 140: inspection stand support frame
150: inspection table 160: handrail
170: inspection path entrance detection sensor 180: impact detection sensor
190: control unit 200: buzzer

Claims (3)

As an inspection table installed on the ceiling or roof to support the solar heat collecting plate 300 installed on the ceiling or roof of a building, and to check the state of the solar heat collecting plate 300,
A plurality of first horizontal frames 110 arranged and installed in one direction on the ceiling or roof plane;
A plurality of vertical frames 120 which are arranged along the longitudinal direction of each of the first horizontal frames 110 and have a lower end connected to the first horizontal frames 110 and installed upright;
It is connected to the upper end of a plurality of vertical frames 120 connected to each of the first horizontal frames 110, is installed in the same number as the first horizontal frames 110, the solar heat collecting plate 300 is more than two rows A plurality of second horizontal frames 130 installed to support the solar heat collecting plate 300;
A first vertical support installed on each of the second horizontal frames 130 so as to be disposed between each row of the solar heat collecting plate 300, disposed at a predetermined distance from each other, and fixed to the second horizontal frame 130 (141) and the second vertical support 142, the first vertical support 141 and the second vertical support 142 between the first vertical support 141 and the second vertical support 142 at a right angle A plurality of inspection table support frame 140 including a scaffold support 143 connected to achieve a;
A plurality of inspection furnace scaffolds 150 fixed on the scaffolding support 143 of each of the inspection table support frames 140 and arranged along the longitudinal direction of each row of the solar heat collecting plate 300; And
A pair of handrails fixed to each of the second horizontal frames 130 and extending along the arrangement direction of the plurality of inspection path footboards 150, and provided on both sides of the inspection path footboard 150 in the width direction (160);
An inspection path entrance/exit detection sensor 170 installed on each handrail 160 to detect an entry of a worker entering the inspection path between the respective handrails 160;
A plurality of impact sensors 180 installed on each of the handrails 160 and measuring impact sensitivity applied to each of the handrails 160;
It is installed on one side of the inspection path and is electrically connected to each of the impact detection sensors 180 to receive a measured value from each of the impact detection sensors 180, and a danger signal output reference value for outputting a danger signal is preset. A control unit 190 for comparing a measured value input from each of the impact sensors 180 with the reference value and outputting a danger signal when the measured value exceeds the reference value; And
It is installed on the handrail 160, is controlled by the control unit 190, and includes a buzzer 200 for outputting a danger notification alarm when the danger signal is output from the control unit 190;
The inspection path scaffold 150 is a square frame-shaped scaffold frame 151, a pair of borders having a length corresponding to the long axis sides of the scaffold frame 151 and a cross section connected to the long axis sides having a b-shape It comprises a frame 152, and a scaffold 153 placed on the scaffold frame 151;
When the inspection path scaffolding 150 is coupled between a plurality of adjacent inspection platform support frames 140, the short axis direction of the scaffolding frame 151 is fixed on the scaffolding support 143 of the inspection path scaffolding 150 In this case, the vertical portion of the pair of frame frames 152 is in close contact with the first vertical support 141 and the second vertical support 142;
The surface of the first horizontal frame 110, the second horizontal frame 130, the vertical frame 120, the inspection table support frame 140, and the handrail 160 are coated with an anti-corrosion coating layer. The coating material of the layer is composed of 15% by weight of triethanolamine, 25% by weight of indiazole, 20% by weight of hafnium, 10% by weight of molybdenum emulsified (MoS ₂ ), 15% by weight of titanium oxide (TiO ₂ ), and 15% by weight of propionamide. , Characterized in that the coating thickness is formed to 8㎛,
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