KR200338815Y1 - The Under frame for A glasshouse structure - Google Patents

Abstract

end. The technical field to which the invention described in the claims belongs.

The present invention relates to the lower frame of the greenhouse frame for construction, more specifically, the connection of the lower frame extending in the longitudinal direction is quick and easy, and the rainwater is not disturbed due to the insertion of the connector to smoothly drainage. .

I. The technical problem the invention is trying to solve.

In order to connect the lower frame of the conventional building greenhouse frame, by connecting the cut end and applying silicone to the inner and outer surfaces or by taking other suitable methods, the connection is not only slow and cumbersome, but also damages the aesthetics and easily leaks. There was a problem that the pests and odors were generated due to stagnant rainwater interrupted by the flow of the silicon coated on the inner surface.

All. The gist of the solution of the invention.

A connecting tube made of a tubular body is inserted into the inner surface of the cylindrical portion in which the drainage passage is closely attached to connect the continuous lower frame quickly and easily, and the inner bottom surface of the cylindrical portion is positioned lower than the bottom surface of the body by a certain depth, By preventing water from seeping into the greenhouse.

la. Important uses of the devise

Underframe.

Description

The Under frame for A glasshouse structure}

The present invention relates to the lower frame of the greenhouse frame for construction, more specifically, the connection of the lower frame extending in the longitudinal direction is quick and easy, and the rainwater is not disturbed due to the insertion of the connector to smoothly drainage. .

In general, vinyl houses are built to grow vegetables or flowers regardless of season, and are being built using glass to overcome the weakness of vinyl tearing. Dome-shaped greenhouses are being built to adequately block.

Such a construction greenhouse is provided with a plurality of vertical frames spaced apart at predetermined intervals, a lower frame supporting the bottom of the vertical frame, and a plurality of vertical frames are arranged at regular intervals and provided with reinforcement frames for fixing them. In this way, by placing a plurality of unit glass in the space partitioned between the frame to form a roof or side wall of the building greenhouse, by applying a silicon or the like between the above-described frame and the outer circumference of the glass sandwiched therein flow between them To prevent water and soundproofing.

At this time, the lower frame of the building greenhouse frame is proposed by the present applicant in the registration number 20-0132558, the cross-sectional shape, the inner plate 12 protruding perpendicular to one end of the plate-shaped body; and formed on the other end of the body And a semi-cylindrical cylindrical portion 13 opened inwardly, and protrudingly formed on the body between the inner plate 12 and the cylindrical portion 13 so as to elastically support the end of the vertical frame 3 to the inner plate 12 side. And a guide plate (16) formed between the inner plate (12) and the finger plate (14) above the body (11) to be inclined downward toward the plate plate (14); and a cylindrical portion ( 13) and a convex portion 17 formed to protrude convexly upward from a predetermined portion of the body between the fingerboard 13; provided with a lower frame 100 of the greenhouse frame for building so that rainwater does not penetrate into the greenhouse. To drain the rainwater back to the outside It was.

The lower frame of the building greenhouse frame was cast and molded to have a constant length such as 6M or 8M using lightweight non-ferrous metals such as aluminum to be connected or cut to correspond to the length of the greenhouse to be built.

However, in order to connect the lower frame of the conventional building greenhouse frame, by connecting the cut end of the lower frame and applying the silicon on the inner surface and the outer surface, the connection is not only slow and cumbersome, but also to the outer coated silicone. There is a problem that the water leaks easily occurs by damaging the aesthetic appearance, the rainwater was interrupted by the flow of the silicon applied to the inner surface stagnated, causing pests and odor.

In addition, the convex portion 17 is formed so that rain water flowing through the drain passage 18a provided on the bottom surface of the cylindrical portion 13 does not flow into the greenhouse, thereby inserting a general pipe inside the cylindrical portion 13. If the connection is made by making the connection is difficult and there is a problem that the leak occurs due to the lack of airtight, there was a difficulty to separately manufacture a tube having a peripheral shape corresponding to the convex portion.

The present invention was devised to solve the above problems, the object of the present invention is the connection of the lower frame of the building greenhouse frame is quick and easy, and the rain of the building greenhouse frame that can be flowed without disturbing the incoming rainwater To provide a frame,

The purpose of the present invention is to connect the continuous lower frame quickly and easily by inserting the connecting pipe made of tubular body to the inner surface of the cylindrical portion in which the drainage passage is provided so that the rainwater flows smoothly, and the inner bottom surface of the cylindrical portion is This is done by placing it below a certain depth below the bottom of the body so that water trapped in the drainage passage does not seep into the interior of the greenhouse.

1 is a use state showing a state in which the lower frame of the present invention is installed.

Figure 2 is a partial perspective view showing the configuration of a conventional lower frame.

3 is a cross-sectional view taken along the line A-A 'of FIG.

4 is a partial perspective view showing the configuration of the present invention.

5 is a use state showing the connection state of the lower frame of the present invention.

6 is a partial side view showing a state in which the lower frame is installed.

Explanation of symbols on the main parts of the drawing

1: donation (of the lower frame) 2: finishing frame

3: vertical frame 4: reinforcement frame

6: glass 19: silicon

100: lower frame 110: body

120: inner side plate 130: cylindrical portion

180: drainage passage 200: connector

210: opening

Hereinafter, with reference to the accompanying drawings will be described in detail the most preferred embodiment of the present invention. First, in describing each of the drawings, only the same components have the same reference numerals as much as possible even if shown on different drawings.

1 is a perspective view showing a state in which the lower frame of the greenhouse frame for construction of the present invention is installed, Figure 4 is a partial perspective view of the lower frame showing the configuration of the present invention.

According to the drawings, the lower frame of the building greenhouse framework of the present invention is a lower part of the building greenhouse frame is combined with the lower end of the plurality of vertical frames to support both sides of the glass to form a roof or side wall of the building by combining a plurality of unit glass In the frame, the lower frame is a cylindrical portion having an inner side plate 120 protruding upward at a constant height along the longitudinal direction at one end and an opening 210 opened upwardly at a constant width along the longitudinal direction at the other end. 130 is a configuration consisting of a body 110 is provided.

The body 110 including the inner plate 120 and the cylindrical portion 130 may be integrally formed using a light metal such as aluminum, or may be combined and then manufactured separately.

The bottom of the cylindrical portion 130 is formed at a position lower than the bottom surface of the body 110 on which the vertical frame is seated so that rainwater does not flow into the greenhouse.

At this time, the upper portion of the cylindrical portion 130 is cut in a predetermined width along the longitudinal direction to form the opening 210 by the rainwater flowing down the outer wall of the greenhouse flows into the inner surface drain passage of the cylindrical portion 130 installed to have a slope Drained along 180.

In particular, the inner wall end portion 131 of the cut cylindrical portion 130 is protruded to a certain height to the end of the body 110 is connected is bent to the inside of the greenhouse is given a predetermined fingering force, thereby The rainwater that flows in close contact with the glass outer surface to be coupled is introduced into the inner drain passage 180 of the cylindrical portion 130.

At this time, the outer wall end 132 of the cylindrical portion 130 is to face each other with a predetermined distance spaced apart from the inner wall end, the spaced distance is formed smaller than the inner diameter of the cylindrical portion 130, when the lower frame connection operation to be described later Cylindrical connecting pipe 200 to be inserted through the opening 210 is to be freely separated.

At this time, the outer wall end 132 is to be bent toward the outside of the cylindrical portion 130 is to be able to smoothly insert the connection pipe 200.

The lower frame of the building greenhouse framework of the present invention made of the above configuration is coupled to the unit glass 6 between the vertical frame 3 and the reinforcement frame 4 as shown in Figure 6 and the lower end of the vertical frame (3) It is enough to sandwich the inner plate 120 and the cylindrical portion 130 between the inner wall and fill the silicon (19).

At this time, the connection portion of the lower frame is to be inserted through the opening 210, the connection pipe 200 having a certain length and has an outer diameter in close contact with the inner circumferential surface of the cylindrical portion 130.

When rain water flows in the assembled greenhouse in this way, it flows along the outer surface of the glass or the frame and flows to the drain passage 180, and the drain passage 180 flows because the bottom portion is sufficiently lower than the body 110. Rainwater will not penetrate inside the greenhouse.

In addition, the lower frame 100 is a connection can be completed quickly and easily only by inserting the connection pipe 200, and when performing the airtight work using the silicon (19) to prevent leakage and Likewise, it can prevent the problem of impairing aesthetics or delaying work.

In particular, the connection pipe 200 to be inserted is to prevent the flow of water flowing along the drain passage 180 by selecting a relatively thin thin tube.

On the other hand, the outer surface of the body 110 and the cylindrical portion 130 can be made to improve the durability by forming a wrinkle or the like along the longitudinal direction to reinforce.

Reference numeral 1 is a concrete base on which the lower frame is placed, and 2 is a finishing frame.

As described above, when the lower frame coupled to the vertical frame is connected, the present invention can be terminated by a simple operation of inserting a connector through an opening formed above the cylindrical portion, so that the operation can be completed quickly and easily. And, since the bottom portion of the cylindrical portion is provided with a drain passage is lower than the body there is an effect that there is no fear of water flowing through the drain passage into the inside of the greenhouse.

Claims (3)

In the lower frame of the building greenhouse frame in which the lower ends of the plurality of vertical frames fixed to support both sides of the glass to form a roof or sidewall of the building by combining a plurality of unit glass, the lower frame has a longitudinal direction at one end A cylindrical portion 130 having an inner plate 120 protruding upward at a constant height and having an opening 210 opened upwardly at a constant width along the longitudinal direction at the other end thereof and having a drain passage 180 formed at the bottom of the inner surface thereof. The lower frame of the greenhouse skeleton, characterized in that made of a body (11) formed. The lower frame of the greenhouse frame, characterized in that the drainage passage 180 is formed by a predetermined depth lower than the bottom surface of the body (110). According to claim 1 or 2, wherein the lower frame is extended in the longitudinal direction by a connecting pipe 200 having an outer diameter is inserted through the opening 210 and in close contact with the inner surface of the cylindrical portion (130) Lower frame of the greenhouse frame, characterized in that.