KR200403579Y1 - A screw to fix a ceiling - Google Patents

Abstract

The present invention relates to a ceiling fixing screw used for the ceiling finishing of a building, by varying the pitch interval of the thread formed in the body portion depending on the action of the screw to enable efficient and robust construction regardless of the thickness of the fixing material It is also possible to allow self-perforation.

To this end, the screw of the present invention is divided into a finishing member through and a fixing member fastening portion, so that the pitch interval of the thread formed in the portion passing through the finishing material is sparse so as to increase the working speed for screwing, and after the finishing material penetrates to the fixing member The thread pitch spacing of the parts to be fastened is densely formed so that the screws are tightly bound to the fixing material of the thin film.

In addition, the tip of the body to form a point having a secondary thread and the cutting groove to be able to be fastened by self drilling without a separate drilling work.

Description

A screw to fix a ceiling}

The present invention relates to a screw for fixing the ceiling used in the ceiling finishing work of the building, it is possible to have a good binding force even for the fastening of the thin film due to both the binding force according to the thickness of the fixing material and the work efficiency of the operator at the same time. In addition, it is possible to increase the working speed to enable efficient and solid construction regardless of the thickness of the fixing material, and also to allow self-perforation in this state.

In the conventional ceiling finishing work in most new buildings, the portion embedded in the ceiling, as shown in Figure 5 is a steel frame such as M-BAR or T-BAR is constructed as a fixing material 100, exposed to the interior The part is to be installed by fixing the finishing material 200 such as cement sheet or gypsum board to the lower side of the fixing material 100, wherein the fixing material such as fixing material 100 and the finishing material 200 using the bolt screw 300 By closing, the ceiling is finished.

However, the bolt screw used at this time is made evenly pitch pitch of the thread formed in the body portion.

Therefore, when the finishing work of the ceiling is made using such a conventional bolt screw, if the thickness of the fixing material is thicker than usual, the working speed becomes slow because the rotation speed of the screw for screwing is relatively increased, The use of a thickness thinner than that of the conventional means that the fastening material was not held by the thread but simply spanned in the spaces between the threads, thus making it impossible to form a tight coupling with the screw.

In addition, the bolt screw used in the fixing material was made of steel frame, so that only the bolt screw was used and the fixing material could not be punched. Therefore, a separate drilling work had to be performed in order to penetrate the bolt screw through the fixing material. Inevitably, there is a lot of inconvenience in working because it has to go through two working processes.

Therefore, the screw of the present invention makes the thread pitch spacing of the portion penetrating the finishing material sparse to increase the working speed for screwing, and the thread pitch spacing of the portion fastened to the fixing material is densely formed to fix the thin film. By having excellent binding force, efficient and solid construction is possible regardless of the thickness of the fixing material.

In addition, the front end of the body portion is formed by a pointed portion having a thread and a cutting groove so that it can be self-punched by fastening without additional drilling.

Hereinafter, with reference to the drawings will be described in more detail the configuration of the subject innovation.

As shown in FIG. 1, the present invention is a conventional bolt screw consisting of a body portion 20 which is fastened by a screw thread 21 formed on an outer circumferential surface of the head 10 and one side of the head 10. The thread 21 is divided into the upper portion through which the finishing material penetrates and the lower portion through which the fixing material is fastened, thereby forming a thread 21a having a relatively large pitch gap in the finishing material through part, and It is a feature that a thread 21a having a relatively small pitch interval is formed.

In this case, the thread 21a formed in the penetrating member penetrating portion may be formed in about 10 threads / 1 inch to 20 mountains / 1 inch, and the threads 21b distributed in the fixing member fastening part may be 20 mountains / 1 inch to 26 mountains / 1 inch. When formed to such a degree, both workability and fastening property can be satisfied in consideration of both the fixing material and the fixing material of the thin film, which are currently conventionally provided, and a fast workability is obtained even when a thick finish material is used.

In addition, the screw of the present invention, as shown in FIG. To form self-perforation.

At this time, the pointed portion 24 is longer than the length of the pointed portion formed in the normal screw body portion is to facilitate the formation of the auxiliary screw line 22 and the cutting groove 23, and when the fixing material is drilled progressively with the fixing material Contact is possible.

At this time, the pointed portion 24 has a smaller inner angle of the vertex 24a, so that the initial contact area with the fixing material is reduced so as not to damage the fixing material of the thin film, but if the corner angle is too small, it may be bent or broken before drilling the fixing material. If the vertex cabinet is too large, the point is thick, damaging the fixing material of the thin film.

Therefore, the apex angle of the pointed portion 24 is to be formed in the range of 25 ° ~ 130 ° can be used without difficulty to ordinary fixing materials without damaging the fixing material of the thin film.

In addition, the cutting groove 23 formed in the pointed portion 24 is to be formed to be excavated in the vertical direction starting from a point slightly spaced downward from the vertex 24a of the pointed portion 24, wherein the cutting groove ( 23) may be formed on both sides or radially in plural, even if only one is formed on either side of the pointed portion according to the area of the pointed portion (24).

At this time, the cutting groove 23 is chamfered so as to chamfer the pointed portion 24 as shown in Figure 2a to form a blade (23a) standing on the edge of the cutting groove can obtain a more excellent cutting effect of the drilling operation It can increase efficiency.

In addition, as shown in FIG. 3, the threads 21 and 22 formed on the screw of the present invention have two starting points of the threads so that they are made of two rows of lead threads, thereby strengthening the tightening force and setting the angle of the threads. It is also possible to form a structure that can be faster.

Therefore, the screw of the present invention configured as described above is larger in pitch pitch of the thread 21a formed on the upper portion of the body portion 20 as shown in FIG. Since the number of rotations of the screw to be rotated can be reduced more than usual, the work speed for screwing is increased, and the pitch spacing of the threads 21b distributed in the lower portion is relatively small, so that the finishing material 200 and the fixing material are relatively small. The portion to be fastened after the penetration of the 100 is also bitten by the fixing member 100 of the thin film and is tightly bound with the thread 21b.

 In addition, by forming the pointed portion 24 having the secondary thread 22 and the cutting groove 23 at the tip of the body, self-puncture to the fixing material is possible, in particular, the pointed portion 24 is thin and pointed When used in the fixing material, the area contacted with the fixing material for the first time is small, so that the resistance applied to the fixing material is relatively small, so that there is no deformation of the fixing material, and when the fixing material is punched, the pointed portion 24 sequentially enters the secondary screw thread ( 22) and the perforated part by the cutting groove 23 is gradually widened so that the screw is perforated so that it can be fastened through without damaging the fixing material.

In addition, even when a weak strength gypsum board is used as the finishing material, the gypsum board is not broken or broken by the same effect as the case of using a thin film fixing material, so that the gypsum board can be used.

On the other hand, Figure 5 is to form another finishing material 400 for the effect such as the beautifulness or sound insulation of the interior exterior to the lower side of the finishing material 200, as shown in Figure 6, when a double ceiling finishing work is made, An embodiment of a screw to maintain the efficiency of the, to form a thread 21c is formed a relatively large pitch spacing for the penetration of another finishing material to the lower side of the fastener fastening portion.

Therefore, even if a double ceiling finishing work is made, it is possible to quickly fasten while maintaining the same fastness.

Therefore, the screw of the present invention can improve the work efficiency greatly because the working speed is fast and easy regardless of the thickness and material of the fixing material, and at the same time, it can be tightly connected with the fixing material even when used for thin film fixing material. In addition, there is no damage to the fixing material of the thin film can be perforated by the ceiling finish construction safely and quickly.

1 is a perspective view showing an embodiment of the present invention.

Figure 2, 2a is a perspective view of an embodiment to enable the self-puncture of the present invention.

Figure 3 is a perspective view showing another embodiment to enable self-poration.

Figure 4 is a cross-sectional view of the screw of the present invention is fastened to the fixing member and the finishing material.

5 is a perspective view showing another embodiment of the present invention.

Figure 6 is a cross-sectional view of the fastening state when two finishes are constructed.

7 is a cross-sectional view of a conventional bolt screw is fastened to the fixing member.

<Description of the symbols for the main parts of the drawings>

10: head 20: torso

21: thread 22: auxiliary thread

23: cutting edge 24: pointed part

Claims (5)

In the conventional bolt screw consisting of the head portion 10 and the body portion 20 extending to one side of the head 10 to be fastened by a screw thread 21 formed on the outer circumferential surface, the thread portion 21 is a body portion ( 20) is divided into an upper portion through which the finishing material penetrates and a lower portion through which the fixing material is fastened, thereby forming a thread 21a having a relatively large pitch spacing at the finishing material through portion, and a thread 21a having a relatively small pitch spacing at the fixing material fastening portion. Ceiling fixing screws, characterized in that formed.        2. The ceiling fixing screw according to claim 1, wherein a thread (21c) having a relatively large pitch interval is formed to penetrate another finishing material under the fixing member fastening portion.       According to claim 1 or claim 2, wherein the tip of the body portion 20 is formed with an auxiliary screw thread 22 is formed on the outer circumferential surface and the pointed portion 24 having a cutting groove 23 formed on one side thereof. The screw for fixing the ceiling is characterized in that the self-puncture is possible.       According to claim 3, The cutting groove is a ceiling fixing screw, characterized in that the blade is formed to be erected by chamfering a portion of the pointed portion.       5. The ceiling fixing screw of claim 4, wherein said thread consists of two rows of lead acids.