KR101218603B1 - Tacker - Google Patents

Abstract

The present invention relates to a Taka having a reinforcement liquid injection function, so that the reinforcement liquid is injected directly into the drainage plate body without passing through the Taka body, so that the reinforcement liquid does not have to be introduced into the Taka, and thus, the Taka does not need to be washed and the operation of the Taka is smooth. It relates to a Taka having a reinforcing liquid injection function is made to extend the life.
The configuration of the present invention is provided with a reinforcement liquid injection device on one side of the Taka, the reinforcement liquid injection device is a passage between the cylinder fixed to the Taka, the reinforcement liquid passing through the reinforcement liquid to the cylinder, the reinforcement liquid passage cylinder A check valve installed in the cylinder to move the reinforcement liquid only in the cylinder direction, a piston which is inserted into the cylinder in a watertight manner and moved in the front-rear direction, and has a slide ball formed at the center thereof; The inlet is opened and closed as it is inserted into and slides, and the other end is composed of a feed pipe having an injection hole for injecting reinforcing liquid provided at the front of the muzzle, and a compression spring installed at the rear of the transport pipe to move the feed pipe forward.
The present invention made of such a structure can be used continuously without the need to wash the scavenger does not have to worry that the reinforcing liquid is introduced into the tak, and the operation of the tak also smoothly and the life is extended.

Description

Taka having reinforcement liquid injection function {Tacker}

The present invention relates to a taka having a reinforcing liquid injection function to reinforce cracks due to nailing so that the reinforcing liquid flows with the nail when the nail is nailed to the wall, and more specifically, the reinforcing liquid does not pass through the body of the nail. The present invention relates to a taka having a reinforcing liquid injection function for preventing the malfunction of the taka while preventing the taka from being cleaned by directly injecting the water into the drainage plate body without using the tare.

Taka having a reinforcing fluid injection function was invented by the applicant of the present invention has been filed in Patent No. 10-2009-0103500 bar Looking at its structure as shown in Figure 1 guide body having a transfer guide groove (1 ') (1) )Wow; A striking rod 2 striking the nail N loaded by the operation of the trigger T; An air hammer (3) for linearly moving the striking rod (2) by using compressed air positioned at the rear end of the guide body (1); A nail feeder (4) for loading nails (N) one by one at the tip of the striking rod (2); A compressed rubber supply device 5 for loading compressed rubber 6 one by one at the tip of the nail supply device 4; Reinforcement liquid (R) is composed of a reinforcement liquid injection device 7 to be supplied to the tip of the guide body (1) by a predetermined amount.

Taka, having a conventional reinforcement liquid injection function having such a structure, when the nail (N) is fired, the nail (N) is fired while being stuck in the compression rubber (6) and the compression rubber (6) that is driven together with the nail (N). The reinforcement liquid R penetrated and reinforced by pushing out the reinforcement liquid R and being embedded in the drainage plate main body DB and the wall W. The cracks of the wall W generated by the nails penetrated and reinforced. Thus, since the nail N is automatically loaded, the reinforcement liquid R is also supplied by a predetermined amount, so that the construction of the wall drainage plate can be quickly and easily performed.

However, in Taka, which has a conventional reinforcing liquid injection function, the reinforcing liquid R is filled at the tip of the guide body 1, so that a part of the reinforcing liquid R is buried in the striking rod 2 and is repeated. Due to the transfer, the reinforcement liquid R is buried in the guide body 1 and the nail supply device 4 including the transfer guide groove 1 '. The reinforcing liquid (R) thus buried hardened over time to interfere with the operation of the Taka and eventually to cause a failure. Due to such a problem, there is a need to periodically clean the Taka, and in order to clean the Taka must be accompanied by the task of separating, which requires a lot of cleaning time and eventually has a disadvantage of delaying the construction time. Often, it was troublesome to clean, so it was not used for a long time.

Accordingly, the present invention has been made to solve the above problems, and thus it is an object of the present invention to provide a Taka having a reinforcing solution injection function that does not require cleaning of the Taka and extends the life of the Taka by preventing the reinforcing solution from flowing into the Taka. .

Taka having a reinforcing liquid injection function according to the present invention for achieving the above object is provided with a reinforcing liquid injection device on one side of the Taka, the reinforcement liquid injection device is a cylinder fixed to the Taka, and the reinforcement liquid inside the cylinder A check valve installed in a passage between the supplying reinforcement liquid passage and the reinforcement liquid passage cylinder to move the reinforcement liquid only in the cylinder direction, a piston which is inserted into the cylinder in a watertight direction and moved in the front-rear direction and has a slide ball formed at the center thereof, It is installed in the front, but the inlet is formed in one end is inserted into the slide ball of the piston, the inlet is opened and closed, the other end is provided with a discharge pipe for discharging the reinforcing liquid is provided in front of the muzzle and the rear of the transport pipe And a compression spring for moving the feed tube forward.

In addition, the Taka is a guide body having a transfer guide groove, a nail supply device to be loaded one by one into the transfer guide groove of the guide body, a striking rod hitting the nail loaded by the operation of the trigger, and the guide body Characterized in that it consists of an air hammer for linearly moving the striking rod using the compressed air is located at the rear end.

In addition, the guide body is characterized in that the insertion groove in which the compression rubber can be inserted is formed at the tip.

In addition, the guide body is provided with a sliding body at the front end, it is characterized in that the connection bar between the sliding body and the trigger is triggered only when the sliding body is moved to the rear.

Taka having a reinforcement liquid injection function according to the present invention having such a structure is because the discharge port discharged from the reinforcement liquid is injected directly into the drain plate body without passing through the Taka body, there is no fear that the reinforcement liquid will flow into the Taka to clean the Taka There is no need, and the operation of the taka is also smooth, which extends its lifespan and the taka can be used continuously.

1 is an exemplary view showing a structure of a Taka having a conventional reinforcing liquid injection function.
Figure 2 is a cross-sectional view showing the structure of the Taka having a reinforcing liquid injection function according to the present invention.
Figure 3 is a state diagram showing the structure of the Taka having a reinforcement liquid injection function according to the present invention.

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

Figure 2 is a cross-sectional view showing the structure of the Taka having a reinforcement liquid injection function according to the present invention, Figure 3 is a state diagram showing the structure of the Taka having a reinforcement liquid injection function according to the present invention.

As shown in these drawings, Taka having a reinforcement liquid injection function according to the present invention is provided with a reinforcement liquid injection device 200 on one side of the Taka 100, the reinforcement liquid injection device 200 is the discharge port drain plate body ( DB) has a structure that is directly inserted into the reinforcing liquid inlet (H2).

The taka 100 has a guide body 110 having a transfer guide groove 111 and a nail supply device 120 so that the nails N are loaded one by one into the transfer guide groove 111 of the guide body 110. And a straightening of the striking rod 130 by using the striking rod 130 striking the nail N loaded by the operation of the trigger T and the compressed air which is provided at the rear end of the guide body 110. It consists of an air hammer 140 to exercise.

The guide body 110 is guided so that the long transport guide groove 111 is formed straight inside the nail (N) in a straight line, the air hammer 140 is located on the rear side of the guide body 110 and compressed The air is linearly reciprocated forward and backward by the air, the striking rod 130 is provided at the front end of the air hammer 140 is a linear motion forward and backward like the air hammer 140. The air hammer 140 and the striking rod 130 is operated by the operation of the trigger (T) to strongly strike the nail (N) along the conveyance guide groove 111 of the guide body (110).

In addition, a sliding body 150 protruding forward by the compression spring SP1 is installed at the tip of the guide body 110, and a connecting bar 152 is installed between the sliding body 150 and the trigger T. Only when the sliding body 150 is retracted to be triggered. That is, when the sliding body 150 is in close contact with the drain plate body DB, the sliding body 150 moves toward the guide body 110, and when the sliding body 150 is spaced apart from the drain plate body DB, the compression spring SP1 is provided. By protruding back to the tip. An insertion groove 151 is formed at the tip of the sliding body 150 to fit the cylindrical compressed rubber 6 which is nailed together with the nail N. Therefore, when the nail (N) is nailed nail (N) head to the compression rubber (6) is pressed through the drainage plate while pressing the compression rubber (6) and stuck in the wall (W) at the time.

When the trigger (T) is pulled by the structure as described above, when the striking rod 130 hits the loaded nail N while moving forward by the air hammer 140, the nail along the transfer guide groove 111 of the guide body 110. When the N is fired forward, and the striking rod 130 is in the original position, the next nail N is loaded to be ready for striking, and thus the nail N can be continuously driven.

The reinforcement liquid injection device 200 is a cylinder 210 fixedly installed on the upper portion of the guide body 110, a reinforcement liquid container 220 fixedly installed at the rear of the cylinder 210, reinforcement liquid container 220 A check valve 230 installed in a passage between the cylinder 210 and the cylinder 210, a piston 240 installed in the cylinder 210, a transfer pipe 250 installed coaxially in front of the cylinder 210, and , Compression spring (SP2) for moving the transfer pipe 250 forward.

The cylinder 210 is formed in a tubular shape and is fixedly installed on the upper portion of the guide body 110, but is installed in parallel with the direction in which the nail N proceeds. The piston 240 installed inside the cylinder 210 has a tight coupling force with the inner circumference of the cylinder 210 and performs a linear reciprocating motion. And the slide ball 241 of the axial direction is formed in the center.

The transfer pipe 250 is formed of an elongated tube to allow the reinforcement liquid R to move therein. One end of the cylinder 210 is inserted from the front of the cylinder 210 and inserted into the slide ball 241 of the piston 240, and an inlet 251 penetrated therein is formed at an outer circumference thereof. The inlet 251 is closed when it is located in the slide ball 241 and is opened when it exits from the slide ball 241. Here, in order to define a section in which the piston 240 slides from the feed pipe 250, a set of stepped portions 252 protrude from the outer periphery of the feed pipe 250 at a predetermined interval. The step 252 may be formed in a section longer than the length of the piston 240, but may be enough to open the inlet 251. Therefore, the piston 240 is slidable only in this step 252. On the other hand, the other end is formed with a discharge port 253 for discharging the reinforcing liquid (R) and the discharge port 253 is projected a little more than the tip of the guide body 110 while facing forward to reinforce the drain plate body (DB) It can be fitted to the liquid inlet (H2). In addition, the tip top of the guide body 110 and the tip bottom of the transfer pipe 250 are integrally fixed so that the transfer pipe smoothly reciprocates.

On the other hand, the conveying pipe 250 is always moved forward by the compression spring (SP2) installed in the rear of the conveying pipe 250, the rear of the cylinder 210 is opened and closed by the ball (B) in general The reinforcement liquid R of the reinforcement liquid container 220 flows only in the direction of the cylinder 210 by the check valve 230.

Finally, the drainage plate body DB attached to the wall W has a nail hole H1 through which the nail N can be formed, and a plurality of reinforcing fluid injection holes H2 are formed around the nail hole H1 in the same radius. Is formed. The back of the nail hole (H1) and the reinforcing liquid inlet (H2) is formed with a filling chamber to be filled with the reinforcing liquid (R).

It will be described in detail how to use a taka having a reinforcing liquid injection function according to the present invention having such a structure.

First, the compressed rubber 6 is inserted into the insertion groove 151 of the sliding body 150 and the discharge port of the reinforcing liquid injection device 200 in a state in which it is in close contact with the wall W to fix the drain plate body DB. 253 is inserted into any one of the reinforcement liquid injection holes H2 of the drainage plate main body DB. At this time, the compression rubber (6) fitted to the sliding body 150 is to be carried out in a state to be located on the same axis line with the nail hole (H1). When the discharge port 253 of the reinforcement liquid injector 200 is pushed forward in the state in which the discharge valve 253 is inserted into the reinforcement liquid injection hole H2 of the drainage plate body DB, the feed pipe 250 retreats and the piston 240 Pushed). In this process, when the feed pipe 250 is initially retracted, the piston 240 does not move due to friction with the inner wall of the cylinder 210, but moves only the feed pipe 250 so that the inlet 251 located in the piston 240 is moved. Open out of the piston 240, the locking jaw 252 of the conveying pipe 250 is in close contact with the piston 240, the piston 240 moves together with the reinforcement liquid (R) in the cylinder 210 at the same time the inlet The reinforcing liquid R is filled in the filling chamber of the drainage plate body DB when the liquid is introduced into the transfer pipe through 251 and discharged to the discharge hole 253. At the same time, the compression rubber (6) inserted into the sliding body 150 is in close contact with the nail hole (H1) of the drain plate body (DB) and from this moment the sliding body 150 is retracted and the connecting bar 152 connected thereto is also moved. Unlock the trigger (T).

Pulling the trigger (T) in this state, the striking rod 130 is advanced by the air hammer 140 to hit the loaded nail (N) and nail along the transfer guide groove 111 of the guide body 110 (N) ) Is fired forward to penetrate through the nail hole (H1) of the compression rubber (6) and the drainage plate body (DB) to be embedded in the wall (W). When the nail N is nailed to the wall W, a crack is generated around the nail, and the reinforcing liquid R is forcibly penetrated by the crack to harden the crack.

Then, when the Taka 100 is spaced apart from the drainage plate body DB in order to nail the nail N to another place, the sliding body 150 and the transfer pipe 250 are moved forward by the compression springs SP1 and SP2. At the same time, the inlet 251 of the feed pipe 250 is inserted into the slide ball 241 of the piston 240 to be closed and the locking jaw 252 is brought into close contact with the piston 240 to pull the piston 240 forward. Move to. At this time, while the inside of the cylinder 210 is in a vacuum state, the reinforcing liquid R of the reinforcing liquid container 220 flows into the cylinder 210 and is filled.

In this way, if the nail N is nailed to the nail holes H1 of all the drainage plate bodies DB, there is no fear that the reinforcing liquid R will flow into the guide body 110, so that it can be used continuously without cleaning the Taka. have.

DB: Drain plate body H1: nail hole H2: reinforcing fluid inlet
N: nail R: reinforcement liquid SP1, SP2: compression spring
T: Trigger W: Wall 6: Compressed Rubber
100: Taka 110: guide body 111: transfer guide groove
120: nail supply device 130: blow rod 140: air hammer
150: sliding body 151: insertion groove 152: connection bar
200: reinforcement liquid supply device 210: cylinder 220: reinforcement liquid container
230: check valve 240: piston 241: slide ball
250: transfer pipe 251: inlet 252: step
253 discharge port

Claims (4)

The reinforcement liquid injection device 200 is installed on one side of the taka 100, the reinforcement liquid injection device 200 includes a cylinder 210 fixed to the taka 100; A reinforcing liquid container 220 for supplying the reinforcing liquid R therein to the cylinder 210; A check valve 230 installed in a passage between the reinforcement liquid container 220 and the cylinder 210 to move the reinforcement liquid R only in the direction of the cylinder 210; A piston 240 watertightly inserted into the cylinder 210 and moving in the front-rear direction and having a slide ball 241 formed at the center thereof; It is installed in front of the cylinder 240, but one end formed with the inlet 251 is inserted into the slide ball 241 of the piston 240, the inlet 251 is opened and closed as the other end, the reinforcing liquid (R) is discharged A conveying pipe 250 having a discharge port 253 to be formed; A compression spring SP2 installed at the rear of the transfer pipe 250 to move the transfer pipe 250 forward; In Taka (100) consisting of,
The discharge port 253 of the transfer pipe 250 protrudes toward the front of the taka 100 so that the discharge port 253 is in close contact with the reinforcement liquid injection hole H2 of the drainage plate body DB so that the reinforcement liquid R is injected. Taka with reinforcement liquid injection function characterized by. According to claim 1, wherein the taka 100 is a guide body having a transport guide groove 111 and 110; A nail supply device 120 for loading the nails N into the transport guide grooves 111 of the guide body 110 one by one; A striking rod 130 striking the nail N loaded by the operation of the trigger T; An air hammer 140 that linearly moves the striking rod 130 by using compressed air positioned at the rear end of the guide body 110 and supplied; Taka having reinforcement liquid injection function characterized in that it is comprised. According to claim 2, At the front end of the guide body 110 is provided with a sliding body 150 protruding forward by the compression spring (SP1), the connection bar between the sliding body 150 and the trigger (T) ( Taka is provided with a reinforcing fluid injection function, characterized in that the 152 is installed to be triggered only when the sliding body 150 is moved to the rear. 3. The taka having a reinforcing fluid injection function according to claim 2, wherein the guide body 110 has an insertion groove 151 into which the compression rubber 6 is fitted at its tip.

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