KR101071529B1 - Nail hitting device - Google Patents

Abstract

The present invention relates to a nail striking device for crack reinforcement, and to a crack reinforcing nail striking device to ensure that the precise blow is made by allowing the nail to be embedded in the nail striking device to be embedded in the nail striking device.

The configuration of the present invention, the guide body having a transport guide groove; A striking rod that strikes a nail loaded by operation of the trigger; An air hammer for linearly moving the striking rod by using compressed air which is positioned at the rear end of the guide body and supplied; In the nail striking device configured, the guide body has an insertion chamber into which the compression rubber is inserted at its tip.

The present invention made of the above structure is embedded in the nail hitting device is nailed compression rubber is fired at the same time as the nail is nailed to prevent accurate construction and prevent the construction failure, until the compression function of the compression rubber is completed By holding the circumference of the compressed rubber to prevent the damage of the compressed rubber due to the nail hitting, and the compressed rubber and reinforcing liquid is automatically supplied, there is an effect that can be quickly and easily installed.

Crack, reinforcement, nail, blow, device, taka, supply

Description

Nail Blow Device for Crack Reinforcement {NAIL HITTING DEVICE}

The present invention relates to a nail hammering device for crack reinforcement, and more particularly, to a nail hammering device for crack reinforcement so that the nail used when fixing the wall drainage plate is fired together with the compressed rubber filled with the reinforcement liquid.

Typically, the concrete wall of the basement of the building is attached to the wall drainage plate, which is the interior of the double-wall structure. In order to attach the wall drainage plate, there is a method of using an adhesive and a method of fixing using a nail. First, in the case of using an adhesive, the difference in shrinkage expansion coefficient due to leakage, condensation and moisture of the concrete wall or the temperature difference of the four seasons, and the surface of the concrete Due to the oxidation of the adhesive is made of a synthetic resin material does not continue to adhere to the concrete, there is a problem that eventually falls off over time. In addition, when the nail is fixed by using nails, there is a problem in that durability is weakened due to moisture infiltrating as nails are nailed to the wall and cracks are generated around the concrete and the waterproof layer applied to the wall is destroyed.

'Num crack crack reinforcement sphere and method' to solve this problem has been filed by the present applicant and registered in Patent No. 0888181. Looking at the contents of the registered patent, it is possible to fill the reinforcement in the center of the reinforcement body After filling the reinforcement liquid into the cylinder and inserting the rubber stopper, insert the flat washer on the nail head, put the nail on the center of the rubber stopper and nail it with a tableting tool to nail the nail and at the same time the reinforcement liquid penetrates the crack. It is structure to reinforce cracks. When the nail is nailed to the concrete wall by such a structure, the reinforcement liquid penetrates into the crack portion generated at the same time as the nail is driven while forcibly pushing the reinforcement liquid in the cylinder, thereby completely reinforcing the crack portion of the concrete wall.

However, the reinforcing tool having the above structure is nailed by the worker using a tableting tool. If the tableting tool is not closely adhered to the reinforcing tool, the nail does not penetrate the center of the cylinder correctly, and thus the reinforcing fluid does not flow smoothly. There was a problem.

In addition, there is a problem that the cylinder is damaged while the reinforcement is compressed by the nail to be hit, it is to use a synthetic resin having excellent durability due to this problem, the cost of the synthetic resin is expensive because the price is high.

Accordingly, the present invention has been made to solve the above problems, by allowing the nail to be fired from the hitting tool in the state of being embedded in the compressed rubber to make accurate hit, by holding the circumference of the compressed rubber until the compressed rubber is stuck It is an object of the present invention to provide a nail striking device for crack reinforcement which prevents compression rubber from being damaged by nail striking.

Yet another object of the present invention is to provide a cracking reinforcement nail striking device that can be quickly and easily constructed by supplying a reinforcing liquid to the tip of the compressed rubber while automatically supplying the compressed rubber and nails one by one.

Crack reinforcing nail striking device according to the present invention for achieving the above object,

A guide body having a straight conveying guide groove so that the embedded nail is fired in a straight line; A nail feeder for loading nails into the guide body one by one; A striking rod that strikes a nail loaded by operation of the trigger; In the nail striking device consisting of an air hammer for linearly moving the striking rod using the compressed air is provided at the rear end of the guide body,

The guide body is provided with an insertion chamber into which the compressed rubber is inserted at its tip, so that the compressed rubber is released together with the nail when the trigger is pulled after the reinforcing liquid is injected in the state where the compressed rubber is inserted.

In addition, the insertion chamber is characterized in that the support jaw of the drainage plate is inserted while the insertion hole of the diameter of the expansion is formed at the front end so that the reinforcing liquid is filled.

In addition, the guide body has a sliding body at its tip, forms an insertion chamber and a fitting hole in the sliding body, and connects a connection bar coupled with the locking lever of the trigger to one end of the sliding body to retract the sliding body only. It is characterized in that the trigger is pulled.

In addition, a compression spring is installed between the sliding body and the guide body so that the sliding body protrudes to the tip of the guide body by the compression spring, and forms a limiting groove in the longitudinal direction in the guide body, and stops from the outer surface on the sliding body. The screw is coupled through so that it is positioned in the limit groove of the guide body.

In addition, the transfer guide groove is characterized in that the nail is hit by the elastic guide to the guide piece gradually narrower toward the tip to guide the center of the compression rubber.

In addition, the guide body having a straight transport guide groove so that the built-in nail is launched in a straight line; A nail feeder for loading nails into the guide body one by one; A striking rod that strikes a nail loaded by operation of the trigger; An air hammer for linearly moving the striking rod by using compressed air which is positioned at the rear end of the guide body and supplied; In the configured nail striking device,

The guide body is installed by supplying a compressed rubber automatic feeder at the tip of the nail feeder to be supplied one by one, and a reinforcement liquid feeder is installed at the top so that the reinforcement liquid is supplied by a predetermined amount to the tip of the loaded compressed rubber, the trigger Pulling the nail is characterized in that the reinforcement liquid is fired while firing nailed to the compression rubber.

In addition, the reinforcing liquid supply device, the cylinder is provided on the top of the guide body and the discharge port is formed at the end of the compression rubber at one end; A piston for ejecting the reinforcing liquid in the cylinder to the jet port as the linear reciprocating motion is performed in the cylinder; A compression spring for pushing the piston forward; A push rod for returning the piston to the rear; Reinforcing liquid cylinder for supplying a built-in reinforcing liquid to the cylinder; Characterized in that the configuration.

In addition, the guide body is provided with a sliding body at its front end, characterized in that the trigger is pulled only when the sliding body is retracted by connecting the connection bar coupled to the locking lever of the trigger to one end of the sliding body.

In addition, the reinforcing liquid supply device, the cylinder is installed horizontally on the upper portion of the guide body; A piston embedded in the cylinder to linearly reciprocate; A reinforcement liquid passing through the reinforcement liquid to the cylinder; A sliding body installed at the front end of the guide body and sliding; A transfer tube connected to the sliding body and the piston integrally to transfer the reinforcing liquid in the cylinder into the sliding body; Characterized in that the configuration.

The crack reinforcing nail striking device according to the present invention having such a structure is built in the nail striking device, so that the nail is nailed with the nail hitting device at the same time as the nail is shot at the same time as the precise blow is made to prevent construction failure, and compression By holding the circumference of the compressed rubber until the compression function of the rubber is completed, there is an effect of preventing the damage of the compressed rubber due to the nail hitting.

In addition, since the compressed rubber and reinforcing liquid is automatically supplied, it can be quickly and easily installed, and it is possible to prevent safety accidents as well as precise construction because it can be hit only when it is in close contact with the drain plate.

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

Figure 1a, 1b is an enlarged cross-sectional view showing the structure of the nail striking device for crack reinforcement according to the first embodiment of the present invention, Figure 2a, 2b, 2c, 2d is a crack reinforcement according to the first embodiment of the present invention Exemplary diagram showing the operating state of the nail hammer device.

As shown in these drawings, the nail reinforcing device for crack reinforcement according to the present invention includes a guide body 10 having a transfer guide groove 11; A striking rod 30 striking the nail 1 loaded by the operation of the trigger T; An air hammer 40 which linearly moves the striking rod 30 by using compressed air which is positioned at the rear end of the guide body 10 and supplied; In the nail striking device configured, the guide body 10 has a structure having an insertion chamber 12 into which the compression rubber 2 is inserted at its tip. In the insertion chamber 12, a compressed rubber 2 into which the nail 1 is fitted is fitted.

The guide body 10 is guided so that the long transport guide groove 11 is formed straight inside the nail 1 in a straight line. The rear side of the guide body 10 is provided with an air hammer 40 to linearly reciprocate back and forth by the compressed air, the striking rod 30 is provided at the tip of the air hammer 40, the air hammer 40 and Likewise, the linear movement is made forward and backward. The air hammer 40 and the striking rod 30 is operated by the operation of the trigger (T) nail (1) embedded in the compression rubber (2) to be described later along the transfer guide groove 11 of the guide body (10) Will hit hard.

In addition, the guide body 10 has an insertion chamber 12 into which the compressed rubber 2 can be inserted at the front end thereof so that the compressed rubber 2 can be inserted from the front of the guide body 10. Here, the insertion chamber 12 is formed with a diameter corresponding to the outer diameter of the compression rubber 2, and the insertion hole 13 which is more extended than the insertion chamber 12 is formed at the front end thereof. The fitting hole 13 has a diameter corresponding to the outer diameter of the supporting jaw 4a of the drainage plate 4 and is a space in which the supporting jaw 4a is partially inserted into the fitting hole 13 when the fitting hole 13 is in close contact with the drainage plate 4. .

The fitting hole 13 is also used as a space in which the reinforcing liquid 3 is filled. That is, after the compressed rubber 2 is inserted into the insertion chamber 12, the reinforcing liquid 3 is filled at the tip of the compressed rubber 2 using a tool such as a syringe, as shown in FIG. 1B. The reinforcement liquid 3 is also sufficiently filled in the fitting hole 13 so that when the supporting jaw 4a of the drainage plate 4 is inserted into the fitting hole 13, the reinforcement liquid 3 is formed in the nail hole of the drainage plate 4. This is to allow some inflow to 4b).

In addition, the compressed rubber 2 is made of synthetic resin or rubber having its own elasticity, and has a cylindrical shape. The compressed rubber (2) has a nail guide groove (2a) formed in the longitudinal direction therein so that the nail (1) can be inserted while a filling chamber (2b) having a predetermined space on one surface is formed a reinforcing liquid ( Allow to fill 3).

With reference to the accompanying drawings, the operating state of the nail hammering device for crack reinforcement according to the second embodiment of the present invention having such a structure will be described.

First, the nail 1 is inserted into the nail guide groove 2a of the compressed rubber 2, and then the compressed rubber 2 is inserted into the insertion chamber 12 of the guide body 10 as shown in FIG. 1B. Insert. In this state, the reinforcing liquid 3 is filled in the filling chamber 2b of the compressed rubber 2, and the reinforcing liquid 3 is sufficiently filled up to the fitting hole 13. In this state, as shown in FIG. 2A, when the guide body 10 is in close contact with the drain plate 4, the supporting jaw 4a of the drain plate 4 is fitted into the fitting hole 13 of the guide body 10 as shown in FIG. 2B. Is inserted. Then, the replenishment liquid 3 flows into the nail hole 4b of the drainage plate 4 by the amount corresponding to the volume of the inserted support jaw 4a, thereby making a very large gap inside the nail hole 4b. Pulling the trigger (T) in such a state that the air hammer (40) is activated to strike the nail (1) inserted into the compression rubber (2) as the striking rod (30) protrudes forward in a moment, the compression rubber ( 2) is in close contact with the nail (1) head and the compression rubber (2) is fired together with the nail (1). As a result, as shown in FIG. 2D, the nail 1 penetrates the nail hole 4b of the drainage plate 4 and is embedded in the concrete wall W. As shown in FIG. In this process, a partial crack occurs around the nail (1) that is nailed to the concrete wall (W), and the compression rubber (2) pressed by the nail (1) is filled in the filling chamber (2b). By pressurizing the reinforcement liquid 3, the reinforcement liquid 3 is forcibly filled into the crack portion and cured to reinforce the crack portion.

Figure 3a, 3b is an enlarged cross-sectional view showing the main portion of the structure of the nail hammer for crack reinforcement according to the second embodiment of the present invention, Figure 4a, 4b, 4c, 4d is a crack reinforcement according to the second embodiment of the present invention Exemplary diagram showing the operating state of the nail hammer device.

As shown in these drawings, nail hammering device for crack reinforcement according to the present invention is provided with a nail supply device 20 for supplying the nail 1 one by one to the transport guide groove 11 on one side of the guide body (10) will be.

The nail supply device 20 is formed with a guide groove in which a plurality of nails 1 can be arranged in a line, and springs are built into one end thereof to transfer the built-in nails to the transfer guide groove 11 one by one. Such a nail supply device 20 can be mounted to be removable after mounting a large amount of nails.

In the present invention having such a structure, since the nail 1 is automatically supplied by the nail supply device 20, only the compression rubber 2 is inserted into the insertion chamber 12 and then triggered, unlike the first embodiment. .

That is, as shown in FIG. 3B, the compressed rubber 2 is inserted into the insertion chamber 12 of the guide body 10, and the reinforcing liquid 3 is filled into the filling chamber 2b of the compressed rubber 2. Next, as shown in FIG. 4A, the guide body 10 is brought into close contact with the drain plate 4 so that the supporting jaw 4a of the drain plate 4 is inserted into the fitting hole 13 of the guide body 10 as shown in FIG. 4B. (3) flows into the nail hole 4b of the drain board 4, and the gap inside the nail hole 4b is made very small. Pulling the trigger (T) in such a state is to operate the air hammer 40 is instantaneously striking the front rod striking rod 30 hit the loaded nail (1), nail (1) is fired forward The tip of the nail (1) is inserted into the nail guide groove (2a) of the compression rubber (2) and then the head of the nail (1) is in close contact with the compression rubber (2) and the compression rubber (2) together with the nail (1) Is fired. As a result, as shown in FIG. 3d, the nail 1 penetrates the nail hole 4b of the compression rubber 2 and the drainage plate 4, and is nailed to the concrete wall W. As shown in FIG. In this process, a partial crack occurs around the nail (1) that is nailed to the concrete wall (W), and the compression rubber (2) pressed by the nail (1) is filled in the filling chamber (2b). By pressurizing the reinforcement liquid 3, the reinforcement liquid 3 is forcibly filled into the crack portion and cured to reinforce the crack portion.

 5A and 5B are diagrams showing a state of use of the structure of the nail striking device for crack reinforcement according to the third embodiment of the present invention. As shown in the drawing, only when the end of the striking device is in close contact with the drainage plate 4, the trigger is used. It is the structure that (T) can be operated.

The guide body 10 has a sliding body 14 at its tip, forms an insertion chamber 12 and a fitting hole 13 in the sliding body 14, and triggers at one end of the sliding body 14. It has a structure connecting the connection bar 15 coupled to the locking lever (L) of (T).

When the sliding body 14 protrudes toward the tip of the guide body 10, the locking lever L is locked, and when the sliding body 14 is pulled toward the guide body 10, the locking lever L. Will be released.

This is because the trigger (T) can be operated only when the sliding body 14 is pulled in the direction of the guide body 10, so that the nail is fired only when the sliding body 14 is in close contact with the drain plate 4 and retracted. By preventing the accidental malfunction at the source to prevent safety accidents, and only when the close contact with the drain board (4) is forced to make a sophisticated blow.

6A and 6B are cross-sectional views illustrating a structure of a nail striking device for crack reinforcement according to a fourth embodiment of the present invention. When the external force pushing the sliding body 14 is removed as shown in the drawing, the sliding body is removed. (14) automatically returns to the original position.

A compression spring SP is installed between the sliding body 14 and the guide body 10 so that the sliding body 14 is always protruded to the tip of the guide body 10 by the compression spring SP.

By such a structure, the sliding body 14 is in close contact with the drainage plate 4, and after the hitting device from the drainage plate 4 after the nail 1 hits the guide body 10 automatically by the compression spring (SP). Protrudes to the tip.

Then, the movement limit groove 16 of the guide body 10 is formed in the guide body 10 in the longitudinal direction, and the stop screw 17 penetrates through the outer surface of the sliding body 14. In the

By this structure, the movement section of the sliding body 14 corresponds to the length of the movement limiting groove 16, and the stop screw 17 is caught by the movement limiting groove 16 when the sliding body 14 protrudes forward. This prevents the front from being detached.

The stop screw 17 as described above may also be used as a screw for connecting the connecting bar 15 and the sliding body 14. In this way, a separate fixing screw is not required, which leads to a low manufacturing cost.

7A and 7B are cross-sectional views illustrating a structure of a nail striking device for crack reinforcement according to a fifth embodiment of the present invention. As shown in the drawing, FIGS. 7A and 7B are provided in the transfer guide groove 11 of the guide body 10. The guide piece 18, which is gradually narrowed toward the tip, is elastically installed so that the tip of the nail 1 is accurately guided to the nail guide groove 2a of the compressed rubber 2 when the nail 1 is hit.

The guide piece 18 is installed to be opposite to each other in both sides of the transfer guide groove 11, that is, both sides of the nail (1) head protrudes, both guide pieces 18 gradually close to or close to the tip toward each other. It is formed so as to be inclined. And the rear end is partially bent or curved and the guide body 10 is formed with the insertion groove 19 of the same shape as the rear end of the guide piece 18 so that the guide piece 18 is detachable in the direction of the transfer guide groove 11. It doesn't work.

The feed guide groove 11 which the nail 1 conveys is formed to have the same length as the diameter of the nail 1 in the up and down direction because the head of the nail 1 is formed long left and right, but protrudes the head of the nail 1 from the left and right sides. It will have a width corresponding to. Accordingly, a phenomenon in which the tip of the nail 1 narrower than the head of the nail 1 swings from side to side when the nail 1 strikes, the tip of the nail 1 is compressed by the pair of guide pieces 18. Guided exactly to the center of the rubber (2).

In addition, on both sides of the conveying guide groove 11 in which the guide piece 18 is located, a recessed accommodating portion 19 'is formed on the both sides of the guide piece 18 so that the guide piece 18 is opened to both sides when the nail 1 passes. ) So that the nail (1) can pass through.

8A and 8B are cross-sectional views illustrating a structure of a nail striking device for crack reinforcement according to a sixth embodiment of the present invention.

As shown in the drawings, the nail striking device for crack reinforcement according to the sixth embodiment of the present invention is provided with a compressed rubber supply device 50 at the tip of the nail supply device 20, the compressed rubber in the conveying guide groove 11 When the trigger (T) is pulled by supplying (2) one by one, the reinforcement liquid supply device 60 is installed on the upper part so that the reinforcement liquid (3) is supplied by a predetermined amount to the tip of the compressed rubber (2) loaded. Nail (1) is nailed to (2) and the reinforcement liquid (3) is to be automatically filled and fired.

The compressed rubber supply device 50 is to place the compressed rubber (2) stacked in a line by a compression spring built into the inside as a conventional automatic feeder one by one to the conveying guide groove 11 of the guide body (10). do. Such compressed rubber supply device 50 is to be removable to be mounted so that after mounting a large amount of compressed rubber (2).

And the conveying guide groove 11 of the guide body 10 is formed with a diameter corresponding to the outer diameter of the compressed rubber (2) from the portion where the compressed rubber supply device 50 is installed.

The reinforcement liquid supply device 60 includes a cylindrical cylinder 61, a piston 62 that linearly reciprocates in the cylinder 61, a compression spring 63 that pushes the piston 62 in one direction, and And a push rod 64 for pushing the piston 62 in the direction of the compression spring 63, and a reinforcing liquid cylinder 65 for supplying the built-in reinforcement liquid 3 to the cylinder 61.

The cylinder 61 is horizontally installed in the longitudinal direction on the upper portion of the guide body 10 and the ejection opening 66 is vertically formed by the tip conveyance guide groove 11 of the compression rubber (2) at the front end thereof. The cylinder 61 may be formed integrally with the guide body 10 and may be manufactured by a separate body from the guide body 10 to have a structure that is rotated about one side of the guide body 10 to be opened and closed.

The piston 62 is inserted into the cylinder 61 to compress and squeeze the reinforcement liquid 3 embedded in the front of the piston 62 while performing a linear reciprocating motion in the longitudinal direction. Through the ejection guide groove 11 is ejected.

And the upper portion of the cylinder 61 is provided with a reinforcing liquid cylinder 65 in which the reinforcing liquid 3 is embedded therein, and supplies the reinforcing liquid 3 to the cylinder 61, and the piston 62 is positioned rearward. When the piston 62 moves forward while the reinforcement liquid 3 of the reinforcement liquid cylinder 65 is supplied into the cylinder 61, the inlet of the reinforcement liquid cylinder 65 is moved by the piston 62. The location must be determined where it is to be blocked.

A compression spring 63 is installed at the rear end of the piston 62 to always push the piston 62 forward. In addition, an elongated push rod 64 is integrally connected to the front of the piston 62, and the push rod 64 penetrates the front of the cylinder 61 to protrude to the outside to press the push rod 64 to push the piston 62 backward. To be located and pumped. In this case, the packing 61 is installed in the cylinder 61 through which the rod 64 passes to prevent the reinforcing liquid 3 from leaking.

In addition, the guide body 10 is provided with a sliding body 14 provided at its tip, and when the sliding body 14 slides backwards so that the pusher 64 is in close contact with one end of the sliding body 14. Push the pusher 64 so that the piston 62 is positioned rearward. When the sliding body 14 and the push rod 64 are connected in this way, the reinforcing liquid 3 is automatically supplied to the tip of the compressed rubber 2.

That is, when the striking device of the present invention is in close contact with the drainage plate 4, the sliding body 14 of the front end slides backward while being in close contact with the drainage plate 4, and the pusher 64 closely contacted with the sliding body 14 is a piston 62. ) Is rearward, and the reinforcement liquid 3 is supplied to the cylinder 61 from the reinforcement liquid cylinder 65. When the trigger (T) is pulled in this state, the air hammer 40 pushes the striking rod 30 and the striking rod 30 hits the nail 1, and the nail 1 is fitted to the compressed rubber 2. The reinforcement liquid 3 ejected to the tip is pushed into the drainage plate 4 and the concrete wall W. Next, when the striking tool is retracted, the sliding body 14 protrudes forward by the compression spring SP while the push rod 64 and the piston 62 move forward by the compression spring 63. In this process, the reinforcing liquid 3 in the cylinder 61 is supplied to the conveying guide groove 11 through the jet port 66, and together with the nail from the nail supply device 20 and the compressed rubber supply device 50, 1) and the compression rubber (2) is located in the transfer guide groove 11 is completed for the next hitting.

9A, 9B, 9C, and 9D are cross-sectional views illustrating a structure of a nail striking device for crack reinforcement according to a seventh embodiment of the present invention. As shown in the drawing, the reinforcement liquid supplying device has another structure. will be.

That is, the reinforcement liquid supply device 70 includes a cylinder 71 installed on the upper portion of the guide body 10, a piston 72 embedded in the cylinder 71 to linearly reciprocate in the longitudinal direction, and the cylinder 71. A reinforcement liquid cylinder 75 for supplying the reinforcement liquid 3 to a) and a check valve 79 installed at one end of the cylinder 71 so that the reinforcement liquid 3 flows only in one direction; It is composed of a sliding body 14 which is installed at the tip of the guide body 10 and slides, and a transfer pipe 74 connected between the sliding body 14 and the piston 72.

The cylinder 71 is horizontally installed in the longitudinal direction on the upper portion of the guide body 14, the reinforcing liquid cylinder 75 is installed at the rear end thereof and communicates with the cylinder 71. In the cylinder 71, a piston 72 is built in, and a compression spring 73 is installed at the rear end of the piston 72 to push the piston 72 forward at all times.

In addition, the sliding body 14 is fitted to the front end of the guide body 10 to be slid in the front-rear direction so that a compression spring SP is installed between the guide body 10 and the sliding body 14 to always hold the sliding body 14. Try to protrude forward. The upper portion of the sliding body 14 is formed with a horizontal feed tube insertion hole 76, the feed tube insertion hole 76 is vertically bent and communicated therein. Here, the adjustment screw 77 is provided at one end of the transfer pipe insertion hole 76, and when the adjustment screw 77 is tightened, the passage is narrowed so that the supply amount of the reinforcing liquid 3 is reduced, and the passage is released when the adjustment screw 77 is loosened. The amount of reinforcement liquid 3 which flows in inflow increases.

The transfer pipe 74 is connected between the piston 72 and the sliding body 14 and both ends are firmly fixed to the sliding body 14 and the piston 72. In particular, the feed tube 74 fixed to the piston 72 is installed to communicate with the inside of the cylinder 71 through the piston 72, the end of the feed tube 74 is blocked instead of a plurality of holes ( 78 is formed and the reinforcement liquid 3 flows into the feed pipe 74 through this hole 78. The distal end of the transfer pipe 74 is fixed to the piston 72, but has a structure sliding slightly from the piston 72. In this case, the sliding range is sufficient so that the hole 78 of the feed pipe 74 is inserted into the piston 72, closed, and then exposed and opened again. Here, a stepped portion is formed around the transfer pipe 74 to limit the sliding range. In addition, the compression spring 73 is formed to gradually reduce the diameter of one end so as to push the feed pipe 74, not the piston 72. As the compression spring 73 pushes the feed tube 74 as described above, when the piston 72 moves backward, the end of the feed tube 74 protrudes due to friction with the inner wall of the cylinder 71, that is, the hole ( 78) is moved to the open state and flows into the transfer pipe of the reinforcing liquid (3). On the contrary, when the piston 72 moves forward, the hole 78 of the conveying pipe 74 is inserted into the piston 72 so that the hole 78 is closed, so that the reinforcing liquid 3 of the reinforcing liquid cylinder 75 becomes a cylinder ( 71) flows into.

In addition, a check valve 79 is provided in a passage through which the reinforcement liquid cylinder 75 and the cylinder 71 are connected, and the check valve 79 has a ball shape to counter current when the piston 72 moves backward. The force automatically prevents the reinforcement liquid 3 from flowing backward by automatically blocking the outlet of the reinforcement liquid cylinder 75 smaller than the ball. In addition, a plurality of protrusions are formed in the inlet of the cylinder 71 into which the reinforcing liquid 3 is introduced, thereby forming a passage through which the reinforcing liquid can be introduced between the protrusions, thereby preventing the ball from being blocked by the above phenomenon.

With this structure, when the striking device is in close contact with the drainage plate 4 as shown in FIG. 9A, the sliding body 14 moves backward as shown in 9B and the transfer pipe 74 connected thereto pushes the piston 72. do. In this process, when the piston 72 moves forward while the end of the transfer pipe 74, that is, the hole 78 is opened due to the friction with the inner wall of the cylinder 71, the reinforcement liquid 3 is transferred to the transfer pipe through the hole 78. Aboard 74 is supplied into the sliding body 14. At this time, the ball-shaped check valve 79 blocks the outlet of the reinforcing liquid cylinder 75 by the reinforcing liquid 3 to be flowed back so that the reinforcing liquid 3 in the cylinder 71 rides on the transfer pipe 74 smoothly. Transfer. Pulling the trigger (T) in such a state to hit the nail (1) as shown in Figure 9c, the nail leads the compression rubber (2) and the drain plate (4) and concrete wall ( While being nailed to W), the reinforcement is completed by the nail 1 being nailed together and filled with the reinforcing liquid 3 in the cracked portion.

Then, when the striking device is spaced apart from the drainage plate 4 in order to nail the nail 1 to another drainage plate 4, the sliding body 14 at the front end protrudes forward and the feed pipe 74 catches the piston 72. In this process, when the piston 72 moves forward, the hole 78 of the feed tube 74 is inserted into the piston 72 so that the hole 78 is closed, so that the reinforcement liquid of the reinforcing liquid cylinder 75 ( 3) is introduced into the cylinder 71 and the preparation for the next supply is completed.

FIG. 10 is a cross-sectional view illustrating a structure of a nail striking device for crack reinforcement according to an eighth exemplary embodiment of the present invention. As shown in the drawing, FIG. It is a structure to be supplied.

In detail, the guide body 10 having a conveying guide groove 11; A striking rod 30 striking the nail 1 loaded by the operation of the trigger T; An air hammer 40 which linearly moves the striking rod 30 by using compressed air which is positioned at the rear end of the guide body 10 and supplied; In the nail striking device configured, the guide body 10 is a composite of the compressed rubber (2) coupled to the nail (1) on one side thereof is arranged in a row to supply one by one to the conveying guide groove 11 by a built-in spring The feeder 80 is mounted.

The present invention having such a structure can be quickly and easily installed because it is automatically supplied in the state in which the nail 1 is coupled to the compressed rubber 2, and the compressed rubber (2) because it is already supplied and fired in the combined state (2). By preventing the nail 1 from being badly nailed in advance, there is an effect of minimizing the defective rate.

Figure 1a, 1b is an enlarged cross-sectional view showing the main portion of the structure of the nail striking device for crack reinforcement according to the first embodiment of the present invention.

Figure 2a, 2b, 2c, 2d is an exemplary view showing the operating state of the nail hammering device for crack reinforcement according to the first embodiment of the present invention.

Figure 2a, 2b is an enlarged cross-sectional view showing the main portion of the structure of the nail striking device for crack reinforcement according to the second embodiment of the present invention.

Figures 4a, 4b, 4c, 4d is an exemplary view showing the operating state of the nail striking device for crack reinforcement according to the second embodiment of the present invention.

Figure 5a, 5b is a state diagram showing the structure of the nail striking device for crack reinforcement according to a third embodiment of the present invention.

6A and 6B are cross-sectional views illustrating a structure of a nail striking device for crack reinforcement according to a fourth embodiment of the present invention.

7A and 7B are cross-sectional views illustrating a structure of a nail striking device for crack reinforcement according to a fifth embodiment of the present invention.

8A and 8B are cross-sectional views illustrating a structure of a nail striking device for crack reinforcement according to a sixth embodiment of the present invention.

9A, 9B, 9C, and 9D are cross-sectional views illustrating a structure of a nail striking device for crack reinforcement according to a seventh embodiment of the present invention.

10 is a cross-sectional view illustrating a structure of a nail striking device for crack reinforcement according to an eighth embodiment of the present invention.

*** Explanation of symbols for the main parts of the drawing ***

1-Nail 2-Compressed Rubber 3-Reinforcement

4-Drain plate 10-Guide body 11-Transfer guide groove

12-Insertion chamber 13-Fitting hole 14-Sliding body

15-connecting bar 16-travel limit groove 17-set screw

18-Guide piece 20-Nail feeder 30-Strike rod

40-Air Hammer 50-Compressed Rubber Feeder

60, 70-reinforcement fluid supply 61, 71-cylinder 62, 72-piston

63, 73-Compression spring 64-Rod 65, 75-Reinforcement pail

74-feed pipe 78-hole 79-check valve

Claims (14)

delete delete delete delete delete delete delete delete A guide body 10 having a transfer guide groove 11; A nail supply device 20 for loading the nails 1 into the transfer guide grooves 11 of the guide body 10 one by one; A striking rod 30 striking the nail 1 loaded by the operation of the trigger T; An air hammer 40 which linearly moves the striking rod 30 by using compressed air which is positioned at the rear end of the guide body 10 and supplied; In the configured nail striking device, The guide body 10 is a crack reinforcement nail striking device, characterized in that the reinforcement liquid supply device 60 is installed on the upper portion so that the reinforcement liquid (3) is supplied by a predetermined amount to the tip of the guide body (10). The reinforcing liquid supply device of claim 9, A cylinder 61 installed at an upper portion of the guide body 10 and having an outlet 66 formed at one end thereof in the guide body 10; A piston (62) which causes the reinforcing liquid (3) in the cylinder (61) to be ejected to the ejection opening (66) by linear reciprocating motion in the cylinder (61); A compression spring (63) for pushing the piston (62) forward; A push rod 64 for returning the piston 62 to the rear; Reinforcement liquid cylinder 65 which supplies the built-in reinforcement liquid 3 to the cylinder 61; Crack reinforcement nail striking device, characterized in that consisting of. The guide body (10) according to claim 9 or 10, wherein the guide body (10) has a sliding body (14) at its tip, and is coupled to the locking lever (L) of the trigger (T) at one end of the sliding body (14). Cracking reinforcement nail striking device, characterized in that the trigger (T) is pulled only when the sliding body 14 is retracted by connecting the connecting bar (15). The reinforcement liquid (3) according to claim 10, wherein a compression spring (SP) is installed between the guide body (10) and the sliding body (14), and the rod (64) is connected to the sliding body (14). Crack reinforcement nail striking device, characterized in that the supply. The reinforcing liquid supply device of claim 9, A cylinder 71 installed horizontally on an upper portion of the guide body 10; A piston 72 embedded in the cylinder 71 and performing a linear reciprocating motion; A reinforcing liquid cylinder 75 for supplying the reinforcing liquid 3 to the cylinder 71; A check valve 79 installed at one end of the cylinder 71 to allow the reinforcement liquid 3 to flow in only one direction; A sliding body 14 installed at the tip of the guide body 10 and sliding; One end is connected to the sliding body 14 and communicated therein, and the other end partially slides while passing through the piston 72 so that the hole 78 formed at the end is opened and closed by the piston 72. ); Crack reinforcement nail striking device, characterized in that consisting of. delete

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