KR200256719Y1 - Spring Hammer - Google Patents

Abstract

The present invention relates to a spring hammer that can easily perform a hammer test even in a narrow hitting space, and comprises a first, second, third cylinder, a push rod inserted into the cylinder, a handle that is perpendicularly coupled thereto, and the other A cylinder portion having a connecting rod coupled to the end; Hammer receiving portion vertically coupled to the cylinder portion, the hammer entrance formed around the upper through hole of the body, the first and second links mutually coupled to the connecting rod therein, hammers mounted on each end thereof and a hammer guide Wow; It is mounted to the lower portion of the cylinder, the hinge hinged to one side of the body and having a locking projection on the upper surface, a return spring restraining its rotation, the release link connected to the latch, rotatably coupled to the release link around the hinge portion Handle portion having a release lever to be configured, by applying the same pressure in the narrow hitting space can be performed accurately the hammer test.

Description

Spring Hammer

The present invention relates to a spring hammer, and more specifically, to check the stator wedge of the generator, or to tighten the bolts and nuts, the hammer test is performed by hitting the test structure accurately with the same pressure even in a narrow test space. The present invention relates to a spring hammer capable of obtaining more accurate and reliable measurement data.

In general, large-scale generators, such as hydroelectric power plants, are regularly inspected for damage and cracks in major components that make up generators.

In particular, when checking the stator wedges, which are the main components of the generator, and whether the bolts and nuts are fastened, the hammer test commonly referred to as hammering method can be obtained simultaneously to obtain the convenience and reliability of the test. Test).

The hammer test hits a target to be hit by the same pressure using a hammer, and listens to the vibration generated at this time to easily determine a crack or peeling state of the structure. In order to achieve a reliable result without the effort of disassembling the relevant component parts directly and visually judged is used a lot.

In such hammer test, it is important to hit the test target accurately with the same pressure. Above all, when the target space is narrow and deep, it is not easy to hit with a normal hammer and hear the vibration sound after the hit due to the surrounding noise. There is a problem that the accuracy of the judgment result is ambiguous because is not easy.

In this case, there is no choice but to perform a visual inspection. For some generators, because the target space is very narrow and deep during wedge inspection, the rotor should be pulled out separately and a hammer test should be performed. ) And its associated structures, etc., to disassemble and withdraw the rotor only when it is completely disassembled.

Therefore, when adopting the visual inspection method as described above, since the generator itself is a large facility, the amount of disassembly and assembly is large, and thus the power generation loss of the power plant is significantly reduced due to the required cost and economic burden according to the required period. There was a problem caused.

Accordingly, the present invention is devised to solve the above problems, the object of the present invention is to form a test hammer perpendicular to the cylinder portion and the test hammer by the mechanical operation of the spring and the plurality of connection links provided therein It is to provide a spring hammer that can accurately strike the same pressure even in deep and narrow places.

Another object of the present invention is to provide a spring hammer coupled to the spring hammer to listen to the accurate vibration sound even in a relatively noisy surroundings.

It is still another object of the present invention to provide a spring hammer that allows the recording of a test device attached to a spring hammer so that the test results can be recorded as an objective record.

1 is a perspective view showing the structure of a spring hammer according to the present invention.

2 is a cross-sectional view showing the cross-sectional structure of FIG.

3 is an exemplary view showing an operating state of the present invention.

4 is a view showing another embodiment of the present invention.

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

Explanation of symbols on the main parts of the drawings

10 cylinder parts 11, 12, 13 cylinders 1, 2, 3

14: coupling end 15: push rod

16: connection rod 17: handle

18: engaging end 19,33: return spring

20: hammer receiving portion 21a, 21b: through hole

22: Hammer entrance 23, 24: 1st, 2nd link

25: hammer 26: hammer guide

27: locking head 30: handle portion

31: locking projection 32: latch

34: release link 35: release lever

The present invention is configured as follows to achieve the above object. That is, the present invention is made of the first, second, third cylinders of the mutual coupling, the push rod is inserted into the through-hole in the cylinder, the handle is vertically fastened to one end thereof, the connecting rod is rotatably coupled to the other end A cylinder unit having a; It is coupled perpendicularly to the cylinder end. A through hole of a predetermined diameter is formed on one side of the body and a lower side thereof, and a hammer entrance with an open upper portion is integrally formed at a portion adjacent to the upper through hole, and the body is connected to the connection rod in an upright and vertical direction. A hammer receiving portion provided with a first link and a second link, and provided with a hammer and a hammer guide mounted at each end thereof; It is mounted to the lower outer peripheral surface of the cylinder portion, the hinge is fixed to be in close contact with the lower surface of the handle, and the upper surface one side of the latch having a locking projection, the return spring coupled to the lower portion of the restraining its rotation, and fastened to the latch It characterized in that it is composed of a handle portion having a release link, and a release lever coupled to the release link with the center around the central portion hinged to the body.

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

1 is a perspective view showing a schematic structure of a spring hammer according to the present invention, Figure 2 is a cross-sectional view showing a cross-sectional structure thereof.

As shown in Figure 1 and 2, the spring hammer of the present invention is largely divided into a cylinder portion 10, a hammer receiving portion 20 and the handle portion 30.

The cylinder portion 10 is composed of a combination of a plurality of cylinders, that is, a combination of the first cylinder 11, the second cylinder 12, and the third cylinder 13, more specifically, the second One end of the first cylinder (11) and the third cylinder (13) around the cylinder (12) is formed in a form in which a predetermined length is inserted into the left and right of the second cylinder 12 and fastened, the first The left and right inner circumferential surfaces of the two cylinders 12 and the outer circumferential surfaces of the coupling end portions of the first and third cylinders 11 and 13 are provided with screw portions to facilitate assembly and disassembly. In addition, on the outer circumferential surface of the third cylinder 16, a predetermined graduation portion A is formed on the outer circumferential surface of the third cylinder 16 so that the user can accurately measure the target distance to be hit during the hammer test.

In addition, a predetermined length of the push rod 15 serving as a piston is inserted into the cylinder portion 10, and the connecting rod 16 is rotatably coupled to the right end thereof, and the handle ( 17) are joined vertically.

In this case, when the handle 17 and the push rod 15 are coupled to each other, a fastening hole is formed at the lower end of the handle 17 so that a part of the handle 17 may protrude above the cylinder for easy manual operation of the user. It is coupled to the end of the push rod 15 by the fastening means.

In addition, at one side of the outer circumferential surface of the push rod 15, a locking end 18 having a diameter larger than the outer diameter of the body is formed, and a return spring 19 having a predetermined elastic modulus surrounds the outer surface of the push rod 15. It is mounted to be in close contact with the engaging end 18.

As shown in the drawing, when the push rod 15 is inserted and mounted in the cylinder portion 10, the locking end 18 is caught by the engaging end 14b of the third cylinder 13 and moves to the right. This becomes impossible, and the return spring 33 is located in the second cylinder 12 so as to be caught by the engaging end 14a of the first cylinder 11 so that the left and right flows are impossible.

On the other hand, the hammer receiving portion 20 is coupled to form a perpendicular to one end of the third cylinder 13 of the cylinder portion 10. At this time, the coupling position with the third cylinder 13 is formed a fastening hole having a predetermined diameter at a predetermined distance spaced downward from the center of the side wall surface of the body due to the internal link (23, 24) length and operation stroke to be described later. In the combined state by coupling to form a long shape as shown in the upper side.

In addition, the upper and lower sides of the hammer receiving portion 20 body is formed with a through hole (21a, 21b) of a predetermined diameter, the upper portion for the entrance of the hammer 25 to be described later near the upper through hole (21a) The hammer entrance 22 which is opened is formed integrally.

In addition, a first link 23 and a second link 24 are provided inside the body of the hammer receiving part 20 so as to be mutually upright with the connecting rod 16 of the cylinder part 10 in the vertical direction. The hammer 25 and the hammer guide 26 are mounted at each end thereof to enter and exit the through holes 21a and 21b formed at the upper and lower portions of the body.

Here, the length of the first link 23 is formed to be longer than the length of the second link 24, the connection rod 16, the first and second links (23, 24), and coupled with Each connecting portion of the hammer 25 and the hammer guide 26 are fastened to be rotatable by a predetermined fastening means.

In addition, the lower end of the hammer guide 26 acts as a stopper to impact the external object during operation and at the same time caught in the lower through hole 21b of the hammer receiving portion 20 to prevent the hammer guide 26 from entering the inside. The engaging head 27 is in charge is formed.

On the other hand, the handle portion 30 is made of a shape similar to the outline of the pistol handle so that the user can easily hold the handle with one hand. Here, the side of the body is hinged in the form of an inverted triangular latch 32 is formed integrally on the upper surface, and a portion of the upper surface and the lower surface of the handle 17 of the cylinder portion 10 It is mounted rotatably around the hinge portion in a state of being in close contact.

In addition, at the lower end side of the latch 32, a release spring 33 fixed to the handle part 30 and temporarily supporting the latch 32 is mounted and one end thereof is rotatably coupled thereto ( 34) is mounted. In addition, the release link 34 is rotatably coupled to the release lever 35, one side of which is hinged to the body.

When described in detail with reference to the accompanying drawings the operation mode of the present invention is configured as follows.

First, Figure 3 shows the operating state of the present invention, as shown, when the user pulls back the handle 17 of the spring hammer, the push rod 15 coupled thereto retreats while compressing the return spring 19. Then, as the connecting rod 16 is retracted together, the hammer 25 and the hammer guide 26 are simultaneously received by pulling the first and second links 23 and 24 in the hammer receiving portion 20 connected thereto. It will be pulled into the part 20 temporarily. On the other hand, in the handle portion 30 as the bottom surface of the handle 17 is moved to temporarily push down the locking projections 31 downwards, thereby causing the latch (32) to rotate, the handle 17 is completely the locking projections ( 31) When it is positioned behind, the latch 32 is returned to its original state by the restoring force of the return spring 33, and the handle 17 is loaded as shown in the drawing.

When the user loads the release lever 35 of the handle part 30 by placing the spring hammer on the hammer test application part in the loaded state of the present invention, the release link 34 interlocks and temporarily clamps the latch 32. Rotating is to release the loading of the handle 17 was caught on the engaging projection (31). As the loaded state of the handle 17 is released, the push rod 15 pushes the connecting rod 16 at a high speed due to the compression repulsive force of the return spring 19, and thus the first and second links 23 and 24. ) By rapidly pushing up and down to hit the hammer 25 and the hammer guide 26 to the structure to be tested.

As a result, the spring hammer of the present invention is able to perform a hit test on the target structure by applying a constant pressure at all times by always applying the same compressive repulsion force of the spring and a mechanical coupling using a plurality of links. Because of its mechanical structure, it is easy to apply difficult and deep places, which makes it possible to accurately hit and obtain more reliable test results.

In addition, according to the environment of the hammer test application site, the cylinder portion and the hammer receiving portion of the present invention are designed to the appropriate size, so that the structure can be hit more accurately and easily, and in particular, the hammer is hit by the scale marked outside the cylinder portion. Since the distance can be accurately measured, the hammer can be more precisely hit when testing a plurality of identical structures.

On the other hand, Figure 4 is attached to show another embodiment of the present invention, as shown in the figure used to connect the hearing machine 40 to the end of the push rod 15 coupled to the handle 17 of the cylinder portion 10 By doing so, the hammer test can be configured so that the user can hear the vibration sound more accurately even in the noisy environment.

In addition, Figure 5 shows another embodiment of the present invention, the hammer test by connecting a predetermined recording device 50 to the end of the listener 40 in the spring hammer of FIG. When performing By visually displaying the voice data as visual data, it is possible to visually determine whether the test result is abnormal. More objective record judgment can be made.

The present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the technical idea of the present invention.

According to the present invention of the above configuration, it is easy to apply even where the hammer test was not easy due to the narrow and deep hitting space, and can be hit accurately by applying the same hitting pressure, so that more accurate and reliable test results can be obtained. In addition, it is possible to mount a hearing aid, accurate vibration mood even in the noise caused by the surrounding environment, and also has the advantage that it is easy to determine the abnormality of the structure by recording the result value by the recording device or visually.

In addition, it is possible to escape the conventional method of disassembling and inspecting the structure due to the narrowing of the impact space, thereby reducing all costs and time required for disassembling and assembling and ultimately reducing power generation loss of the power plant. It has an excellent effect.

Claims (8)

The first, second, and third cylinders (11, 12, 13) made of mutual coupling, the push rod 15 is inserted into the through hole in the cylinder (11, 12, 13) and the handle perpendicularly to one end thereof A cylinder portion (10) having a connection rod (16) rotatably coupled to the other end of the cylinder (17); It is coupled vertically to the end of the cylinder portion (10). The upper and lower sides of the body are formed with through holes 21a and 21b having a predetermined diameter, and the upper portion of the upper through hole 21a is formed integrally with a hammer entrance 22 having an open upper portion. The first link 23 and the second link 24 are installed to be connected to the connecting rod 16 in an upright and vertical direction and are provided with a hammer 25 and a hammer guide 26 mounted at each end thereof. A hammer receiving portion 20; Mounted below the outer peripheral surface of the cylinder portion 10, the hinge is fixed so as to be in close contact with the lower surface of the handle 17, the upper surface one side is provided with a latch (32) having a locking projection 31, and coupled to the lower end of the pivot A release spring (33) constraining the release spring, a release link (34) rotatably coupled to the latch (32), and a release linkage rotatably coupled with the release link (34) about a central portion hinged to the body. Spring hammer, characterized in that consisting of a handle portion 30 having a lever (35). According to claim 1, One end of the outer surface of the push rod 15 is formed with a locking end 18 having a diameter larger than the outer diameter of the push rod 15, is closely supported by the return and wraps around the outer surface of the push rod 15 Spring hammer, characterized in that the spring (19) is provided. According to claim 1, wherein when the hammer receiving portion 20 and the cylinder portion 10 is coupled to each other by forming a fastening hole having a predetermined diameter at a predetermined distance spaced downward from the center of the side wall surface of the body of the hammer receiving portion 20 Spring hammer, characterized in that combined. According to claim 1, To the outer peripheral surface of the third cylinder 16 of the cylinder portion 10 to accurately measure the hammer 25 hitting distance of the hitting target object so that the user can apply a precise hit even when hitting the same target later Spring hammer, characterized in that a predetermined graduation (A) is formed to recognize the strike distance. According to claim 1, wherein the length of the first link 23 is formed longer than the length of the second link 24, the connecting rod 16 and the first, second links (23, 24) And each of the connecting portion of the hammer 25 and the hammer guide 26 is coupled to the spring hammer, characterized in that coupled to each other by a predetermined fastening means. The lower end of the hammer guide 26 is formed with a catching head 18 so as to impact an external object during operation, and at the lower through hole 21b of the hammer receiving portion 20. Spring hammer, characterized in that it is prevented from being caught inside. The end of the push rod (15) coupled to the handle (17) of the cylinder (10) is further provided with a hearing machine (40) for listening to the accurate vibration sound even in a noisy surrounding environment. Featured spring hammer. The predetermined sound recording apparatus 50 of claim 6, further comprising a predetermined recording device 50 configured to allow visual determination of abnormality of the test result by displaying the voice data as visual data after the hammer test. Spring hammer, characterized in that the combined.