KR102134318B1 - Hydraulic Compression Device for Connection of Cables - Google Patents

Abstract

The present invention relates to a sleeve pressurizer for connection of cables. Since various kinds of power cables including transmission cables such as an aluminum conductor steel reinforced (ACSR) cable are temporarily installed or installed over long distances, it is necessary to continuously extend cables wound around a plurality of drums. In order to connect power cables such as ACSR cables to each other, after a sleeve covers both ends of the power cable, a sleeve pressurizer for connection of cables capable of pressurizing the power cables by hydraulic pressure in a state where power cables are put between dies is used. In the sleeve pressurizer for connection of cables according to the present invention, when force is applied to dies by a piston vertically moving in a cylinder, uniform pressure is fully transferred, abrasion and damage of a sealing member due to unbalance in the cylinder are prevented, the sleeve is harmoniously pressurized. In order to increase convenience and flexibility in use while carrying the sleeve pressurizer in a narrow place, a pair of handles located at both sides of an upper portion is rotated downward and upward to be folded. In order to use the pressurizer as a handle when carrying the pressurizer, a carrying hook installed at a lower portion is attached to a bottom surface so that the pressurizer is rotated. The carrying hook is attached to a bottom surface to be folded so that the sleeve pressurizer is conveniently used while being easily received in a narrow area.

Description

Sleeve compression device for connection of cables {Hydraulic Compression Device for Connection of Cables}

The present invention relates to a sleeve crimping device for cable connection. Various power cables, such as transmission cables such as ACSR cables (Aluminum Conductor Steel Reinforced Cable), are installed or laid over long distances, and thus it is necessary to continuously extend cables wound on multiple drums. When connecting power cables such as ACSR to each other, use a sleeve crimping device for cable connection that wraps both ends with a sleeve and puts it between dies. In the sleeve crimping apparatus for cable connection, the present invention prevents wear and breakage of the sealant due to pressure imbalance in the cylinder, so that even pressure is transmitted as a whole when a force is applied to the die by a piston moving up and down in the cylinder. , A pair of handles located on both sides of the upper side are rotated downward or upward to increase the convenience and flexibility of use while allowing the sleeve crimping to be balanced and to bring the sleeve crimping device into a narrow place. In addition, the transport hook installed at the bottom is attached to the lower surface for use as a handle when transporting the crimping device. It relates to a sleeve crimping device for cable connection, which can facilitate the storage of the device.

Since ACSR cables, etc., installed on the overhead power transmission line are installed over a very long section, they are hypothesized by continuously connecting cables of various drums. In addition, if a cable is damaged or a defect is found due to external shock or aging in a previously installed section, the section is cut and removed, and then replaced with a normal cable. In addition, in the case of overhead distribution lines or cables for underground transmission and distribution, these connection points are inevitable, so they are continuously connected and installed or installed. In the case of connecting the cables in this way, it is important to connect the cables so that there is no loss of conductivity or the like at the connecting portion, but the tensile strength does not decrease. Therefore, after removing the outer aluminum conductor part from the end of the cable to be connected to a certain length, leaving only the steel wire part, inserting both steel wires into the steel wire sleeve and pressing the steel wire sleeve with the strong force of the sleeve crimping device, the steel wires are connected to each other. The aluminum conductor sleeve is put on it again, and the connection is completed by pressing with a sleeve crimping device. At this time, as a sleeve crimping device used for crimping the steel wire sleeve and the aluminum conductor sleeve, the sleeve sandwiched between the dies is pressed by a strong force by hydraulic pressure.

The prior art for such a hydraulic sleeve crimping device is illustrated in FIGS. 1 and 2. 1 is a side view of the hydraulic crimping apparatus according to the prior art, viewed from the side, and FIG. 2 is a plan view of the hydraulic crimping apparatus according to the prior art as viewed from above. The hydraulic sleeve crimping apparatus 10 according to the prior art, as shown in FIG. 1, is usually formed with a cylindrical cylinder space 100 at the bottom of the body 20, and the piston 300 in the cylinder space 100 ) Is located. In addition, the cylinder cap 200 is screwed to the lower portion of the cylinder space 100 to seal the inside of the cylinder space 100. And the first injection port 110 to raise the piston 300 by injecting oil into the cylinder space 100, and injecting oil in a direction to lower the piston 300 to the first injection port 110 There is a second injection port 120 for pushing the oil again, the oil can be injected into the cylinder space 100 by a strong hydraulic pressure using a pump, etc., the hydraulic pressure is pushed up the piston 300 or the The oil is discharged back to the first inlet 110 to make the piston 300 retracted downward. On the other hand, while placing the lower die 410 and the upper die 420 capable of compressing the sleeve 50 on the upper part of the piston 300, the sleeve 50 is placed on the lower die 410 and the upper die 420. ) Between the lower dice 410 and the upper dice 420. That is, after placing the lower dice 410 on the upper portion of the piston 300, the sleeve 50 is placed on the lower dice 410 and the upper dice 420 is placed on the sleeve 50. In this state, when the upper stopper (500) is screwed into the coupling groove 21 formed on the upper inner circumferential surface of the body 20 (see FIG. 2), the upper die 420 does not move upwards. Is fixed. In addition, when oil is injected into the cylinder space 100 through the first injection port 110, the piston 300 rises, and accordingly, the lower die 410 rises as well. The upper die 420 ) Is fixed so that it is no longer raised by the upper stopper 500, so that the gap between the upper die 420 and the lower die 410 is getting closer, and the sleeve 50 is compressed accordingly. After the pressing is completed, by injecting oil through the second injection port 120 and recovering the oil through the first injection port 110, the piston 300 is retracted back, and then the sleeve 50 is moved to the next side part. It is compressed by moving again, and repeatedly pressed until all parts of the sleeve 50 are compressed.

On the other hand, it is preferable that a pair of handles 600 are formed on both sides of the upper portion of the body 20. The pair of handles 600 are used when transporting, but the cable is repaired on an existing track. When connecting the sleeve 50 for replacement or the like, connect one end of the rope to each of the pair of handles 600, and connect the other end of the connected rope (such as a sling bar) to the previously installed cable, respectively. By binding and fixing both sides, the sleeve crimping device 10 can maintain a stable posture. This acts as an essential configuration to stably perform the process of fitting the sleeve 50 to the sleeve crimping device 10 or the process of crimping the sleeve 50. In addition, a transport ring 700 is formed at the lower portion of the body 20 so that it can be easily lifted during the transportation process. It is also used as a means to stably fix (10). In addition, the upper stopper 500 has a stopper 510 whose upper portion protrudes to the outside, and the lower portion enters a fixing groove 550 formed in the body 20 to stop rotation of the upper stopper 500. When the protruding portion is pushed, the lower portion of the clamp 510 comes out of the fixing groove 550 so that the upper stopper 500 is rotatable so that the upper stopper 500 is turned to turn the body 20 It can be separated from.

However, since the sleeve compression device 10 is formed as shown in FIG. 1, the first injection port 110 is formed next to the cylinder space 100, when oil is injected into the cylinder space 100, There has been a problem that the stress distribution in the cylinder space 100 becomes non-uniform. That is, since the stress applied to push the piston 300 upward is different from a portion near and far from the first injection port, the piston 300 is positioned relative to the first injection port when it is moved upward by hydraulic pressure. According to the difference in the force and speed applied upward, the difference causes the position of the piston 300 to be slightly skewed. And this causes unnecessary friction between the outer circumferential surface of the piston 300 and the inner circumferential surface of the cylinder space 100. And when repeated friction occurs according to continued use, the inner wall becomes rough due to wear between the outer circumferential surface of the piston 300 and the cylinder space 100, and accordingly, a sealing material such as an O-ring is rubbed against the rough inner wall, thereby causing damage. As it occurs, there has been a problem that oil is leaked between the piston 300 and the cylinder space 100. If this phenomenon continues, it will lead to a reduction in the compressive force and waste of oil, etc. As the gap increases, it has occurred until the use becomes impossible, which has been a factor influencing the service life of the sleeve crimping device. . In addition, the difference in stress depending on the position in the cylinder space 100 causes a difference in pressure applied to the sleeve 50, and accordingly, the compression strength of each portion of the sleeve 50 is different, so that the connected cables It has also influenced the quality of cable connections, such as affecting tensile strength and conductivity. In order to solve this problem, there have been attempts to install the first inlet 110 toward the bottom surface of the cylinder space 100. In this case, not only does not increase work efficiency by causing considerable inconvenience to use, but also Since the sleeve crimping device 10 has been problematic in transportation, storage, and storage, it is not preferred in the field.

Another problem of the prior art is that the pair of handles 600 are fixed in a horizontal direction toward the left and right directions of the body, so that the work is put in a narrow space such as between a cable and a cable. If there is a problem that the working environment is restricted, such as the pair of handles 600 is caught at the entrance, making it difficult to carry in. In order to solve this, a product has been developed to narrow the gap between each other by directing the pair of handles 600 upwards, but when the gap between the pair of handles 600 is narrow, there is inconvenience in transportation. Another problem associated with the handle 600 is that it is inconvenient to use due to lack of flexibility, and work efficiency is reduced. When the operation of using the sleeve crimping device 10 for cable replacement or the like on an existing overhead line, the other side of the rope is tied to one side of the rope to each of the pair of handles 600 as described above. Each work is tied to the overhead line and fixed after hanging. However, even when the rope is tied, it is necessary to partially change the angle or position of the sleeve crimping device 10 depending on the situation. The pair of handles 600 are fixed at a predetermined position and at a predetermined angle. Bonnie, even if a partial change is necessary, the rope has to be unwound and adjusted, so it has to be tied up and there has been considerable inconvenience in use.

In addition, since the upper part of the fixing member 510 is always protruding, when an external impact is applied to the protruding part, the fixing member 510 is broken, and the fixing member 510 is broken. If it is lost, since it is impossible to insert the upper stopper 500 into the body 20, in this case, there has been a problem that the sleeve crimping device 10 itself cannot be used. That is, it is impossible to use the entire device due to one minor component failure, which is a problem that the component is easily broken. In addition, the transport ring 700 is fixedly installed on the lower portion of the body 20 is formed to be fixed to the body vertically as shown in Figures 1 and 2, it is not always used, but always protruding. Bonnie, it has been acting as a factor that interferes with work, and has been inconvenient, such as taking up an area during storage.

In order to solve the above-mentioned problem, the sleeve crimping device for cable connection according to the present invention created by optimizing the stress distribution in the cylinder space when oil is injected into the cylinder space, thereby preventing friction between the piston and the cylinder space, An object of the present invention is to provide a sleeve crimping device having excellent durability, uniform crimping quality, and excellent prevention of oil leakage due to damage to sealing materials such as O-rings.

Another object of the present invention is to provide a sleeve crimping device having a handle capable of easily performing work even in a small space, and having a handle capable of flexibly changing an angle or position when working on a overhead line while being convenient to carry. Is done.

Another object of the present invention is to provide a sleeve crimping device having a structure that does not easily break or break the fastener for fixing the upper stopper.

Another object of the present invention is to provide a sleeve crimping device having a carrying ring that is convenient when used, but does not interfere with work when not in use and does not occupy a large area even when stored.

The technical problems to be achieved by the present invention are not limited to the above-mentioned technical problems, and other technical problems not mentioned can be clearly understood by a person having ordinary knowledge in the technical field to which the present invention belongs from the following description. There will be.

In order to achieve the above object, the present invention is a device for hydraulically compressing a sleeve connecting a cable, the body; A cylinder space formed in a cylindrical shape under the body; A cylinder cap screwed to the body so that the cylinder space is closed and sealed under the cylinder space; A piston inserted into the cylinder space and vertically moved by hydraulic pressure of oil injected into the cylinder space; As a space located above the cylinder space, a lower die and an upper die can be sequentially inserted, and a dice insertion space is formed to allow the sleeve to pass between the lower die and the upper die; When the lower die and the upper die are inserted into the dice insertion space, the upper stopper is inserted and fixed to the upper portion of the body to prevent upward movement of the upper die; And a pair of handles fixed to both sides symmetrical at the top of the body. Including,-The cylinder cap, has a convex surface on the side facing the cylinder space,-The piston, the top is blocked and the bottom is a perforated cylinder, the lower end has a rim formed outwardly of the cylindrical cap It is a shape, and it is preferable that a portion of the lower surface of the rim corresponding to the convex surface is a sleeve crimping device for cable connection, characterized in that it has an air gap maintaining a certain distance from the convex surface.

Also, in addition to the above-described features, the handle is U-shaped, so that both ends of the U-shape are rotatable around the both ends of the U-shape, each end of each of the U-shapes is coupled to a rotating shaft fixed to the body, , On the rotating shaft, a latch gear is fixed non-rotatably, and inside the U-shape of the handle, an U-shaped operation lever is combined with the shape of the handle, and both ends of the operation lever In, a pawl is formed to be inserted between the gears of the latch gear, and at the two corners of the U-shape of the handle, elastic means for pushing the operation lever toward the latch gear It is also preferable to use a sleeve crimping device for cable connection, characterized in that.

In addition, in addition to all of these features, if the detent is not pulled in the state where the detent is between the gears of the latch gear, the handle is not rotated in the upright direction, and is laid down It is rotated only in the losing direction, and the handle is not rotated in any direction when the operating lever is not pulled while the handle is vertically held and the detent is in between the gears of the latch gear. It is also possible to use a sleeve crimping device for cable connection, and in addition, the cylinder cap has a pair of carrying rings, and each of the pair of carrying rings is semi-circular, and both ends of the semi-circular are the cylinder cap. It is to be rotatably coupled to the lower surface, the pair of transport hooks can be attached to each other, or it is possible to lie down on the opposite side of each other to be folded in close contact with the lower surface of the cylinder cap. It is also preferred.

Also, in addition to all of the above-mentioned features, the upper stopper has a fixing part, a fixing handle, and a clamp, and the fixing part has a shape of a cutting portion on both sides of a circular tablet shape, where a part other than the cutting part is an upper inner circumference of the body It is coupled to the coupling groove formed in, the fixing handle is coupled to be integral with the fixing portion from the top of the fixing portion, the fastener is inserted into the first fixing groove formed on one side of the fixing handle, the upper part in the normal This fixed handle protrudes inward and the lower part protrudes outward of the fixed handle, so that the lower part does not protrude when the upper part is pressed, the middle part is fixed to the central axis and has a spring at the rear of the lower part. , When the fixing part is inserted into the coupling groove and rotated, when the first fixing groove comes to a position coinciding with the second fixing groove formed on the upper inner circumferential surface of the body, the fixing metal is protruded by the spring, so that the first It is also preferable to be a sleeve crimping device for cable connection, characterized in that the fixing portion is no longer rotated by being fixed between the fixing groove and the second fixing groove.

As described above, the sleeve crimping device for cable connection according to the present invention has a convex surface on the surface facing the cylinder space on the cylinder cap, while the piston has a rim, between the lower part of the rim and the convex surface of the cylinder cap Since it has a certain gap, stress concentration occurs in the cylinder space. In particular, stress concentration occurs strongly along a rim formed in a donut shape at the bottom of the piston, so that pressure applied to the piston is evenly applied. Therefore, since the piston rises straight, there is an effect of minimizing friction between the piston and the cylinder space. Accordingly, the inner wall of the piston or cylinder space is not worn, and the sealing material is not damaged, so that oil is not leaked even when used for a long time, and the durability is significantly increased, such as a longer life. In addition, since the pressure applied to the cylinder is uniform in all positions, the compression quality of the sleeve is increased.

In addition, the handle is a U-shape, and can be rotated around the both ends of the U-shape as the central axis, and each end of the U-shape is coupled to a rotating shaft fixed to the body, so when it is brought into a narrow space You can either stand up or fold it down completely to attach it to your body. Therefore, even when passing through a narrow gap, such as a space in which a cable is dense, the handle does not get caught in the entrance, so it can be used in a narrow space without limitation of the working environment.

In addition, the latch gear is fixed on the rotating shaft of the handle so that it cannot be rotated, and it is shaped like a handle and has an U-shaped operation lever with detents on both ends, so the detent is inserted between the gears of the latch gear. Can be. Therefore, when the operation lever is pulled, the detent is released from the retractor, and the handle is free to rotate. When the operation lever is released, the elastic means pushes the operation lever, so the detent is inserted between the gears of the retractor so that the rotation of the handle stops. do. Therefore, the handle can be fixed at any angle. For this reason, when the sleeve crimping device is fixed with a rope on the overhead line, etc., and then adjustment of the position or angle is required, the handle can be rotated and adjusted to an appropriate position or angle. It is possible to effectively and conveniently perform the crimping operation on the top and to shorten the working time.

In addition, when the detent is inserted between the gears of the latch gear, the handle does not rotate in the upright direction, but only in the direction in which it is laid down. While the detent is firmly fixed between the gears of the latch gear by the weight of the sleeve crimping device applied to it, if you want to adjust the angle downward, without pulling the operation lever, hold the body down against the handle. When only the pushing force is applied, the detent is caught while descending the gears of the latch gear one by one, so it is fixed at each step of the descending step, thereby making it possible to easily change the posture of the sleeve pressing device. The advantage is that it is possible to easily change the angle or position even when the rope is tied to the handle, even when the rope is not pulled freely due to the rope. In addition, if the handle is not vertically pulled and the detent is placed between the gears of the latch gear and the operation lever is not pulled, the handle is not rotated in any direction, so the handle is stable so that it does not move. It will be possible.

In addition, the lower surface of the cylinder cap has a pair of carrying rings, and each of the carrying rings is semi-circular, so that both ends of the semi-circular are rotatably coupled to the lower surface of the cylinder cap, and a pair of carrying rings can be erected and attached to each other. Since it can also lie on the other side so as to be in close contact with the lower surface of the cylinder cap, when the sleeve crimping device is laid in a horizontal direction, it can be used for fixing by using a sling bar after setting up a pair of carrying rings. When placed vertically or when not in use, it can be folded and laid down, which prevents work or takes up a lot of space when stored.

And the fastener formed on the upper stopper is inserted into the first fixing groove formed on one side of the fixing handle, and normally, the upper portion protrudes into the fixing handle, and the lower portion protrudes outward of the fixing handle, and when the upper portion is pressed, the lower To prevent the part from protruding, the middle part is fixed to the central axis and has a spring behind the bottom part. Therefore, since the upper projection is a structure that protrudes inside the fixing handle, it cannot contact with an obstacle from the outside, and there is no fear that the projection will break or be damaged. There is.

1 is a partial cut-away view of a hydraulic sleeve crimping apparatus according to the prior art as viewed from the side.
2 is a plan view of the hydraulic sleeve crimping apparatus according to the prior art as viewed from above.
3 is a perspective view of a sleeve crimping device for cable connection according to the present invention.
4 is a front view of the sleeve crimping device for cable connection according to the present invention as viewed from the front.
5 is a side view of the sleeve crimping device for cable connection according to the present invention as viewed from the side.
6 is a cross-sectional view of the sleeve crimping device for cable connection according to the present invention (section A-A' in FIG. 3).
7 is an enlarged perspective view of the lower portion of the sleeve crimping device for cable connection according to the present invention.
8 is a perspective view of the piston included in the present invention as viewed from below.
9 is a diagram showing a state in which the piston flows through the oil through the first inlet to the sleeve crimping device for cable connection according to the present invention.
10 is a visual display of the stress distribution inside the cylinder space when the piston rises due to oil inflow.
11 is an enlarged perspective view of the upper portion of the sleeve crimping device for cable connection according to the present invention.
12 is an enlarged cross-sectional view of an upper portion of a sleeve crimping device for cable connection according to the present invention.
13 is a view showing a state made in various forms by adjusting the angle of the handle of the sleeve crimping device for cable connection according to the present invention.
14 is a bottom view of the sleeve crimping device for cable connection according to the present invention as viewed from below, showing a state in which a transport ring is erected.
15 is a bottom view of the sleeve crimping device for cable connection according to the present invention as viewed from below, showing a state in which the transport ring is laid.

Hereinafter, the present invention will be described in detail so that the above-described objects and features become clear, and accordingly, a person skilled in the art to which the present invention pertains will be able to easily implement the technical spirit of the present invention. In addition, in describing the present invention, among the known technologies related to the present invention, it is already well known in the technical field, and a detailed description thereof is determined when it is determined that the detailed description of the known technology may unnecessarily obscure the subject matter of the present invention. It will be omitted.

In addition, the terminology used in the present invention has been selected as a general terminology that is currently widely used as much as possible, but in certain cases, the term is arbitrarily selected by the applicant, and in this case, its meaning is described in detail in the description of the applicable invention. It is intended to clarify that the present invention should be grasped as a meaning of a term rather than a name of. Terms used in the description of the embodiments are only used to describe specific embodiments, and are not intended to limit the embodiments. Singular expressions include plural expressions unless the context clearly indicates otherwise.

The embodiments can be modified in various forms and have various additional embodiments, in which specific embodiments are shown in the drawings and detailed descriptions are described. However, it is not intended to limit the embodiments to a specific form, it should be understood that it includes all changes or equivalents or substitutes included in the spirit and scope of the embodiments.

In the description of various embodiments, expressions such as “first”, “second”, “first”, or “second” may modify various components of the embodiments, but do not limit the components. For example, the above expressions do not limit the order and/or importance of the components. The above expressions can be used to distinguish one component from another component.

Hereinafter, the present invention will be described with reference to the accompanying drawings. 3 is a perspective view of a sleeve crimping device for cable connection according to the present invention. And Figure 4 is a front view of the sleeve crimping device for cable connection according to the present invention as viewed from the front, Figure 5 is a side view as viewed from the side. And Fig. 6 is a sectional view when viewed from the front (section A-A' in Fig. 3). The present invention will be described with reference to FIGS. 3 to 6. The present invention relates to an apparatus for hydraulically compressing a sleeve covering a connection portion to connect a cable such as ACSR as described above. Therefore, the present invention is preferably to include a cylinder space 100 formed in a cylindrical shape under the body 20 of the sleeve crimping device 10 for cable connection (see FIG. 6). And, at the bottom of the cylinder space 100, the cylinder space 100 includes a cylinder cap 200 that is screwed to the body 20 so as to block and seal the piston, and the piston in the cylinder space 100 It is preferable to allow the piston 300 to reciprocate in the vertical direction by hydraulic pressure of oil injected into the cylinder space 100 by including the 300. And in order to inject the oil into the cylinder space 100 and discharge the injected oil, the first injection port 110 and the second injection port ( 120).

And on the cylinder space 100, the lower dice 410 and the upper dice 420 may be sequentially inserted, and the sleeve 50 may be penetrated between the lower dice 410 and the upper dice 420. It is preferable that the dice insertion space 400 is formed so as to be positioned. In addition, when the lower dice 410 and the upper dice 420 are inserted into the dice inserting space 400 above the dice inserting space 400, the upward movement of the upper dice 420 is prevented. , It is preferable to include an upper stopper 500 to be fixed by inserting into the upper portion of the body 20. And, in the upper portion of the body 20, it is preferable to include a pair of handles 600 that are fixed to both sides symmetrically.

Therefore, after placing the lower dice 410 in the dice insertion space 400 on the upper part of the piston 300, the sleeve 50 is placed on the lower dice 410 and the upper portion on the sleeve 50 After placing the dice 420, if the upper stopper 500 is screwed into the coupling groove 21 formed on the upper inner circumferential surface of the body 20, the upper die 420 is prevented from moving upward. Is fixed. In addition, when oil is injected into the cylinder space 100 through the first injection port 110, the piston 300 rises, and accordingly, the lower die 410 also rises. At this time, the upper die Since the 420 is fixed so as not to be further raised by the upper stopper 500, the gap between the upper dice 420 and the lower dice 410 becomes closer, and the sleeve 50 is compressed accordingly. . After the compression is completed, the oil is injected through the second injection port 120, and at the same time, when the oil is discharged through the first injection port 110, the piston 300 is retreated. It will be said that such an operation is not much different from a crimping apparatus according to the prior art.

However, the present invention has characteristic configurations that are in contrast to the prior art in addition to these configurations, which will be described with reference to FIGS. 7 and 8. 7 is an enlarged perspective view of a lower portion of a sleeve crimping device for cable connection according to the present invention, and FIG. 8 is a perspective view of the piston included in the present invention as viewed from below. 7 and 8, in the sleeve crimping apparatus 10 according to the present invention, ① the cylinder cap 200 is to have a convex surface 201 on the surface facing the cylinder space 100 side. desirable. And ② the piston 300, the top is clogged and the bottom is a perforated cylinder, the lower end has a rim 310 formed outwardly of the cylinder to make it like a hat, ③ the convex of the lower side of the rim 310 In the portion 311 corresponding to the surface 201, it is preferable to have an air gap 320 that maintains a predetermined distance from the convex surface 201 when the piston 300 descends downward. For reference, an oil injection groove 312 is formed on the rim 310 of the piston 300 so that oil injected through the first injection hole 110 can enter the cylindrical interior of the piston 300, It is more preferable to further include a safety valve insertion port 316 so that a safety valve 315 capable of discharging oil is inserted when an abnormal pressure is generated in the cylinder space 100.

Since the present invention has such features, when oil is injected downward from the piston 300 in the cylinder space 100, since the oil is started to be injected through the air gap 320, the piston 300 ) As the rising pressure for the oil is effectively generated from the beginning of the oil injection, the piston 300 can smoothly start to rise, and stress concentration can be generated for the portion 311 corresponding to the convex surface 201. have. Therefore, since the piston 300 receives a balanced force in the cylinder space 100, the piston 300 can rise without being skewed, and regardless of the position of the sleeve 50 sandwiched between the dice 410 and 420. The same force is applied so that it is compressed so that it is possible to obtain a connection portion having excellent compression quality. This will be described with reference to FIGS. 9 and 10.

9 is a diagram showing a state in which the oil is introduced through the first injection port 110 into the sleeve crimping device for cable connection according to the present invention, and FIG. 10 is the cylinder space when oil is introduced and the piston is raised (100) It is a visual indication of the internal stress distribution. As shown in FIG. 9, when oil flows into the cylinder space 100 through the first injection port 110, the piston 300 gradually rises upward by hydraulic pressure, so that the lower die 410 is the upper die. It goes up to the position where it touches (420). At this time, the stress applied to the piston 300 is applied to the entire piston 300 as shown in FIG. 10, but the portion corresponding to the convex surface 201 formed on the cylinder cap 200 is the The convex surface 201 exerts a radial force (see blue arrow). In addition, the portion 311 corresponding to the convex surface 201 among the rims 310 at the bottom of the piston 300 is more concentrated than the other places (see the red circle). Stress concentration is a phenomenon in which a stress increases when an external force acts on the structure member when there is a sudden change such as a cross-sectional shape. In a pressure vessel, stress is concentrated in a portion where the shape changes. Therefore, since the portion 311 corresponding to the convex surface 201 among the lower surfaces of the rim 310 is a portion having a large change in shape compared to other places, stress is concentrated compared to other places. As described above, in the present invention, not only the radial force directed outward toward the piston 300 from the lower portion of the piston 300 is applied due to the convex surface 201, but also the convex surface of the rim 310 ( Since stress concentration occurs along the portion 311 corresponding to 201), a balanced upward pressure is applied to the piston 300. Accordingly, since the piston 300 is able to rise smoothly without being skewed, the inner wall of the piston 300 or the cylinder space 100 is not worn, so that sealing materials such as O-rings are not damaged and play does not occur. This does not leak, and the durability of the sleeve crimping device 10, such as a longer life, is significantly increased. In addition, since the pressure applied to the piston 300 is uniformly applied, the compression quality of the sleeve 50 is increased.

Meanwhile, FIG. 11 is an enlarged perspective view of the upper portion of the sleeve crimping device 10 for cable connection according to the present invention, and FIG. 12 is an enlarged cross-sectional view of the upper part. Hereinafter, the configuration of the upper side will be described in detail with reference to FIGS. 11 and 12. 11 and 12, in the present invention, the upper portion of the body 20 includes the pair of handles 600, but it is preferable that each of the pair of handles 600 can be rotated up and down. Do. Accordingly, each of the pair of handles 600 is U-shaped, so that both ends of the U-shaped are fixed to the upper portion of the body 20 so that rotation is possible between the both ends of the U-shaped as a central axis. It is preferable to be coupled to each of the rotating shaft 610. And on the rotating shaft 610, a latch gear (rachet gear, 630) is fixed so as not to be rotated, and inside the U-shape of the handle 600, the U-shaped operation lever is the same as the shape of the handle It is preferable to allow 620 to be combined. Further, at both ends of the operation lever 620, pawls (621) are formed to be inserted between the gears of the latch gear 630, and at the two corners of the U-shape of the handle 600, , It is preferable to include an elastic means 622 to push the operation lever 620 toward the latch gear 630.

Accordingly, when the handle lever 620 located inside the handle 600 is pulled toward the handle 600 while the handle 600 is held, the detent 621 comes out of the latch gear 630 and the The rotation of the handle 600 is free, and when the operation lever 620 is released, the detent 621 is entered between the gears of the latch gear 630 by the pushing force of the elastic means 622. The rotation of the handle 600 can be stopped. The present invention has the advantage of fixing the handle 600 at an arbitrary angle by using this, as shown in FIG. 13, as well as raising all of the pair of handles 600 upwards and lowering the body downwards (20). In addition, it is of course possible to rotate only one handle 600 of the pair of handles 600 up and down. For this reason, the present invention can be adjusted to an appropriate position or angle by rotating the handle 600 when the sleeve crimping device 10 is fixed to the overhead line or the like with a rope, and then adjustment of the position or angle is required. It is possible to make the work effective and convenient, and accordingly, it is possible to shorten the working time. In addition, when entering into a narrow space, the pair of handles 600 may be erected up or folded down and attached to the body. Therefore, even when passing through a narrow gap, such as a space in which a cable is dense, the handle 600 is not caught in the entrance, and thus there is an effect that can be used even within a narrow space without limitation of the working environment.

And it is preferable that the latch gear 630 is inclined only in an outward direction based on the body 20. When doing so, the detent 621 is between the gears of the latch gear 630. In the case of entering, the handle 600 is not rotated in the upright direction, but is rotated only in the direction in which it is laid down, so that even if the operation lever 620 is not pulled, it is downward with respect to the handle 600. When only the pushing force is applied, the detents 621 are fixed step by step while descending the gear mounts of the latch gear 630 one by one, thereby enabling fine positioning. Therefore, when the sleeve crimping device 10 is fixed with a rope to a processing line or the like, the detent 621 is firmly placed between the gears of the latch gear 630 by the weight of the sleeve crimping device 10 applied downward. On the other hand, when the angle is to be adjusted downward, even if the operation lever 620 is not pulled toward the handle 600, the detent ( Since the 621) is fixed at each step of descending the gear mount of the latch gear 630 one by one, there is an effect that can facilitate the posture change of the sleeve crimping device (10). In particular, when the rope is tied to the handle 600, it is possible to easily change the angle or position even in the case where the operation lever 620 is not freely pulled due to the rope. In addition, when the handle 600 is vertically raised and the detent 621 does not pull the operation lever 620 in a state in which it is between the gears of the latch gear 630, the detent It is preferred that the 621 is fixed between the gears of the latch gear 630, so that the handle 600 is not rotated in any direction. When this is done, the handle 600 is in a different position. Rotation is possible, but it is possible to maintain a stable state at a specific position (vertical position).

Meanwhile, as shown in FIGS. 11 and 12, the upper stopper 500 preferably has a fixing part 530, a fixing handle 520, and a fixing metal 510. As shown in 11, it has a shape having cut portions on both sides of a circular tablet shape, and it is preferable that a portion other than the cut portion is coupled to a coupling groove 21 formed on an upper inner circumferential surface of the body 20. And the fixing handle 520, is coupled to be integral with the fixing portion 530 from the top of the fixing portion 530, the fixing 510, the first formed on one side of the fixing handle 520 It is inserted into the fixing groove 512 so that the upper part protrudes inward of the fixing handle 520 in normal times (see FIGS. 4 and 10), and the lower part protrudes outward of the fixing handle 520, and the upper part When is pressed, it is preferable that the middle portion is fixed to the central axis 511 and has a spring 513 at the back of the bottom portion so that the lower portion does not protrude into the first fixing groove 512. Then, the fixing part 530 is inserted into the coupling groove 21 and rotated so that the first fixing groove 512 matches one of the second fixing grooves 550 formed on the upper inner circumferential surface of the body 20. When in the position, the fixing 510 is protruded by the spring 513 and fixed between the first fixing groove 512 and the second fixing groove 550, so that the fixing portion 530 is further It does not rotate abnormally, and accordingly, the upper stopper 500 is fixed to the body 20. Accordingly, the present invention can not contact the obstacle from the outside because the upper portion of the fixing protrusion 510 is a structure that protrudes inward of the fixing handle 520, and thus, there is no fear that the protrusion is broken or damaged, There is an effect that can prevent the use of the sleeve crimping device 10 due to the failure of the fastener 510.

And it is preferable to have a pair of carrying rings 700 on the lower surface of the cylinder cap 200 in the sleeve crimping device for cable connection according to the present invention. 14 is a bottom view of the sleeve crimping device for cable connection according to the present invention as viewed from below, showing a state in which the pair of transport rings 700 are placed side by side, and FIG. 15 shows the pair of transport rings ( 700) Each of them is shown lying in opposite directions. 14 and 15, each of the pair of transport rings 700 is semi-circular, so that both ends of the semi-circle are rotatably coupled to the lower surface of the cylinder cap 200, so that the pair of transport rings It is preferable that the 700 be erected and attached to each other, or that the cylinder cap 200 may be laid on opposite sides to be in close contact with the lower surface. In this way, the sleeve crimping device for cable connection according to the present invention can be used for the purpose of connecting and fixing the sling bar after erecting and attaching the pair of transport rings 700 when lying down in a horizontal direction, and storing it upright In the case of the case or other cases where the pair of transport rings 700 are not used, it can be folded and laid down, so that it is not annoying to work or occupying an area during storage.

Although the present invention has been described in various examples, the present invention is not necessarily limited to these examples, and may be variously modified within a range not departing from the technical idea of the present invention. Therefore, the examples disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these examples. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent range should be interpreted as being included in the scope of the present invention.

20 Body 21 Joint groove 50 Sleeve
100 cylinder space
110 1st entrance 120 2nd entrance
200 Cylinder cap 201 Convex surface
300 piston
310 Border 312 Oil injection groove
315 Safety valve 316 Safety valve insert 320 Void
400 dice insertion space
410 lower die 420 upper die
500 Upper stopper 510 Clamp 511 Center shaft 512 First fixing groove 513 Spring 520 Fixed handle 530 Fixed portion 550 Second fixing groove
600 Handle 610 Rotating shaft 620 Operating lever 621 Detent 622 Elastic means 630 Latch gear
700 Carrier

Claims (5)

A device for hydraulically compressing the sleeve connecting the cable,
Body;
A cylinder space formed in a cylindrical shape under the body;
A cylinder cap screwed to the body so that the cylinder space is closed and sealed under the cylinder space;
A piston inserted into the cylinder space and vertically moved by hydraulic pressure of oil injected into the cylinder space;
As a space located above the cylinder space, a lower die and an upper die can be sequentially inserted, and a dice insertion space is formed to allow the sleeve to pass between the lower die and the upper die;
When the lower die and the upper die are inserted into the dice insertion space, the upper stopper is inserted and fixed to the upper portion of the body so as to prevent upward movement of the upper die; And
A pair of handles fixed to both sides symmetrical at the top of the body; Including,
-The cylinder cap has a convex surface on the side facing the cylinder space,
-The piston is clogged at the top and has a perforated cylinder at the bottom, and has a rim formed on the outside of the cylinder at the bottom to form a hat.
-In the lower surface of the rim, the portion corresponding to the convex surface, there is a gap for maintaining a constant distance from the convex surface, the cable connecting sleeve crimping device According to claim 1,
The handle is a U-shape, so that both ends of the U-shape can be rotated as a central axis, each end of each of the U-shapes is coupled to a rotating shaft fixed to the body,
On the rotating shaft, a latch gear is fixed so as not to rotate,
Inside the U-shaped of the handle, an operation lever having a U-shape is combined with the shape of the handle,
At both ends of the operation lever, a pawl is formed to be inserted between the gear threads of the latch gear,
In the two corners of the U-shaped of the handle, a sleeve compression device for cable connection, characterized in that it comprises an elastic means for pushing the operating lever toward the latch gear According to claim 2,
If the operation lever is not pulled in the state where the detent is between the gear mounts of the latch gear, the handle is not rotated in the upright direction, but only in the direction in which it is laid down,
When the handle is vertically held and the detent is not inserted between the gears of the latch gear and the operation lever is not pulled, the handle is crimped with a sleeve for cable connection, characterized in that it is not rotated in any direction. Device According to claim 1,
The lower surface of the cylinder cap has a pair of carrying rings,
Each of the pair of transport rings is semi-circular, so that both ends of the semi-circle are rotatably coupled to the lower surface of the cylinder cap, so that the pair of transport rings can be erected and attached to each other, and in close contact with the lower surface of the cylinder cap. Cable crimping sleeve for connecting cables, characterized in that they can lie on opposite sides to fold According to claim 1,
The upper stopper has a fixing part, a fixing handle and a fixing metal
The fixing portion is shaped to have cutting portions on both sides of a circular tablet shape, and a portion other than the cutting portion is coupled to a coupling groove formed on an upper inner circumferential surface of the body,
The fixing handle is coupled to be integral with the fixing portion above the fixing portion,
The fastener is inserted into a first fixing groove formed on one side of the fixing handle, and the upper portion protrudes inwardly of the fixing handle and the lower portion protrudes outward of the fixing handle. In order not to protrude, the middle part is fixed to the central axis and has a spring at the back of the lower part,
When the first fixing groove is brought into a position coinciding with the second fixing groove formed on the upper inner circumferential surface of the body by inserting and rotating the fixing portion into the coupling groove, the fixing bolt protrudes by the spring, so that the first fixing groove Cable fixing sleeve crimping device characterized in that the fixing portion is no longer rotated by being fixed between the groove and the second fixing groove

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