KR200478631Y1 - Compressors for refrigeration using a rotary knife cutting machine - Google Patents

Abstract

The present invention relates to a refrigeration compressor cutting apparatus, and more particularly, to a refrigeration compressor cutting apparatus in which at least two compressors to be cut are mounted, a jig is reciprocally moved between a cutting area and a non-cutting area and a plurality of compressor outer surfaces The present invention relates to a cutting apparatus capable of cutting a large number of compressors capable of cutting a large amount of compressors in a short period of time in a simple and simple configuration as well as being installed in a narrow place .
To this end, a cutting device capable of cutting a plurality of compressors according to the present invention includes a jig having at least two compressors adjacent to each other, a jig having a predetermined length in the horizontal direction, A non-cutting zone is formed on both sides of the cutting zone so that the compressor can be reciprocated alternately between the cutting zone and the non-cutting zone, and is lifted and lowered to be rotatably engaged with the lower portion of the jig, A base portion fixed to the base portion to have a predetermined height in the cutting region and cutting a pair of the compressors provided at the jig portion at the same time And a control section for controlling the cut section and the base section and the cut section It characterized.

Description

Technical Field [0001] The present invention relates to a compressor for a refrigerator,

The present invention relates to a refrigeration compressor cutting apparatus, and more particularly, to a refrigeration compressor cutting apparatus in which at least two compressors to be cut are mounted, a jig is reciprocally moved between a cutting area and a non-cutting area and a plurality of compressor outer surfaces The present invention relates to a cutting apparatus capable of cutting a large number of compressors capable of cutting a large amount of compressors in a short period of time in a simple and simple configuration as well as being installed in a narrow place .

Generally, a refrigeration compressor is an apparatus used for an air conditioner, a refrigerator, and the like, and is a device for compressing a refrigerant gas. Such a refrigeration compressor should be discarded after its lifetime if it is used for a certain period of time. In the process of disposing of the refrigerating compressors having reached their end of life, expensive metal materials such as aluminum, copper, and iron constituting the refrigerating compressor are recycled, and waste oil such as lubricating oil inside the refrigeration compressor is to be discarded.

At this time, the conventional method of disposing the refrigeration compressor was as follows. First, the waste refrigeration compressors are collected, and then the cover is separated from the compressor body by using a gas cutter or a plasma cutter. The separated main body and internal components are suitably classified and collected and regenerated at a regeneration plant or the like.

However, the gas cutting machine or the plasma cutting machine generates heat at a very high temperature on the cutting surface, and therefore the internal waste oil is burned in cutting the cover. At this time, toxic gas is generated due to burning of the waste oil, which causes pollution of the atmosphere.

In addition, there is a problem that a large amount of time and manpower are required in the process of manually cutting the refrigeration compressors and processing them. Thus, there have been many refrigeration compressor cutting devices in which such problems are solved.

For example, Korean Patent No. 10-1323643, entitled " Refrigeration Compressor Cutting Apparatus ", which is a prior art, discloses a refrigerator having a base unit for transferring a refrigeration compressor to be cut for recycling, A rotary part that is rotatably installed on the base part and transfers the compressor, which is cut by the cutting part, to the worker, And a control unit for controlling the cutting unit and the rotary unit. Therefore, it is possible to perform cutting simultaneously with the conveyance of the compressor, thereby eliminating the residence time for cutting the compressor. As a result, the working time can be shortened, The conventional technique has been developed.

However, such conventional technology has advantages in shortening the working time, facilitating a large amount of work, and being safe from the harmful gas and cutting the refrigerator compressor. However, the apparatus is complicated in structure, There is a problem that installation work is difficult due to a large consumption of work space to be installed.

The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a compressor which can be installed in a narrow place, and is relatively simple, so that an economical burden is reduced and a large amount of compressor cutting is possible in a short time.

According to an aspect of the present invention, there is provided a cutting apparatus capable of cutting a plurality of compressors according to the present invention includes a jig having at least two compressors adjacent to each other, And a non-cutting region is formed on both sides of the cutting region so that the compressor can be reciprocated alternately between the cutting region and the non-cutting region, and the lower portion of the jig and the rotation A base portion for vertically moving the compressor so as to rotate the respective compressors provided at the jig portion at a predetermined angle, a fixing portion fixed to the base portion to have a predetermined height in the cutting portion, A cut portion for cutting the pair of compressors at the same time, Characterized in that a control unit for controlling parts.

The jig includes a plate-shaped moving plate, a pair of rotating plates disposed adjacent to the moving plate so as to have a predetermined diameter, and a lower portion of the compressor is inserted into the upper portion of the rotating plate. A pressing member having at least two revolving plates disposed around the rotating plate and having a lower portion movably inserted into the moving plate and a pressing member having one side engaged with the pressing member and the other side supported on the moving plate, And an elastic body provided to press the outer surface of the compressor provided on the rotary plate 120. [

The base portion may include a housing and a jig portion rotatably installed on the upper portion of the housing so that the jig portion provided with the pair of compressors can be reciprocated alternately between the cutting region or the non- And a rotary member fixedly installed in the housing and rotatably coupled to the lower portion of the jig when the compressor is lifted and lowered so that a pair of the compressors are rotatable .

The base has a rod having a length in a vertical direction in which a screw thread is formed on the outer surface, an upper portion is rotatably engaged with the cut portion, a lower portion is provided with a screw installed to be rotatably engaged with the base portion, And the upper surface may include a rotary knob which is provided to support the lower surface of the cut portion and can adjust the height of the cut portion by rotation.

The cut-off portion includes an X-axis cutting member (300A) provided to be reciprocally movable in the X-axis direction in front of and behind the compressor, for cutting the front and rear surfaces of the respective compressors provided in the jig, And a Y-axis cutting member (300B) provided on the X-axis cutting member (300A) or the Y-axis cutting member (300B) to cut each of the side surfaces of the compressor The shaft cutting member 300B is formed by cutting the front / rear surface or both sides of the compressor by the movement, and then cutting the uncut portion of each of the compressors by the base by the X-axis cutting member 300A, Or by re-moving the Y-axis cutting member (300B) so that a strip-shaped cut is made on the outer surface of each of the compressors, To ensure that it is preferable.

Each of the X-axis cutting members 300A has a first frame having a length in the X-axis direction and having a first movement groove 311 formed in the longitudinal direction thereof, A first moving body which is engaged with the first cylinder and is inserted into the first frame so as to be movable in the first moving groove according to the tension / contraction of the first cylinder, and a second moving body And a first cutting motor rotating the first cutting blade to cut the front or rear surface of the compressor.

Each of the Y-axis cutting members 300B includes a second frame having a length in the Y-axis direction and a second moving groove formed in the longitudinal direction, and a second cylinder A second moving body coupled with the second cylinder and inserted in the second frame so as to be movable in the second moving groove in accordance with the tension / contraction of the second cylinder, and a second movable body provided below the second moving body, And a second cutting motor that rotates the second cutting blade to cut the side surface of the second cutting blade.

Further, the cutting unit may further include a position sensor, and the position sensor may be provided on the outer surface of each of the compressors so that a position to be cut through the X-axis cutting member 300A or the Y-axis cutting member 300B can be visually identified It is preferable to display them in a dot or line form using a laser.

According to the present invention, a jig having at least two compressors to be cut differentially from each other is reciprocally moved alternately between a cutting area and a non-cutting area, and at the same time, a plurality of compressor outer surfaces are formed in a circular strip shape It is possible to install the compressor in a narrow space, and it is also possible to perform a large amount of compressor cutting operation economically and in a short time because the compressor is constructed with a relatively simple structure.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view of a conventional refrigeration compressor cutting apparatus. Fig.
2 is a front view showing a cutting device capable of cutting a plurality of compressors according to the present invention;
3 is a perspective view showing a jig portion of a cutting device capable of cutting a plurality of compressors according to the present invention.
4 is an exploded cross-sectional view of a jig of a cutting device capable of cutting a plurality of compressors according to the present invention;
Figure 5 is an assembled cross-sectional view of Figure 4;
Fig. 6 is a front view showing a base portion of a cutting device capable of cutting a plurality of compressors according to the present invention; Fig.
7 is a view showing a rotary member of a cutting device capable of cutting a plurality of compressors according to the present invention.
Figure 8 is a plan view of Figure 6;
9 is a perspective view showing a cutting portion of a cutting device capable of cutting a plurality of compressors according to the present invention.
10 is a perspective view showing an X-axis cutting member of a cutting device capable of cutting a plurality of compressors according to the present invention.
11 is a perspective view showing a Y-axis cutting member of a cutting device capable of cutting a plurality of compressors according to the present invention.
Figs. 12 to 17 are views showing a working relationship of a cutting device capable of cutting a plurality of compressors according to the present invention. Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a cutting device capable of cutting a plurality of compressors according to a preferred embodiment of the present invention (hereinafter briefly referred to as a "cutting device") will be described in detail with reference to the accompanying drawings.

First, as shown in Fig. 2, the present cutting device 1 includes a jig 100, a base 200, and a cutter 300.

2 to 5, the jig unit 100 includes a pair of compressors C to be cut, and is provided with a base unit 200, which will be described later, And includes a moving plate 110, a rotating plate 120, and a pressing member 130 for reciprocating in a stepwise manner.

Here, the moving plate 110 is formed to have a plate shape as a whole, and the lower portion is installed on the upper surface of the conveyor member 220 and is installed to move in the left / right direction according to the moving direction of the conveyor member 220, And a pair of rotary plates 120 are installed on the upper portion so as to rotate adjacent to each other. At this time, the moving plate 110 is moved by the conveyor member 220 or the vibration generated when the rotating motor shaft 244 engages with the lower portion of the rotating plate 120 to change the position of the compressor C It is preferable that the cutting position is not changed.

The moving plate 110 is formed with at least two through holes 111 through which at least two rotating plates 120 are rotatably inserted and at least two pressing members 130 are formed around each of the through holes 111, So that a movable groove 112 is formed.

The rotary plate 120 is formed in a plate shape having a predetermined diameter so that the compressor C to be cut can be mounted. The rotary plate 120 is rotatably inserted into the through hole 111 formed in the moving plate 110. The lower portion of the compressor C mounted on the upper portion of the rotary plate 120 is formed with an insertion groove 121 into which the lower portion of the compressor C can be inserted and a lower portion of the rotary motor shaft 244, It is preferable that the rotation groove 122 is formed so as to be rotatable.

The pressing member 130 presses the outer surface of the compressor C inserted into the respective rotary plates 120 so that when the rotary plate 120 rotates or when the compressor C is cut by the cuts 300, And includes a body 131, a pressing means 136, and an elastic body S in order to absorb the vibration and prevent the cutting position of the compressor C from being changed. At this time, it is preferable that at least two or more pressing members 130 are provided around the through holes 111 so as to stably press the outer surface of the columnar compressor (C).

The body 131 is formed to have a generally rectangular parallelepiped shape and is inserted into an elongated groove 112 formed in the moving plate 110 at a lower portion thereof so that the body 131 can reciprocate stably along the longitudinal direction of the elongated groove 112 A protrusion 132 is formed downward. The protrusion 133 protrudes from one side of the protrusion 132 so that the elastic body S is inserted into the protrusion 132 so that the body 131 can reciprocate stably along the protrusion 112 by the elastic force of the elastic body S. [ .

In addition, a fitting hole 134 into which the pressing means 136 is inserted is formed at one side of the body 131 in the longitudinal direction. The upper portion is formed to be in communication with the fitting hole 134 so that the pressing means 136 inserted through the fitting hole 134 can be fixed through a fixing means P such as a bolt or a screw .

For example, the pressing means 136 includes a pressing body 137 which is provided so as to be in surface contact with the outer surface of the compressor C so as to be in surface contact with the outer surface of the compressor C to press the outer surface of the compressor C by the elastic force of the elastic body S, And an insertion protrusion 138 inserted into the fitting hole 134 in a fitting manner. At this time, the pressing body 137 is formed to have an arc shape so as to maximize the contact area with the outer surface of the cylindrical compressor C having a predetermined diameter, and the insertion projection 138 is formed with a fastening hole 135 It is preferable that the insertion hole 139 is formed so that the fastening means P inserted through the insertion protrusion 138 can be fixed to the body 131 through the insertion protrusion 138.

In addition, the pressing body 137 prevents the outer surface of the compressor C to be pressurized from being broken, and is provided with a rubber having a cushioning effect so that the rotating body 120 can rotate so as not to cause interference with the pressing force of the pressing body 137 Or sponge material is used.

A roller (not shown) provided rotatably with the insertion protrusion 138 so that the rotation plate 120 can be rotated easily when the rotation plate 120 is rotated while the compressor C is being pressed, May be used.

The elastic body S is provided inside the elongated groove 112 formed in the body 131. One side of the elastic body S is fitted into the protrusion 133 and the other side is supported on the inner wall of the elongated groove 112, So that the pressing means 136 can press the outer surface of the compressor C by the elastic force. In this case, it is preferable that a helical coil spring is used for the elastic body (S).

2 and 6 to 8, the base 200 is provided on the ground with a predetermined length in the horizontal direction, and a jig (not shown) having at least two compressors (C) The conveyor member 220, the height adjusting member 230, and the like, in order to allow the part 100 to reciprocate in the left / right direction while alternating between the cutting zone Z1 and the non-cutting zone Z2. And a rotating member 240. The cutting zone Z1 means a region where the compressor C is cut by the cutting portion 300 and the non-cutting region Z2 means a region where a post-operation of the compressor C is completed. do.

Here, the housing 210 has a rectangular parallelepiped shape having a space formed therein so as to have a length in a horizontal direction as a whole. The upper portion of the housing 210 is opened so that the rotating plate 120 can be rotated by raising and lowering the rotating member 240, do. At this time, although not shown, at least one door (not shown) may be formed on the outer surface of the housing 210 so that the space can be opened and closed so that maintenance of other components provided in the space is possible.

A stopper 211 protruding upward is formed on both sides of the upper surface of the housing 210 so as to be in surface contact with the jig 100 moving in the left / right direction along the belt 222, Limit the distance.

Further, the upper portion of the housing 210 having a length in the horizontal direction is formed with a cut zone Z1 having a predetermined area, that is, a zone where the cut portion 300 is provided and both sides of the cut zone Z1, The uncompressed zone Z2 in which the compressor C to be newly cut is mounted is formed by separating the completed compressor C from the jig 100. [

The conveyor member 220 is installed on the housing 210 so as to be movable in the left and right directions so as to move the jig 100 step by step in the left and right direction. The conveyor member 220 includes a conveying roller 221, a belt 222, And a driving motor 223.

A plurality of feed rollers 221 are installed adjacent to each other in the longitudinal direction on the upper portion of the opened housing 210 and rotatably hinged to the housing 210. Each of the conveying rollers 221 is rotatably installed by a driving motor 223 and a chain 224 or a plurality of gears so as to be rotatable in the left and right direction So that the direction of movement of the belt 222 is determined.

The interval between the adjacent transfer rollers 221 on the upper portion of the housing 210 can be set such that at least a rotation motor shaft 244 ascending and descending for rotating the rotary plate 120 can pass through the transfer rollers 221 .

The belt 222 is provided in the form of a belt so as to surround the outer surface of the conveying roller 221 which is hinge-coupled to the upper portion of the housing 210 so as to be adjacent to the housing 210. The jig 100, So that the jig 100 can move in accordance with the movement direction of the belt 222. [ At this time, the belt 222 is provided so as to surround the outer surface of the conveying roller 221 in a pair of strips close to both sides of the conveying roller 221, as shown in FIG. desirable.

The drive motor 223 is fixedly installed in a space inside the housing 210 and is connected to the conveying roller 221 by a chain 224 or the like and is driven by a plurality of conveying rollers 221 can rotate in either direction. The driving motor 223 may be installed in the housing 210 in a plurality of configurations in accordance with the number of the conveying rollers 221 or the length of the conveying rollers 221 to smoothly rotate the conveying rollers 221 .

The height adjusting member 230 includes a screw 231 and a turning knob 233 for adjusting the height of the cut portion 300 according to the cutting position of the compressor C to be cut. In the embodiment of the present invention, the height adjusting member 230 is composed of the screw 231 and the rotary knob 233, but this is merely an example, and the motor or the tension / It should be noted that the height of the cut portion 300 can be adjusted through a cylinder or the like which contracts.

The lower portion of the screw 231 is rotatably engaged with the upper portion of the housing 210 and the upper portion of the rod 231 is rotatably inserted through the cut portion 300 . At this time, a bearing 232 is provided under the screw 231 rotatably engaged with the housing 210 so that the screw 231 can be rotated in place, and the upper portion is rotatably screwed to the cut portion 300 It is preferable to adjust the height of the cut portion 300 by rotating the screw 231.

The rotary knob 233 is formed in a cylindrical shape having an upper portion and a lower portion opened and a hollow portion formed therein. On the inner surface of the rotary knob 233, a thread for screwing with the outer surface of the screw 231 is formed and screwed. At this time, the upper surface of the rotary knob 233 can be supported in surface contact with the lower surface of the cut portion 300, so that the cut portion 300 after the height is adjusted can be stably supported.

The rotating member 240 is configured to rotate the compressor C coupled to the rotating plate 120 by being lifted and lowered and inserted into the rotating plate 120. The lifting and lowering cylinder 241, 243).

The lifting cylinder 241 is fixed to the housing 210 so as to be positioned in the space and is connected to the rotating motor 243 which is electrically connected to the control unit 400 and is provided on the lifting cylinder 241 by the mounting plate 242, . At this time, the elevating cylinder 241 supports a pair of rotary motors 243 provided on the upper plate 242 to rotate the pair of rotary plates 120, .

The stationary plate 242 is fixed to the upper portion of the lifting cylinder 241 so as to have a plate shape as a whole and a pair of rotary motors 243 are fixed to the upper portion of the lifting cylinder 241 through neighboring fastening means.

The rotary motor 243 is electrically connected to the control unit 400 to rotate the rotary motor shaft 244 and has a pair of lower portions fixedly mounted on the upper plate 242, The rotary motor shaft 244 formed on the upper portion of each of the rotary motors 243 is installed to rotate the rotary plate 120 by engaging with the rotary grooves 122 formed in the lower portion of the rotary plate 120. At this time, the rotation motor 243 is fixed to the mounting plate 242 so as to be positioned directly below the rotary plate 120, which are adjacent to each other on the moving plate 110, so that the lifting and lowering of the lifting cylinder 241 It is preferable that the rotary motor shaft 244 is rotatably coupled with the lower portion of the rotary plate 120 through the conveying rollers 221.

2, 9 to 10, the cutting unit 300 is configured to simultaneously cut an upper portion of a pair of compressors C provided on the jig 100, and an X-axis cutting member 300A and a Y-axis cutting member 300B.

The X-axis cutting member 300A is electrically controlled by the control unit 400 and includes a first frame 310, a first cylinder 320 And a first mobile unit 330. [ At this time, the X-axis cutting member 300A is provided so as to reciprocate in the X-axis direction on the upper or lower portion of the Y-axis cutting member 300B, and a pair of adjacent pairs of the front and rear surfaces of the compressor C It is preferable to move the compressor C in different directions so that the compressor C can be cut.

The first frame 310 is formed to have a predetermined length in the X axis direction, and a first moving groove 311 is formed in the longitudinal direction so that the first moving body 330 can be inserted into the lower frame and reciprocated in the longitudinal direction A fixed mounting plate 312 is fixed to the central portion of the upper surface by a fixing means P and a movable mounting plate 313 provided on both sides of the fixed mounting plate 312, And is adjustably adjustable in the frame 310. At this time, a Y-axis cutting member 300B described later is fixedly installed on the fixed mounting plate 312 and each moving mounting plate 313, and guide projections 314 are formed on the bottom of each moving mounting plate 313 Axis direction of the first frame 310 to move along the guide groove 315 formed on the upper surface of the first frame 310 so that the distance between the pair of Y-axis cutting members 300B can be adjusted.

The movable mounting plate 313 is moved through the adjusting means 316 formed on the front surface of the first frame 310 adjacent to the guide groove 315, To be fixed.

Further, on the front and back surfaces of the first frame 310, the feed grooves 317 are formed in the longitudinal direction so that the first moving body 330 can move stably when the first moving body 330 moves in the longitudinal direction and the first moving body 330 can move at a predetermined position. .

The first cylinder 320 is fixed to the side of the first frame 310 so as to be electrically connected to the controller 400 and the first rod 321 is connected to the first moving groove 311). ≪ / RTI > At this time, the first rod 321 is inserted into the first coupling hole 331 formed in the first moving body 330 so that the first moving body 330 is moved in the longitudinal direction by tension / contraction of the first rod 321 It is preferable to be able to reciprocate.

The first moving body 330 is controlled to be electrically connected to the controller 400 and is inserted into the first frame 310 so as to be movable along the first moving groove 311. At this time, the first moving body 330 is provided with a first coupling hole 331 through which the first rod 321 is inserted, and the first moving body 330 is inserted into the feeding groove 317 when the first moving body 330 is moved forward and rearward. A first cutting motor 333 for rotating a first cutting blade 334 cutting a part of the front and rear of the compressor C, .

In addition, the first cutting blade 334 provided under the first cutting motor 333 is detachably coupled to the first cutting motor 333 so that the first cutting blade 334 can be replaced and fixed by the fastening means P.

The Y-axis cutting member 300B is electrically controlled by the control unit 400 and includes a second frame 340, a second cylinder 350, and a third 2 mobile body 360. [ At this time, the Y-axis cutting member 300B is provided so as to reciprocate in the Y-axis direction on the upper portion of the X-axis cutting member 300A, and at least three or more neighboring nozzles are installed adjacent to each other so as to partially cut both sides of the compressor C. .

The second frame 340 is formed in a tubular shape having a predetermined length in the Y-axis direction, for example, and includes a second moving groove 341 having upper and lower openings so that the second moving body 360 can be inserted and reciprocated in the longitudinal direction, And the lower part of the screw 231 is rotatably inserted into the upper part of the screw 231 so that the lower surface of the second frame 340 is supported on the upper part of the rotary knob 233, Respectively. At this time, the second cylinder 340 is inserted into the upper portion of the second frame 340 so that the second cylinder 350 is inserted without interference with the rotation of the screw 231 and the through hole 343 is formed It is preferable that the plate 342 is protruded.

In the present invention, the second cylinder 350 is fixed on the second frame 340 and the second rod 351 is stretched / contracted in the Y-axis direction through the through hole 343, And the mounting plate 342 may be omitted as necessary.

The second cylinder 350 is fixed to the upper portion of the second frame 340 through a mounting plate 342 so as to be electrically connected to the controller 400. The second rod 351 is tensioned / 343 so that the second moving body 360 can be reciprocated in the Y-axis direction along the second moving groove 341. The second moving body 341 is fixedly coupled to the second moving body 360 through the second moving body 343. At this time, the second rod 351 is inserted into the second coupling hole 361 formed in the second moving body 360, and the second moving body 360 is moved in the Y-axis direction by tension / contraction of the second rod 351 It is preferable to be able to reciprocate.

The second moving body 360 is controlled to be electrically connected to the controller 400 and inserted through the second frame 340 so as to be movable along the second moving groove 341 in a vertical direction. At this time, a second coupling hole 361 through which a second rod 351 is inserted is formed on the rear surface of the second moving body 360, and a second frame 340 is formed on both sides of the second moving body 360, And a second cutting motor 363 for rotating a second cutting blade 364 cutting a part of both sides of the compressor C is provided at a lower portion of the extension portion 362 .

The second cutting blade 364 provided under the second cutting motor 363 is detachably coupled to the second cutting blade 364 so as to be replaceable and fixed by the fastening means P. [

Further, the positions of the first cutting edge 334 and the second cutting edge 364 are set so as to be aligned in a horizontal direction so that the compressor C is cut in the form of a circular band, (Ca) can be separated.

Further, the cutting unit 300 displays the cutting position of the compressor C to be cut so that the cutting position of the compressor C can be visually discerned, and the position of the end of each of the first and second cutting blades 364 is positioned A sensor 370 is further provided.

For example, the position sensor 370 may be a laser which is vertically movable in the longitudinal direction on the outer surface of the screw 231 having a length in the vertical direction. In order to accurately grasp the position of the incision, So as to be displayed on the outer surface of the compressor (C).

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

First, as shown in Figs. 12 to 17, the operator sets the initial state such that the jig 100 is positioned in the non-cutting zone Z2 on either side of the cutting zone Z1 And the lower portion of the compressor C is inserted into each of the insertion grooves 121 formed in the upper portion of the pair of rotary plates 120. [

The driving motor 223 is operated through the control of the controller 400 to rotate the conveying roller 221 to rotate the belt 222. By the rotation of the conveying roller 221, (110) moves into the region of the cutting zone (Z1) where the cut portion (300) is installed in the non-cutting zone (Z2) so as to be stopped.

Then, a pair of X-axis cutting members 300A are operated so that a part of the front / rear sides of the pair of compressors C can be cut through the control of the control unit 400. [

For example, the operation of each X-axis cutting member 300A causes the first rod 321 of the first cylinder 320 to extend in the longitudinal direction of the first frame 310, that is, in the X-axis direction, Is moved along the first moving groove 311 in the X-axis direction and the end of the first cutting blade 334 rotated by the first cutting motor 333 cuts the front and rear portions of the respective compressors C, (Bold in FIG. 14).

When the operation of the X-axis cutting member 300A is completed and a part of the front / rear of each compressor C is cut off, at least three Y-axis cutting members 300B provided through the control of the controller 400 So that the side of each compressor (C) is operated so as to cut a part (a thick part in FIG. 16). At this time, the operator preferably displays the position to be cut through the position sensor 370 on the outer surface of the compressor C with a laser so that the cutter 300 can cut the correct position.

For example, the operation of each Y-axis cutting member 300B causes the second rod 351 of the second cylinder 350 to extend in the longitudinal direction of the second frame 340, i.e., in the Y-axis direction, Is moved along the second moving groove 341 in the Y-axis direction and the end of the second cutting blade 364 rotated by the second cutting motor 363 is moved by the X- A portion of the side of each of the already-incised compressor (C) can be cut out.

The control unit 400 controls the elevation cylinder 241 so that the rotation groove 122 formed at the lower portion of the rotation plate 120 and the rotation motor shaft 244 are rotatably coupled to each other, 243 so that the rotary plate can rotate at a predetermined angle. At this time, when the compressor C is a cylindrical type having a predetermined diameter width, the rotation angle of the rotary plate 120 is rotated at least at an angle of 45 °, and the upper portion of the compressor C is formed by the X-axis cutting member and the Y- So that the cutoff Ca can be separated from the compressor C.

That is, in order to separate the cut material Ca from the compressor C, a method of cutting the cut material Ca in the form of a circular band on the outer surface of the comcompressor C is used to separate the cut material Ca. Thus, In order to cut the compressor C, at least the X-axis cutting member and the Y-axis cutting member must reciprocate twice, respectively, so that the cutting can be performed in the form of a circular band.

The X axis incision member or the Y axis incision member cuts the outer surface corresponding to half of the outer surface of the cylindrical compressor C by one movement and cuts the other half of the outer surface by the rotation of the rotary plate 120, The cutting member Ca can be separated from the compressor C so that the X axis cutting member provided as a pair in front of and behind each of the compressors C is positioned at the center of the diameter of the cylindrical compressor C And the Y axis incision member is provided with an X axis incision member and a Y axis incision member 1 so as to incise both outer surfaces within 45 degrees about the center of the diameter of the compressor C, The half of the outer surface of the compressor C is cut by the movement of the counter and the entire outer surface of the compressor C is cut in the form of a circular band by the two movements so that the cutoff Ca can be separated.

Further, in the detailed description of the present invention, it is described that the Y-axis incision member is moved after the X-axis incision member has moved. However, this is only one embodiment, and it is also possible to move the Y-axis incision member in opposite directions as necessary.

Finally, the compressor C from which the cut material Ca is separated is fed from the cutting zone Z1 to the non-cut zone Z2 through the belt 222 rotated by the feed roller 221 And is removed from the moving plate 110 by the operator so that a post-operation (such as removing oil or cutting water) can proceed. At this time, the control unit 400 controls the driving motor 223 so that the moving plate 110 alternately turns on and off the non-cutting zones Z2 in the cutting zone Z1 according to the presence or absence of the operator in the non-cutting zone Z2. Or to control the moving plate 110 to move only in the non-cutting zone Z2 where the operator is present.

In addition, the operator can mount a new compressor (C) to be cut on the moving plate (110) before performing the post-work so that the cutting operation of the compressor (C) can be performed quickly.

The cutting apparatus 1 according to the present invention having the above-described configuration is characterized in that the jig 100 on which at least two or more compressors C to be cut, which are different from the conventional ones, is mounted is divided into a cutting zone Z1 and a non- And at the same time, the outer surfaces of the plurality of compressors C are simultaneously cut in the shape of a circular band through the cut-out portion 300, so that the compressor can be installed in a narrow place, It is possible to economically cut a large amount of the compressor C in a short time.

The scope of protection of the present invention is not limited to the embodiments described above. Any person skilled in the art will be able to variously modify or change the present invention without departing from the spirit and scope of the present invention. It can be understood that it is possible.

1: a cutting device capable of cutting a plurality of compressors according to the present invention
100: jig 110: moving plate
111: through hole 112: groove
120: rotation plate 121: insertion groove
122: rotating groove 130: pressing member
131: body 132:
133: protrusion 134:
135: fastening hole 136: pressing means
137: pressing body 138: insertion projection
139: insertion hole 200: base portion
210: housing 211: stopper
220: conveyor member 221: conveying roller
222: Belt 223: Driving motor
224: chain 230: height adjustment member
231: screw 232: bearing
233: rotating handle 240: rotating member
241: lifting cylinder 242: mounting plate
243: rotation motor 244: rotation motor shaft
300: jig 310: first frame
311: first moving groove 312: fixed mounting plate
313: Movable mounting plate 314: Guide projection
315: guide groove 316: adjustable ball
317: Feed groove 320: First cylinder
321: first load 330: first moving body
331: first coupling hole 332:
333: 1st cutting motor 334: 1st cutting blade
340: second frame 341: second moving groove
342: mounting plate 343: through hole
350: second cylinder 351: second rod
360: second moving body 361: second engaging hole
362: extension part 363: second incision motor
364: second cutting edge 370: position sensor
C: Compressor Ca: Cutting material
P: fastening means Z1: cutting zone
Z2: Non-cutting area

Claims (8)

A jig part (100) having at least two compressors (C) adjacent to each other;
A cut zone Z1 in which the compressor C is cut is formed at the center of the longitudinal width and a non-cut zone Z2 is formed at both sides of the cut zone Z1, (C) is provided so as to alternately reciprocate between the cutting zone (Z1) and the non-cutting zone (Z2), and is elevated and lowered to be rotatably engaged with the lower portion of the jig (100) A base unit 200 for rotating each of the compressors C at a predetermined angle;
A cutting part 300 fixed to the base part 200 so as to have a predetermined height in the cutting zone Z1 and simultaneously cutting a pair of the compressors C provided in the jig part 100; And
And a controller (400) for controlling the base (200) and the cutter (300).
2. The apparatus according to claim 1, wherein the jig (100)
A plate-like moving plate 110;
A pair of rotating plates 120 installed adjacent to the moving plate 110 so as to have a predetermined diameter width and having a lower portion of the compressor C inserted into the upper portion thereof;
A pressing member (130) installed at least two around the rotary plate (120) and having a lower portion movably inserted into the moving plate (110); And
And the other side is supported by the moving plate 110 so that the pressing member 130 presses the outer surface of the compressor C provided on the rotating plate 120 by an elastic force And an elastic body (S) provided on the outer peripheral surface of the elastic body (S).
2. The apparatus of claim 1, wherein the base portion (200)
Shaped housing 210;
The jig part 100 provided with a pair of compressors C is rotatably installed on the upper part of the housing 210 and is divided into the cutting zone Z1 provided with the cutting part 300 or the non- A conveyor member 220 provided to be reciprocally movable alternately with the conveying member Z2; And
A rotatable member 240 rotatably coupled to the lower portion of the jig 100 and capable of rotating a pair of the compressors C when the jig 100 is lifted and lowered, A plurality of compressors capable of being cut.
2. The apparatus of claim 1, wherein the base portion (200)
The upper part is rotatably engaged with the cut part 300 and the lower part is formed with a screw 231 rotatably engaged with the base part 200. [ ); And
A rotary knob 233 rotatably screwed to the outer surface of the screw 231 and having an upper surface for supporting a lower surface of the cut portion 300 and adjusting the height of the cut portion 300 by rotation; Wherein the plurality of compressors are capable of being cut.
The cutting apparatus according to claim 1, wherein the cutting unit (300)
An X-axis cutting member (300A) reciprocally movable in the X-axis direction forward and rearward of the compressor (C) and cutting the front and rear surfaces of the respective compressors (C) provided in the jig (100); And
A Y-axis cutting member (not shown) provided on at least three sides adjacent to each other so as to reciprocate in the Y-axis direction on the side of the compressor (C) and cutting the side surface of each of the compressors (C) 300B)
The X-axis cutting member 300A or the Y-axis cutting member 300B may be formed by cutting the front / rear surface or both sides of the compressor C first by the movement, The cut portion of the compressor C is cut off by the re-movement of the X-axis cutting member 300A or the Y-axis cutting member 300B so that a strip-shaped cutout is formed on the outer surface of each of the compressors C , So that the cut-off material (Ca) can be separated from the compressor (C).
6. The apparatus according to claim 5, wherein each of said X-axis cutting members (300A)
A first frame 310 having a length in the X-axis direction and having a first moving groove 311 in the longitudinal direction;
A first cylinder 320 installed on one side of the first frame 310 so as to be tensioned / contractible;
The first moving body 311 is inserted into the first frame 310 so as to be movable in the first moving groove 311 in accordance with the tension / contraction of the first cylinder 320, 330); And
And a first cutting motor 333 provided below the first moving body 330 for rotating the first cutting blade 334 to cut the front surface or the rear surface of the compressor C. [ Cutting device capable of cutting compressors.
The apparatus according to claim 5, wherein each of said Y-axis cutting members (300B)
A second frame 340 having a length in the Y-axis direction and having a second moving groove 341 in the longitudinal direction;
A second cylinder 350 installed to be tensionable / contractible in the second frame 340;
The second moving body 341 is inserted into the second frame 340 so as to be movable in the second moving groove 341 in accordance with the tension / contraction of the second cylinder 350, 360); And
And a second cutting motor (363) disposed below the second moving body (360) for rotating the second cutting edge (364) to cut the side surface of the compressor (C) Cutting device capable of cutting.
6. The apparatus of claim 5, wherein the cutter (300)
The position sensor 370 further includes a position sensor 370 for detecting a position to be cut through the X-axis cutting member 300A or the Y-axis cutting member 300B on the outer surface of each of the compressors C, So as to be distinguished from each other in a point or line form using a laser.

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