KR20020019742A - An auto-cutting machine for seal piston ring - Google Patents

Abstract

PURPOSE: A device for automatically cutting a seal piston ring is provided to maximize a cost reduction effect by minimizing a working period of time, manpower and a working process by cutting the seal piston ring used for packing various industrial machines with an automated cutting system. CONSTITUTION: A device for automatically cutting a seal piston ring includes a female screw shaft(6'), which is attached on a lower central portion of a back and forth movable member(4) mounted on a base plate(2) by an L.M guide(3) and screwed with a male screw arm(6), a dovetail hole, which is formed in a lower portion of a right and left movable member(5) mounted on the back and forth movable member by an L.M guide(3') and slidable connected to an upper dovetail of the back and forth movable member, air cylinders(8,8') and a hydraulic precise speed controller(S1) mounted at a side of the right and left movable member, a knife holder(10) having a plurality of knives(9) attached on the other side of the right and left movable member, a jig holder(11) opposed to the knife holder, a bolt hole formed at the center of the jig holder, a flange formed at a rear portion of the jig holder, a plurality of round jigs(12), each of which is covered with a rubber layer and rotatably mounted on an outer circumference of the jig holder, and pulleys each of which is mounted on the same shaft rod of the round jigs at a rear side of the round jig and connected to a driving pulley of a driving motor(M2) with a belt.

Description

Seal Piston Ring Automatic Cutting Machine {AN AUTO-CUTTING MACHINE FOR SEAL PISTON RING}

The present invention relates to a seal piston ring automatic cutting machine,

More specifically, the seal piston ring can be cut with an automated cutting system to seal the seal piston ring used for the packing of various industrial machines, thereby minimizing the work time, manpower, process, etc. to maximize the cost reduction effect. It is about automatic cutting machine.

In general, the seal piston ring or angle ring is used as a packing ring of an industrial machine, and the conventional method of manufacturing the seal piston ring or angle ring is mainly a compression molding method and a manual cutting method, which are mainly employed. First, the compression molding method is to cut the rubber plate, which is a raw material, by hand almost similarly to the mold in order to reduce the loss rate, and then the molded rubber panel is placed on the mold and press-molded, and the manual cutting method extrudes the rubber in a pipe form. After that, each one was cut by hand using a jig of regular intervals.

However, this conventional method produces a single product from the mold, which significantly reduces the product production capacity and greatly affects the quality depending on the amount of rubber such as the product's internal and external diameters and height tolerances. As a result of the high incidence rate, which contributes to an increase in costs, an economical problem arises due to inefficient workability.

The present invention has been made to solve the above problems,

By making the seal piston ring for packing with an automated cutting system, it improves the workability by improving the manual work to the automated work, and the automatic cutting by forming the pipe from one mold into the one that was made from several molds. By uniformly cutting by the method, you can not only obtain high-quality products with precision and standardization, but also provide seal piston ring automatic cutting machine that improves economic efficiency by reducing manpower and production facilities and especially reducing raw material loss rate. It is.

In order to realize this, the present invention is inserted into the outer periphery of the circular jig rotating the pipe-shaped rubber raw material at 1,000 to 3,200 revolutions,

On the jig, left in three stages of high speed, medium speed and low speed. I reciprocated again and again. Then, the knife of the cutting part which is reciprocally adjusted is made to contact.

1 is a front configuration diagram of a system of the present invention;

Figure 2 is a side view of the system of the present invention ("B" is an enlarged view of the main portion of another type of jig)

Figure 3 is a main perspective view of the present invention system

Figure 4 is a main portion front configuration showing an operation example of the circular jig and knife of the present invention

* Explanation of symbols for main parts of the drawings

2: Base plate 4: Front and rear moving member 5: Left and right moving member

6: male thread 6 ': female thread axis 7': dovetail

7: Dovetail groove 8.8 ′: Air cylinder 9: Knife

10: knife holder 11: jig holder 12: round jig

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

1 and 2 is a view showing the overall state of the cutting machine of the present invention system,

4 is a view showing an example of the relevant operation of the jig and the cutting unit in the detail state of the present invention,

A female screw shaft 6 'is attached to the center of the bottom of the front and rear movable member 4, which is placed on the base plate 2 of the base 1 as the LM guide 3, so that the motor M1 and the precision reducer G1 are attached. Screwed into a male threaded rod (6) that is associated with

remind. A dovetail groove 7 is formed at the bottom of the left and right moving members 5, which is placed on the front and rear moving members 4 as the LM guide 3 ′, so that the top dovetail of the front and rear moving members 4 is formed. Slide onto 7 ',

One side of the left and right moving members 5 is again provided with air cylinders 8 (8 ') of two stages of high speed and medium speed and a hydraulic precision speed controller S1 of low speed.

On the other hand, the other side of the left and right moving member (5) is provided with a knife holder 10 is provided with a plurality of knives (9) attached,

After facing the knife holder 10, that is, the jig holder 11 is placed thereon, the jig holder 11 is rotatably arranged with a plurality of circular jigs 12.

On the rear side of the circular jig 12, each pulley 14 is laid on the same shaft 13 of the circular jig 12, and the driving pulley 15 of the driving motor M2 on the lower inner surface of the base 1 is formed. Belt 16,

The circular jig 12 has a bolt hole 17 formed at the center thereof, a flange 18 is formed at the rear end thereof, and a rubber outer layer 19 is covered with a circular outer circumference or the outer peripheral surface of the circular jig 12. That is, as a structure in which a plurality of grooves 23 are formed so that a vacuum is applied to the cutting position,

Unexplained symbols in the drawings

20 is a raw rubber pipe

21 means control box

Reference numeral 22 designates a mobile caster.

Referring to the operation of the present invention configured as described above are as follows.

First, the pipe-type rubber 20 as a raw material is fixed on a plurality of circular jigs 12 arranged in the jig holder 11, and then the control box 21 on the base 1 is adjusted to control cutting size. , The cutting speed control and the spindle speed control are set, respectively, when the working power is turned on to operate the system, the left and right moving members (5) installed as LM guides (3 ') on the front and rear moving members (4). Is moved in the direction of the jig holder 11 at a high speed by the piston operation of the primary air cylinder (8 ') of one side of the one-cylinder operated in two stages, and is placed in the proximity of the opposing knife holder (10) And the pipes on the plurality of circular jig 12 arranged on the jig holder 11 at low speed by the third hydraulic precision speed controller S1 while being transferred to the medium speed by the piston operation of the secondary air cylinder 8 again. Each knife 9 of the knife holder 10 in the center of the mold rubber 20 When the left, right moving member 5 is moved in three stages of high speed, medium speed, and low speed, the moving position is adjusted, that is, the cutting depth is adjusted before and after the dovetail groove 7 on the bottom of the left and right moving member 5. The cutting depth of the circular jig 12 is adjusted while sliding along the dovetail 7 ′ of the moving member 4.

At this time, when the left and right movement member 5 by the piston operation of the primary air cylinder 8 'is moved at a high speed and positioned at a close distance, the sinusoidal movement member 5 is moved by the piston operation of the secondary air cylinder 8. When the low-speed contact is finally made by the hydraulic precision speed controller S1 while being transported at medium speed again, the secondary air cylinder 8 is reversed, and the front and rear moving members 4 are transported by the cutting size, and then the secondary air cylinder 8 ) Is set in the control box 21 to advance and cut.

On the other hand, the cutting size control of the pipe-type rubber 20, which is a raw material fixed to the circular jig 12 is also set in the control box 21,

When the driving force of the motor M1 behind the base 1 is transmitted to the precision reducer G1 by the above setting, it is transferred to the rotation of the external thread 6. The female screw shaft 6 'at the bottom of the movable member 4 receives the rotational force of the male screw 6, and then moves on the male screw 6 before and after the moving member 4 moves forward. It is adjusted later.

In this state, the plurality of circular jigs 12 arranged in the jig holder 11 are connected to the pulley 14 on the back of the holder by the same shaft rod 13, and the pulley 14 is a drive motor on the lower inner surface of the base 1. Since it is connected to the M2 and the belt 16, the driving force of the driving motor M2 is transmitted to the belt 16 and is rotated at a predetermined RPM so that the pipe-type rubber 20 is a raw material fixed to the circular jig 12 by pipe insertion. ) Is cut out by the seal piston ring by each knife 9 in contact as described above.

In this case, because the R.P.M. speed, that is, the spindle speed is set through the control box 21, the rotation and stop are repeated.

The above operation process is briefly explained once again by adjusting the cutting size (thickness) of the pipe-type rubber 21, which is a raw material, by adjusting the front and rear movement of the front and rear movement members 4, and then left. As the right moving member 5 is conveyed in three stages of high speed, low speed and low speed, each knife 9 of the knife holder 10 is fixed to a plurality of circular jig 12 arranged on the jig holder 11. When the circular jig 12 arranged in the jig holder 11 rotates at a constant RPM while being in contact with the center of the pipe-type rubber which is the raw material, each knife 9 cuts the pipe-type rubber 20 as the raw material. When the cutting is completed with the seal piston ring, the above-described operation is repeatedly repeated to continue cutting the seal piston ring of a predetermined thickness (size).

In the above bar, the jig holder 11 is installed only in one direction, but if the installation in both directions or the number of the plurality of circular jig 12 arranged on the jig holder 11 is increased, the production can be further increased. It is the most preferable if one direction and four circular jig as limiting in the present invention.

As described above, the present invention not only improves the workability by improving the seal piston ring or the angular ring by the automatic cutting method but the conventional compression molding method or the manual cutting method, and has almost no loss of raw materials and no manpower. It is a very useful invention that maximizes the cost savings effect by making it unnecessary and improving the economics accordingly.

Claims (2)

A female screw shaft 6 'is attached to the bottom center of the front and rear movable member 4, which is placed on the base plate 2 of the base 1 as the LM guide 3, so that the motor M1 and the precision reducer G1 are attached. Screwed into a male threaded rod (6) that is associated with Left to be entered as L.M guide (3 ') on the front and back moving member (4). A dovetail groove 7 is formed at the bottom of the right moving member 5 and slides to the top dovetail 7 ′ of the front and rear moving members 4, and to one side of the left and right moving members 5. By installing the air cylinder 8 (8 ') and the hydraulic precision speed controller S1, the left and right moving members 5 can be reciprocated in three stages of high speed, medium speed and low speed. On the other side of the left and right moving member (5), a knife holder (10) having a plurality of knives (9) attached thereto is installed, but after the jig holder (11) is placed in the opposite direction to the knife holder (10), the jig The holder 11 has a bolt hole 17 at the center and a flange 18 formed at the rear end thereof, and a plurality of circular jigs 12 are formed so as to be rotatable so as to cover the rubber layer 19 on the outer circumferential surface thereof. On the back side of the), each pulley 14 is laid on the same shaft rod 13 of the circular jig 12 and connected to the drive pulley 15 and the belt 16 of the drive motor M2 on the lower inner surface of the base 1. Seal piston ring automatic cutting machine characterized by The seal piston according to claim 1, wherein a plurality of grooves (23) are formed on the outer circumferential surface of the circular jig (12) so that vacuum can be applied to the cutting position so that the pipe-type rubber can be fixed and cut by vacuum. Ring automatic cutter.