KR102132783B1 - The structure for reducing noise of vibrator slide gate for feeding Multi-Layer Ceramic Capacitors flat - Google Patents

Abstract

The present invention relates to a vibrator slide gate noise reduction structure for feeding an MLCC flat, which is to selectively control vibration in a thickness direction of a vibration member in a slide gate of a linear feeder. To this end, the present invention provides the vibrator slide gate noise reduction structure for feeding an MLCC flat, in which at least one pair of rail members is installed horizontally on one side of a rail fixing member vertically installed on the ground by an upper base member and a lower base member, and spaced vertically at regular intervals, at least a pair of slide members is installed to roll along each rail member by an LM guide bearing inserted into an LM guide bearing seating groove of each rail member and an LM guide bearing guide groove of each slide member corresponding thereto, and a vibration member is supported by the slide member and is vibrated in a longitudinal direction of a guide lane. The vibrator slide gate noise reduction structure for feeding an MLCC flat includes a noise control portion which is supported and installed on the upper base member or the lower base member, and limits the vibration in the thickness direction of the vibration member to suppress noise generated by the LM guide bearing, thereby effectively reducing the noise caused by an air gap of the LM guide bearing of the vibrator slide gate when the linear feeder vibrates.

Description

The structure for reducing noise of vibrator slide gate for feeding Multi-Layer Ceramic Capacitors flat}

The present invention relates to a noise reduction structure of the vibrating slide gate of the MLCC (Multi-Layer Ceramic Capacitor) flat feeding device, and more specifically, to reduce the noise generated in the air gap of the linear motion (LM) guide bearing of the vibrating slide gate. Noise reduction structure of the slide gate of the vibrating body of the MLCC flat feeding device which can be effectively reduced.

In general, a multilayer ceramic capacitor (MLCC: Multi-Layer Ceramic Capacitor) is stacked by stacking a number of ceramic green sheets with internal electrodes stacked thereon, and then cutting with a green chip, and cutting the green chips on both sides. It is manufactured by forming an external electrode.

The MLCC manufactured as described above is moved to the facility inspection track through the guide lane after being placed in the hopper, and the guide lane is installed on the linear feeder and flatly spreads the MLCC by using vibrations, and the linear feeder is evenly transferred. The vibration of the vibrating member 17, which is fixed by the rail member 14 and the slide member 16 of the vibrating slide gate designed at the lower portion, as illustrated in the example, is transmitted to the upper guide lane.

However, in the prior art as described above, the bearing insertion grooves for inserting the LM guide bearings 15 into the outer walls on both sides of the rail member 14 designed on the lower part of the linear feeder and the corresponding inner walls of the slide member 16 are formed respectively. And, since the rail member 14 and the slide member 16 are operated by inserting the LM guide bearing 15 through these bearing insertion grooves, the rail member 14 and the slide member 16 are operated. There was a problem in that the air gap for the flow of the LM guide bearing 15 necessarily existed, such that noise was inevitably generated by the bearing gap when the vibration member 17 vibrated.

KR 10-1205502 B1 2012.11.21 registration KR 10-2018-0110490 A 2018.10.10 released

Therefore, the present invention was devised to solve the above problems, and the technical problem to be solved by the present invention is to allow linear adjustment by restricting the vibration in the thickness direction of the vibrating member in the slide gate of the vibrating body of the linear feeder. It is to provide a noise reduction structure of the vibrating slide gate of the MLCC flat supply device that can effectively reduce the noise caused by the air gap of the LM guide bearing of the vibrating slide gate during the vibration of the feeder.

In one embodiment of the present invention for achieving the above object, at least one pair of rail members are vertically spaced at a predetermined interval on one side of the rail fixing member vertically installed on the ground by the upper base member and the lower base member. It is installed, and at least one pair of slide members is installed to roll on each rail member by means of LM guide bearings inserted into the LM guide bearing seating grooves of each rail member and the corresponding LM guide bearing guide grooves of each slide member, In the noise reduction structure of the slide gate structure of the vibrating body of the MLCC flat supply device, which is installed to vibrate in the longitudinal direction of the guide lane by the slide member, the vibrating member is supported and installed on the upper base member or the lower base member. It is a noise reduction structure of the vibrating slide gate of the MLCC flat supply device, including a noise control unit to limit the vibration in the thickness direction to suppress noise generation by the LM guide bearing.

According to the present invention, since it is possible to selectively control and limit the vibration in the thickness direction of the vibrating member in the slide gate of the linear feeder, it is possible to effectively reduce the noise caused by the air gap of the LM guide bearing itself of the vibrating slide gate during the linear feeder vibration. Have it.

1 is a sectional view illustrating an excerpt of a vibrating slide gate of a conventional MLCC flat feeding device.
Figure 2 is a cross-sectional view illustrating the noise reduction structure of the vibrating slide gate of the MLCC flat supply device according to the present invention.
3 is an exploded cross-sectional view illustrating an excerpt from the noise control unit of FIG. 2.

Hereinafter, the overall configuration and operation of the noise reduction structure of the vibrating slide gate of the MLCC flat supply device according to the present invention will be described in detail with reference to the accompanying drawings.

The terms or words used in the specification and claims are not to be construed as being limited to ordinary or lexical meanings. It should be interpreted in a sense and concept consistent with the technical idea of the present invention. Therefore, since the embodiments illustrated in the present specification and the configuration illustrated in the drawings are only the most preferred embodiments of the present invention, it is understood that there may be various equivalents and modifications that can replace them at the time of application. shall.

Figure 2 is a cross-sectional view illustrating the noise reduction structure of the vibrating slide gate of the MLCC flat feeding apparatus according to the present invention, Figure 3 is an exploded cross-sectional view illustrating the noise control unit of Figure 2, MLCC flat supply according to the present invention The noise reduction structure of the vibrating slide gate of the device comprises at least one noise control unit 20 as illustrated in FIGS. 2 and 3, and the present invention provides an upper base member 11 and a lower base member. At least one pair of rail members 14 are horizontally spaced at regular intervals up and down on one side of the rail fixing member 13 vertically installed on the ground by (12), and at least one pair of slide members 16 (A) Each rail member (1) by the LM guide bearing (15) inserted into the LM guide bearing seating groove (14a) of each rail member (14) and the LM guide bearing guide groove (16a) of each slide member (16) corresponding thereto ( 14) is installed to roll on, and the vibrating member 17 by the slide member 16 is installed to vibrate in the longitudinal direction of the guide lane and can be implemented by being applied to the vibrating slide gate structure of the MLCC flat feeding device.

The rail fixing member 13 is fixed to the upper end and the lower end by the upper base member 11 and the lower base member 12, respectively, and is installed vertically on the ground, and at least one pair of rail members 14 on one side is up and down. It is installed horizontally at regular intervals.

The rail members 14 are made of at least one pair, and the bottom portions are fixed and installed on one side of the rail fixing member 13, but horizontally spaced apart at regular intervals, and respectively installed on both outer walls of the rail head portion 14b. An LM guide bearing seating groove 14a in which the LM guide bearing 15 can be seated is formed.

The LM guide bearings 15 are LM guide bearing seating grooves 14a formed on both outer walls of each rail member 14, and LM guide bearing guide grooves formed on upper and lower inner walls of each slide member 16 corresponding thereto ( 16a) is inserted into a space formed to face each other and guides each slide member 16 to roll on each rail member 14.

The slide member 16 is made of at least one pair, and is composed of a C-shaped body surrounding the rail head portion 14b of each rail member 14 as a whole from the outside, respectively on the upper and lower inner walls of the C-shaped body. An LM guide bearing guide groove 16a through which the LM guide bearing 15 can be guided is formed and coupled to each rail member 14 to roll on each rail member 14.

The vibrating member 17 is supported and fixed on one side by a pair of slide members 16, installed perpendicular to the ground, and vibrated in the longitudinal direction of the guide lane by the pair of slide members 16.

The noise control unit 20 is supported and installed on the upper base member 11 or the lower base member 12, and selectively restricts the vibration in the thickness direction of the vibrating member 17 to slide the vibrating body when the linear feeder vibrates in the longitudinal direction. The generation of noise due to the self-void of the LM guide bearing 15 of the gate is suppressed.

The noise control unit 20 is made of at least one pair, the upper base member 11 and the lower base member 12 may be respectively installed to face each other, each noise control unit 20 is a support member ( 21) and the vibration control member 22 may be configured. In addition, each noise control unit 20 may be configured to further include a tension control member 23.

As illustrated in FIG. 2, the support member 21 is installed by being supported and fixed to the upper base member 11 or the lower base member 12 by the lower end of the body by a normal fixing member 21b. The upper base member 11 or the lower base member 12 is formed to extend to the installation height of the slide member 16 of the vibrating member 17, but is formed as a free end, and is spaced apart from the vibrating member 17 in parallel. A vibration adjusting member assembly hole 21a in which the vibration adjusting member 22 can be assembled through screw coupling is formed at the upper end of the body. The vibration adjusting member assembly hole 21a is formed to have an inner diameter of a size through which the cylindrical body 22a of the vibration adjusting member 22 will be described later, and the cylindrical body 22a of the vibration adjusting member 22 is formed on its inner circumferential surface. ) The screw coupling groove 21e in which the screw coupling portion 22e formed on the outer circumferential surface can be assembled may be formed.

The vibration regulating member 22 is installed through a screw connection to the vibration regulating member assembling hole 21a at the upper end of the support member 21, but the slide member 16 can be supported by pushing the vibrating member 17 from the opposite side of the installation height. So that the front end portion is installed opposite to the slide member 16, it is installed perpendicular to the body of the support member 21, and the rear end portion of the cylindrical body 22a is fixed by a separate anti-loosening nut 24 or the like. The vibration control member 22 may be composed of a ball plunger (Ball Plunger). The ball plunger prevents the departure of the ball bearing 22b as illustrated in FIG. 3, but a bearing exposed hole 22d of a size exposing a part of the body of the ball bearing 22b is formed at one end (end) and the other side. The end (rear end) is closed and the hollow hollow cylindrical body 22a is formed with a screw coupling portion 22e, which can be coupled to the screw coupling groove 21e of the support member 21, on the outer circumferential surface of the body. , Including a ball bearing (22b) and an elastic spring (22c) that is inserted into the cylindrical body (22a), by pushing the ball bearing (22b) toward the bearing exposed hole (22d) by the elastic force of the elastic spring (22c) vibration It is preferably configured to elastically support the member 17. In addition, a tension adjusting member assembly hole 22f in which the tension adjusting member 23 can be screwed may be formed at the inner side of the rear end of the cylindrical body 22a.

In addition, the vibration control member 22 is installed on the upper body of the support member 21 formed as a free end, it is preferable to be installed to limit the vibration by pushing the vibration member 17 toward the slide member (16).

The tension adjustment member 23 is made of a body having a diameter that can be fitted into the tension adjustment member assembly hole 22f of the cylindrical body 22a, and the outer circumferential surface of the body can be screwed to the tension adjustment member assembly hole 22f. Forming the screw portion (23a) is screwed to the tension adjustment member assembly hole (22f) formed inside the rear end of the cylindrical body (22a) is configured to close the rear end of the cylindrical body (22a).

The operation of the noise reduction structure of the vibrating body slide gate of the MLCC flat supply device according to the present invention configured as described above and the effect of the operation are as follows.

First, the support member 21 which is a component of the noise control unit 20 according to the present invention is fixed by supporting the lower end of the body to the upper base member 11 or the lower base member 12 as illustrated in FIG. In order to do so, a plurality of fixing grooves (not shown in the drawing) in which a normal fixing member 21b can be inserted is formed at the lower end of the body, and the upper end of the body is the upper base member 11 or the lower base member 12 ) Is formed by extending from the vibration member 17 to the installation height of the slide member 16. In addition, a vibration adjusting member assembly hole 21a in which the vibration adjusting member 22 can be assembled through screw coupling is prepared at the upper end of the support member 21. At this time, the vibration regulating member assembly hole 21a is formed to have an inner diameter of a size through which the cylindrical body 22a of the vibration regulating member 22 can be penetrated, and on the inner circumferential surface, the outer circumferential surface of the cylindrical body 22a of the vibration regulating member 22 The screw coupling portion (22e) formed in the form a screw coupling groove (21e) of a size that can be assembled.

Next, the vibration control member 22, which is a component of the noise control unit 20 according to the present invention, is prepared and supported by a ball plunger composed of a ball bearing 22b, an elastic spring 22c, and a cylindrical body 22a. The cylindrical body 22a of the vibration regulating member 22 is inserted into the vibration regulating member assembling hole 21a formed at the upper end of the body of the member 21, and the vibration regulating member is inserted into the screw coupling groove 21e of the support member 21 ( The screw coupling portion 22e of 22) is screwed to assemble the vibration regulating member 22 to penetrate the body of the support member 21 vertically.

Thereafter, the rail fixing member 13 is installed by being supported by the upper base member 11 and the lower base member 12, and the rail member 14, the slide member 16, and the vibration member 17 are respectively installed. In, the lower end of the body of the support member 21, which is a component of the noise control unit 20 according to the present invention, is located on the opposite side of the slide member 16 installation surface of the vibration member 17, and the normal fixing member 21b By using the upper base member 11 or the lower base member 12, the lower end of the body of the support member 21 is respectively supported and fixed. At this time, the support member 21 is a ball bearing 22b exposed to the bearing exposed hole 22d of the vibration regulating member 22 as illustrated in FIGS. 2 and 3 vibrates on the opposite side of the installation height of the slide member 16 The front end portion of the cylindrical body 22a of the vibration adjusting member 22 is installed on the slide member 16 so as to be able to push and support the member 17.

In the installed state as described above, when the linear feeder operates to vibrate the vibrating member 17, the LM guide bearing seating groove 14a and the LM guide bearing guide groove between the rail member 14 and the slide member 16 ( By virtue of the LM guide bearing 15 and the air gap inserted in 16a), the vibrating member 17 vibrates not only in the longitudinal direction of the guide lane but also in the width direction of the guide lane, so that noise may occur.

At this time, the cylindrical body 22a of the vibration control member 22 of the noise control unit 20 of the present invention is assembled to the vibration control member assembly hole 21a side of the support member 21, and the bearing exposure hole of the vibration control member 22 is assembled. When the ball bearing 22b exposed to (22d) is adjusted so as to more strongly support the vibrating member 17 from the opposite side of the installation height of the slide member 16, vibration in the thickness direction of the vibrating member 17 is optional. Therefore, it is possible to suppress the generation of noise due to the air gap of the LM guide bearing 15 of the vibrating slide gate during the longitudinal vibration of the linear feeder.

Or in the case opposite to the above, if necessary, the cylindrical body 22a of the vibration control member 22 of the noise control unit 20 of the present invention is released from the vibration control member assembly hole 21a side of the support member 21 When the ball bearing 22b exposed to the bearing exposed hole 22d of the vibration adjusting member 22 is adjusted to be able to push the vibration member 17 weakly from the opposite side of the installation height of the slide member 16, The ball bearing 22b exposed to the bearing exposed hole 22d of the vibration adjusting member 22 can be released from pushing the vibration member 17 from the opposite side of the installation height of the slide member 16, thereby reducing the amount of noise generated. It can be adjusted as needed.

At this time, by adjusting the elastic force of the elastic spring 22c using the tension adjusting member 23 screwed to the inner space of the rear end of the cylindrical body, the vibration adjusting member 22 adjusts the elastic force applied to one side of the vibration member 17 It is also possible.

Accordingly, in the present invention described above, by adjusting the noise control unit 20, the ball bearing 22b of the vibration regulating member 22 pushes the vibrating member 17 more strongly or supports the vibrating member 17 more weakly. By doing so, it is possible to selectively limit the vibration in the thickness direction of the vibrating member 17. Therefore, when the linear feeder vibrates in the longitudinal direction, it is possible to effectively suppress noise generation due to the self-void of the LM guide bearing 15 of the vibrating slide gate. This will provide the advantage.

As described above, although the present invention has been described by limited embodiments and drawings, the present invention is not limited to the above embodiments, and various modifications and modifications from these descriptions will be made by those skilled in the art to which the present invention pertains. Deformation is possible. Accordingly, the spirit of the present invention should be understood only by the scope of the claims set forth below, and all equivalents or equivalent modifications thereof will be said to fall within the scope of the spirit of the present invention.

11: upper base member 12: lower base member
13: rail fixing member 14: rail member
14a: LM guide bearing seating groove 14b: rail head
15: LM guide bearing 16: Slide member
16a: LM guide bearing guide groove 17: Vibrating member
20: noise control unit 21: support member
21a: Vibration control member assembler 21b: Fixing member
21e: screw coupling groove 22: vibration control member
22a: cylindrical body 22b: ball bearing
22c: Elastic spring 22d: Bearing exposed hole
22e: screw coupling 22f: tension adjusting member assembly
23: tension adjustment member 23a: screw
24: nut for preventing loosening

Claims (6)

At least one pair of rail members 14 are vertically spaced at regular intervals on one side of the rail fixing member 13 vertically installed on the ground by the upper base member 11 and the lower base member 12, and , LM guides in which at least one pair of slide members 16 are inserted into LM guide bearing seating grooves 14a of each rail member 14 and LM guide bearing guide grooves 16a of each slide member 16 corresponding thereto Vibration of the MLCC flat feeder, which is installed to roll on each of the rail members 14 by a bearing 15, and the vibration member 17 is installed to vibrate in the longitudinal direction of the guide lane by the slide member 16. In the noise reduction structure of the sieve slide gate structure,
It is installed on the upper base member (11) or the lower base member (12) and is a noise control unit that selectively limits the vibration in the thickness direction of the vibration member (17) to suppress the noise generated by the LM guide bearing (15). (20); noise reduction structure of the vibrating slide gate of the MLCC flat supply device, characterized in that comprises a. According to claim 1, The noise control unit 20,
Noise reduction structure of the vibrating slide gate of the MLCC flat feeding device, which is made of a pair and is respectively installed opposite to each other on the upper base member 11 and the lower base member 12. According to claim 1, The noise control unit 20,
The lower end of the body is supported and installed on the upper base member 11 or the lower base member 12, the upper end of the body from the upper base member 11 or the lower base member 12 of the vibration member 17 The slide member 16 is formed to extend to the installation height and is spaced apart from the vibrating member 17, but the vibration regulating member 22, through which the vibration regulating member 22 can be assembled through screw coupling, is provided at the upper end of the body. The support member 21 is formed;
The support member 21 is screwed to the vibration adjusting member assembling hole 21a of the upper end of the support member 21, but installed at the opposite end of the installation height of the slide member 16 so that the tip of the vibration member 17 is pushed to support the slide. Noise of the vibrating body slide gate of the MLCC flat feeding device, characterized in that it is configured to include a vibration control member 22, which is installed opposite to the member 16 and is installed perpendicular to the body of the support member 21. Reduction structure. According to claim 3, The noise control unit 20,
The vibration adjusting member (so that the upper end of the body of the support member 21 is formed as a free end, and the vibration member 17 is pushed toward the slide member 16 at the free end of the body upper end of the support member 21. 22) Noise reduction structure of the vibrating slide gate of the MLCC flat feeding device, characterized in that it is installed. According to claim 3, The vibration control member 22,
The inside of the hollow cylindrical body 22a having an empty inside of which one end is formed and the other end is closed with a bearing exposed hole 22d of a size that exposes a part of the body of the ball bearing to prevent departure of the ball bearing 22b. The ball bearing (22b) and the elastic spring (22c) is composed of a ball plunger is inserted, by pushing the ball bearing (22b) toward the bearing exposed hole (22d) by the elastic force of the elastic spring (22c) the vibration member (17) Noise reduction structure of the vibrating slide gate of the MLCC flat feeding device, characterized in that it elastically supports. According to claim 5, The noise control unit 20,
It is inserted into the rear end of the cylindrical body 22a of the vibration regulating member 22, but is screwed to the inner circumferential surface of the hollow space of the cylindrical body 22a, and the elastic force of the elastic spring 22c is screwed through the screwing. Noise reduction of the vibrating slide gate of the MLCC flat supply device, characterized in that further comprises a; tension adjustment member 23 for adjusting the overall tension applied to the vibration adjustment member 22 to the vibration member 17 by adjusting rescue.

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