KR101231776B1 - Vertical transporting apparatus for vibratory parts feeding machine - Google Patents

Abstract

The present invention is to replace the piezoelectric element with a coil-type electromagnet to facilitate the replacement of the elastic plate itself, and to easily control the vibration frequency or the angle of vibration by replacement of the elastic plate, and to prevent the occurrence of overload of the vibration generating unit smoothly. It relates to a horizontal conveying device for the vibrating parts feeder to properly prevent the transmission of the vibration generated from the outside to the device itself, the horizontal conveying device is a base having a pair of mounting jaw spaced horizontally on the upper surface; ; A pair of vibration absorbing plates each having a lower end mounted on the installation jaw; A fixed block having an upper end of the vibration absorbing plate mounted on both lower sides thereof, and having a pair of installation grooves formed on the upper surface thereof, and an inclined surface inclined toward an advancing direction on both upper sides thereof; A pair of coil type electromagnets having one end mounted on an inner surface of the installation groove; A pair of elastic plates having a lower end mounted in close contact with each of the inclined surfaces and installed inclinedly; The upper inclined surface of the same angle as the inclined surface is formed on both sides, the upper end of the elastic plate is mounted on the upper inclined surface, is inserted into the installation groove corresponding to the tip of the coil-type electromagnet to the magnetic force of the coil-type electromagnet Vibration block is mounted on the lower surface of the vibration jaw vibrated by the change; A transport track mounted to an upper surface of the vibration block and having a transport groove for transporting a component to an upper surface thereof; .

Description

VERTICAL TRANSPORTING APPARATUS FOR VIBRATORY PARTS FEEDING MACHINE}

The present invention relates to a horizontal conveying apparatus installed in a vibrating component feeder, and more particularly, by replacing the piezoelectric element with a coil-type electromagnet to facilitate the replacement of the elastic plate itself, the vibration frequency or vibration by the replacement of the elastic plate It relates to a horizontal conveying device for vibrating component feeder to facilitate the adjustment of the angle, and to prevent the overload generation of the vibration generating unit to be smoothly prevented from being transmitted to the device itself from the externally generated vibration.

In general, a vibratory parts feeding machine is a device that supplies vibrations to small parts such as semiconductor chips, LED chips, chip resistors, and ICs, and arranges them in a single layer or a single layer. It is very useful for automatic mounting.

As shown in FIGS. 7 and 8, the conventional vibrating parts feeder includes a dish-shaped bowl 1a having a part filled therein and having an outlet 1b on one side thereof, and a vibration generating unit 1c installed at the bottom thereof. The eggplant is composed of a bowl feeder 1 and a horizontal feeder 2 installed at one side of the outlet 1b of the bowl feeder 1 to horizontally convey the parts discharged from the bowl feeder 1.

The bowl feeder 1 receives a plurality of parts irregularly accommodated in the bowl 1a by vibrating from the vibration generating unit 1c and moves along the spiral feed path formed on the inner circumferential surface of the bowl 1a. By vibrating force having a constant oscillation frequency, the component is aligned with the direction modified while being modified as a monolayer while being conveyed toward the outlet 1b formed toward the upper side of the spiral conveying path while being continuously vibrated along the conveying path. .

Parts discharged to the outside of the bowl 1a through the outlet 1b of the transport path of the bowl 1a are transported horizontally through the horizontal transport device 2 and are supplied at a constant speed to a predetermined position.

The conventional horizontal conveying apparatus 2 having such a role includes a base 2a, a holder 2b mounted on an upper surface of the base 2a, and having both sides inclined along a traveling direction, and the holder 2b. A pair of elastic plates 2c, one end of which is mounted on both sides of the pair, a piezoelectric element 2d respectively installed on the elastic plate 2c, and a pair of one ends of which are mounted on the upper end of the elastic plate 2c. A connecting plate 2e, a shaking table 2f having both sides connected to an upper end of the connecting plate 2e, and a conveying track 2g mounted on an upper surface of the shaking table 2f and having a conveying groove 2h formed on the upper surface thereof. It is composed of

In the conventional horizontal conveying apparatus 2 configured as described above, the piezoelectric element 2d vibrates while power is supplied to the piezoelectric element 2d, and the vibration generated thereby causes the elastic plate 2c and the connecting plate ( 2e) is transmitted to the shake table 2f to vibrate the shake table 2f, and the transfer track 2g is vibrated by the vibration of the shake table 2f while the outlet 1b of the bowl 1a is vibrated. The parts discharged to the transfer groove (2h) is moved horizontally along the transfer groove (2h).

However, the above-described conventional techniques have the following problems.

In the conventional horizontal conveying apparatus, since the piezoelectric element is installed on the elastic plate, it is very difficult to replace the elastic plate itself, and the vibration frequency or the attachment angle (vibration angle) is adjusted by adjusting the size or length of the elastic plate. There was a very uncomfortable problem.

In addition, as the piezoelectric element is installed on the elastic plate, a bending load transmitted to the elastic plate by the shaking table and the connecting plate is transmitted to the piezoelectric element, thereby overloading the piezoelectric element, and thus the piezoelectric element. There was a problem in that the life of the horizontal transfer device itself is reduced while the life of the.

In addition, the conventional horizontal conveying device has a problem that the vibration frequency by the external device is transmitted from the base to the shake table, the vibration frequency is not kept uniform during operation.

Accordingly, the present invention has been made to solve the conventional problems as described above,

An object of the present invention is to replace the piezoelectric element with a coil-type electromagnet to facilitate the replacement of the elastic plate itself, and to easily adjust the vibration frequency or the vibration angle by replacement of the elastic plate, overload generation of the vibration generating unit It is to provide a horizontal conveying device for the vibrating parts feeder to ensure that the smoothly prevented transmission of externally generated vibration to the device itself.

In addition, another object of the present invention, by installing a plurality of elastic plates spaced apart from each other to make the adjustment of the vibration frequency by the replacement of the elastic plate more easily while the vibration component to improve the bearing capacity of the vibration block by the elastic plate A horizontal feeder for a feeder is provided.

In addition, another object of the present invention is to provide a horizontal feed device for a vibrating component feeder to be able to generate a stable and uniform vibration in the coil-type electromagnet by power supply by pulse width modulation.

In addition, another object of the present invention is to provide a horizontal conveying device for a vibrating component feeder that allows the operator to easily input the operating conditions to change the vibration operating conditions easily and simply.

In addition, another object of the present invention is to provide a horizontal conveying device for the vibrating parts feeder that can easily adjust the number of parts transported through the transport track by detecting the number of transported parts per hour transported through the transport track .

In order to achieve the above object, a "horizontal conveying apparatus for vibrating parts feeder" according to the present invention includes: a base having a pair of mounting jaws horizontally spaced on an upper surface thereof; A pair of vibration absorbing plates each having a lower end mounted on the mounting jaw to absorb vibrations transmitted from the base; A fixed block having an upper end of the vibration absorbing plate mounted on both lower sides thereof, and having a pair of installation grooves formed on the upper surface thereof, and an inclined surface inclined toward an advancing direction on both upper sides thereof; A pair of coil-type electromagnets having one end mounted on an inner surface of the installation groove and disposed horizontally in the installation groove to generate magnetic force by energization; A pair of elastic plates having a lower end mounted in close contact with each of the inclined surfaces and installed inclinedly; The upper inclined surface of the same angle as the inclined surface is formed on both sides, the upper end of the elastic plate is mounted on the upper inclined surface, is inserted into the installation groove corresponding to the tip of the coil-type electromagnet to the magnetic force of the coil-type electromagnet Vibration block is mounted on the lower surface of the vibration jaw vibrated by the change; A transport track mounted to an upper surface of the vibration block and having a transport groove for transporting a component to an upper surface thereof; .

In addition, the elastic plate of the "vibration component feeder horizontal conveying apparatus" according to the present invention is characterized in that the two pairs are respectively spaced apart from each other between the inclined surface and the upper inclined surface.

In addition, the "horizontal conveying apparatus for vibrating parts feeder" according to the present invention, the vibration control unit having a PWM control circuit unit for controlling the power supplied to the coil-type electromagnet by pulse width modulation; And further comprising:

In addition, the "horizontal conveying apparatus for vibrating parts feeder" according to the present invention, the operation unit is connected to the vibration control unit, the operation unit is operated by an operator to input the operating conditions of the coil-type electromagnet; And further comprising:

In addition, the "horizontal conveying apparatus for vibrating parts feeder" according to the present invention is installed on the conveying track to be connected to the vibration control unit so as to control the number of conveyed per hour of the part conveyed through the conveying track, the conveying track A sensing unit which senses the number of transfers per hour of the parts to be transferred through and transmits the detected information to the vibration control unit; And further comprising:

The present invention as described above, the piezoelectric element is replaced by a coil-type electromagnet to facilitate the replacement of the elastic plate itself, and the adjustment of the vibration frequency or vibration angle by the replacement of the elastic plate is easy to use and operation convenience It is improved, the overload of the vibration generating unit is smoothly prevented, the life of the device is significantly extended, and the externally generated vibration is properly prevented from being transmitted to the device itself, thereby maintaining a uniform vibration frequency.

In addition, the present invention, by installing a plurality of elastic plates spaced apart from each other more easily to adjust the vibration frequency by the replacement of the elastic plate, the support force of the vibration block by the elastic plate is improved to ensure the operational stability Has an effect.

In addition, the present invention has the effect that the vibration is stable and uniformly generated in the coil-type electromagnet by power supply by pulse width modulation.

In addition, the present invention has the effect that the operator can easily input the operating conditions to change the vibration operating conditions is easy and simple to improve the operational convenience.

In addition, the present invention, by detecting the number of times of transport of the parts transported through the transport track can easily adjust the number of hours transported through the transport track, according to the working conditions can be easily adjusted to the operating conditions even beginners There is an effect that the ease of use and operation and the ease of adjusting the vibration frequency is significantly improved.

1 is a perspective view of a vibrating parts feeder according to the present invention,
2 is a perspective view of a horizontal conveying apparatus according to the present invention,
3 is a side view of a horizontal conveying apparatus according to the present invention;
4 is a schematic side cross-sectional view of FIG.
5 is a schematic cross-sectional view taken along line AA of FIG. 4;
6 is a configuration diagram showing a control state of the horizontal conveying apparatus according to the present invention,
7 is a plan view schematically showing a conventional vibrating parts feeder,
8 is a schematic side view showing a conventional vibrating component feeder.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the invention can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

1 is a perspective view of a vibrating component feeder according to the present invention, FIG. 2 is a perspective view of a horizontal conveying device according to the present invention, and FIG. 3 is a side view of the horizontal conveying device according to the present invention.

As shown in this, the horizontal feed device for vibrating parts feeder according to the present invention is installed on one side of the bowl feeder (B), the base 10, the vibration absorbing plate 20 mounted to the base 10 And, the fixed block 30 is mounted between the upper end of the vibration absorbing plate 20, the coil-shaped electromagnet 40 mounted inside the fixed block 30, and on both sides of the fixed block 30 It includes an elastic plate 50 to be mounted, a vibration block 60 mounted on the upper end of the elastic plate 50, and a transport track 70 mounted on the upper surface of the vibration block 60.

The base 10 serves to support all parts including the fixing block 30 in a state of being installed on the ground or a fixing stand. The base 10 having such a role is provided with a pair of mounting jaws 11 spaced horizontally on the upper surface. The mounting jaw 11 is to be mounted so that the lower end of the vibration absorbing plate 20 is spaced apart from the upper surface of the base (10).

The vibration absorbing plate 20 is the lower end is mounted to the mounting jaw 11, respectively, after the vibration of the external device is transmitted to the base 10 from the base 10 to the fixed block 30 Serves to block or reduce transmission. That is, the vibration absorbing plate 20 blocks the vibration generated from the outside to be transmitted to the coil-type electromagnet 40 through the base 10 and the fixed block 30, the coil-type electromagnet 40 It is to be able to generate a stable and uniform vibration frequency at.

The fixing block 30 is the upper end of the vibration absorbing plate 20 is mounted on both sides of the lower, a pair of installation grooves 31 are formed on the upper surface, the inclined surface 32 inclined toward the traveling direction on the upper both sides To be formed, to have a certain weight serves to support the vibration block 60 and the transport track 70 is mounted on the top of the fixed block (30).

The installation groove 31 serves to provide a space in which the coil type electromagnet 40 is installed, and the inclined surface 32 is provided on both sides of the fixing block 30 to the elastic plate 50. It is to be installed to be inclined toward this progress direction. That is, the inclined surface 32 is such that the elastic plate 50 is installed to be inclined, so that the vibration block 60 installed between the elastic plate 50 is inclined to one side corresponding to the fixed block 30. It can be installed to exert a biasing force to one side with the generation of vibration can move the parts.

The coil-type electromagnet 40 is one end is mounted on the inner surface of the pair of the installation groove 31 is disposed horizontally in the installation groove 31, a typical electromagnet with a coil wound around the iron core It acts to generate magnetic force by energizing. The coil-shaped electromagnet 40, which serves as such, is operated to repeatedly change the magnetic force for generation of vibration.

The elastic plate 50 is installed to be inclined in close contact with the inclined surface 32 of the lower end, so that the vibration block 60 is elastically mounted to the fixed block 30 inclined obliquely to one side. It is. That is, the elastic plate 50 serves to elastically connect the vibration block 60 to the fixed block 30.

The elastic plate 50 to play such a role is preferably installed between the fixed block 30 and the vibration block 60, the two pairs are spaced apart from each other. It is installed in the four pairs of the elastic plate 50 to be spaced apart from each other to more easily adjust the vibration frequency by the replacement of the elastic plate 50 while the vibration block 60 by the elastic plate 50 ) Is to improve the bearing capacity to ensure operational stability.

The vibration block 60 is formed on both sides of the upper inclined surface 61 of the same angle as the inclined surface 32, the upper end of the elastic plate 50 is mounted on the upper inclined surface 61, the coil type electromagnet The vibration jaw 62 is inserted into the installation groove 31 corresponding to the tip of the 40 and vibrated by a change in the magnetic force of the coil-type electromagnet 40, and is mounted on a lower surface thereof. By virtue of the change in the magnetic force of 40), that is, the repetitive and minute changes of the attractive force and the repulsive force, the vibration is generated.

The upper inclined surface 61 is formed to be inclined in the same direction as the inclined surface 32, the upper end of the elastic plate 50 is mounted so that the vibration block 60 is inclined to the fixed block 30 To make it possible.

The vibration jaw 62 is mounted on the lower surface of the vibration block 60 and is inserted into the installation groove 31 corresponding to the tip of the coil-type electromagnet 40, and the coil-type electromagnet 40 By vibrating by the magnetic force change of the, it serves to vibrate the vibrating block (60). The vibration jaw 62 which serves as described above is formed of a metal material in order to respond to the magnetic force of the coil electromagnet 40.

The transfer track 70 is formed on the upper surface of the vibrating block 60 is formed with a conveying groove 71 for conveying the components on the upper surface, conveys the parts discharged from the bowl (B1) of the bowl feeder (B) It plays a role. The bowl feeder (B) is vibrated by the vibration generating unit (B2) to discharge the parts accommodated inside the bowl (B1) through the outlet connected to the transfer track (70). The discharged parts enter the transfer groove 71 of the transfer track 70, and the parts entered into the transfer groove 71 are moved outward along the transfer groove 71 by the vibration of the transfer track 70. Will move horizontally.

As described above, the horizontal conveying apparatus for the vibrating component feeder according to the present invention replaces the conventional piezoelectric element with the coil type electromagnet 40 so that the elastic plate 50 itself can be easily replaced with the elastic plate 50. The vibration frequency or the angle of vibration by the replacement of the easy to be made, and the vibration generated from the outside of the coil-shaped electromagnet 40 is smoothly prevented while the externally generated vibration is transmitted to the horizontal transfer device itself. It is a useful invention to ensure that it is appropriately prevented.

4 is a schematic side cross-sectional view of FIG. 3, and FIG. 5 is a schematic cross-sectional view of the A-A line of FIG. 4.

Referring to Figure 4 and 5 will be described the operational relationship of the horizontal transfer device as follows. First, when the coil-type electromagnet 40 is energized in a state where components are introduced into the transfer groove 71 of the transfer track 70, the coil-type electromagnet 40 quickly generates repulsive force and attraction to the vibration of the metal material. The jaw 62 is vibrated.

As the vibration jaw 62 vibrates as described above, the vibration block 60 vibrates from side to side in the advancing direction of the component while being elastically supported by the elastic plate 50. The transport track 70 mounted on the upper surface of the block 60 vibrates together with the vibration block 60.

As the transfer track 70 vibrates, the components in the transfer groove 71 are vibrated to move along the transfer groove 71 by receiving a biasing force moved to one side.

While the parts are being transferred through the transfer track 70, when vibration or external force is transmitted through the base 10 from the outside, the vibration absorbing plate 20 absorbs such external vibrations so that the vibration block ( It will not disturb the vibration of 60).

6 is a configuration diagram showing a control state of the horizontal conveying apparatus according to the present invention.

As shown in the drawing, the horizontal conveying apparatus according to the present invention includes a vibration control unit 80 having a PWM control circuit unit 81 for controlling power supplied to the coil-type electromagnet 40 by pulse width modulation, and the vibration control unit. It further comprises an operation unit (90) connected to (80).

The vibration control unit 80 uniformly adjusts the voltage supplied to the coil-type electromagnet 40 through the PWM control circuit unit 81 through pulse width modulation, so that the magnetic force change of the coil-type electromagnet 40 is uniform. It is to be generated reliably.

The operation unit 90 is a known input device that is operated by an operator to input an operating condition, for example, a vibration frequency, of the coil-type electromagnet 40. That is, the operation unit 90 allows the operator to input the operating conditions such as the vibration frequency of the coil-type electromagnet 40 to the vibration control unit 80 according to the working environment.

The horizontal conveying apparatus further includes a sensing unit 100 installed on the conveying track 70 to be connected to the vibration control unit 80. The detector 100 detects the number of transfers per hour of the parts transferred through the transfer track 70 and transmits the detected information to the vibration controller 80. By the sensing unit 100, which plays such a role, the operator can easily control the number of transfers per hour of the parts transferred through the transfer track 70.

Referring to the operation relationship of the sensing unit 100 as an example as follows. When the operator sets the number of transfers per hour by the transfer track 70 through the operation unit 90, the vibration control unit 80 receives the information about the current number of transfers per hour through the detection unit 100 and Comparison with the setting value input by the operation unit 90 is made.

The vibration control unit 80 adjusts the frequency of the vibration block 60 by adjusting the magnetic force of the coil-type electromagnet 40 by the PWM control circuit unit 81 to solve the difference between the present value and the set value. Will be adjusted.

As such, the vibration of the horizontal conveying apparatus is properly adjusted by the vibration control unit 80 and the sensing unit 100 so that the number of parts conveyed per hour through the transport track 70 is automatically adjusted according to the operator's setting value. This allows the parts to be transported according to the working environment or conditions according to the operator's intention or choice.

The sensing unit 100, which serves as described above, performs the transport track 70 through various sensors such as an optical sensor, a contact sensor, a proximity sensor, and the like, for example, having a light receiving unit and a light emitting unit installed in the transport track 70. The number of parts detected according to the movement, and the number of parts detected through the counter installed in the sensor itself or installed in the vibration control unit 80 can be counted to calculate the number per hour.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is clear that the present invention can be suitably modified and applied in the same manner. Therefore, the above description does not limit the scope of the present invention, which is defined by the limitations of the following claims.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

10: Base
11: mounting jaw
20: vibration absorbing plate
30: fixed block
31: mounting groove 32: inclined surface
40: coil type electromagnet
50: elastic plate
60: vibration block
61: upper inclined surface 62: vibration jaw
70: transfer track
71: transfer groove
80: vibration control unit
81: PWM control circuit
90: control panel
100: detector
B: Bowl Feeder
B1: Bowl B2: Vibration Generator

Claims (5)

A base 10 having a pair of mounting jaws 11 spaced horizontally apart from an upper surface thereof;
A pair of vibration absorbing plates 20 mounted at lower ends of the mounting jaw 11 and absorbing vibrations transmitted from the base 10;
The upper end of the vibration absorbing plate 20 is mounted on both sides of the lower, a pair of installation grooves 31 are formed on the upper surface, the fixing block 30 is formed on the inclined surface 32 inclined toward the traveling direction on the upper both sides )and;
A pair of coil type electromagnets 40 having one end mounted on an inner surface of the installation groove 31 and disposed horizontally in the installation groove 31 to generate a magnetic force by energization;
A pair of elastic plates 50 having lower ends mounted in close contact with each of the inclined surfaces 32 and inclinedly installed;
The upper inclined surface 61 of the same angle as the inclined surface 32 is formed on both sides, the upper end of the elastic plate 50 is mounted on the upper inclined surface 61, corresponding to the tip of the coil-type electromagnet 40 A vibration block 60 inserted into the installation groove 31 and mounted on a lower surface of the vibration jaw 62 which is vibrated by a change in magnetic force of the coil-type electromagnet 40;
A transport track 70 mounted on an upper surface of the vibration block 60 and having a transport groove 71 for transporting components on the upper surface;
Horizontal feeder for vibrating parts feeder comprising a.
The method of claim 1,
The elastic plate 50,
Horizontal feeding device for a vibrating component feeder, characterized in that the two pairs are respectively spaced apart from each other between the inclined surface (32) and the upper inclined surface (61).
The method of claim 1,
A vibration controller (80) having a PWM control circuit portion (81) for controlling power supplied to the coil type electromagnet (40) by pulse width modulation;
Horizontal feeder for vibrating parts feeder, characterized in that it further comprises.
The method of claim 3,
An operation unit 90 connected to the vibration control unit 80 and operated by an operator to input operating conditions of the coil type electromagnet 40;
Horizontal feeder for vibrating parts feeder, characterized in that it further comprises.
The method according to claim 3 or 4,
Parts installed on the transport track 70 to be connected to the vibration control unit 80 so as to control the number of times of transport of the parts transported through the transport track 70, the parts transported through the transport track 70 Detecting unit 100 for detecting the number of transfers per hour and transmits the detected information to the vibration control unit 80;
Horizontal feeder for vibrating parts feeder, characterized in that it further comprises.

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