KR102145612B1 - Quantitative supply device of bmc - Google Patents

Abstract

The present invention relates to a BMC quantitative supply device capable of quantitatively supplying BMC, improving workability, high accuracy, and controlling the amount of BMC supplied.
The present invention, the weighing hopper 10 is supplied to the inside of the BMC from the open side; A gate part 20 disposed at one end of the weighing hopper 10 to selectively open and close one end of the weighing hopper 10; And an ejector unit 30 that is lifted and lowered along the inside of the weighing hopper 10 so that the BMC filled in the weighing hopper 10 is discharged through the open end of the weighing hopper 10.

Description

BMC quantitative supply device {QUANTITATIVE SUPPLY DEVICE OF BMC}

The present invention relates to a BMC quantitative supply device, and more particularly, because the quantitative BMC is automatically supplied, workability and accuracy are improved, and the inner space of the weighing hopper can be changed by being configured to move the push rod through the ejector unit. It relates to a BMC quantitative supply device capable of varying the set amount to be supplied with BMC.

BMC (Bulk Molding Compound) resin is a reinforcing material uniformly mixed with low-shrinkage material, hardening material, filler, and releasing agent, with the main component of unsaturated polyester resin, which is a thermosetting resin, and is a thermosetting molding material mainly containing glass fiber.

The BMC injection molding mold, which injects products using such BMC resin, is a thermal mold, and the effect of the core structure of the mold by heating the mold and heating the product on the quality and characteristics of the product, and the injection process conditions affect the quality and characteristics of the product. It is manufactured in consideration of the impact.

BMC is capable of forming complex shapes and large products with excellent fluidity, high productivity, suitable for mass production, and excellent mechanical strength, so it can be applied to bathtubs, waterproof plates, chairs, insulation plates, electric and electronic parts, and automobile parts. It is possible.

In addition, the BMC molded product has excellent dimensional accuracy, excellent heat resistance and water resistance, excellent gloss on the surface of the molded product, various colors, and clear advantages.

However, compared to thermoplastic resins, these BMCs have the disadvantage of having less elongation compared to thermoplastic resins, a large number of variances during molding, and a small specific gravity, and require a dedicated injection molding machine.

However, in conventional injection molding machines, BMC is in a block state, unlike heated plastic resins and dry premixes, so it is necessary to manually measure and supply BMC, so the work efficiency is low, and accuracy is low because it is difficult to supply constant quantity. Therefore, there was a problem that the quality was affected.

Korean Patent Registration No. 10-0998756 (2010.11.30.)

The present invention is to solve the above problems, and an object of the present invention is to automatically measure the amount of BMC and supply it to the injection molding apparatus, thereby solving the inconvenience of the existing manual weighing method and improving accuracy and productivity. It is to provide a BMC quantitative supply device.

In addition, an object of the present invention is to provide a BMC quantitative supply device having excellent utility and work efficiency by changing a set amount of BMC supplied by a simple operation.

According to the features of the present invention for achieving the above object, the present invention relates to a BMC quantitative supply device, wherein the BMC is supplied from the open side to the inside, and the internal space is filled by the BMC and in the height direction A weighing hopper having the same cross section; A gate part disposed at the lower end of the metering hopper to selectively open and close the lower end of the metering hopper in the height direction; Includes; an ejector unit that is raised and lowered along the inside of the weighing hopper to discharge the BMC filled in the weighing hopper through the open lower end of the weighing hopper and disposed at an upper end in the height direction of the weighing hopper, and is supplied to the weighing hopper. The BMC is generated as a BMC mass according to the shape of the inner space of the measuring hopper by the applied pressure, and is discharged to the lower end of the measuring hopper by passing through the gate part by raising and lowering the ejector part.

And the gate part is mounted on one end of the metering hopper and extending in a lateral direction, and a discharge hole corresponding to the inner circumference of the metering hopper is formed to be spaced apart from the inner circumference of the gate cylinder and slides in contact with the gate cylinder. A gate body that opens and closes the discharge hole, and a gate actuator that drives back and forth along the gate cylinder, wherein the discharge hole has a diameter larger than the open part of the metering hopper so that the BMC mass of the metering hopper is smoothly discharged. Is formed by

In addition, the ejector unit includes a push rod that slides by interviewing the inner circumference of the measuring hopper, and an ejector actuator connected to one end of the push rod to move the push rod along the inner circumference of the measuring hopper.

In addition, the ejector actuator has a structure extending in the longitudinal direction to change the position of the push rod in the measuring hopper so that the amount of BMC to be metered can be varied.

In addition, the ejector unit further includes an ejector control unit that is inserted into the other end of the ejector actuator and moves up and down to move the push rod in the inner space of the ejector actuator separately from the ejector actuator, and the inner peripheral surface of the other end of the ejector actuator A thread is formed in the ejector controller, and a thread corresponding to the thread formed on the ejector actuator is formed on an outer circumferential surface of the ejector controller.

According to the BMC quantitative supply device according to the present invention, when BMC is supplied to the inside of the weighing hopper as much as a set amount, one end of the weighing hopper is opened by the drive of the gate and discharges BMC for quantitative supply, eliminating the need for manual weighing. There is an effect of improving quality due to improved performance and high accuracy of weighing.

In addition, according to the present invention, since it is possible to adjust the internal space of the weighing hopper in which BMC is accommodated through the push rod that is moved according to the movement of the ejector controller, it is possible to improve the usability by varying the supply amount of BMC, and change the quantity easily. There is an advantage that the operation is convenient.

1 is a cross-sectional view showing a BMC quantitative supply device according to the present invention,
2 is a plan view of a gate portion according to the present invention;
3 is a conceptual diagram of an injection device to which the BMC quantitative supply device according to the present invention is applied,
Figure 4 is an operation diagram showing the movement of the gate body through the drive of the gate actuator according to the present invention,
5 is an operation diagram showing the movement of the push rod through the movement of the ejector control unit according to the present invention.

Hereinafter, a BMC quantitative supply device according to the present invention will be described with reference to the accompanying drawings.

1 is a cross-sectional view showing a BMC quantitative supply apparatus according to the present invention, FIG. 2 is a plan view of a gate part according to the present invention, FIG. 3 is a conceptual diagram of an injection apparatus to which a BMC quantitative supply apparatus according to the present invention is applied, and FIG. 4 is the present invention. The operation diagram showing the movement of the gate body through the driving of the gate actuator according to, Figure 5 is an operation diagram showing the movement of the push rod through the movement of the ejector control unit according to the present invention.

As shown in Figs. 1 to 5, the BMC quantitative supply device 100 according to the present invention solves the problems of the existing manual metering method by automatically metering instead of manual metering for BMC injection molding and supplying the amount. It is a BMC quantitative supply device 100 that improves workability and accuracy of metering, and is basically composed of a metering hopper 10, a gate unit 20, and an ejector unit 30 for this purpose.

The weighing hopper 10 has an internal space in which BMC can be accommodated, and as shown in FIG. 2, the BMC injected into the input hopper H through the injection cylinder I is opened from one side to the inside. Is supplied as

In addition, the gate part 20 is disposed at one end of the weighing hopper 10 so as to selectively open and close one end of the weighing hopper 10.

The gate part 20 is mounted on one end of the metering hopper 10 and extending in a lateral direction, and a gate cylinder 21 having a discharge hole 22 corresponding to the inner periphery of the metering hopper 10 is formed, and , A gate body 23 that slides in contact with the gate cylinder 21 and opens and closes the discharge hole 22, and a gate actuator 24 that drives forward and backward along the gate cylinder 21.

Through the forward and backward movement of the gate actuator 24, the discharge hole 22 is opened and closed as the gate body 23 moves.

In addition, the ejector unit 30 is elevated along the inside of the weighing hopper 10 to discharge the BMC filled in the weighing hopper 10 through the open end of the weighing hopper 10.

The ejector unit 30 is connected to a pusher 31 that slides by interviewing the inner circumference of the metering hopper 10 and is connected to one end of the pusher 31 to connect the pusher 31 to the metering hopper 10 ) It includes an ejector actuator 32 that moves along the inner periphery.

Therefore, when the BMC flows into the weighing hopper 10 and is filled to the position of the pusher 31, the gate body 23 is moved by the driving of the gate actuator 24, and the discharge hole 22 This is opened, and the BMC accommodated in the weighing hopper 10 is discharged as the pusher 31 is moved to one end by the drive of the ejector actuator 32.

In addition, the ejector actuator 32 has a structure extending in the longitudinal direction to change the position of the push rod 31 in the measuring hopper 10 so that the amount of BMC to be measured can be varied.

In this case, the ejector unit 30 further includes an ejector control unit 33 that is inserted into the other end of the ejector actuator 32 and is moved up and down to move the push rod 31.

A thread is formed on the inner circumferential surface of the other end of the ejector actuator 32, and a thread corresponding to the thread formed on the inner circumferential surface of the other end of the ejector actuator 32 is formed on the outer circumferential surface of the ejector actuator 32.

Through this, the push rod 31 is moved by the rotation of the ejector control unit 33, so that the amount of BMC supplied can be varied as the internal space of the weighing hopper 10 is changed.

At this time, the weighing hopper 10 may have a scale to check the set capacity, and a displacement sensor is attached to the pusher 31 so that the BMC supply set capacity according to the height of the pusher 31 can be calculated. It can also be configured.

The BMC quantitative supply device 100 is installed on the upper end of the bracket 40, and the BMC discharged from the gate unit 20 is transferred to the inner space of the bracket 40.

At this time, it is preferable that the discharge hole 22 is formed larger than the diameter of the inner circumferential surface of the metering hopper 10 so as to facilitate the discharge of BMC from the metering hopper 10.

Hereinafter, the operation of the BMC quantitative supply device 100 according to the present invention will be described.

As shown in FIG. 4, the BMC quantitative supply device 100 according to the present invention is, when the internal space of the weighing hopper 10 is filled with a set amount of BMC, the gate body is driven by the gate actuator 24. As the 23 moves, one end of the weighing hopper 10 is completely opened.

And by the drive of the ejector actuator 32, the pusher 31 is in close contact with the inner periphery of the weighing hopper 10 and is moved, and the pusher 31 moves to one end and pushes the received BMC, BMC is discharged into the inner space of the bracket 40 through the discharge hole 22 of the gate cylinder 21.

The discharge hole 22 is formed with a larger diameter than the open portion of the metering hopper 10, and is configured to smoothly discharge the BMC of the metering hopper 10.

In addition, the BMC quantitative supply device 100 according to the present invention is configured to vary the amount of BMC supplied through the ejector unit 30, as shown in FIG. 5.

The ejector control unit 33 is inserted into the other end of the ejector actuator 32, the ejector control unit 33 being made to be able to move up and down in the inner space of the other end of the ejector actuator 32, the movement of the ejector control unit 33 Accordingly, the pusher 31 is raised and lowered.

At this time, the height adjustment of the ejector control unit 33 is performed by moving along a thread formed on the inner circumferential surface of the other end of the ejector actuator 32 by rotation of the ejector control unit 33.

As shown in Figure 5 (a), the more the pusher 31 is located on the other end of the weighing hopper 10, the larger the internal space can be set to supply a large amount of BMC, and is shown in Figure 5 (b). As described above, the ejector control unit 33 is moved to one end so that the pusher 31 is positioned at one end, so that the internal space can be changed to a small size.

Therefore, the position of the pusher 31 is set by the movement of the ejector control unit 33, and the set amount to which BMC is supplied can be varied, so that the BMC can be supplied by changing to various set amounts according to the characteristics of the product. There is a feature of excellent utility of the device.

As described above, the BMC quantitative supply device 100 according to the present invention has an effect of producing a BMC injection product with improved quality by accurately weighing and improving productivity because there is no need for manual weighing through a configuration that measures and supplies a quantitative amount. There is.

The rights of the present invention are not limited to the embodiments described above, but are defined by what is described in the claims, and that a person having ordinary knowledge in the field of the present invention can make various modifications and adaptations within the scope of the rights described in the claims. It is self-evident.

10: weighing hopper 20: gate
21: gate cylinder 22: discharge hole
23: gate body 24: gate actuator
30: ejector unit 31: push rod
32: ejector actuator 33: ejector control unit
40: bracket 100: BMC quantitative supply device
H: Input hopper I: Injection cylinder

Claims (5)

A weighing hopper 10 having the same cross-section in the height direction by which BMC is supplied to the inside from the open side, the internal space is filled by the BMC;
A gate part 20 disposed at the lower end of the metering hopper 10 to selectively open and close the lower end of the metering hopper 10 in the height direction;
An ejector that is raised and lowered along the inside of the weighing hopper 10 so as to discharge the BMC filled in the weighing hopper 10 through the open bottom of the weighing hopper 10 and disposed at the top of the weighing hopper 10 in the height direction Including; part 30;
The BMC supplied to the weighing hopper 10 is generated as a BMC mass according to the shape of the internal space of the weighing hopper 10 by the applied pressure, and the gate part 20 is moved up and down by the ejector part 30. Passing through and discharged to the bottom of the weighing hopper 10,
The gate part 20,
A gate cylinder 21 mounted at one end of the weighing hopper 10 and extending in a lateral direction, and a discharge hole 22 corresponding to the inner circumference of the weighing hopper 10 is formed at a predetermined interval from the inner circumference, A gate body 23 that slides in contact with the gate cylinder and opens and closes the discharge hole 22, and a gate actuator 24 that drives forward and backward along the gate cylinder 21,
The discharge hole 22 is formed with a diameter larger than the open portion of the metering hopper 10 so that the BMC mass of the metering hopper 10 is smoothly discharged,
The ejector unit 30,
A pusher 31 that slides through an interview with the inner circumference of the weighing hopper 10, and an ejector connected to one end of the pusher 31 to move the pusher 31 along the inner circumference of the weighing hopper 10 Including an actuator 32,
The ejector actuator 32 has a structure extending in the longitudinal direction to change the position of the push rod 31 in the measuring hopper 10 so that the amount of BMC to be measured can be varied,
In the ejector unit 30,
The ejector control unit 33 which is inserted into the other end of the ejector actuator 32 and moves up and down to move the push rod 31 in the inner space of the ejector actuator 32 separate from the ejector actuator 32 is further included. Become,
BMC quantitative supply device, characterized in that a thread is formed on the inner circumferential surface of the other end of the ejector actuator (32), and a thread corresponding to the thread formed on the ejector actuator (32) is formed on the outer circumferential surface of the ejector actuator (33). delete delete delete delete

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