KR20190133574A - Screw shaft support device for powder material constant weighing feeder apparatus - Google Patents

Abstract

The present invention relates to a screw shaft support device for a fixed quantity power supply device, which can prevent a screw shaft from sliding during an initial operation of the screw shaft of the fixed quantity power supply device, can prevent the screw shaft from shaking during a powder discharge operation to minimize dust leakage during powder discharge, can fasten a coupling part between a power shaft and screw shaft, and can perform coupling to prevent loosening of the coupled state while maintaining rotation concentricity. According to the present invention, the device comprises: a screw shaft connected to a lower end of the power shaft of the fixed quantity power supply device to be interlocked by a connecting means for the external discharge of powder; a lower hopper disposed to surround an upper portion of the screw shaft and detachably coupled to an upper hopper; a screw housing detachably coupled to a lower portion of the lower hopper and disposed to surround a lower portion of the screw shaft; a cap member coupled to a lower portion of the screw housing by a coupling means; and a support means provided on the cap member to support a lower end of the screw shaft in place.

Description

Screw shaft support device for powder metering device {SCREW SHAFT SUPPORT DEVICE FOR POWDER MATERIAL CONSTANT WEIGHING FEEDER APPARATUS}

The present invention relates to a screw shaft support device for powder dosing device, in particular, it is possible to prevent the sliding of the screw shaft during the initial operation of the screw shaft of the powder dosing device, and to prevent the shaking of the screw shaft during the powder discharge operation, the powder quantitative discharge operation In addition to minimizing time dust leakage, the structure of the powder is improved to maintain the rotational concentricity while preventing the loosening of the coupling state by screwing the coupling part of the power shaft and the screw shaft together. It relates to a screw shaft support device for the feeder.

In general, the powder is supplied using a screw feeder.

Although it is used to discharge a certain amount of powder discharged from the hopper through a horizontal screw, the above method is formed by a screw of a horizontal constant size, because the amount of powder discharged vertically discharged in accordance with the discharge port Therefore, excessive powder may be introduced into the screw, and foreign matter may be attached to the screw, thereby preventing a certain amount of powder from being transferred.

In addition, the dust generated inside the hopper is leaked to the outside and deposited in the operating portion for operating the stirrer and screw, causing a problem that damages the device.

The prior art related to the conventional powder metering device, as disclosed in Korean Patent Publication No. 10-0698788 "Powder sample metering device" (registration date: March 16, 2007), and a storage hopper for storing the powder sample, It is provided to have a horizontal transfer bottom plate in the lower portion of the storage hopper to receive the powder sample supplied from the storage hopper to supply a large amount, and the horizontal transfer bottom in the lower portion of the first stage vibration feeder In order to vibrate the two-stage vibration feeder is provided with a plate to receive the powder sample supplied through the discharge hole formed on the bottom surface of the first-stage vibration feeder and supplied in small quantities, and the first and second stage vibration feeder First and second excitation means are provided to correspond to each other, and the powder sample is provided at the lower portion of the first and second stage vibration feeder supplied from the first and second stage vibration feeder It includes a measuring hopper to store up to the amount and finally discharged supply, and a measuring means provided for measuring the amount of powder sample stored in the measuring hopper.

Prior art related to the conventional powder metering device, as disclosed in Korean Utility Model Publication No. 20-0472745 "Sealing device for preventing dust generated from the auger feeder" (registration date: 2014.05.13), A hopper part consisting of a hopper and a hopper cover for holding and agitating and discharging, and a housing having a fixed housing at the center of the upper portion of the hopper cover, and a rotating tube housing having a rotary tube housing to be coupled to the hopper cover at the center of the fixed housing. A screw motor is provided at the upper part of the fixed housing for stirring and discharging, and is provided in the auger feeder including an operating part having a stirring motor at a side of the fixed housing, and a stirrer rotating tube is provided at the center of the rotary tube housing. The rotary tube operating gear is formed to one side of the stirrer rotary tube and one side of the stirring motor, the rotation A rotary tube lip seal is provided to prevent dust generated in the hopper from flowing into the stirrer rotary tube gap when rotating between the tube housing and the lower side of the stirrer rotary tube, and a rotary member is provided inside the lower end of the stirrer rotary tube. And a screw shaft lip seal is provided to prevent dust generated from the hopper between the rotary member and the screw shaft from flowing into the stirrer rotary tube along the screw shaft, and between the rotary tube housing and the stirrer rotary tube. An air injection tube provided to prevent dust generated during rotation between the rotary tube bearings provided in the rotary tube bearings; And an air inlet provided on the outer surface of the air inlet tube and provided to allow air to be introduced therefrom; An air inlet tube is provided on one side of the rotary tube housing to allow air to be introduced from the outside, and the air flows through the air inlet tube between the rotary tube housing and the stirrer rotary tube and between the air injection tube and the stirrer rotary tube. It is characterized in that the air flows into.

By the way, the screw shaft of the conventional powder metering device may cause a shaft drift phenomenon during the initial driving, and thus dust may leak through the gap between the screw shaft and the screw housing.

In addition, the existing screw shaft is coupled to the power shaft shaft and the pin fixing method, but there is a fear that the coupling state is loosened or the rotation concentricity is poor as the vibration is transmitted during the rotation drive.

Korea Patent Publication No. 10-0698788 "Powdered sample supply device" (date: 2007.03.16) Korean Utility Model Registration No. 20-0472745 "Sealing device for preventing dust generated from auger feeder" (Registration date: 2014.05.13)

The present invention has been made in view of the above-mentioned problems, and an object thereof is to prevent the screw shaft from rolling during the initial operation of the screw shaft of the powder feeding device and to prevent the shaking of the screw shaft during powder discharge operation. The present invention provides a screw shaft support device for a powder quantitative supply device whose structure is improved to minimize dust discharge during the quantitative discharge operation.

Another object of the present invention is to screw the coupling portion of the power shaft and the screw shaft in addition to the coupling coupled to prevent the loosening of the coupling state by maintaining the rotation concentricity of the screw screw for powder fixed quantity supply device It is to provide a shaft support device.

The present invention for achieving the above object is a screw shaft connected to the lower end of the power shaft to be interlocked through the connecting means for quantitative discharge of the powder, is arranged to surround the upper portion of the screw shaft and detachably coupled to the upper hopper A lower hopper, a screw housing detachably coupled to a lower portion of the lower hopper and disposed to surround a lower portion of the screw shaft, a cap member coupled to the lower portion of the screw housing by a coupling means, and the cap member. And support means for supporting the lower end of the screw shaft in position.

The connecting means includes a fastening hole formed concave at the lower end of the power shaft and having a female thread formed on an inner circumferential surface thereof, a fastening part provided at an upper end of the screw shaft and formed with a male thread to be screwed to the fastening hole, and a lower end of the power shaft. It is provided with a coupler coupled to surround the upper end of the screw shaft.

The support means includes a fitting hole formed concavely at the lower end of the screw shaft and having a bushing fixed to an inner circumferential surface thereof, and a support bar protruding from the fitting hole disposed in the cap member and fitted into the bushing at an upper side thereof.

The coupling means includes a first coupling hole formed in an upper portion of the cap member, a second coupling hole formed in a lower portion of the screw housing and having a female thread formed on an inner circumferential surface thereof, and fastened to the second coupling hole through the first coupling hole. It is provided with a coupling bolt.

Further comprising a coupling step formed in the lower portion of the screw housing so that the upper portion of the cap member to surround the lower end of the screw housing, and a locking step formed on the inner peripheral surface of the cap member and the lower end of the screw housing is stepped together It is.

According to the present invention, the upper part of the screw shaft is coupled to the power shaft by screwing, and the lower part of the screw shaft is supported by the cap member coupled to the screw housing by the supporting means, thereby preventing the screw shaft from sliding during the initial driving of the screw shaft. It is possible to prevent the shaking of the screw shaft during the quantitative discharge operation of the powder has the advantage of minimizing the outflow of dust.

In addition, the present invention further comprises a locking jaw formed stepped on the lower portion of the screw housing, and a locking jaw formed on the inner circumferential surface of the cap member so that the lower end of the screw housing is stepped, the cap member is assembled to the lower portion of the screw housing If the assembly of the cap member relative to the screw housing is automatically matched has the advantage that the fastening operation of the coupling bolt is simplified.

The coupling means for coupling the cap member to the screw housing includes a first coupling hole formed at an upper portion of the cap member, a second coupling hole formed at a lower portion of the screw housing and a female thread formed on an inner circumferential surface thereof, and the first coupling hole. The cap member may be easily coupled to the screw housing according to the coupling bolt fastened to the second coupling hole, and the inner diameter of the first coupling hole may be larger than the inner diameter of the second coupling hole. In the case of assembling entry of the coupling bolt can be improved.

1 is a block diagram showing a configuration of a screw shaft support device for a powder metering supply device according to the present invention.
Figure 2 is an exploded view before coupling of the power shaft and the screw shaft of the present invention.
Figure 3 is an exploded view before coupling the cap member and the screw housing of the present invention.
Figure 4 is a state of use showing the powder metering supply device is applied to the present invention screw shaft support.

Screw shaft support device for powder metering supply according to the present invention described with reference to Figures 1 to 4, the lower end of the power shaft 100 for quantitative discharge of the powder is connected so as to interlock through the connecting means 600 The screw shaft 200, the lower hopper 350 is arranged to surround the upper portion of the screw shaft 200 and detachably coupled to the upper hopper 300, and the removable and the lower portion of the lower hopper 350 Screw housing 400 is arranged to surround the lower portion of the screw shaft 200, the cap member 500 coupled to the coupling means 800 in the lower portion of the screw housing 400, and the cap member It is provided in the 500 and the support means 700 for supporting the lower end of the screw shaft 200 in place.

Referring to FIG. 1, the screw shaft 200 is coupled so that the upper end is interlocked with the lower end of the power shaft 100, and a spiral part is formed on the outer circumferential surface for discharging the powder, and the lower part is the screw housing 400. Has a structure accommodated inside.

The lower hopper 350 has a structure in which an upper portion is bolted and connected to a lower portion of the upper hopper 300, and a screw housing 400 having a relatively small inner diameter is connected to the lower portion.

Referring to FIG. 2, the connection means 600 is formed in a lower end of the power shaft 100 and a fastening hole 610 having a female thread formed on an inner circumferential surface thereof, and provided at an upper end of the screw shaft 200. It consists of a fastening portion 620 is a male screw thread to be fastened to the fastening hole 610, and a coupler 630 is coupled to surround the lower end of the power shaft 100 and the upper end of the screw shaft 200.

As the fastening part 620 is screwed to the fastening hole 610, the coupling state of the screw shaft 200 and the power shaft 100 may be prevented from being loosened, and the rotational concentricity of the screw shaft 200 may be maintained. Has the advantage.

The fastening hole 610 is longer than the fastening portion 620 is formed, the width of the upper has a structure formed narrower than the width of the lower.

Due to the difference between the upper and lower widths of the fastening hole 610, it is possible to improve the accessibility of the fastening part 620 to the fastening hole 610.

The coupler 630 is coupled to surround the lower end portion of the power shaft 100 and the upper end coupling portion of the screw shaft 200 from the outside to be fixed by bolt coupling.

The support means 700 is formed in the lower end of the screw shaft 200 and the fitting hole 710, the bushing 715 is fixed to the inner circumferential surface, and disposed inside the cap member 500 and the upper side The fitting hole 710 and the fitting portion 725 to be fitted in the bushing 715 are composed of a protruding support bar 720.

The fitting hole 710 is bushing 715 is coupled to the inner peripheral surface for the rotation of the screw shaft 200 even after the fitting portion 725 is coupled.

The support bar 720 is integrally fixed to the inside of the cap member 500, and is lower than the opened lower portion of the cap member 500 so that interference is minimized when the powder is discharged through the opened lower portion of the cap member 500. It consists of a bar shape with a small square cross-sectional structure.

The fitting portion 725 may prevent the sliding phenomenon during the initial driving of the screw shaft 200 in the state entered into the fitting hole 710, the vibration of the screw shaft 200 during the operation of the screw shaft 200 It is to prevent the phenomenon.

The coupling means 800 is a first coupling hole 810 formed in the upper portion of the cap member 500, the second coupling hole 820 formed in the lower portion of the screw housing 400 and the female thread formed on the inner peripheral surface And a coupling bolt 830 that penetrates the first coupling hole 810 and is coupled to the second coupling hole 820.

It is preferable that the inner diameter of the first coupling hole 810 is larger than the inner diameter of the second coupling hole 820, which is to improve assembly access of the coupling bolt 830.

Referring to FIG. 3, the end of the coupling bolt 830 is coupled to the first coupling hole in a state in which the coupling means 800 is coupled to surround the upper end of the cap member 500 at the lower end of the screw housing 400. Entered through 810 is fastened to the second coupling hole 820 to couple the cap member 500 and the screw housing 400.

The upper portion of the cap member 500 is formed on the engaging jaw 410 stepped to the lower portion of the screw housing 400 so as to surround the lower end of the screw housing 400, and is formed on the inner peripheral surface of the cap member 500 A lower end of the screw housing 400 is further provided with a locking step 510 is coupled stepwise.

When the cap member 500 is assembled to the lower portion of the screw housing 400 due to the coupling jaw 410 and the locking jaw 510, the assembly position of the cap member 500 with respect to the screw housing 400 is corrected. Being able to easily grasp has the advantage that the fastening operation of the coupling bolt 830 is simplified.

In the present invention having such a configuration, as shown in FIG. 4, the stirring blade 55 is rotated by the stirring motor 50 in the upper hopper 300 and the lower hopper 350 to contain and stir the powder. Is provided, the rotary motor 20 for rotating the power shaft 100 is provided in the upper portion of the casing 10 powder metering supply device, the screw shaft 200 is connected to the lower end of the power shaft 100 connection means 600 The screw is fastened and coupled through a), the lower portion of the screw shaft 200 is supported by the support means 700.

At this time, the connection process of the screw shaft 200 and the power shaft 100 is screwed as the fastening portion 620 of the screw shaft 200 enters the fitting hole 710 of the connecting means 600, screw shaft Coupler 630 is coupled to the outer periphery of the connection portion of the 200 and the power shaft 100 is coupled.

In addition, the support means 700 for supporting the lower portion of the screw shaft 200 is inserted into the fitting portion 725 of the support bar 720 in the fitting hole 710 formed in the lower portion of the screw shaft 200 is inserted. The cap member 500 to which the support bar 720 is fixed is coupled to the lower portion of the screw housing 400 by the coupling means 800.

For this reason, the present invention is a cap coupled to the top of the screw shaft 200 to the power shaft 100, the lower portion of the screw shaft 200 is coupled to the screw housing 400 by the support means 700 Since it is supported by the member 500, it is possible to prevent the sliding phenomenon of the screw shaft 200 during the initial driving of the screw shaft 200, it is possible to prevent the shaking phenomenon of the screw shaft 200 during the quantitative discharge operation of the powder dust Has the advantage of minimizing the outflow.

In addition, the present invention is the engaging jaw 410 is formed stepped on the lower portion of the screw housing 400, the locking jaw 510 is formed on the inner peripheral surface of the cap member 500 is stepped coupled stepwise As further provided, when the cap member 500 is assembled to the lower portion of the screw housing 400, the assembly position of the cap member 500 with respect to the screw housing 400 is automatically matched to the coupling bolt 830 Has the advantage of simplifying the fastening operation.

In addition, the coupling means 800 for coupling the cap member 500 to the screw housing 400 includes a first coupling hole 810 formed at an upper portion of the cap member 500, and the screw housing 400. The cap is formed by a second coupling hole 820 formed in the lower portion and a female screw thread formed on the inner circumferential surface thereof, and a coupling bolt 830 that passes through the first coupling hole 810 and is fastened to the second coupling hole 820. The member 500 may be easily coupled to the screw housing 400, and the coupling bolt 830 may be formed when the inner diameter of the first coupling hole 810 is larger than the inner diameter of the second coupling hole 820. ) Can improve the assembly accessibility.

As described above, in the detailed description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the embodiment described above, but should be defined by the claims below and equivalents thereof.

That is, the present invention as described above is not limited to the specific preferred embodiments described above, and those skilled in the art without departing from the gist of the present invention claimed in the claims Various modifications may be made, of course, and such changes are within the scope of the claims.

10: casing 20: rotating motor
50: stirring motor 55: stirring blade
100: power shaft 200: screw shaft
300: upper hopper 350: lower hopper
400: screw housing 410: coupling jaw
500: cap member 510: locking jaw
600: connecting means 610: fastening hole
620: fastening portion 630: coupler
700: support means 710: fitting hole
715: bushing 720: support bar
725: fitting portion 800: coupling means
810: the first coupling hole 820: the second coupling hole
830: coupling bolt

Claims (5)

The screw shaft 200 is connected so that the lower end of the power shaft 100 is interlocked through the connecting means 600 for quantitative discharge of the powder,
A lower hopper 350 disposed to surround the top of the screw shaft 200 and detachably coupled to the upper hopper 300;
A screw housing 400 detachably coupled to a lower portion of the lower hopper 350 and disposed to surround a lower portion of the screw shaft 200;
A cap member 500 coupled to the coupling means 800 at a lower portion of the screw housing 400, and
Screw cap support device for powder fixed-quantity supply device, characterized in that provided in the cap member 500 and having a support means for supporting the lower end of the screw shaft 200 in place. The method according to claim 1,
The connecting means 600 is concave formed at the lower end of the power shaft 100 and the fastening hole 610 is formed with a female thread on the inner peripheral surface,
A fastening part 620 provided at an upper end of the screw shaft 200 and having a male screw thread to be fastened to the fastening hole 610;
Screw shaft support device for powder metering supply device characterized in that it comprises a coupler (630) coupled to surround the lower end of the power shaft (100) and the upper end of the screw shaft (200). The method according to claim 1,
The support means 700 is a recess 710 formed in the lower end of the screw shaft 200 and the bushing 715 is fixed to the inner peripheral surface and,
The fixed quantity powder supply apparatus, characterized in that the support bar 720 is disposed inside the cap member 500 and the fitting portion 725 is inserted into the fitting hole 710 and the bushing 715 on the upper side is protruded. Screw shaft support device. The method according to claim 1,
The coupling means 800 and the first coupling hole 810 formed on the cap member 500,
A second coupling hole 820 formed at a lower portion of the screw housing 400 and having a female thread formed on an inner circumferential surface thereof;
Screw shaft support device for powder metering supply device characterized in that it comprises a coupling bolt 830 is fastened to the second coupling hole 820 through the first coupling hole (810). The method according to claim 1,
Coupling jaw 410 is stepped on the lower portion of the screw housing 400 so that the upper portion of the cap member 500 surrounds the lower end of the screw housing 400,
Screw shaft support device for powder dosing device, characterized in that it further comprises a locking step (510) formed on the inner peripheral surface of the cap member 500, the lower end of the screw housing 400 is stepped.

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