KR101654685B1

KR101654685B1 - Inspect equipment keg filler strain

Info

Publication number: KR101654685B1
Application number: KR1020150143756A
Authority: KR
Inventors: 공현배
Original assignee: 신한산업 (주)
Priority date: 2015-10-15
Filing date: 2015-10-15
Publication date: 2016-09-22

Abstract

The present invention relates to a draft beer or beverage delivery container called a so-called keg (KEG) capable of delivering, transporting and storing a draft beer or beverage in a vacuum state, The present invention relates to a keg inlet deflection inspection apparatus for preventing a problem of a safety accident caused by a keg inlet,
A concrete solution means of the present invention is that,
A static test unit 140 is attached to the upper plate 110. The upper plate 110 and the lower plate 120 are connected to each other by a vertical bar 130 having four corners. And a motor M is provided on the lower plate 120 for driving the static test unit 140 and the speed reducer 120 is provided on one side of the motor M, A driven gear 152 is connected to an upper side of the speed reducer 151 and a driven gear 154 is connected to both sides of the driven gear 152 by a chain 153 And the driven gear 154 includes a first base 10 having a driving unit 150 coupled to enable rotation of the screw shaft 155 and a second base 10 coupled to the rear of the first base 10, The dynamic test portion 200 is fixedly coupled to the upper portion, And a second base 20 having a guide rail 210 and a peg sliding part 220 slidable along the guide rail 210 at the rear of the dynamic test part 200, In the inspection apparatus,
The static test unit 140,
A plurality of screws are formed in the upper plate 110 and one side is opened. On the inner side, the screw shaft 155 is housed in a longitudinal direction. One of the plurality of screws has a control portion C, A plurality of column brackets 141 formed in a closed state at an upper end thereof,
The jig 142 is coupled to the screw shaft 155 on both sides so as to be able to move up and down along a plurality of screw shafts 155 longitudinally provided inside the plurality of column brackets 141, And a sliding bracket (143) fixedly coupled to the keg inlet port.
The dynamic test unit 200,
And a fixing bracket 203 having an electromagnet 202 is fixed to an upper portion of the fixing bar 201. A lower portion of the fixing bracket 203 is fixed to the lower portion of the fixing bar 201, And a weight weight bracket 205 provided with a weight 204 detachable from the electromagnet 202 by the operation of the part C is lowered along the fixed bar 201. [ A deformation inspection apparatus,
The keg sliding part 220 includes:
A guide bar 223 is provided on both sides of the upper surface of the plate 222 having guide grooves 221 on both sides in the longitudinal direction so as to be slidable along the guide rail 210. The guide bar 223 And a fixing plate 224 having a plurality of seating portions 225 in a state of being spaced apart from each other while maintaining a gap therebetween is provided on the plate member 222 between the screw rods 223, And a plurality of seating portions (225) are provided in a state in which the spacing is maintained so as to be able to seat the plurality of seating portions (225)
The outer periphery of the seating part 225 is perpendicular to the plate 222 or the fixing plate 224 and the inner periphery of the seating part 225 facing the seating part 225 has a predetermined height at right angles, The present invention provides a keg inlet deflection inspection apparatus comprising:
According to the present invention configured as described above, it is possible to inspect the cause of leakage and leakage of the injection port before the molding of the keg, and to check whether or not the keg injection port is deformed in order to prevent a safety accident such as leakage and leakage of the keg injection port Therefore, it is possible to prevent safety accidents caused by defects in the injection port and to improve the quality of the product and to prevent safety accidents by examining defects in the durability of the keg inlet due to the small size of the keg transportation and storage.

Description

[0001] DESCRIPTION [0002] Inspect equipment keg filler strain [

The present invention relates to a draft beer or beverage delivery container called a so-called keg (KEG) capable of delivering, transporting and storing a draft beer or beverage in a vacuum state, The present invention relates to a keg inlet deflection inspection apparatus for preventing a problem of a safety accident caused by a keg inlet.

When delivering, transporting and storing beverages and draft beverages, it is common to store them in a container called a keg (KEG) to maintain freshness and refreshing feeling.

Especially in case of draft beer, it is difficult to drink fresh draft beer in outdoor and general households because it is easily changed in a place where refrigerator is not installed. It can be enjoyed only in a professional draft beer house. By holding the container in a vacuum, the carbon dioxide gas dissolved in the draft beer enhances the cooling sensation of the draft beer and functions as a foaming agent to enhance the taste of the draft beer. When the draft beer is stored and transported in a non- The carbonated gas dissolved therein is released, and the taste of the draft beer is deteriorated.

As such a delivery container, a technique for introducing a valve and a propellant for dispensing liquid from a container is conventionally known, and specifically,

[0005] EP 862 535 discloses a flexible pressure-resistant material, preferably an elliptical casing, a flexible gastight inner casing located in the outer casing, and a filling connection for filling the inner casing, It is about the container.

EP 1 736 421 relates to a lightweight container for a fluid, in particular a liquid such as beer or water, the container comprising a spherical or spheroidal casing, a valve portion for filling the container with fluid, And an outer cover.

A similar lightweight container is disclosed in EP 2 038 187. In one embodiment, the casing is made from blow molded PET.

Most of the above-mentioned techniques are used. However, in the prior art, it is not necessary to perform a preliminary inspection to prevent the defects of the injection port, which are generated when the product is released after use or after the product is released, such as an inspection device relating to defect of the valve, It is true that there is no inspection device.

In other words, in Korea, safety of the valve, which is an injection port for safety according to stacking of delivery containers or stacking of empty containers, is very important, and leakage and leakage of the contents due to insufficient safety are prevented, It is a fact that there is a need for a technical inspection device for solving a lot of economical loss.

Korean Patent Publication No. 10-2013-0076819 Korean Patent Laid-Open No. 10-2009-0018603 Korean Patent Publication No. 10-2007-0085119 Korean Patent Publication No. 10-2007-0013333

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

After the molding process, the cause of leakage and leakage of the injection port is inspected before launching. In order to prevent a safety accident such as leaking or leaking of the keg inlet, it is checked whether the injection port is deformed or not, It is an object of the present invention to provide a keg inlet deflection inspection apparatus which can prevent a safety accident by improving the quality of a product by inspecting defects in the durability of the keg inlet due to the small size of the keg transportation and storage.

In order to accomplish the above object, according to a first aspect of the present invention,

A static test unit 140 is attached to the upper plate 110. The upper plate 110 and the lower plate 120 are connected to each other by a vertical bar 130 having four corners. And a motor M is provided on the lower plate 120 for driving the static test unit 140 and the speed reducer 120 is provided on one side of the motor M, A driven gear 152 is connected to an upper side of the speed reducer 151 and a driven gear 154 is connected to both sides of the driven gear 152 by a chain 153 And the driven gear 154 includes a first base 10 having a driving unit 150 coupled to enable rotation of the screw shaft 155 and a second base 10 coupled to the rear of the first base 10, The dynamic test portion 200 is fixedly coupled to the upper portion, And a second base 20 having a guide rail 210 and a peg sliding part 220 slidable along the guide rail 210 at the rear of the dynamic test part 200, In the inspection apparatus,
The static test unit 140,
A plurality of screws are formed in the upper plate 110 and one side is opened. On the inner side, the screw shaft 155 is housed in a longitudinal direction. One of the plurality of screws has a control portion C, A plurality of column brackets 141 formed in a closed state at an upper end thereof,
The jig 142 is coupled to the screw shaft 155 on both sides so as to be able to move up and down along a plurality of screw shafts 155 longitudinally provided inside the plurality of column brackets 141, And a sliding bracket (143) fixedly coupled to the keg inlet port.
The dynamic test unit 200,
And a fixing bracket 203 having an electromagnet 202 is fixed to an upper portion of the fixing bar 201. A lower portion of the fixing bracket 203 is fixed to the lower portion of the fixing bar 201, And a weight weight bracket 205 provided with a weight 204 detachable from the electromagnet 202 by the operation of the part C is lowered along the fixed bar 201. [ A deformation inspection apparatus,
The keg sliding part 220 includes:
A guide bar 223 is provided on both sides of the upper surface of the plate 222 having guide grooves 221 on both sides in the longitudinal direction so as to be slidable along the guide rail 210. The guide bar 223 And a fixing plate 224 having a plurality of seating portions 225 in a state of being spaced apart from each other while maintaining a gap therebetween is provided on the plate member 222 between the screw rods 223, And a plurality of seating portions (225) are provided in a state in which the spacing is maintained so as to be able to seat the plurality of seating portions (225)
The outer periphery of the seating part 225 is perpendicular to the plate 222 or the fixing plate 224 and the inner periphery of the seating part 225 facing the seating part 225 has a predetermined height at right angles, The present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the scope of the present invention.

delete

According to the present invention configured as described above, it is possible to inspect the cause of leakage and leakage of the injection port before the molding of the keg, and to check whether or not the keg injection port is deformed in order to prevent a safety accident such as leakage and leakage of the keg injection port Therefore, it is possible to prevent safety accidents caused by defects in the injection port and to improve the quality of the product and to prevent safety accidents by examining defects in the durability of the keg inlet due to the small size of the keg transportation and storage.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limited to the embodiments set forth herein. Various changes and modifications may be made by those skilled in the art.

1 is an overall perspective view of a keg inlet deflection inspection apparatus according to the present invention,
FIG. 2 is a perspective view of a first base in the keg inlet deflection inspection apparatus of the present invention,
3 is an internal view showing an operating state of the static test portion of the first base in the keg inlet deflection inspection apparatus of the present invention,
4 is a perspective view of a dynamic testing unit in a keg inlet deflection inspection apparatus according to the present invention,
FIG. 5 is a diagram showing an operation state of the dynamic test section in the keg inlet deflection inspection apparatus according to the present invention,
6 is a perspective view of a keg sliding part in a keg inlet deflection inspection apparatus according to the present invention,
7 is a whole view showing a state in which the static test portion is operated in the keg inlet deflection inspection apparatus according to the present invention,
8 is a general view showing a state in which the dynamic test portion is operated in the keg inlet deflection inspection apparatus of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a keg inlet deflection inspection apparatus according to the present invention will be described in detail with reference to the drawings.

2 is a perspective view of a first base in a keg inlet deflection inspection apparatus according to the present invention, and Fig. 3 is a sectional view of a keg inlet deflection inspection apparatus according to the present invention, FIG. 4 is a perspective view of a dynamic test section in a keg inlet deflection inspection apparatus according to the present invention, and FIG. 5 is an internal view showing an operation state of a static test section FIG. 6 is a perspective view of a keg sliding part in a keg inlet deflection inspection apparatus according to the present invention, FIG. 7 is a general view showing a state in which a static testing part is operated in a keg inlet deflection inspection apparatus according to the present invention, In the keg inlet deflection inspection apparatus of the present invention, It is an entire figure taken.

As shown in FIGS. 1 to 3, the first base 10 is coupled to a carriage 100 at the bottom 4, and the upper plate 110 and the lower plate 120 Is formed by a vertical bar 130 provided at four corners and a static test unit 140 is fixedly coupled to the upper plate 110 and the static test unit 140 is driven to the lower plate 120 The driving unit 150 is provided.

3, the driving unit 150 is provided on the lower plate 120 and includes a motor M, and a speed reducer 151 is connected to one side of the motor M A driven gear 152 is connected to the upper side of the speed reducer 151 and a driven gear 154 is connected to both sides of the driven gear 152 by a chain 153, 154 are coupled to enable rotation of the screw shaft 155,

As shown in FIGS. 2 and 3, the static test unit 140 includes a plurality of the upper plate 110, one side of which is open, and the screw shaft 155 is accommodated in the longitudinal direction A plurality of column brackets 141 formed on the outer surface of one of the plurality of columns and having a control portion C facing the opened portion thereof and facing each other, A screw shaft 155 is coupled to both sides of the screw shaft 155 so as to be able to move up and down along a plurality of screw shafts 155 longitudinally provided in the longitudinal direction and a jig 142 is fixedly coupled to the center of the bottom surface And a sliding bracket 143.

The second base 20 is connected to the rear of the first base 10 as shown in Figs. 1 and 4 to 6, And a guide rail 210 is provided on both sides in the longitudinal direction and a pawl sliding part 220 which is slidable along the guide rail 210 is provided behind the dynamic test part 200 And the second base 20,

4 and 5, the dynamic testing unit 200 includes a fixed bar 201 on both sides thereof, and an electromagnet 202 is provided on the bottom of the fixed bar 201, And a weight bracket 203 having a weight bracket 203 attached to the lower portion of the fixing bracket 203 and having a weight 204 detachable from the electromagnet 202 by the operation of the control unit C, The bracket 205 is caused to descend along the fixed bar 201,

As shown in FIG. 6, the keg sliding part 220 has guide grooves 221 on both sides in the longitudinal direction so as to be slidable along the guide rails 210, And a fixed plate member 224 provided with a barb 223 and having a plurality of seating portions 225 in a state of rising and lowering along the screw bar 223 while keeping a gap therebetween, A plurality of seating portions 225 are provided in the plate member 222 between the barbs 223 in a state where the spacing is maintained so that the keg K can be seated in the longitudinal direction.

The outer circumferential portion of the seating portion 225 is perpendicular to the plate 222 or the fixing plate 224 and the inner circumferential portion of the seating portion 225 facing the seating portion 225 has a predetermined height at a right angle, As shown in Fig.

A reference character B is a test rod, and a scale is written on the surface of the test rod.

The operation of the present invention will now be described.

7, when the keg K is mounted on the seating portion 225 of the keg sliding portion 220 in the lateral direction, the size of the keg K is measured The fixing plate 224 is slid up and down along the screw rod 223 to tightly fix the keg K and then the front end of the test rod B is coupled to the keg inlet, When the motor M is operated to rotate the screw shaft 155, the sliding bracket 143 is lowered and the jig 142 presses the test rod B.

When the pressure is applied to the keg sliding part 220, the pressure is applied to the plate member 142 of the keg sliding part 220 by sequentially pressing the 25 kg jig 142 for 3 seconds while gradually increasing the distance to 8 to 10 cm along the scale indicated on the test rod B 222 are sequentially slid along the guide rail 210 to measure the deformation of the keg inlet through a dial gauge not shown in FIG. 7 to check whether the keg inlet is damaged or deformed, Screening and selection of excellent products.

Next, the dynamic testing unit 200 will be described. As shown in FIG. 8, the keg K is mounted on the seating part 225 of the keg sliding part 220 in the lateral direction, The fixed plate member 224 is slid up and down along the screw rod 223 to firmly fix the keg K and then the tip of the test rod B is coupled to the keg inlet, That is, the combination of the electromagnet 202 and the weight-weight bracket 205 is released by the operation of the control portion C in the state where the weight-weight bracket 205 is engaged by the weight portion 202, The dial gauge checks the amount of vibration generated when the weight 204 falls and drops to the test rod B, and checks whether the keg inlet is defective. Specifically, the weight is weighted from 30 to 35 cm and weights of 10 kg 204 to drop the vibration on the test stick B The height is sequentially measured, and it is measured with a dial gauge to check whether or not the keg inlet is defective, thereby enabling inspection of defective products and excellent products.

By operating as described above, it is possible to inspect the cause of leakage and leaking of the injection port before the injection molding and to check the deformation of the injection port to prevent a safety accident such as leaking or leaking of the injection port of the keg, It is possible to prevent safety accidents and to improve the quality of the product and to prevent safety accidents by examining the defectiveness of the durability of the keg inlet due to the small size of the keg transportation and storage.

10; first expectation 20; Second expectation
100; A car 110; Top plate
120; Lower plate 130; Vertical bar
140; A static test unit 141; Column Bracket
142; Jig 143; Sliding bracket
150; A driving unit 151; reducer
152; A driven gear 153; chain
154; Driven gear 155; Screw shaft
200; A dynamic test unit 201; Fixed bar
202; Electromagnet 203; fixed bracket
204; Weight weight 205; Weight bracket
210; A guide rail 220; Keg sliding part
221; Guide grooves 222; Plate
223; Na Sa Bong 224; Fixed plate
225; Seat portion B; Test Rod
C; A control unit K; Keg

Claims

The upper plate 110 and the lower plate 120 are formed by vertical bars 130 having four corners and a static test unit 140 is attached to the upper plate 110 And the lower plate 120 is provided with a motor M on the lower plate 120 for driving the static test unit 140 and a speed reducer 151 A driven gear 152 is connected to the upper side of the speed reducer 151 and a driven gear 154 is connected to both sides of the driven gear 152 by a chain 153, The driven gear 154 includes a first base 10 having a driving unit 150 coupled to the screw shaft 155 to allow rotation of the screw shaft 155 and a second base 10 coupled to the rear of the first base 10, The dynamic testing unit 200 is fixedly coupled to the upper portion, The dynamic test part 200 is provided with a guide rail 210 and a second base 20 having a keg sliding part 220 slidable along the guide rail 210, In the apparatus,
The static test unit 140,
A plurality of screws are formed in the upper plate 110 and one side is opened. On the inner side, the screw shaft 155 is housed in a longitudinal direction. One of the plurality of screws has a control portion C, A plurality of column brackets 141 formed in a closed state at an upper end thereof,
The jig 142 is coupled to the screw shaft 155 on both sides so as to be able to move up and down along a plurality of screw shafts 155 longitudinally provided inside the plurality of column brackets 141, And a sliding bracket (143) fixedly coupled to the keg inlet.

delete

The method according to claim 1,
The dynamic test unit 200,
And a fixing bracket 203 having an electromagnet 202 is fixed to an upper portion of the fixing bar 201. A lower portion of the fixing bracket 203 is fixed to the lower portion of the fixing bar 201, And a weight weight bracket 205 provided with a weight 204 detachable from the electromagnet 202 by the operation of the part C is lowered along the fixed bar 201. [ Deformation inspection device.

The method according to claim 1,
The keg sliding part 220 includes:
A guide bar 223 is provided on both sides of the upper surface of the plate 222 having guide grooves 221 on both sides in the longitudinal direction so as to be slidable along the guide rail 210. The guide bar 223 And a fixing plate 224 having a plurality of seating portions 225 in a state of being spaced apart from each other while maintaining a gap therebetween is provided on the plate member 222 between the screw rods 223, And a plurality of seating portions (225) are provided in a state in which the spacing is maintained so as to enable the seating portions (225) to be seated therebetween.

6. The method of claim 5,
The outer periphery of the seating part 225 is perpendicular to the plate 222 or the fixing plate 224 and the inner periphery of the seating part 225 facing the seating part 225 has a predetermined height at right angles, And the opening of the keg inlet is checked.