KR20170118697A - Long flow path member, plastic container, and viscous-liquid discharge device - Google Patents

Abstract

The elongated flow path member and the plastic container and the viscous liquid discharge device which can improve the followability with respect to the sealing mounting structure of the joint portion joining the liquid pipe member and the elongated flow path member and completely prevent the infiltration of air at the joint portion, Lt; / RTI > Wherein the viscous liquid in the plastic container is discharged from the elongate flow path member by pressurization and only the plastic container after the viscous liquid discharge operation is exchanged, Shaped flow path member is integrally attached to the upper end attaching portion so as to extend into the plastic container body and forms a flow path of the viscous liquid when the viscous liquid is pressurized and discharged, A long elongated flow path portion and a non-continuous flow path portion formed in at least a part of the outer periphery of the long elongated flow path portion and capable of bending.

Description

TECHNICAL FIELD [0001] The present invention relates to a long channel member, a plastic container, and a viscous liquid discharging apparatus.

The present invention relates to a viscous liquid, in particular a moisture-curable adhesive curable composition or an oxygen-curable adhesive curable composition, which is contained in a flexible pouch or container and which is externally pressurized, The present invention relates to an elongated flow path member and a plastic container and a viscous liquid discharging apparatus which are attached to a cartridge type plastic container which is effectively used when the inside viscous liquid is discharged outside.

Conventionally, in an apparatus in which a viscous liquid such as a moisture curing type adhesive or an oxygen curing type adhesive is discharged to perform coating or the like, since the adhesive is hardened when it comes into contact with air, if the adhesive is scattered, It is necessary to apply the adhesive in a state in which it is not in contact with the air.

As an apparatus for discharging a liquid which dislikes contact with air, for example, there is an apparatus described in Patent Documents 1 to 3, for example.

5, the viscous liquid such as an adhesive is discharged from the elongated flow path member 102 provided in the plastic container 100 through the delivery pipe means 104 from the discharge nozzle, Is discharged. The plastic container 100 is installed in the pressurizing tank 106 and pressurized air is supplied into the pressurizing tank 106 through the air supply pipe 108.

The elongated flow path member 102 has an upper end attachment portion 114 for attachment to the opening 112 of the plastic container main body 110. At the lower end of the elongated flow path member 102, an opening end portion 116 is formed, and a plurality of flow path holes 118 are formed in a side surface thereof. The viscous liquid 124 having passed through the opening end 116 and the flow path hole 118 passes through the elongated flow path portion 122 formed in the elongated cylindrical body 120 of the elongated flow path member 102 And is then discharged under pressure from the discharge nozzle through the transfer tube means 104.

Called plastic type plastic container in which only the plastic container 100 provided with the elongated flow path member 102 is replaced after the viscous liquid is discharged is provided. The plastic container 100 is normally transported in a corrugated cardboard box. In a state in which the plastic container 100 is put in a corrugated cardboard box, it is called a so-called white box.

6 and 7, the proximal end portion of the liquid delivery pipe means and the upper end attachment portion of the elongate flow path member provided in the plastic container are structured to be sealed in a sealed state by the seal mounting means 126 .

The bonding structure used in the conventional viscous liquid discharging apparatus is shown in Figs. 6 and 7. Fig. 6 and 7, the conventional bonding structure 101 is a structure that is bonded in a sealed state by the seal mounting means 126. [ The seal mounting means 126 has a fixing member 128. The fixing member 128 has a cylindrical body 132 having a central opening through which an insertion hole 130 is opened and an annular flange portion 134 is formed on the lower outer surface of the cylindrical body 132 and the cylindrical body 132 And the annular flange portion 134 are formed so as to have a shape corresponding to the upper surface shape of the upper end attachment portion 114 of the elongated flow path member 102 and the upper surface of the annular flange portion 134 And a male screw portion 138 is formed on the upper outer surface of the cylindrical body 132. [

A tapered portion 140, which is inclined inward, is formed at the lower end of the cylindrical body 132. Reference numeral 142 denotes a cap member with a through hole and is provided with an annular side wall 148 formed at the center of the circular plate 144 to penetrate the through hole 146 contacting the support step 136 and vertically installed from the periphery of the circular plate 144 Threaded portion 150 formed on the outer surface of the cylindrical side wall 112a of the opening portion 112 of the plastic container main body 110 so as to be screwed into the male screw portion 112b. Reference numeral 152 denotes a fastening member which has a cylindrical member 156 having a central hole 154 at its central portion and a fastening female threaded portion 158 at a lower portion of the inner peripheral surface of the cylindrical member 156. As shown in Fig. 7, the upper portion of the central hole 154 of the fastening member 152 is formed so that the diameter gradually decreases toward the upper portion. The cap member 142 with the through-hole and the fastening member 152 are combined as shown in Fig. 7 (a).

6, the elongated flow path portion 122 of the elongated flow path member 102 is provided with a through passage 159 at the center portion thereof. The upper end attaching portion 114 includes an inner circumferential wall 162 forming the outlet port 160 and an outer circumferential wall 166 provided at a position spaced apart from the inner circumferential wall 162 by the support wall 164, Lt; / RTI > The inner diameter of the inner peripheral wall 162 has a larger diameter than that of the lower portion and an upper end surface of the inner peripheral wall has a tapered portion 168 which is inclined inward. The upper end of the outer circumferential wall 166 is bent outward to form an outer stepped portion 170. The elongated flow passage member 102 can be detachably attached to the opening portion 112 by fitting the outer step portion 170 to the outer peripheral edge portion of the opening portion 112 of the plastic container body 110. [ This configuration is described in detail in, for example, Patent Document 1.

However, in the conventional bonding structure, when the elongated flow path member 102 is forced to be tilted, it is possible to prevent the elongated flow path member 102 from being bent at the joining portion of the fixing member 128 joining the liquid path tube means 104 and the elongated flow path member 102 As shown in Fig. 7 (b), there is a possibility that a gap G may be formed at such a joining portion, and air may enter.

In the discharging device for discharging the viscous liquid in the plastic container by the above-described pressurization, since the pressurized air in the pressurizing tank enters only at a slight gap in the joining portion or the like, high airtightness is required. For this reason, for example, the required airtightness is different from a discharging device for discharging viscous liquid from inside the plastic container by depressurizing the inside of the plastic container filled with the viscous liquid.

As described above, in the case of the pressurizing type dispensing apparatus that discharges the viscous liquid by pressurization, in particular, when the viscous liquid is a viscous liquid such as a moisture-curing type adhesive or an oxygen-curing type adhesive which dislikes contact with air, If it is discarded, air is mixed into the viscous liquid, and the following trouble can not be avoided.

In the case of performing the nozzle coating operation using the discharge nozzle as the coating nozzle, the air that enters the flow path filled with the viscous liquid creates a portion in which the viscous liquid is discontinuous in the flow paths. Therefore, There is a point that Further, when filling operation is performed on the syringe from the discharge nozzle, the air contained in the viscous liquid flow path is mixed into the syringe as bubbles.

On the other hand, it has been necessary to form a so-called cartridge type plastic container so that the plastic container provided with the elongated flow path member can be replaced after the viscous liquid is discharged.

Patent Document 1: Japanese Patent Laid-Open Publication No. 1-188167 Patent Document 2: JP-A-2012-192343 Patent Document 3: JP-A-2012-223715

SUMMARY OF THE INVENTION The present invention has been made in view of the problems of the conventional dispenser such as a coating apparatus and the like, and it is possible to improve the followability of the sealing mounting structure of the joint portion joining the liquid pipe member and the elongated flow path member, And an object of the present invention is to provide an elongated flow path member and a plastic container and a viscous liquid discharge device which can completely prevent air from entering.

In order to solve the above problems, the elongated flow path member of the present invention is characterized in that the elongated flow path member of the present invention is made of a plastic material including a elongated flow path member attached to an opening portion of the plastic container main body to extend into the inside of the plastic container main body, The viscous liquid in the plastic container is discharged from the elongate flow path member by pressurization and the plastic container is replaced only after the viscous liquid is discharged, Wherein the elongated flow path member includes an upper end attachment portion detachably attached to the opening portion and having an outlet of an active material opening at a central portion thereof and an upper end attachment portion integrally formed with the upper end attachment portion so as to extend into the plastic container main body And when the viscous liquid is pressurized and discharged An elongated flow path member for forming a flow path of the viscous liquid and forming a flow path from at least a side surface thereof and an elongated flow path member formed to have at least a part of the outer periphery of the elongated flow path portion and capable of bending, .

It is preferable that the non-continuous flow path portion is composed of a plurality of discontinuous and independent gaps.

It is preferable that the non-continuous flow path portion is positioned at the upper end attachment portion side from the longitudinal center of the elongated flow path member.

It is preferable that the elongated flow path member is a tubular shape having at least one flow path hole on its side surface.

The plastic container of the present invention is a plastic container in which the elongate flow path member is attached to the plastic container main body.

It is preferable that the viscous liquid is a curable composition having a moisture-curable adhesive property or a curable composition having an oxygen-curable adhesive property.

The viscous liquid discharging apparatus of the present invention comprises a pressurizing tank, compressed air supply means for supplying compressed air into the pressurizing tank, a plastic container provided in the pressurizing tank, And a discharge nozzle means connected to the other end of the liquid transfer pipe means.

According to the present invention, it is possible to improve the followability with respect to the sealing mounting structure of the joint portion for joining the liquid pipe member and the elongated flow path member, and to prevent the intrusion of air at the joint portion, And a viscous liquid discharge device can be provided.

1 is a schematic perspective view showing one embodiment of a long channel member of the present invention.
Fig. 2 is a side explanatory view of Fig. 1. Fig.
3 is a schematic sectional view of a main part showing a state in which the elongated flow path member of Fig. 1 is attached to a plastic container body and used in a viscous liquid discharge apparatus.
4 is a schematic perspective view showing another embodiment of the elongated flow path member of the present invention.
5 is a schematic view showing a conventional dispensing apparatus for a viscous liquid.
6 is a schematic exploded cross-sectional view showing one embodiment of a conventional bonding structure.
Fig. 7 is a schematic view showing a conventional bonding structure, wherein Fig. 7 (a) is a plan view showing a state in which a cap member with a through hole and a fastening member are combined, Fig. 7 Fig. 3 is a schematic cross-sectional view showing a state in which a gap is formed at a joint portion, showing a joint structure in a state of being a discharge device.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description when read in conjunction with the accompanying drawings, in which: FIG. The same members are denoted by the same reference numerals.

1 to 3, reference numeral 10A denotes one example of the elongated flow path member according to the present embodiment. The elongated flow path member 10A according to the present embodiment is attached to the opening portion 14 of the plastic container main body 12 so as to extend into the inside of the plastic container main body 12, The viscous liquid in the plastic container 18 is discharged from the elongate flow path member 10A by the pressure and the viscous liquid 18A is discharged from the elongate flow path member 10A by the pressure, Is a long passage member used in a viscous liquid discharging apparatus in which only the plastic container 18 can be replaced after the discharging operation of the viscous liquid discharging apparatus.

The plastic container body 12 is formed of a plastic material having flexibility capable of collapsing by pressing, such as polyethylene or polypropylene, but soft polyethylene is particularly suitable for flexibility, economy, and ease of molding. An opening 14 is formed in an upper portion of the plastic container body 12. A viscous liquid can be filled in the plastic container main body 12.

5, when the viscous liquid is filled in the plastic container body 12, the pressure is applied from the outside of the plastic container body 12 to the viscous liquid discharge device The plastic container main body 12 is deformed and deformed by the pressure, and eventually it is collapsed so that the viscous liquid therein is pressurized and discharged from the opening portion 14 through the liquid pipe means. Tubes and pipes are suitable as the fluid conduit means. Teflon (registered trademark) is suitable as the material of the transfer pipe means.

As the viscous liquid, a viscous liquid having a viscosity of 5 to 500 Pa.s / 23 deg. C, preferably 10 to 100 Pa.s / 23 deg. C, more preferably 15 to 60 Pa.s / 23 deg. . As the viscous liquid, a curable composition having particularly adhesive properties is suitably used. Examples of the curable composition having adhesiveness include an adhesive, a sealing material, and a potting material. The tap-free time (TFT) of the viscous liquid is preferably in the range of 0 to 60 minutes, preferably 0 to 10 minutes, and more preferably 0 to 3 minutes. In the present embodiment, when the viscosity and the tag free time are applied to the viscous liquid of the above-mentioned range, a great effect of not being contaminated well as compared with the conventional product is achieved. As the curable composition having adhesiveness, a curable composition of room temperature curing type which can be cured at room temperature in contact with air such as a moisture curing type or an oxygen curable type is preferable, and in particular, a moisture curing type adhesive such as a modified silicone type, a polyurethane type, .

In Fig. 3, reference numeral 44 denotes a bonding structure used in the viscous liquid discharging apparatus. The bonding structure 44 is a structure which is bonded in a sealed state by the seal mounting means 46. The joining structure 44 is the same as the joining structure of the viscous liquid ejecting apparatus shown in Fig. 7 (b), except that the elongated flow path member 10A according to the present embodiment is attached. Therefore, detailed description of the elongated flow path member is omitted.

The elongated flow path member 10A is detachably attached to the opening portion 14 and has an upper end attaching portion 22A having an opening 20A at the center thereof, An elongated flow path portion 24A which is integrally attached to the top end attaching portion 22A and which forms a flow path of the viscous liquid when the viscous liquid is pressurized and discharged and which forms at least a flow path from the side surface, Continuous flow path portion 26A which is formed on at least a part of the outer periphery of the elongated flow path portion 24A. An opening end portion 27 is formed at the lower end of the elongated flow path member 10A.

The upper end attaching portion 22A has an inner peripheral wall 28A forming a flow passage of the liquid outlet 20A and an outer peripheral wall provided at a position spaced apart from the inner peripheral wall 28A by the support wall 30A (32A). 3 (b), the inner diameter of the inner peripheral wall 28A has a larger diameter than that of the lower portion and the upper end surface of the inner peripheral wall 28A has a tapered portion 34 inclined inward . The upper end of the outer peripheral wall 32A is bent outward to form an outer step portion 36. [ The elongated flow path member 10A can be detachably attached to the opening portion 14 by fitting the outer step portion 36 to the outer peripheral edge portion of the opening portion 14 of the plastic container body 12. [

1 to 3, the non-continuous flow passage portion 26A is composed of a plurality of discontinuous and independent gap portions 38A. The elongate flow path member 10A can be bent by the discontinuous flow path portion 26A, particularly as shown in Fig.

Also, in the illustrated example, the non-continuous flow path portion 26A is configured to be positioned at the upper end mounting portion 22A side than the longitudinal direction center of the elongate flow path member 24A. By positioning the non-continuous flow path portion 26A at the upper end mounting portion 22A side of the elongated flow path member 24A in the longitudinal direction center than the longitudinal direction center portion of the elongate flow path member 24A, 22A side, the following advantage is obtained.

In the examples of Figs. 1 to 3, the elongated flow path member 10A is an example of a tubular shape in which at least one flow path hole 40 is formed in the side surface. An annular projection 48 is provided in the vicinity of the upper end of the outer peripheral wall 32A of the elongated flow path member 10A to further improve the sealing property with the opening 14 of the plastic container body 12. [

As the material of the elongated flow path member according to the present embodiment, a plastic material such as polyethylene or polypropylene can be suitably used. In view of flexibility, economical efficiency, and moldability, flexible polyethylene is particularly suitable.

By incorporating the plastic container 18 having the elongated flow path member 10A attached to the plastic container main body 12 in a conventional viscous liquid discharge device as shown in Fig. 5, . That is, the viscous liquid discharging apparatus according to the present embodiment includes a pressurizing tank, compressed air supply means for supplying compressed air into the pressurizing tank, a plastic container 18 provided in the pressurizing tank, And a discharge nozzle means connected to the other end of the liquid pipe means. Among them, a coating apparatus for discharging the viscous liquid described in Patent Documents 1 to 3 can be applied to the pressurized tank, the compressed air supply means, the liquid pipe means and the discharge nozzle means.

The viscous liquid discharging apparatus according to the present embodiment may also be provided with a sealing communication means as described in Patent Document 3.

Next, an example in which the elongated flow path member according to the present embodiment is not a tubular body is shown in Fig.

4, the elongated flow path member 10B has an upper end attaching portion 22B detachably attached to the opening 14 and having an opening 20B at the center thereof, Which is integrally attached to the upper end attaching portion 22B so as to extend into the inside of the elongated flow path portion 22B and forms a viscous liquid flow path 23 when the viscous liquid is pressurized and discharged, (24B), and a non-continuous flow passage portion (26B) formed on at least a part of the outer periphery of the elongated flow passage portion (24B) and capable of bending. In the elongated flow path member 10B, the plate member 29 is formed in a cross shape to form the flow path 23.

In Fig. 4, the non-continuous flow passage portion 26B is composed of a plurality of discontinuous and independent gaps 38B. The elongate flow path member 10B can be bent by the discontinuous flow path portion 26B.

Also, in the illustrated example, the non-continuous flow passage portion 26B is configured to be positioned closer to the upper end mounting portion 22B than the longitudinal center of the elongate flow passage member 24B. The non-continuous flow path portion 26B is positioned on the upper end mounting portion 22B side of the elongated flow path member 24B in the longitudinal direction so that the bent portion is located at the upper end mounting portion 22B) side, the following advantage is obtained.

As the material of the elongated flow path member 24B, the same material as that of the elongated flow path member 24A described above can be used.

The upper end attaching portion 22B is disposed at a position spaced apart from the inner circumferential wall 28B forming the flow path 23a of the liquid outlet 20B by the support wall 30B from the inner circumferential wall 28B And has an installed outer peripheral wall 32B. The inner peripheral wall 28B forming the flow path 23a of the liquid outlet 20B provided in the upper end attaching portion 22B is cylindrical. The inner diameter of the inner peripheral wall 28B is larger than that of the lower portion and the upper end surface of the inner peripheral wall 28B is a tapered portion 34 inclined inward.

The upper end portion of the outer peripheral wall 32B is bent outward to form the outer step portion 36. [ The elongated flow path member 10B can be detachably attached to the opening portion 14 by fitting the outer step portion 36 to the outer peripheral edge portion of the opening portion 14 of the plastic container body 12. [ An annular projection is provided in the vicinity of the upper end of the outer peripheral wall 32B of the elongated flow path member 10B in order to improve the sealing property with the opening 14 of the plastic container body 12 skip).

Such a long channel member 10B is also incorporated in a conventional viscous liquid dispensing apparatus as shown in Fig. 5 as described above, thereby becoming a viscous liquid dispensing apparatus according to the present embodiment. It is preferable that the plastic container according to the present embodiment is transported in a state of being put in a corrugated cardboard box.

10A, 10B: elongated flow path member 12: plastic container body
14: opening 16: inner through hole
18: Plastic container 20A, 20B: Actuator outlet
22A, 22B: upper attachment portion 23, 23a:
24A, 24B: elongated flow path portions 26A, 26B: non-continuous flow path portions
27: opening end 28A, 28B: inner peripheral wall
29: Plate 30A, 30B: Support wall
32A, 32B: outer peripheral wall 34: tapered portion
36: outer step portion 38A, 38B:
40: channel hole 44: bonding structure
46: seal mounting means 48: annular projection
100: Conventional plastic container 102: Conventional elongated flow path member
104: transfer pipe means 106: pressure tank
108: air supply pipe 110: plastic container body
112: opening 112a: cylindrical side wall
112b: Male threaded portion 114: Top attachment portion
116 opening end 118 flow hole
120: elongated cylindrical body 122: elongated flow path
124: viscous liquid 126: seal mounting means
128: fixing member 130: insertion hole
132: cylindrical body 134: annular flange portion
136: Support step 138: Male thread
140: tapered portion 142: cap member with through-hole
144: Circular plate 146: Through hole
148: annular side wall 150: female thread portion
152: fastening member 154: center hole
156: cylindrical member 158: fastening female thread portion
159: Through-passage flow passage 160: Actuator outlet
162: inner peripheral wall 164: supporting wall
166: outer peripheral wall 168: tapered portion
170: Outer step G: Clearance

Claims (7)

Wherein a plastic container including a long channel member attached to an opening of the plastic container body so as to extend into the inside of the plastic container body and having an inner through hole in the longitudinal direction is provided in the pressurizing tank, Wherein the viscous liquid is discharged from the elongated flow path member by the action of the viscous liquid, and only the plastic container is replaced after the viscous liquid is discharged,
Wherein the elongated flow path member includes an upper end attachment portion detachably attached to the opening portion and having an outlet of an active material opening at a central portion thereof,
An elongated flow path portion integrally attached to the upper end attachment portion so as to extend into the inside of the plastic container body and forming a flow path of the viscous liquid when the viscous liquid is pressurized and discharged and forming a flow path from at least a side surface ,
And a bendable non-continuous flow path portion formed in at least a part of an outer periphery of the elongated flow path portion,
The elongated flow path member having an elongated flow path. The elongated flow path member according to claim 1, wherein the non-continuous flow path portion is composed of a plurality of discontinuous and independent gaps. The elongated flow path member according to claim 1 or 2, wherein the non-continuous flow path portion is located closer to the upper end attachment portion than a longitudinal center of the elongate flow path member. The elongated flow path member according to any one of claims 1 to 3, wherein the elongate flow path member is tubular with at least one flow path hole formed in its side surface. A plastic container in which the long channel member according to any one of claims 1 to 4 is attached to the plastic container body. 6. The plastic container according to claim 5, wherein the viscous liquid is a moisture-curable adhesive curable composition or an oxygen-curable adhesive curable composition. A compressed air supply means for supplying compressed air into the pressurizing tank; a plastic container according to Claim 5 or 6 provided in the pressurizing tank; and an outlet pipe means having one end communicating with the opening portion of the plastic container And a discharge nozzle means connected to the other end of the liquid transfer pipe means.

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