CN218022304U - Two-component pipe packaging device - Google Patents

Abstract

The utility model relates to a two components dress pipe ware, include: the double-tube charging barrel is provided with a first material groove and a second material groove; the first material pushing piston and the second material pushing piston are used for extruding materials in the first material groove and the second material groove; the first discharging pipe and the second discharging pipe are used for discharging; the first valve and the second valve are used for controlling the opening and closing of the first discharging pipe and the second discharging pipe. The double-tube charging barrel can be used for quickly filling small-batch double-component gel, the equipment is simple to operate, convenient to operate, small in size, good in portability and convenient to produce, the double-tube charging barrel, the first discharging pipe and the second discharging pipe can be detached and respectively cleaned independently, and the cleaning time of the equipment can be shortened; the materials in the first material groove and the second material groove can be almost extruded out, and waste materials generated in the filling process of the double-component gel can be reduced. Through gear drive and lead screw transmission structure, it is more laborsaving to wave twist grip, forms continuous charging pressure to the interior material of double-barrelled feed cylinder, realizes quick packing, continuity of operation and intensive filling.

Description

Two-component pipe packaging device

Technical Field

The utility model relates to a filling technical field of gel class product especially relates to a two component tubulators.

Background

At present, in order to facilitate the use of a two-component gel product in mechanical production, the two-component gel needs to be packaged (the two-component gel is filled into a two-component material tube) so as to be easy for mechanical operation. The equipment that two ingredient gel tubulations were used in the correlation technique is generally bulky, be applicable to the tubulation of a large amount of gels, and in the in-service use, need use a small amount of gels occasionally, if still use traditional two ingredient gel tubulation equipment, can bring some troubles when the filling gel, can have a lot of wastes material to remain among the pipeline of equipment, not only difficult clearance, still can produce a lot of unnecessary wastes material, even when a small amount of filling, the material that the waste material was managed than the reality still more condition can appear, it is necessary to develop the equipment of filling fast of two ingredient gels of small batch.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem that the waste materials are too much that two ingredient gel tubulation equipment cleared up the difficulty and produced when the small batch volume filling gel among the prior art, the utility model provides a two ingredient tubulation wares.

The application provides a two-component tubulator adopts following technical scheme: a two-component tubing set comprising:

the double-tube charging barrel is provided with a first material groove and a second material groove which are respectively used for containing materials of two components;

the first material pushing piston and the second material pushing piston are respectively arranged in the first material groove and the second material groove;

the pushing piston driving mechanism is used for driving the first pushing piston and the second pushing piston to move so as to extrude the materials in the first material groove and the second material groove;

the first discharging pipe and the second discharging pipe are detachably arranged on the double-pipe charging barrel, the first discharging pipe is used for discharging of the first material groove, and the second discharging pipe is used for discharging of the second material groove;

the first valve is used for controlling the opening and closing of the first discharge pipe, and the second valve is used for controlling the opening and closing of the second discharge pipe.

By adopting the technical scheme: the double-tube charging barrel can be used for quickly filling small-batch double-component gel, the equipment is simple to operate, convenient to operate, small in size, good in portability and convenient to produce, the double-tube charging barrel, the first discharging pipe and the second discharging pipe can be detached and respectively cleaned independently, and the cleaning time of the equipment can be shortened; the materials in the first material groove and the second material groove can be almost extruded out, and waste materials generated in the filling process of the double-component gel can be reduced.

Preferably, the first discharge pipe and the second discharge pipe are both arranged on the double-pipe charging barrel through threaded connection.

By adopting the technical scheme: the threaded connection mode is connected reliably, easy dismounting, and first discharging pipe and second discharging pipe can be cleared up alone after dismantling, and the simple structure of first discharging pipe and second discharging pipe clears up also more easily.

Preferably, the first pushing piston and the second pushing piston are both provided with exhaust valves.

By adopting the technical scheme: when the first material pushing piston is placed into the first material groove and the second material pushing piston is placed into the second material groove, part of air can be stored above the first material groove and the second material groove, the exhaust valve is opened at the moment (the first valve and the second valve are in a closed state), the first material pushing piston and the second material pushing piston are driven to move by the material pushing piston driving mechanism, when materials overflow from the exhaust valve, the exhaust valve can be closed, and at the moment, the air above the first material groove and the air above the second material groove are emptied.

Preferably, the first pushing piston and the second pushing piston are both provided with rubber sealing rings.

By adopting the technical scheme: the rubber sealing ring is used for ensuring the sealing performance of the first pushing piston, the second pushing piston and the double-tube material barrel and preventing material overflow from the matching gap between the first pushing piston and the second pushing piston.

Preferably, material pushing piston driving mechanism is including installation casing, twist grip, first gear, second gear, lead screw, screw-nut, lifter plate, first piston push rod and second piston push rod, twist grip rotatably sets up on the installation casing, the fixed medial extremity that sets up at twist grip of first gear, the lead screw rotatably sets up at the installation casing, the second gear is fixed to be set up on the lead screw, first gear and second gear intermeshing, screw-nut sets up on the lead screw, lifter plate and screw-nut fixed connection, first piston push rod and second piston push rod all set up at the lifter plate, the one end and the first material pushing piston fixed connection of first piston push rod, the one end and the second of second piston push rod push away material piston fixed connection.

By adopting the technical scheme: through hand twist grip, it is rotatory to drive first gear, and the second gear is with changeing, and the second gear drives the lead screw rotation, and lead screw drive screw-nut goes up and down, and the lifter plate goes up and down along with screw-nut, and first piston push rod and second piston push rod follow the lifter plate and go up and down again, and then promote first material piston and the second of pushing away and push away the material piston again, extrude the material in first silo and the second silo. Through gear drive and lead screw transmission structure, it is more laborsaving to wave twist grip, forms continuous charging pressure to the interior material of double-barrelled feed cylinder, realizes quick packing, continuity of operation and intensive filling.

Preferably, the fixed joint spare that is used for the double-barrelled feed cylinder of butt joint that is equipped with in installation casing bottom, be equipped with the joint hasp on the joint spare, the top of double-barrelled feed cylinder is equipped with the flange, the joint hasp can be gone into to the flange, makes double-barrelled feed cylinder detachably set up on the installation casing.

By adopting the technical scheme: the clamping piece enables the double-tube material barrel to be tightly combined with the installation shell, and the double-tube material barrel cannot fall off and shift when materials in the double-tube material barrel are extruded.

Preferably, the joint spare is equipped with the holding tank in joint hasp top, first material piston and the second of pushing away pushes away the material piston and can hold in the holding tank.

By adopting the technical scheme: first material piston and the second of pushing away pushes away when moving to the top, accomodates in the holding tank, like this when double-barrelled feed cylinder card income joint hasp, can not produce the interference, and first material piston and the second of pushing away pushes away the card that the material piston can not block double-barrelled feed cylinder and blocks into.

Preferably, the clamping piece is further provided with a limit stop for limiting the relative position of the mounting shell and the double-tube charging barrel after clamping.

By adopting the technical scheme: when the mounting shell and the double-tube charging barrel are aligned, the first pushing piston can smoothly enter the first trough, and the second pushing piston can smoothly enter the second trough.

Preferably, the number of teeth of the first gear is smaller than the number of teeth of the second gear.

By adopting the technical scheme: the transmission ratio is less than one, and the labor is saved when the rotating handle is shaken.

Preferably, the first valve is arranged at the discharge end of the first discharge pipe and the second valve is arranged at the discharge end of the second discharge pipe.

By adopting the technical scheme: the first valve and the second valve are used for ensuring that materials cannot overflow and flow when being loaded into the first material groove and the second material groove.

To sum up, the utility model discloses a following at least one useful technological effect:

1. the double-tube charging barrel can be used for realizing the quick filling of small-batch double-component gel, the equipment is simple to operate, convenient to operate, small in size, good in portability and convenient to produce, the double-tube charging barrel, the first discharging pipe and the second discharging pipe can be detached and respectively cleaned independently, and the cleaning time of the equipment can be shortened; the materials in the first material groove and the second material groove can be almost extruded out, so that waste materials generated in the filling process of the bi-component gel can be reduced;

2. the rotary handle is manually rotated, and through a gear transmission and screw rod transmission structure, the rotary handle is more labor-saving to shake, continuous charging pressure is formed on materials in the double-tube charging barrel, and rapid charging, continuous operation and dense filling are realized;

3. the clamping piece enables the double-tube material barrel to be tightly combined with the installation shell, and the double-tube material barrel cannot fall off and shift when materials in the double-tube material barrel are extruded.

Drawings

FIG. 1 is a schematic diagram illustrating a docking operation of a two-component tube loader and a two-component tube according to an embodiment of the present application;

FIG. 2 is a perspective view of a two-component tube loader and a two-component tube according to an embodiment of the present disclosure;

FIG. 3 is a side view of the dual component tubing set and the filling of the dual component tubing of the present application;

FIG. 4 isbase:Sub>A sectional view taken along line A-A of FIG. 3;

FIG. 5 is a schematic diagram of the internal structure of the pushing piston driving mechanism according to the embodiment of the present application;

FIG. 6 is a schematic diagram illustrating an exploded view of a two-component tubing loader according to an embodiment of the present application;

FIG. 7 is a schematic view of the assembly of the dual barrel and the clip member according to the embodiment of the present application;

fig. 8 is a schematic structural diagram of the first pushing piston and the second pushing piston according to the embodiment of the present application.

In the figure, 10, a double cartridge; 11. a first trough; 12. a second trough; 13. a flange; 20. a first pushing piston; 21. an exhaust valve; 22. a rubber seal ring; 30. a second pusher piston; 31. an exhaust valve; 32. a rubber seal ring; 40. a pusher piston drive mechanism; 41. installing a shell; 42. rotating the handle; 43. a first gear; 44. a second gear; 45. a screw rod; 46. a feed screw nut; 47. a lifting plate; 48. a first piston pushrod; 49. a second piston pusher; 50. a first discharge pipe; 60. a second discharge pipe; 70. a first valve; 80. a second valve; 90. a clamping piece; 91. clamping and locking the buckle; 92. accommodating grooves; 93. a limit stop; 100. two-component material pipe.

Detailed Description

The present invention will be described in further detail with reference to fig. 1 to 8.

Referring to fig. 1, 2 and 4, the present invention discloses a two-component tubing set, comprising: the double-tube charging barrel 10 is provided with a first material groove 11 and a second material groove 12 which are respectively used for containing materials (gel) of two components; the first pushing piston 20 and the second pushing piston 30 are respectively arranged in the first trough 11 and the second trough 12; the pushing piston driving mechanism 40 is used for driving the first pushing piston 20 and the second pushing piston 30 to move so as to extrude the materials in the first material groove 11 and the second material groove 12; a first discharge pipe 50 and a second discharge pipe 60, which are detachably arranged on the double-pipe charging barrel 10, wherein the first discharge pipe 50 is used for discharging the first material groove 11, and the second discharge pipe 60 is used for discharging the second material groove 12; a first valve 70 and a second valve 80, the first valve 70 being used to control the opening and closing of the first tapping line 50 and the second valve 80 being used to control the opening and closing of the second tapping line 60.

Referring to fig. 3 and 4, the first valve 70 is provided at the discharge end of the first tapping pipe 50, and the second valve 80 is provided at the discharge end of the second tapping pipe 60. The first valve 70 and the second valve 80 are used to ensure that the material will not overflow when being loaded into the first trough 11 and the second trough 12.

Referring to fig. 6, the first discharge pipe 50 and the second discharge pipe 60 are both disposed on the double tube barrel 10 by screw connection. Threaded connection mode is connected reliably, easy dismounting, and first discharging pipe 50 and second discharging pipe 60 can be cleared up alone after dismantling, and first discharging pipe 50 and second discharging pipe 60's simple structure, the clearance is also easier.

The diameter of the first discharge pipe 50 and of the first discharge pipe 50 is slightly (approximately 1 mm) smaller than the diameter of the two-component pipe 100, and the length of the first discharge pipe 50 and of the first discharge pipe 50 should be greater than the length of the two-component pipe 100.

Referring to fig. 8, the first pushing piston 20 and the second pushing piston 30 are both provided with exhaust valves 21 and 31. When the first pushing piston 20 is pushed into the first trough 11 and the second pushing piston 30 is pushed into the second trough 12, part of air is stored above the first trough 11 and the second trough 12, at this time, the exhaust valves 21 and 31 are opened (the first valve 70 and the second valve 80 are in a closed state), the pushing piston driving mechanism 40 is used for driving the first pushing piston 20 and the second pushing piston 30 to move, when the materials overflow from the exhaust valves 21 and 31, the exhaust valves 21 and 31 can be closed, and at this time, the air above the first trough 11 and the second trough 12 is emptied. The first material pushing piston 20 and the second material pushing piston 30 are respectively provided with a rubber sealing ring 22 and a rubber sealing ring 32, and the rubber sealing rings 22 and the rubber sealing rings 32 are used for ensuring the sealing performance of the first material pushing piston 20 and the second material pushing piston 30 with the double-tube material barrel 10 and preventing material overflow from the matching gap between the first material pushing piston and the second material pushing piston.

Referring to fig. 4, 5 and 6, the pushing piston driving mechanism 40 includes an installation housing 41, a rotating handle 42, a first gear 43, a second gear 44, a screw 45, a screw nut 46, a lifting plate 47, a first piston push rod 48 and a second piston push rod 49, the rotating handle 42 is rotatably disposed on the installation housing 41, the first gear 43 is fixedly disposed at an inner end of the rotating handle 42, the screw 45 is rotatably disposed on the installation housing 41, the second gear 44 is fixedly disposed on the screw 45, the first gear 43 and the second gear 44 are engaged with each other, the screw nut 46 is disposed on the screw 45, the lifting plate 47 is fixedly connected with the screw nut 46, the first piston push rod 48 and the second piston push rod 49 are both disposed on the lifting plate 47, one end of the first piston push rod 48 is fixedly connected with the first pushing piston 20, and one end of the second piston push rod 49 is fixedly connected with the second pushing piston 30.

Referring to fig. 6, the number of teeth of the first gear 43 is smaller than that of the second gear 44. The transmission ratio is less than one, and the rotary handle 42 is more labor-saving to shake.

The first gear 43 is driven to rotate through hand cranking of the rotating handle 42, the second gear 44 rotates with the hand cranking, the second gear 44 drives the screw rod 45 to rotate, the screw rod 45 drives the screw rod nut 46 to lift, the lifting plate 47 lifts along with the screw rod nut 46, the first piston push rod 48 and the second piston push rod 49 lift along with the lifting plate 47, the first material pushing piston 20 and the second material pushing piston 30 are further pushed, and materials in the first material groove 11 and the second material groove 12 are extruded. Through gear drive and lead screw transmission structure, it is more laborsaving to wave twist grip 42, forms continuous charging pressure to the material in the double-barrelled feed cylinder 10, realizes filling fast, continuity of operation and intensive filling.

Referring to fig. 7, the bottom of the installation shell 41 is fixedly provided with a clamping part 90 for butting the double-tube material cylinder 10, the clamping part 90 is provided with a clamping lock catch 91, the top of the double-tube material cylinder 10 is provided with a flange 13, the flange 13 can be clamped into the clamping lock catch 91, so that the double-tube material cylinder 10 can be detachably arranged on the installation shell 41. The clamping piece 90 is provided with an accommodating groove 92 above the clamping lock catch 91, and the first pushing piston 20 and the second pushing piston 30 can be accommodated in the accommodating groove 92. The clamping member 90 is further provided with a limit stop 93 for limiting the relative position of the mounting housing 41 and the double-tube charging barrel 10 after clamping.

When the first pushing piston 20 and the second pushing piston 30 move to the uppermost ends, the first pushing piston 20 and the second pushing piston 30 are accommodated in the accommodating groove 92, so that interference is not generated when the double-tube material cylinder 10 is clamped into the clamping lock catch 91, and the first pushing piston 20 and the second pushing piston 30 do not block clamping of the double-tube material cylinder 10. When the mounting shell 41 and the double-tube charging barrel 10 are aligned, the first pushing piston 20 can smoothly enter the first trough 11, and the second pushing piston 30 can smoothly enter the second trough 12. The clamping member 90 enables the double cartridge 10 to be tightly coupled to the mounting case 41 and does not allow the double cartridge 10 to be dropped and displaced when materials in the double cartridge 10 are extruded.

The utility model discloses a use method as follows: the first and second outlet pipes 50, 60 are mounted on the double-pipe cartridge 10, and then the first and second valves 70, 80 are closed; filling two-component materials in a first material groove 11 and a second material groove 12 of a double-tube charging barrel 10, and after filling the two-component materials in the first material groove 11 and the second material groove 12 of the double-tube charging barrel 10, exhausting the materials, putting the double-tube charging barrel 10 into a vacuum machine for exhausting, wherein air in the materials can be exhausted from the materials, so that the double-component gel product after being filled in the tube is compact and cannot break the gel; the double-tube charging barrel 10 is clamped on a clamping piece 90 at the bottom of the mounting shell 41; opening exhaust valves 21 and 31 of the first pushing piston 20 and the second pushing piston 30, driving the first pushing piston 20 and the second pushing piston 30 to move by using a pushing piston driving mechanism 40, pushing the first pushing piston 20 into the first trough 11, pushing the second pushing piston 30 into the second trough 12, and closing the exhaust valves 21 and 31 when materials overflow from the exhaust valves 21 and 31, wherein air above the first trough 11 and the second trough 12 is emptied; the first discharging pipe 50 and the second discharging pipe 60 are inserted into the two-component material pipe 100, then the first valve 70 and the second valve 80 are opened, the first pushing piston 20 and the second pushing piston 30 are driven to move by the pushing piston driving mechanism 40, materials in the first material groove 11 and the second material groove 12 are extruded into the first discharging pipe 50 and the second discharging pipe 60, gel is filled from the bottom of the two-component material pipe 100, when enough gel is filled, the pushing piston driving mechanism 40 stops working, after filling is completed, the first valve 70 and the second valve 80 are closed, overflowing of the first discharging pipe 50 and the second discharging pipe 60 can be prevented, and then the two-component material pipe 100 is taken down and replaced by the empty two-component material pipe 100.

The double-tube charging barrel 10, the first discharging pipe 50 and the second discharging pipe 60 can be detached and respectively cleaned independently, and the cleaning time of equipment can be reduced; the materials in the first material groove 11 and the second material groove 12 can be almost extruded out, and waste materials generated in the process of filling the two-component gel can be reduced.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. A two-component tubing set, comprising:

the double-tube charging barrel (10) is provided with a first material groove (11) and a second material groove (12) which are respectively used for containing materials of two components;

the first material pushing piston (20) and the second material pushing piston (30) are respectively arranged in the first material groove (11) and the second material groove (12);

the pushing piston driving mechanism (40) is used for driving the first pushing piston (20) and the second pushing piston (30) to move so as to extrude the materials in the first material groove (11) and the second material groove (12);

the first discharging pipe (50) and the second discharging pipe (60) are detachably arranged on the double-pipe charging barrel (10), the first discharging pipe (50) is used for discharging of the first material tank (11), and the second discharging pipe (60) is used for discharging of the second material tank (12);

a first valve (70) and a second valve (80), the first valve (70) being used to control the opening and closing of the first discharge pipe (50), and the second valve (80) being used to control the opening and closing of the second discharge pipe (60).

2. Two-component tubing dispenser according to claim 1, wherein the first and second outlet tubing (50, 60) are each provided on the dual cartridge (10) by a threaded connection.

3. Two-component cartridge according to claim 1, wherein the first pushing piston (20) and the second pushing piston (30) are provided with vent valves (21, 31).

4. Two-component tubing loader according to claim 1, wherein the first pusher piston (20) and the second pusher piston (30) are fitted with rubber sealing rings (22, 32).

5. The two-component tubing loader of claim 1, wherein the pushing piston driving mechanism (40) comprises a mounting housing (41), a rotating handle (42), a first gear (43), a second gear (44), a screw (45), a screw nut (46), a lifting plate (47), a first piston push rod (48) and a second piston push rod (49), the rotating handle (42) is rotatably disposed on the mounting housing (41), the first gear (43) is fixedly disposed at an inner end of the rotating handle (42), the screw (45) is rotatably disposed on the mounting housing (41), the second gear (44) is fixedly disposed on the screw (45), the first gear (43) and the second gear (44) are engaged with each other, the screw nut (46) is disposed on the screw (45), the lifting plate (47) is fixedly connected with the screw nut (46), the first piston push rod (48) and the second piston push rod (49) are both disposed on the lifting plate (47), and one end of the first piston push rod (48) is fixedly connected with the first piston push rod (20) and one end of the second piston push rod (49) is fixedly connected with the second piston push rod (30).

6. Two-component tubing loader of claim 5, wherein a clip member (90) for butting the two-tube cartridge (10) is fixedly arranged at the bottom of the mounting housing (41), the clip member (90) is provided with a clip lock catch (91), the top of the two-tube cartridge (10) is provided with a flange (13), and the flange (13) can be clipped into the clip lock catch (91), so that the two-tube cartridge (10) can be detachably arranged on the mounting housing (41).

7. Two-component tubing loader according to claim 6, wherein the snap-in element (90) is provided with a receiving groove (92) above the snap-in catch (91), and the first pushing ram (20) and the second pushing ram (30) are receivable in the receiving groove (92).

8. Two-component tubing dispenser according to claim 6, wherein said snap-in member (90) is further provided with a limit stop (93) for defining the relative position of the mounting housing (41) and the dual cartridge (10) after snap-in.

9. A two-component hose dispenser according to claim 5, wherein the first gear wheel (43) has a smaller number of teeth than the second gear wheel (44).

10. Two-component tubing set according to claim 1, wherein the first valve (70) is arranged at the discharge end of the first discharge tube (50) and the second valve (80) is arranged at the discharge end of the second discharge tube (60).

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