CN218489057U - Bi-component material mixing extrusion device - Google Patents

Abstract

The utility model discloses a mixed extrusion device of bi-component material relates to material mixing technical field, including A material bucket, the rear side fixed connection B material bucket of A material bucket, the right-hand member of A material bucket and B material bucket are respectively through docking mechanism and the switch-on of advancing the rubber tube, and two feed inlets that advance the right-hand member of rubber tube and the left end of double helix correspond are put through, the right-hand member and the shower nozzle switch-on of double helix, outer wrapping tube is cup jointed on the outside surface of double helix, shower nozzle and joint pipe joint, the internal thread threaded connection that the screw thread that the side surface right part of joint pipe was seted up through the screw thread of seting up and the inside of adjusting the shower nozzle, the rear side surface switch-on intake pipe of joint pipe, pushing equipment is connected to the left end of A material bucket and B material bucket, pushing equipment is used for releasing the material in A material bucket and the B material bucket, increases the complexity of passageway in the mixing pipe, improves the motion frequency of material in the mixing pipe, improves mixing operation quality, can dismantle at will, convenient to use.

Description

Bi-component material mixing extrusion device

Technical Field

The utility model relates to a material mixing technical field specifically is a mixed extrusion device of bi-component material.

Background

The existing material mixing operation is usually performed on various materials through a mixing pipe, so that the materials are mixed in the conveying operation, a single spiral structure is usually adopted in the existing mixing pipe, the internal texture of the single spiral structure is relatively regular, the movement of the materials in the conventional mixing pipe is relatively regular, the mixing efficiency is general, and therefore, a double-component material mixing and extruding device is provided.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a mixed extrusion device of bi-component material, increase the complexity of passageway in the hybrid tube, improve the motion frequency of material in the hybrid tube, improve mixed operating mass, can dismantle at will, convenient to use can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a mixed extrusion device of bi-component material, includes A material bucket, the rear side fixed connection B material bucket of A material bucket, the right-hand member of A material bucket and B material bucket respectively through docking mechanism with advance the rubber tube switch-on, two feed inlet switches-on that the right-hand member of advancing the rubber tube corresponds with the left end of two spiral pipes, the right-hand member and the shower nozzle switch-on of two spiral pipes, outer bobbin is cup jointed on the outside surface of two spiral pipes, shower nozzle and joint pipe joint, the internal thread threaded connection that the screw thread that sets up and the inside of adjusting the shower nozzle were seted up through the side surface right part of joint pipe, the rear side surface switch-on intake pipe of joint pipe, the left end connection pushing equipment of A material bucket and B material bucket, pushing equipment is used for releasing the material in A material bucket and the B material bucket.

The double helix pipe is designed, so that the materials are mixed through the double helix pipe, the materials are forced to move in a chaotic manner through a complex channel, the quality of mixed work is improved, an adjusting spray head and an air inlet pipe are designed, mixed materials are scattered through the matching of the adjusting spray head and the air inlet pipe and then are sprayed out through the adjusting spray head, so that the materials are sprayed out in a powder fog manner, a clamping pipe is designed, the adjusting spray head is clamped on the spray head through the clamping pipe in a quick mode, the clamping pipe is convenient to detach, when the control device works, two different materials are firstly placed in an A material barrel and a B material barrel respectively, a rubber inlet pipe is connected with the A material barrel and the B material barrel through a butting mechanism, the materials in the A material barrel and the B material barrel are pushed into the rubber inlet pipe through a material pushing mechanism, after the materials are mixed and work in the pushing pipe, the materials are sprayed out through the double helix pipe, when the spraying form of the materials is changed, the clamping pipe is clamped on the spray head, the air inlet pipe is butted with an external high-pressure air pipe, and the mixed materials enter the clamping pipe and are sprayed out through high-pressure air.

Further, docking mechanism contains the glue outlet pipe, and the right side surface of A material bucket and B material bucket connects respectively the glue outlet pipe, and two glue outlet pipes pass the round hole that the left side of joint cover one was seted up respectively and extend to the inside of joint cover one, the left end fixed connection joint cover two of outer tubulation, two round holes that the left end that advances the glue pipe and pass the right-hand member of joint cover two and set up extend to the inside of joint cover two, and the glue outlet pipe docks with the corresponding glue inlet pipe, and joint cover one docks with joint cover two.

When butt joint is carried out, the second clamping cover is clamped according to the first clamping cover, and meanwhile, the rubber inlet pipe is driven to be inserted into the rubber outlet pipe to complete butt joint.

Further, pushing equipment contains the pneumatic tube, the pneumatic tube is connected with outside pneumatic pump, the right-hand member mount pad of pneumatic tube, and the inside front and back portion of pneumatic tube sets up the push rod, and the right-hand member of two push rods passes the round hole of seting up on the mount pad and extends to the right-hand member of mount pad to the fixed connection push pedal, the right-hand member equidistance fixed connection gag lever post of mount pad, the right-hand member of four gag lever posts respectively with the draw-in groove joint that the corresponding position was seted up on the fixed plate.

When the pushing mechanism is controlled to work, the material barrel A and the material barrel B are placed on the front side and the rear side of the mounting seat, the fixing plate is clamped with the right ends of the four limiting rods, so that the material barrel A and the material barrel B are fixed, the push rod is driven to move towards the right side through the air pressure, and the push plate is driven to push materials in the material barrel A and the material barrel B out through the rubber outlet pipe.

Compared with the prior art, the beneficial effects of the utility model are that: the mixing and extruding device for the two-component materials has the following advantages:

1. the double-spiral pipe is designed, so that the materials are mixed through the double-spiral pipe, the materials are forced to move in a chaotic manner through a complex channel, and the quality of the mixed work is improved;

2. designing an adjusting spray head and an air inlet pipe, so that the mixed material is scattered by air through the matching of the adjusting spray head and the air inlet pipe and then is sprayed out through the adjusting spray head, and the material is sprayed in a powder mist mode;

3. the clamping pipe is designed, so that the adjusting nozzle is clamped on the nozzle through the clamping pipe, and the disassembly is convenient.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the bottom view of the present invention;

FIG. 3 is a schematic view of the internal structure of the present invention;

fig. 4 is a schematic diagram of the side-view structure of the inside of the present invention.

In the figure: the device comprises a material barrel 1A, a material barrel 2B, a first clamping cover 3, a rubber outlet pipe 4, a second clamping cover 5, a rubber inlet pipe 6, a double spiral pipe 7, an outer wrapping pipe 8, a clamping pipe 9, an adjusting nozzle 10, an air inlet pipe 11, an air pressure pipe 12, a mounting seat 13, a push rod 14, a push plate 15, a limiting rod 16 and a fixing plate 17.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present embodiment provides a technical solution: a double-component material mixing and extruding device comprises a material barrel A1,A, wherein the rear side of the material barrel A1 is fixedly connected with a material barrel B2,A, the right ends of the material barrel B1 and the material barrel B2 are respectively communicated with a rubber inlet pipe 6 through a butt joint mechanism, the right ends of the two rubber inlet pipes 6 are communicated with a corresponding feed inlet at the left end of a double spiral pipe 7, the right end of the double spiral pipe 7 is communicated with a spray head, the outer side surface of the double spiral pipe 7 is sleeved with an outer wrapping pipe 8, the spray head is clamped with a clamping pipe 9, the right part of the side surface of the clamping pipe 9 is connected with an internal thread arranged inside an adjusting spray head 10 through an arranged thread, the rear side surface of the clamping pipe 9 is communicated with an air inlet pipe 11, the left ends of the material barrel A1 and the material barrel B2 are connected with a material pushing mechanism, and the material pushing mechanism is used for pushing out materials in the material barrel A1 and the material barrel B2.

The double helix 7 is designed, so that the materials are mixed through the double helix 7, the materials are forced to move in a chaotic manner through a complex channel, the quality of mixed work is improved, an adjusting spray head 10 and an air inlet pipe 11 are designed, mixed materials are scattered through air through the cooperation of the adjusting spray head 10 and the air inlet pipe 11 and then are sprayed out through the adjusting spray head 10, the materials are sprayed out in a powder fog mode, a clamping pipe 9 is designed, the adjusting spray head 10 is clamped to the spray head through the clamping pipe 9 quickly, the disassembly is convenient, when the control device works, two different materials are placed into an A material barrel 1 and a B material barrel 2 respectively, the rubber inlet pipe 6 is communicated with the A material barrel 1 and the B material barrel 2 through a butting mechanism, the materials in the A material barrel 1 and the B material barrel 2 are pushed into the rubber inlet pipe 6 through a material pushing mechanism, after the mixed work is pushed into the double helix 7, the materials are sprayed out through the spray heads, when the spraying form of the materials is changed, the clamping pipe 9 is clamped to the spray heads, the air inlet pipe 11 is butted with an external high-pressure air pipe, and the mixed materials enter the adjusting spray head 9 and then are sprayed out through the air.

The butt joint mechanism comprises rubber outlet pipes 4,A material barrels 1 and B material barrels 2, the right side surfaces of the rubber outlet pipes 4 are respectively connected with the right side surfaces of the material barrels 1 and the right side surfaces of the material barrels B2, the two rubber outlet pipes 4 respectively penetrate through round holes formed in the left sides of the first clamping covers 3 and extend to the inside of the first clamping covers 3, the left ends of the outer wrapping pipes 8 are fixedly connected with the second clamping covers 5, the left ends of the two rubber inlet pipes 6 penetrate through round holes formed in the right ends of the second clamping covers 5 and extend to the inside of the second clamping covers 5, the rubber outlet pipes 4 are in butt joint with the corresponding rubber inlet pipes 6, and the first clamping covers 3 are in butt joint with the second clamping covers 5.

When butt joint work is carried out, the second clamping cover 5 is pressed into the first clamping cover 3 to complete clamping, and meanwhile, the rubber inlet pipe 6 is driven to be inserted into the rubber outlet pipe 4 to complete butt joint.

The material pushing mechanism comprises a pneumatic tube 12, the pneumatic tube 12 is connected with an external pneumatic pump, a mounting seat 13 is mounted at the right end of the pneumatic tube 12, push rods 14 are arranged at the front and rear parts of the interior of the pneumatic tube 12, the right ends of the two push rods 14 penetrate through round holes formed in the mounting seat 13 and extend to the right end of the mounting seat 13, the push plates 15 are fixedly connected, limiting rods 16 are fixedly connected to the right end of the mounting seat 13 at equal intervals, and the right ends of the four limiting rods 16 are clamped with clamping grooves formed in corresponding positions on a fixing plate 17.

When the pushing mechanism is controlled to work, the material barrel A1 and the material barrel B2 are firstly placed on the front side and the rear side of the mounting seat 13, then the fixing plate 17 is clamped with the right ends of the four limiting rods 16, so that the material barrel A1 and the material barrel B2 are fixed, the push rod 14 is driven to move towards the right side through the pneumatic belt, and the push plate 15 is driven to push materials in the material barrel A1 and the material barrel B2 out through the rubber outlet pipe 4.

The utility model provides a pair of mixed extrusion device of bi-component material's theory of operation as follows:

firstly, the A material barrel 1 and the B material barrel 2 are placed on the front side and the rear side of the mounting seat 13, then the fixing plate 17 is clamped with the right ends of the four limiting rods 16, so that the A material barrel 1 and the B material barrel 2 are fixed, the push rod 14 is pushed to move towards the right side through the air pressure, the push plate 15 is driven to push the materials in the A material barrel 1 and the B material barrel 2 out through the rubber outlet pipe 4 and then pushed to the rubber inlet pipe 6, the mixed materials are pushed into the double spiral pipe 7 to be mixed and then are sprayed out through the spray head, when the spraying form of the materials is changed, the clamping pipe 9 is clamped to the spray head, the air inlet pipe 11 is butted with an external high-pressure air pipe, so that the mixed materials enter the clamping pipe 9 and are sprayed out through the adjusting spray head 10 after being scattered through the high-pressure air.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (3)

1. A device for mixing and extruding two-component materials, which is characterized in that: including A material bucket (1), rear side fixed connection B material bucket (2) of A material bucket (1), the right-hand member of A material bucket (1) and B material bucket (2) is respectively through docking mechanism and advancing rubber tube (6) switch-on, and the feed inlet switch-on that the right-hand member of two entering rubber tube (6) and the left end of two spiral tube (7) correspond, the right-hand member and the shower nozzle switch-on of two spiral tube (7), outer tube (8) are cup jointed to the outside surface of two spiral tube (7), shower nozzle and joint pipe (9) joint, the internal thread threaded connection that the inside of seting up of screw thread and regulation shower nozzle (10) was seted up through the side surface right part of joint pipe (9), the rear side surface switch-on intake pipe (11) of joint pipe (9), pushing equipment is connected to the left end of A material bucket (1) and B material bucket (2), pushing equipment is used for releasing the material in A material bucket (1) and B material bucket (2).

2. A mixing extrusion device for two-component materials according to claim 1, wherein: docking mechanism contains glue outlet pipe (4), and the right side surface of A material bucket (1) and B material bucket (2) connects through glue outlet pipe (4) respectively, and two glue outlet pipe (4) pass the round hole that the left side of joint cover (3) was seted up respectively and extend to the inside of joint cover (3), the left end fixed connection joint cover two (5) of outer tubulation (8), the round hole that the right-hand member that two (5) were seted up was passed to the left end of two glue inlet pipe (6) extend to the inside of joint cover two (5), and glue outlet pipe (4) docks with the glue inlet pipe (6) that correspond, and joint cover one (3) docks with joint cover two (5).

3. A mixing extrusion device for two-component materials according to claim 1, wherein: pushing equipment contains pneumatic tube (12), pneumatic tube (12) are connected with outside pneumatic pump, the right-hand member installation mount pad (13) of pneumatic tube (12), the inside front and back portion of pneumatic tube (12) sets up push rod (14), the right-hand member of two push rods (14) passes the round hole of seting up on mount pad (13) and extends to the right-hand member of mount pad (13) to fixed connection push pedal (15), right-hand member equidistance fixed connection gag lever post (16) of mount pad (13), the right-hand member of four gag lever posts (16) respectively with fixed plate (17) on the draw-in groove joint that the corresponding position was seted up.

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