CN215842614U - Double-component liquid material container - Google Patents

Abstract

The utility model discloses a bi-component liquid material container, which comprises a storage tank, wherein a first feeding hole and a second feeding hole are formed in the top of the storage tank, the first feeding hole and the second feeding hole are respectively communicated to a first material cavity and a second material cavity in the storage tank, a stirring device is arranged on the axis of the storage tank, the stirring device comprises a stirring shaft and stirring clapboards which are arranged on the stirring shaft in pairs, the first material cavity and the second material cavity are separated by the material clapboards and the stirring clapboards, the bi-component liquid material container can simultaneously and independently store two-component liquid materials according to a dosage standard, the two-component liquid materials can be mixed in the storage tank when in use, a third container is not needed for mixing and using conveniently and quickly, the instant use is realized, construction waste can be effectively reduced, partial working procedures are omitted, and the construction efficiency can be improved to a certain extent.

Description

Double-component liquid material container

Technical Field

The utility model relates to the technical field of liquid material storage, in particular to a double-component liquid material container.

Background

The bi-component liquid material is a material which can be used after the bi-component is packaged separately and the bi-component is mixed in an accurate proportion before use. The two components must be used within a limited time after mixing, and after the time limit, the two components cannot be used and become waste products. This brings great inconvenience to the construction, and to solve this problem, a separate storage is employed, and mixing is performed when waiting for use, to ensure use during the activation period.

However, most of the liquid materials of two components and more components are separately packaged in the market at present, and in actual use, a third container needs to be found and mixed according to the proportion of a specification, so that the burden of actual construction is increased, and due to the condition limitation of a construction site, the mass and the volume of the materials cannot be accurately measured in most of the time, only a rough estimation can be carried out by visual observation, so that the service life of a mixed product is reduced or the use feeling is poor due to the fact that the materials cannot be accurately mixed according to the formula.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems, the inventor provides a bi-component liquid material container which is used for opening a cover of a bi-component material to be used without occupying a third container for mixing, so that the using and construction time is saved, the complex degree of a construction link is reduced, and the accurate mixing according to a formula is realized.

Specifically, the present invention is realized by:

the utility model provides a bi-component liquid material container, includes the storage tank, the storage tank top is provided with first feed inlet and second feed inlet, first feed inlet and second feed inlet communicate respectively to inside first material chamber and the second material chamber of storage tank, be provided with agitating unit on the axis of storage tank, agitating unit includes the (mixing) shaft and sets up in pairs epaxial stirring baffle is stirred, first material chamber and second material chamber pass through the material baffle with stirring baffle separates.

Further, the material partition plates and the stirring partition plates are all provided with a plurality of pairs, the material partition plates and the stirring partition plates are arranged in a staggered mode along the axis direction, and the stirring partition plates are arranged at the bottom end of the stirring shaft.

Further, the top end of the stirring shaft extends out of the material storage tank and is connected with the wheel disc; the inside main shaft that removes along the axis direction that is provided with of (mixing) shaft, be provided with resilient means and draw-in groove on the main shaft, the inside telescopic machanism that is provided with of stirring baffle, telescopic machanism is close to the one end of storage tank inner wall is provided with movable tenon, movable tenon stretches out stirring baffle, storage tank inner wall relevant position department is provided with the tongue-and-groove, under the user state, the telescopic machanism card is gone into in the draw-in groove, movable tenon withdraws from the tongue-and-groove.

Further, the rebound mechanism comprises: the setting is in the first spring on main shaft top sets up the second spring of main shaft bottom is in with the setting the main shaft stretches out the spring switch of storage tank one end, the relevant position department of (mixing) shaft is provided with the bayonet socket, the spring switch joint is in on the bayonet socket, the elasticity of first spring is greater than the elasticity of second spring, under the non-user state, first spring is in compression state.

Further, telescopic machanism includes first hollow tube and second hollow tube, the second hollow tube insert in the first hollow tube, and with first hollow tube sliding connection, be provided with the closure plate in the first hollow tube, be provided with the third spring between closure plate and the second hollow tube, the both ends of third spring respectively with closure plate and second hollow tube fixed connection, the activity tenon is located the one end of second hollow tube is kept away from to first hollow tube, under the non-use state, the second hollow tube is located draw-in groove below.

Further, a sealing layer is arranged at the contact position of the material partition plate and the stirring shaft, and a sealing layer is also arranged in the mortise.

Further, a buckle is arranged at the position of the bayonet.

Furthermore, scales are arranged on the outer walls of the first material cavity and the second material cavity.

The working principle of the utility model is as follows:

when the stirring shaft is used, a spring switch is pressed, because the elastic force of a first spring is greater than that of a second spring, the spindle moves downwards under the action of the first spring, when the first spring is balanced with the second spring, the second hollow tube is just opposite to the clamping groove, at the moment, the second hollow tube loses the force of the spindle for the second hollow tube towards the first hollow tube, namely, the third spring loses the pressure towards the first hollow tube, the third spring releases towards the spindle direction instantly, then the spring restores balance, the center of the spring moves towards the spindle direction, the first hollow tube is pulled, the movable tenon retracts, the tenon withdraws from the mortise, the first material cavity and the second material cavity are communicated with each other through the mortise, and then the stirring shaft is rotated through the wheel disc to drive the stirring partition plate to rotate, so that the two liquid materials are mixed.

Compared with the prior art, the utility model has the beneficial effects that:

(1) the two-component liquid material container provided by the utility model can independently store two-component liquid materials according to the dosage standard, and the two-component liquid materials are mixed in the material storage tank when in use, so that a third container is not needed for mixing, and the use is convenient and quick.

(2) The construction method has the advantages that the method can be used immediately after being opened, construction waste can be effectively reduced, partial procedures are omitted, and the construction efficiency can be improved to a certain extent.

(3) The material quantity is displayed through the scales, the materials can be accurately loaded according to the formula quantity, and certain proportioning precision is guaranteed.

Drawings

FIG. 1 is a schematic view showing the construction of a two-component liquid material container in example 1;

FIG. 2 is a schematic top view showing the construction of a two-component liquid material container according to example 1;

FIG. 3 is a view showing a state of use of a two-component liquid material container in example 1;

FIG. 4 is a cross-sectional view of the two-component liquid material container in example 1 in a non-use state;

fig. 5 is a sectional view of the two-component liquid material container in the use state in example 1.

Reference numerals:

1-a material storage tank; 11-a first feed port; 12-a second feed port; 13-a first material chamber; 14-a second material chamber; 15-graduation; 16-a tongue and groove; 2-stirring shaft; 21-a main shaft; 211-card slot; 22-a first spring; 23-a second spring; 24-a spring switch; 3-stirring the clapboard; 31-a first hollow tube; 32-a second hollow tube; 33-plugging plate; 34-a third spring; 35-movable tenon; 4-material partition board; 5-a wheel disc; 6-buckling; 7-sealing layer.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

Example 1

As shown in fig. 1 to 5, the present invention provides a two-component liquid material container, which includes a material storage tank 1, a first material inlet 11 and a second material inlet 12 are disposed at the top of the material storage tank 1, both the first material inlet 11 and the second material inlet 12 are provided with a cover, the first material inlet 11 and the second material inlet 12 are respectively communicated to a first material chamber 13 and a second material chamber 14 inside the material storage tank 1, preferably, the material storage tank 1 is made of transparent or semitransparent material, scales 15 are disposed on the outer walls of the first material chamber 13 and the second material chamber 14, the material amounts in the first material chamber 13 and the second material chamber 14 can be accurately controlled through the scales 15, and accurate charging can be achieved according to the formula ratio of the two materials. First feed inlet 11 and second feed inlet 12 are used for material producer to carry out the material filling on the one hand, and on the other hand when needing to take two kinds of materials a small amount, can pour the material, avoids the material extravagant. Be provided with agitating unit on the axis of storage tank 1, agitating unit includes (mixing) shaft 2, sets up stirring baffle 3 on (mixing) shaft 2 in pairs and is located the rim plate 5 at (mixing) shaft 2 top, (mixing) shaft 2 top and stretches out storage tank 1, drives (mixing) shaft 2 through rotating rim plate 5 and rotates, and then drives stirring baffle 3 and stir to mix two kinds of materials. In the non-use state, the first material chamber 13 and the second material chamber 14 are separated by the material partition plate 4 and the stirring partition plate 3. The contact position of the material partition plate 4 and the stirring shaft 2 is provided with a sealing layer 7 for preventing liquid materials in the first material cavity 13 and the second material cavity 14 from leaking, so that the two materials are mixed and dissolved in advance. In this embodiment, material baffle 4 and stirring baffle 3 all are provided with two pairs, and material baffle 4 and stirring baffle 3 are along axis direction staggered arrangement, and for guaranteeing the mixed effect, (mixing) shaft 2 bottommost sets up to stirring baffle 3.

Further, the inside main shaft 21 that can follow the axis direction and remove that is provided with of (mixing) shaft 2, be provided with resilience mechanism and draw-in groove 211 on the main shaft 21, the inside telescopic machanism that is provided with of stirring baffle 3, the one end that telescopic machanism is close to 1 inner wall of storage tank is provided with movable tenon 35, movable tenon 35 stretches out stirring baffle 3, 1 inner wall relevant position department of storage tank is provided with the tongue-and-groove 16 with movable tenon 35 matched with, be provided with the sealing layer 7 that is used for preventing the material seepage in the tongue-and-groove 16.

Wherein, resilient mechanism includes: the setting is at the first spring 22 on main shaft 21 top, and the second spring 23 that sets up in the main shaft 21 bottom stretches out the spring switch 24 of storage tank 1 one end with the setting at main shaft 21, and the relevant position department of (mixing) shaft 2 is provided with bayonet socket (not shown), and the spring switch 24 joint is on the bayonet socket, and bayonet socket position department joint has buckle 6, and buckle 6 is used for protecting spring switch 24, avoids transportation or removal in-process mistake to touch spring switch 24, causes the mixing in advance of material. The elastic force of the first spring 22 is greater than the elastic force of the second spring 23, and the first spring 22 is in a compressed state in the non-use state. By pressing the spring switch 24, the spring switch 24 is withdrawn from the limit state, so that the first spring 22 is released, the main shaft 21 moves downwards, and the balance state is finally achieved under the interaction of the first spring 22 and the second spring 23. The telescopic mechanism comprises a first hollow tube 31 and a second hollow tube 32, the second hollow tube 32 is inserted into the first hollow tube 31 and is in sliding connection with the inner wall of the first hollow tube 31, a blocking plate 33 is arranged in the first hollow tube 31, a third spring 34 is arranged between the blocking plate 33 and the second hollow tube 32, two ends of the third spring 34 are respectively fixedly connected with the blocking plate 33 and the second hollow tube 32, a movable tenon 35 is located at one end, away from the second hollow tube 32, of the first hollow tube 31, the second hollow tube 32 is located below a clamping groove 211 in a non-use state, the second hollow tube 32 extrudes the third spring 34, and under the action of the third spring 34, the movable tenon 35 is abutted out and clamped into the mortise 16 to achieve sealing. When the main shaft 21 moves downwards to a balanced state, the third spring 34 is released instantly to eject the second hollow tube 32 into the clamping groove 211, meanwhile, after the third spring 34 releases the elastic force towards the main shaft 21, the balance is restored, the central point moves towards the main shaft 21, the first hollow tube 31 is further driven to move towards the stirring shaft 2, the movable tenon 35 is retracted, the movable tenon 35 is separated from the mortise 16, and the liquid materials in the first material cavity 13 and the second material cavity 14 are mixed with each other.

The present invention has been described in terms of specific examples, which are provided to aid understanding of the utility model and are not intended to be limiting. For a person skilled in the art to which the utility model pertains, several simple deductions, modifications or substitutions may be made according to the idea of the utility model.

Claims (8)

1. The utility model provides a bi-component liquid material container, includes storage tank (1), its characterized in that, storage tank (1) top is provided with first feed inlet (11) and second feed inlet (12), first feed inlet (11) and second feed inlet (12) communicate respectively to inside first material chamber (13) and second material chamber (14) of storage tank (1), be provided with agitating unit on the axis of storage tank (1), agitating unit includes (mixing) shaft (2) and sets up in pairs stirring baffle (3) on (mixing) shaft (2), first material chamber (13) and second material chamber (14) through material baffle (4) with stirring baffle (3) separate.

2. The two-component liquid material container according to claim 1, wherein the material partition plates (4) and the stirring partition plates (3) are provided with a plurality of pairs, the material partition plates (4) and the stirring partition plates (3) are arranged in a staggered manner along the axial direction, and the stirring partition plates (3) are arranged at the lowest end of the stirring shaft (2).

3. The two-component liquid material container according to claim 1 or 2, wherein the top end of the stirring shaft (2) extends out of the storage tank (1) and is connected with the wheel disc (5); (mixing) shaft (2) inside main shaft (21) that is provided with along the axis direction and removes, be provided with resilience mechanism and draw-in groove (211) on main shaft (21), stirring baffle (3) inside is provided with telescopic machanism, telescopic machanism is close to the one end of storage tank (1) inner wall is provided with movable tenon (35), activity tenon (35) are stretched out stirring baffle (3), storage tank (1) inner wall relevant position department be provided with movable tenon (35) matched with tongue-and-groove (16), under the user state, telescopic machanism card is gone into in draw-in groove (211), activity tenon (35) withdraw from tongue-and-groove (16).

4. A two-component liquid material container according to claim 3, wherein said resilient mechanism comprises: the setting is in first spring (22) on main shaft (21) top sets up second spring (23) and the setting of main shaft (21) bottom are in main shaft (21) stretches out spring switch (24) of storage tank (1) one end, the relevant position department of (mixing) shaft (2) is provided with the bayonet socket, spring switch (24) joint is in on the bayonet socket, the elasticity of first spring (22) is greater than the elasticity of second spring (23), under the non-use state, first spring (22) are in compression state.

5. The two-component liquid material container according to claim 4, wherein the telescopic mechanism comprises a first hollow tube (31) and a second hollow tube (32), the second hollow tube (32) is inserted into the first hollow tube (31) and is slidably connected with the first hollow tube (31), a blocking plate (33) is arranged in the first hollow tube (31), a third spring (34) is arranged between the blocking plate (33) and the second hollow tube (32), two ends of the third spring (34) are respectively fixedly connected with the blocking plate (33) and the second hollow tube (32), the movable tenon (35) is located at one end of the first hollow tube (31) far away from the second hollow tube (32), and in a non-use state, the second hollow tube (32) is located below the clamping groove (211).

6. A container for two-component liquid materials according to claim 3, wherein a sealing layer (7) is provided at the position where the material partition (4) contacts the stirring shaft (2), and a sealing layer (7) is also provided in the mortise (16).

7. Two-component liquid material container according to claim 4, wherein a snap (6) is provided at the bayonet location.

8. Two-component liquid material container according to claim 1, characterized in that the outer walls of the first material chamber (13) and the second material chamber (14) are provided with graduations (15).

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