CN110712849A - All-round push type toothpaste tube - Google Patents

Abstract

The invention discloses an all-directional pressing type toothpaste tube, which comprises an outer cover, a tube body, a cover main body and a base, wherein the outer cover is provided with a first opening and a second opening; the method is characterized in that: the cover main body consists of a pressing cover, a pressing piece, an extension tube and an inner cover; the pressing cover is arranged at the upper end of the inner cover and is connected with the inner cover in a clamping manner; the pressing piece and the telescopic pipe form a pressing assembly; the pressing assembly is arranged inside the inner cover and is in interference connection with the inner cover; the pressing piece is arranged at the upper end of the telescopic pipe and is connected with the telescopic pipe in a clamping manner; a piston is arranged in the pipe body and is in interference connection with the pipe body; the invention utilizes the extension tube arranged in the tube body to realize the rebound effect of the toothpaste tube when being pressed, so as to form negative pressure and extrude the material body; a piston with a sealing column is used for pushing the material body to move and extrude in the toothpaste tube; utilize the press cap of installing in the lid main part to carry out the pressing of the material body, the toothpaste pipe is extruded to the material body of being convenient for, and easy operation is convenient, and the user of greatly making things convenient for uses.

Description

All-round push type toothpaste tube

Technical Field

The invention relates to a toothpaste tube, in particular to an all-dimensional pressing type toothpaste tube, and belongs to the technical field of application of daily chemical articles.

Background

Currently, in the field of daily chemical application, flexible tube packaging and pump type packaging bottles are generally adopted for packaging materials.

However, with the improvement of living standards and the improvement of technical standards of people, the requirements on the packaging structures of various daily necessities are higher and higher, the appearance of the existing hose extrusion type toothpaste tube is extremely old and cannot meet the aesthetic requirements of consumers on products, the toothpaste tube of the toothpaste tube bearing body is simpler in structure and more convenient to use as a necessary washing article in daily life of the consumers, and the requirements of the consumers can be met.

In order to meet the requirements of consumers, the toothpaste tube with the pump type structure is produced at the same time, the using method of the pump type toothpaste tube generally adopts a mode of pressing up and down, but the toothpaste tube used in the current market can not be directly cut off when the tube body is extruded, so that the exposed tube body is easy to be polluted due to the contact with air.

In order to improve the phenomenon, most manufacturers improve the structure of a pump type toothpaste tube, most of the structures of the existing toothpaste tubes are pressed by adopting a 45-degree oblique angle, and after a material body is extruded, the material body is cut off by a cutting structure arranged on the oblique pressing cover, but the pressing method of the structure easily causes hand pain and poor hand feeling, so that the pressing is difficult, the pressing mode cannot realize omnibearing extrusion, the extrusion mode is single, and the cleanness of the toothpaste tube is easily caused.

The problems and the defects of the pump toothpaste tube structure generally include that the pump body is not firmly connected with the tube body, the elasticity of the pump body is poor, the function is insufficient, the sealing performance is poor, the assembly is difficult, the piston is unstable, the pressing cannot be realized in all directions, and the like, and the using effect of the material body and the quality of the material body are seriously influenced by the defects.

Disclosure of Invention

In order to solve the problems and the defects, the invention provides the all-directional pressing type toothpaste tube which meets the requirements of consumers on the toothpaste tube.

In order to achieve the purpose, the invention adopts the technical scheme that:

an omnibearing push type toothpaste tube comprises an outer cover, a tube body, a cover main body and a base; the cover main body is arranged at the upper end of the pipe body and is connected with the pipe body buckling position; the outer cover is arranged on the outer side of the cover main body and is connected with the cover main body in a buckling position; the base is arranged at the bottom end part of the pipe body and is connected with the pipe body buckling position; the method is characterized in that: the cover main body consists of a pressing cover, a pressing piece, an extension tube and an inner cover; the pressing cover is arranged at the upper end of the inner cover and is connected with the inner cover in a clamping manner; the pressing piece and the telescopic pipe form a pressing assembly; the pressing assembly is arranged inside the inner cover and is in interference connection with the inner cover; the pressing piece is arranged at the upper end of the telescopic pipe and is connected with the telescopic pipe in a clamping manner; the piston is arranged in the pipe body and is in interference connection with the pipe body.

The end surface of the pressing cover is provided with a finger pressing position which is in an inclined arc shape; a liquid outlet is formed in one side of the finger pressing position; the liquid outlet is of a V-shaped trapezoidal structure and is arranged higher than the finger pressing position; the bottom end of the pressing cover is provided with an annular groove; a pressing pipe is arranged inside the annular groove and connected with the telescopic pipe; a pressing column is arranged inside the pressing pipe; the pressing column is connected with the pressing piece in a pressing mode.

The pressing piece is further improved to be composed of a cylinder, a disc and a connecting clamping piece; the disc is arranged at the upper end part of the cylinder and is connected with the cylinder into an integral structure; the connecting clamping piece is arranged at the lower end part of the cylinder and is connected with the cylinder into an integral structure.

In a further improvement, the inner cover comprises a cover body; the upper end part of the cover body is provided with a circular groove which is a first circular groove; a circular ring used for connecting the telescopic pipe is arranged in the middle of the cover body; a flow guide pipe is arranged in the circular ring; the honeycomb duct is embedded in the telescopic pipe.

In a further improvement, a connecting piece is arranged at the end part of the pipe body; the connecting piece is connected with the silica gel valve; the upper end of the connecting piece is provided with a flow guide pipe which is a first flow guide pipe, and the first flow guide pipe is connected with the telescopic pipe.

The improvement is further that the silica gel valve consists of a valve body, a valve column and a clamping block; the valve body, the valve column and the clamping block are of an integrated structure; the valve column is arranged at the upper end part of the valve body and is connected with the valve body; the fixture block is arranged at the lower end part of the valve body and is connected with the valve body; the fixture block is provided with four grooves, and the cross section of the fixture block is in a cross shape.

The piston is further improved, and consists of a plug body, an upper skirt edge, a lower skirt edge and a connecting column, wherein the upper skirt edge is arranged at the upper end part of the plug body; the lower skirt edge is arranged at the lower end part of the plug body; the connecting column is arranged at the central part inside the plug body; and a sealing column is arranged inside the connecting column.

The improvement is further that a small inner plug is arranged in the piston and is connected with the piston in a clamping manner; the small inner plug comprises an inner plug body; the upper end part of the inner plug body is provided with a circular groove, and a clamping column is arranged inside the circular groove; the clamping column is connected with a sealing column arranged in the piston.

Compared with the prior art, by adopting the scheme, the invention has the beneficial effects that: the elastic tube arranged in the tube body is utilized to realize the rebound effect of the toothpaste tube when being pressed, so that the inner cavity of the tube body forms negative pressure to extrude the material body; the piston with the sealing column is used for pushing the material body to move and extrude in the toothpaste tube, and meanwhile, the air exhaust of the material body during filling from the bottom is facilitated, so that the problem that the pressing of the material body in the tube is difficult due to the influence of air and the pollution of the material body by the air are avoided; the pressing of the body is performed by a press cap installed in the cap body, facilitating the body to be extruded out of the toothpaste tube.

Drawings

Fig. 1 is a schematic diagram of an explosive structure of the present invention.

Fig. 2 is a schematic view of the internal structure of the present invention.

Fig. 3 is a schematic view of the internal structure in another direction of the present invention.

Fig. 4 is a schematic structural view of the press cap of the present invention.

Fig. 5 is a schematic view of the structure of the bottom of the pressing cover in the present invention.

Fig. 6 is a schematic structural view of the pressing member in the present invention.

Fig. 7 is a schematic view of the structure of the inner cap in the present invention.

Fig. 8 is a schematic structural view of the tube body according to the present invention.

Fig. 9 is an enlarged view of a part of the tube body according to the present invention.

Fig. 10 is a schematic structural view of a silica gel valve in the present invention.

Fig. 11 is a schematic view of the piston structure of the present invention.

Fig. 12 is a schematic view of the structure of the small inner plug of the present invention.

Wherein, 1, an outer cover; 2. pressing the cover; 3. an inner cover; 4. a pressing member; 5. a telescopic pipe; 6. a silicone valve; 7. a pipe body; 8. a small inner plug; 9. a piston; 10. a base; 11. a connecting member.

2-1, pressing the position by fingers; 2-2, a liquid outlet; 2-3, pressing the column; 2-4, square groove blocks; 2-5, pressing the tube; 2-6, a ring groove; 2-7 and a limit structure.

3-1, a flow guide pipe; 3-2, a first circular groove; 3-3, a circular ring; 3-4, a cover body; 3-5 and a second circular groove.

4-1, cylindrical; 4-2, a disc; 4-3, a fan-shaped groove; 4-4, connecting clamping piece.

6-1, a valve column; 6-2, a valve body; 6-3, clamping blocks.

7-1, a first flow guide pipe; 7-2, buckling; 7-3, connecting groove.

8-1, clamping the column; 8-2, circular grooves; 8-3 and an inner plug body.

9-1, arranging an upper skirt; 9-2, a plug body; 9-3, lower skirt; 9-4, sealing the column; 9-5 and connecting columns.

Detailed Description

The invention is further illustrated with reference to the following figures and examples.

The invention is described by specific embodiments, which specifically include the following:

as shown in fig. 1-12, an all-directional pressing type toothpaste tube comprises an outer cap 1, a tube body 7, a cap body and a base 10.

The lid main part sets up in the upper end of body 7, and detains the position with body 7 and be connected, and is concrete, adopts the concave-convex formula to detain the position connected mode between lid main part and the body 7 and is connected.

The outer cover 1 is arranged on the outer side of the cover main body and is connected with the cover main body in a buckling position; specifically, the cover main body is connected with the outer cover 1 in a concave-convex buckling position connection mode; preferably, the outer cover 1 is a transparent outer cover or a solid-color outer cover, so as to enhance the aesthetic feeling of the toothpaste tube; meanwhile, the design of the outer cover 1 also facilitates the opening or closing of the toothpaste tube and prevents the material body from being polluted due to contacting with air.

The base 10 is arranged at the bottom end part of the pipe body 7 and is connected with the pipe body 7 in a buckling manner; specifically, the base 10 and the tube body 7 are connected in a detachable buckling position connection mode; through this design that increases base 10, reach steady effect when making the toothpaste pipe place, and also make the toothpaste pipe whole pleasing to the eye, can also prevent that foreign object from getting into body 7 simultaneously.

A piston 9 is arranged inside the tube body 7; the piston 9 is in interference fit with the pipe body 7; preferably, in the present invention, the tube 7 is a tube communicating vertically.

As shown in fig. 1, 2 and 3, the cover body is composed of a pressing cover 2, a pressing piece 4, a telescopic tube 5 and an inner cover 3 (see fig. 2 and 3 in detail); the pressing cover 2 is arranged at the upper end of the inner cover 3 and is connected with the inner cover 3 in a clamping manner; the pressing piece 4 and the extension tube 5 form a pressing assembly; the pressing component is arranged inside the inner cover 3 and is in interference connection with the inner cover 3; the pressing piece 4 is arranged at the upper end of the telescopic pipe 5 and is clamped and connected with the telescopic pipe 5; preferably, in the present invention, the extension tube 5 is an elastic rubber tube, and the elastic rubber tube is selected, so that the extension tube 5 can be extended up and down.

As shown in fig. 4 and 5, a finger pressing position 2-1 is provided on an end surface of the pressing cover 2, and the finger pressing position 2-1 is formed in an inclined arc shape so as to increase comfort of finger pressing.

A liquid outlet 2-2 is formed in one side of the finger pressing position 2-1; the liquid outlet 2-2 is in a V-shaped trapezoidal structure and is higher than the finger pressing position 2-1, so that liquid is conveniently extruded from the bottle.

The bottom end of the pressing cover 2 is provided with an annular groove 2-6; the snap connection between the push cap 2 and the inner cap 3 is realized by the annular grooves 2-6.

A pressing pipe 2-5 is arranged inside the annular groove 2-6, and the pressing pipe 2-5 is connected with the telescopic pipe 5; specifically, one end of the pressing pipe 2-5 is provided with a square groove block 2-4, and the pressing piece 4 is inserted into the square groove block 2-4 and is embedded into the pressing cover 2; the other end of the pressing piece 4 is embedded in the telescopic pipe 5, so that the connection between the pressing pipes 2-5 and the telescopic pipe 5 is realized.

A pressing column 2-3 is arranged inside the pressing pipe 2-5; the pressing column 2-3 is connected with the pressing piece 4 in a pressing way, namely when the pressing column 2-3 is pressed downwards, the pressing column can be connected with the pressing piece 4; when the pressing column 2-3 moves upward, it is separated from the pressing member 4.

As shown in fig. 6, the pressing piece 4 consists of a cylinder 4-1, a disc 4-2 and a connecting clamping piece 4-4; the disc 4-2 is arranged at the upper end part of the cylinder 4-1 and is connected with the cylinder 4-1 into an integral structure; the connecting clamping piece 4-4 is arranged at the lower end part of the column 4-1 and is connected with the column 4-1 into an integral structure; preferably, the connecting fastener 4-4 is a connecting fastener with four arc-shaped grooves, so that the connection between the pressing member 4 and the inner cap 3 can be better realized.

In order to better realize the clamping connection between the pressing piece 4 and the pressing cover 2, three fan-shaped grooves 4-3 are arranged at the bottom of the disc 4-2.

As shown in fig. 7, the inner lid 3 includes lid bodies 3-4; the upper end part of the cover body 3-4 is provided with a circular groove which is a first circular groove 3-2; the pressing piece 2 is embedded in the first circular groove 3-2 and is in interference connection with the first circular groove 3-2; a circular ring 3-3 is arranged in the middle of the cover body 3-4; the ring 3-3 is connected with the extension tube 5 and plays a role of pressing the extension tube 5 downwards; a flow guide pipe 3-1 is arranged in the circular ring 3-3; the draft tube 3-1 is embedded inside the extension tube 5.

Preferably, in the present invention, the cover 3-4 is a circular cover.

The lower end part of the cover body 3-4 is also provided with a circular groove which is a second circular groove 3-5; the extension tube 5 is embedded in the second circular groove 3-5, so that the connection between the inner cover and the extension tube 5 is realized.

As shown in fig. 8 and 9, the end of the tube 7 is provided with a connector 11; the silica gel valve 6 is arranged inside the connecting piece 11; specifically, the lower end part of the connecting piece 11 is provided with a connecting groove 7-3; the silica gel valve 6 is arranged in the connecting groove 7-3, and the upper end part of the connecting piece 11 is provided with two buckles 7-2; the silica gel valve 6 is clamped into the connecting piece 11 through the buckle 7-2, so that the extension tube 5 is connected with the tube body 7, and the connection between the cover main body and the tube body 7 is realized.

The upper end part of the connecting piece 11 is provided with a guide pipe which is a first guide pipe 7-1, and the first guide pipe 7-1 is embedded in the telescopic pipe 5 to realize the circulation of liquid in the pipe body 7 to the inside of the telescopic pipe 5.

As shown in fig. 10, the silicone valve 6 is composed of a valve body 6-2, a valve post 6-1 and a fixture block 6-3; the valve body 6-2, the valve column 6-1 and the fixture block 6-3 are of an integral structure; the valve column 6-1 is arranged at the upper end part of the valve body 6-2 and is connected with the valve body 6-2; the fixture block 6-3 is arranged at the lower end part of the valve body 6-2 and is connected with the valve body 6-2; the fixture block 6-3 is provided with four grooves, so that the cross section of the fixture block 6-3 is in a cross shape.

Preferably, the silica gel valve 6 is a sealing valve, specifically, a silica gel sealing valve; the material is thermoplastic elastomer.

As shown in fig. 2 and 3, a piston 9 is disposed in the tube 7 and is in interference connection with the tube 7.

As shown in fig. 11, the piston 9 is composed of a plug body 9-2, an upper skirt 9-1, a lower skirt 9-3 and a connecting column 9-5, wherein the upper skirt 9-1 is arranged at the upper end part of the plug body 9-2; the lower skirt edge 9-3 is arranged at the lower end part of the plug body 9-2; the connecting column 9-5 is arranged at the inner central part of the plug body 9-2; a sealing column 9-4 is arranged inside the connecting column 9-5.

A small inner plug 8 is further arranged inside the piston 9, and as shown in fig. 2 and 3, the small inner plug 8 is connected with the piston 9 in a clamping manner; the small inner plug 8 can be detached in the piston 9 as required, so that the replacement is convenient.

The small inner plug 8 comprises an inner plug body 8-3 (shown in fig. 12); the upper end part of the inner plug body 8-3 is provided with a circular groove 8-2, and a connecting column 9-5 in the piston 9 is clamped in the circular groove 8-2; a clamping column 8-1 is arranged inside the circular groove 8-2; the clamping column 8-1 is connected with a sealing column 9-4 arranged inside the piston 9.

In the invention, when the pressing cover 2 is pressed up and down, the volume of the silica gel valve 6 is changed, and the piston 9 moves up and down along with the silica gel valve 6, so that the material body is prevented from overflowing, and the action of the silica gel valve 6 is stable and smooth.

The top surface of the piston 9 is also provided with an exhaust hole (not marked in the figure), which is convenient for filling the material body from the bottom to play an exhaust role, effectively prevents the air in the pipe from influencing the pressing function, and prevents the material body from being polluted by the air.

In the embodiment of the invention, when the telescopic tube is used, the outer cover 1 is taken out, the finger pressing position 2-1 on the pressing cover 2 is pressed, the volume of the cavity in the telescopic tube 5 is reduced along with the downward movement of the pressing cover 2, and the material body flows out from the gap between the clamping blocks 6-3 in the silica gel valve 6, enters the first flow guide tube 7-1 and then flows into the telescopic tube 5; after pressing, the pressing cover 2 is released, the volume of the inner cavity of the extension tube 5 is recovered, the pressing is repeated, under the action of the elastic force of the extension tube 5, the inner cavity of the extension tube 5 forms negative pressure, and the material body enters the liquid outlet 2-2 through the extension tube 5; when the pressing cover 2 acts, the piston 9 is driven to move forwards, and liquid outlet is finished.

The invention utilizes the extension tube 5 arranged in the tube body to realize the rebound effect of the toothpaste tube when being pressed, so that the inner cavity of the tube body forms negative pressure to extrude the material body; the piston with the sealing column is used for pushing the material body to move and extrude in the toothpaste tube, and meanwhile, the air exhaust of the material body during filling from the bottom is facilitated, so that the problem that the pressing of the material body in the tube is difficult due to the influence of air and the pollution of the material body by the air are avoided; the pressing of the body is performed by a press cap installed in the cap body, facilitating the body to be extruded out of the toothpaste tube.

While specific embodiments of the invention have been described above, it will be appreciated by those skilled in the art that these are by way of example only, and that the scope of the invention is defined by the appended claims.

The present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make various modifications without creative efforts from the above-described conception, and fall within the scope of the present invention.

Claims (8)

1. An omnibearing push type toothpaste tube comprises an outer cover, a tube body, a cover main body and a base; the cover main body is arranged at the upper end of the pipe body and is connected with the pipe body buckling position; the outer cover is arranged on the outer side of the cover main body and is connected with the cover main body in a buckling position; the base is arranged at the bottom end part of the pipe body and is connected with the pipe body buckling position; the method is characterized in that: the cover main body consists of a pressing cover, a pressing piece, an extension tube and an inner cover; the pressing cover is arranged at the upper end of the inner cover and is connected with the inner cover in a clamping manner; the pressing piece and the telescopic pipe form a pressing assembly; the pressing assembly is arranged inside the inner cover and is in interference connection with the inner cover; the pressing piece is arranged at the upper end of the telescopic pipe and is connected with the telescopic pipe in a clamping manner; the piston is arranged in the pipe body and is in interference connection with the pipe body.

2. The all-round push type toothpaste tube of claim 1, wherein: a finger pressing position is arranged on the end face of the pressing cover and is in an inclined arc shape; a liquid outlet is formed in one side of the finger pressing position; the liquid outlet is of a V-shaped trapezoidal structure and is arranged higher than the finger pressing position; the bottom end of the pressing cover is provided with an annular groove; a pressing pipe is arranged inside the annular groove and connected with the telescopic pipe; a pressing column is arranged inside the pressing pipe; the pressing column is connected with the pressing piece in a pressing mode.

3. The all-round push type toothpaste tube of claim 1, wherein: the pressing piece consists of a cylinder, a disc and a connecting clamping piece; the disc is arranged at the upper end part of the cylinder and is connected with the cylinder into an integral structure; the connecting clamping piece is arranged at the lower end part of the cylinder and is connected with the cylinder into an integral structure.

4. The all-round push type toothpaste tube of claim 1, wherein: the inner cover comprises a cover body; the upper end part of the cover body is provided with a circular groove which is a first circular groove; a circular ring used for connecting the telescopic pipe is arranged in the middle of the cover body; a flow guide pipe is arranged in the circular ring; the honeycomb duct is embedded in the telescopic pipe.

5. The all-round push type toothpaste tube of claim 1, wherein: the end part of the pipe body is provided with a connecting piece; the connecting piece is connected with the silica gel valve; the upper end of the connecting piece is provided with a flow guide pipe which is a first flow guide pipe, and the first flow guide pipe is connected with the telescopic pipe.

6. The all-round push type toothpaste tube of claim 1, wherein: the silica gel valve consists of a valve body, a valve column and a clamping block; the valve body, the valve column and the clamping block are of an integrated structure; the valve column is arranged at the upper end part of the valve body and is connected with the valve body; the fixture block is arranged at the lower end part of the valve body and is connected with the valve body; the fixture block is provided with four grooves, and the cross section of the fixture block is in a cross shape.

7. The all-round push type toothpaste tube of claim 1, wherein: the piston consists of a plug body, an upper skirt edge, a lower skirt edge and a connecting column, wherein the upper skirt edge is arranged at the upper end part of the plug body; the lower skirt edge is arranged at the lower end part of the plug body; the connecting column is arranged at the central part inside the plug body; and a sealing column is arranged inside the connecting column.

8. The all-directional pressing type toothpaste tube according to claim 1 or 7, wherein: a small inner plug is arranged inside the piston and is connected with the piston in a clamping way; the small inner plug comprises an inner plug body; the upper end part of the inner plug body is provided with a circular groove, and a clamping column is arranged inside the circular groove; the clamping column is connected with a sealing column arranged in the piston.

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