CN107352153B - Shampoo bottle - Google Patents

Abstract

The invention provides a shampoo bottle, comprising: the bottle body is connected with a bottle neck at the top end, a compression cavity is formed in the bottle neck, a liquid guide tube positioned in the vertical direction is fixed on the bottle neck, one end of the liquid guide tube is communicated with the bottom of the bottle body, and the other end of the liquid guide tube extends into the compression cavity; a pressing cylinder penetrates into the compression cavity from the top of the bottle neck, the top end of the pressing cylinder is communicated with a liquid spray nozzle, the end part of the pressing cylinder, which is positioned in the compression cavity, is sleeved outside the liquid guide pipe and is communicated with the liquid guide pipe, and the liquid guide pipe guides the movement of the pressing cylinder in the vertical direction; the section of the catheter in the bottle body is provided with a first guide cylinder inlaid on the wall of the catheter, the first guide cylinder is communicated with the catheter and positioned in the horizontal direction, and a first valve plate capable of closing or opening the catheter is shuttled in the first guide cylinder and the catheter. The shampoo bottle solves the problem of shampoo waste caused by automatic change of internal and external air pressure of the shampoo bottle in the prior art.

Description

Shampoo bottle

Technical Field

The invention relates to a device for shampoo, in particular to a shampoo bottle.

Background

The Chinese patent discloses a shampoo bottle with an authorized bulletin number of CN 205738574U, which comprises a bottle body and a push type pump arranged at the bottle mouth, wherein the push type pump comprises a liquid outlet part, a movable part, a sliding sleeve and a liquid suction pipe, a spring is arranged in the sliding sleeve, one-way valves are arranged at the openings of the movable part and the liquid suction pipe, through holes are arranged on the side wall of the sliding sleeve, the axis of each through hole is parallel to the axis of the sliding sleeve, one end of each through hole is in sliding fit with a compression rod, and the other end of each through hole is provided with a one-way valve; the other end of the compression bar is fixedly connected with a compression plate, and the compression plate is connected with the end face of the movable part through a telescopic spring; the through hole is communicated with the inner cavity of the sliding sleeve through a liquid inlet hole, and a one-way valve is arranged in the liquid inlet hole; the bottle mouth of the bottle body is fixedly connected with a liquid storage funnel, the push type pump penetrates through the bottom of the liquid storage funnel to be communicated with the inner cavity of the bottle body, and a gap is formed between the sliding sleeve and the bottom of the liquid storage funnel. Although the shampoo bottle prevents external air from entering the bottle body through the one-way valve, the shampoo bottle still has the following defects:

because the weather changes for after the shampoo bottle is not used for a long time, the condition that the internal air pressure of the shampoo bottle is stronger than the atmospheric pressure can appear, and the problem that how to avoid leading to the shampoo waste because of the internal and external air pressure automatic change of the shampoo bottle is what we need to solve is what often found that the shampoo bottle automatic spouts the shampoo and has caused the waste of shampoo, because the very easy drying of spun shampoo, difficult use after the drying.

Disclosure of Invention

The invention provides a shampoo bottle, which solves the problem of shampoo waste caused by automatic change of internal and external air pressure of the shampoo bottle in the prior art.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

a shampoo bottle, comprising: the bottle body is connected with a bottle neck at the top end, a compression cavity is formed in the bottle neck, a liquid guide tube positioned in the vertical direction is fixed on the bottle neck, one end of the liquid guide tube is communicated with the bottom of the bottle body, and the other end of the liquid guide tube extends into the compression cavity;

a pressing cylinder penetrates into the compression cavity from the top of the bottle neck, the top end of the pressing cylinder is communicated with a liquid spray nozzle, the end part of the pressing cylinder, which is positioned in the compression cavity, is sleeved outside the liquid guide pipe and is communicated with the liquid guide pipe, and the liquid guide pipe guides the movement of the pressing cylinder in the vertical direction;

the end part of the compression cylinder, which is positioned in the compression cavity, is connected with a compression piston capable of sliding in the compression cavity, the compression piston divides the compression cavity into a first air cavity positioned above and a second air cavity positioned below, the first air cavity is communicated with the compression cylinder through a first air passage, the second air cavity is communicated with the top of the inner cavity of the bottle body through a second air passage, a compression spring is arranged in the first air cavity, one end of the compression spring is connected with the compression piston, the other end of the compression spring is connected with the top wall of the first air cavity, when the compression cylinder is not pressed, the distance from the communicating part of the first air passage and the compression cylinder to the catheter is higher than the maximum distance from the communicating part of the compression cylinder to the catheter, the bottom of the compression cavity is provided with a third air passage, the third air passage can communicate the second air cavity with the external atmosphere, and a one-way valve is arranged on the third air passage, so that air can only enter the second air cavity into the external atmosphere;

the section that the catheter is located the body is provided with the first guide cylinder of inlaying on the catheter pipe wall, first guide cylinder and catheter intercommunication are located the horizontal direction, first guide cylinder and the intraductal shuttle of catheter have the first valve block that can close or open the catheter, be provided with the guide bar that is connected with first valve block in the first guide cylinder in sliding, the tip that the guide bar kept away from first valve block is located outside the first guide cylinder and is connected with an opening and closing spring, the opening and closing spring is connected with first guide cylinder, the tip that the pressure moved the section and is located outside the bottleneck is connected with a driving assembly, the driving assembly penetrates in the bottle, the driving assembly can apply the extrusion force to the guide bar, in order to when the pressure moved the section and is exerted the extrusion force to the guide bar, the opening and closing spring is in compressed state, make first valve block close the catheter, when the pressure moved the section and be pressed, the driving assembly does not have the extrusion force to the guide bar, make the first valve block open the catheter under the elasticity effect of opening and closing spring.

Preferably, the drive assembly comprises a horizontal pressing plate, a vertical push rod and an extrusion head, the end part of the pressing cylinder outside the bottleneck is connected with the horizontal pressing plate on the horizontal plane, the end part of the horizontal pressing plate, which is far away from the pressing cylinder, is fixed with the vertical push rod on the vertical direction, the vertical push rod penetrates into the bottle, the end part of the vertical push rod, which is located in the bottle, is connected with the extrusion head, the extrusion head is of a cone structure, the small end of the extrusion head is located above the large end of the extrusion head, so that when the pressing cylinder is not pressed, the large end of the extrusion head applies extrusion force to the guide rod, the opening and closing spring is in a compressed state, the first valve plate closes the catheter, when the pressing cylinder is pressed, the small end of the extrusion head does not have extrusion force to the guide rod, and the first valve plate opens the catheter under the elastic action of the opening and closing spring.

Preferably, the guide rod is rotatably connected with a roller, and the roller is tangential to the extrusion head.

Preferably, the driving assembly further comprises a second guide cylinder, a vertical push rod penetrating through the second guide cylinder is fixed on the bottle body, a mounting ring located in the second guide cylinder is fixed on the vertical push rod, a first return spring located in the second guide cylinder penetrates through the vertical push rod, one end of the first return spring is fixed with the mounting ring, the other end of the first return spring is fixed with the top of the second guide cylinder, and when the pressing cylinder is not pressed, the first return spring is in a natural extension state.

Preferably, a sealing ring which is positioned at the joint of the vertical push rod and the bottle body is arranged in the second guide cylinder, and the sealing ring surrounds the outside of the vertical push rod.

Preferably, the one-way valve comprises a circular ring, the circular ring is fixed on the inner wall of the third air passage, a second valve plate is arranged on one side, close to the second air cavity, of the circular ring, a guide ring is arranged on one side, close to the outside atmospheric pressure, of the circular ring, the guide ring is fixed on the inner wall of the third air passage through a mounting frame, air can pass through the mounting frame, the guide ring slidably passes through a moving rod, the moving rod passes through the circular ring and is fixed with the second valve plate, a second return spring passes through the moving rod, one end of the second return spring is fixed with the circular ring, the other end of the second return spring is fixed with the second valve plate, and when the air flows into the third air passage from the second air cavity, the second valve plate seals the circular ring; when air enters the circular ring from the external atmospheric pressure, the second valve plate can open the circular ring.

Compared with the prior art, the invention has the following beneficial effects:

through setting up first guide cylinder, guide bar, first valve block and drive the subassembly, realize opening the catheter when pressing the pressure and move the section of thick bamboo first valve block, keep closing the state of catheter under the effect of switching spring when not pressing the pressure and move the section of thick bamboo first valve block, avoided leading to the condition emergence of automatic outwards spouting the shampoo because of the excessive pressure in the bottle, avoided the waste of shampoo, be favorable to practicing thrift the shampoo cost for the shampoo obtains make full use of.

Drawings

Fig. 1 is a sectional view of an upper portion of a shampoo bottle;

FIG. 2 is an enlarged view of the bottleneck of FIG. 1;

FIG. 3 is an enlarged view of FIG. 1 at A;

fig. 4 is an enlarged view at B in fig. 2.

Detailed Description

As shown in fig. 1 and 2, this embodiment provides a shampoo bottle, which includes: the bottle body 11, the top of the bottle body 11 is connected with a bottle neck 12, a compression cavity is formed in the bottle neck 12, a liquid guide tube 13 positioned in the vertical direction is fixed on the bottle neck 12, one end of the liquid guide tube 13 is communicated with the bottom of the bottle body 11, and the other end of the liquid guide tube 13 extends into the compression cavity;

a pressing cylinder 21 penetrates into the compression cavity from the top of the bottleneck 12, a liquid spray nozzle 22 is communicated with the top end of the pressing cylinder 21, the end part of the pressing cylinder 21 positioned in the compression cavity is sleeved outside the liquid guide pipe 13 and is communicated with the liquid guide pipe 13, and the liquid guide pipe 13 guides the movement of the pressing cylinder 21 in the vertical direction;

the end part of the compression cylinder 21 in the compression cavity is connected with a compression piston 23 capable of sliding in the compression cavity, the compression piston 23 divides the compression cavity into a first air cavity 14 positioned above and a second air cavity 15 positioned below, the first air cavity 14 is communicated with the compression cylinder 21 through a first air passage 16, the second air cavity 15 is communicated with the top of the inner cavity of the bottle body 11 through a second air passage 17, a compression spring 24 is arranged in the first air cavity 14, one end of the compression spring 24 is connected with the compression piston 23, the other end of the compression spring 24 is connected with the top wall of the first air cavity 14, when the compression cylinder 21 is not pressed, the distance between the communication part of the first air passage 16 and the compression cylinder 21 and the catheter 13 is higher than the maximum distance between the compression cylinder 21 and the outside air cavity, so as to avoid the obstruction of return caused by the blocking of the first air passage 16 after the compression cylinder 21 is released, and in order to ensure that the return is the most unobstructed, the first air passage can be arranged on the bottle 11, the first air cavity is communicated with the outside through the first air passage, a third air passage 18 is arranged at the bottom of the compression cavity 14, the third air passage 18 can be communicated with the outside air pressure 15, and the outside air can only be arranged in the air cavity 18, and the outside air can be communicated with the outside air through the third air passage 15;

as shown in fig. 3, a first guide cylinder 31 embedded on the wall of the liquid guide tube 13 is arranged at the section of the liquid guide tube 13, which is positioned in the bottle body 11, the first guide cylinder 31 is communicated with the liquid guide tube 13 and is positioned in the horizontal direction, a first valve plate 32 capable of closing or opening the liquid guide tube 13 is shuttled in the first guide cylinder 31, a guide rod 33 connected with the first valve plate 32 is slidingly arranged in the first guide cylinder 31, the end part of the guide rod 33 away from the first valve plate 32 is positioned outside the first guide cylinder 31 and is connected with an opening and closing spring 34, the opening and closing spring 34 is connected with the first guide cylinder 31, the end part of the pressing cylinder 21 positioned outside the bottle neck 12 is connected with a driving component, the driving component penetrates into the bottle body 11, the driving component can apply extrusion force to the guide rod 33, so that when the pressing cylinder 21 is not pressed, the driving component applies extrusion force to the guide rod 33, the opening and closing spring 34 is in a compressed state, the liquid guide tube 13 is closed by the first valve plate 32, when the pressing cylinder 21 is pressed, the driving component does not have extrusion force to the guide rod 33, and the opening and closing spring 32 is opened by the elastic force of the first valve plate 32 under the action of the opening and closing spring 34. It will be understood, of course, that when the pressing cylinder 21 is pressed, the first air chamber 14 enters air from the liquid spraying nozzle 22 through the first air channel 16, so that the air in the first air chamber 14 is increased, the second air chamber 15 supplies air into the bottle 11 through the second air channel 17, so that the pressure in the bottle 11 is increased, and finally, the shampoo is sprayed out of the liquid spraying nozzle 22, and the air in the second air chamber 15 is not caused to flow to the outside due to the action of the one-way valve 19 in the process, so that the air in the second air chamber 15 can be completely introduced into the upper part of the bottle 11, and the shampoo can be smoothly pressed out; when the pressing cylinder 21 is released, the compression piston 23 returns under the action of the compression spring 24, more or less because the pressure of the second air cavity 15 is too small, and air enters from the liquid spray nozzle 22 to the shampoo and finally flows to the second air cavity 15, but because the obstruction of the shampoo to the air is larger, more air can flow from the third channel to the second air cavity 15 through the one-way valve 19, and the one-way valve 19 has smaller air resistance, so that the probability of contact of air with the rest shampoo is reduced, and the phenomenon that the shampoo is oxidized by contact with more air is avoided, so that the using effect is reduced. Of course, we can not set the third air passage 18 and the one-way valve 19, but the return of the pressing cylinder 21 is difficult, and the shelf life of the shampoo is shorter after the return.

As shown in fig. 3, for the purpose of designing a driving assembly with simple structure and convenient use, the driving assembly comprises a horizontal pressing plate 35, a vertical push rod 36 and a pressing head 37, the end part of the pressing cylinder 21, which is located outside the bottle neck 12, is connected with the horizontal pressing plate 35 located on the horizontal plane, the end part of the horizontal pressing plate 35, which is far away from the pressing cylinder 21, is fixed with the vertical push rod 36 located on the vertical direction, the vertical push rod 36 penetrates into the bottle 11, the end part of the vertical push rod 36 located in the bottle 11 is connected with the pressing head 37, the pressing head 37 is in a cone structure, the small end of the pressing head 37 is located above the large end of the pressing head 37, so that when the pressing cylinder 21 is not pressed, the large end of the pressing head 37 applies pressing force to the guide rod 33, the opening and closing spring 34 is in a compressed state, so that when the pressing cylinder 21 is pressed, the small end of the pressing head 37 does not press the guide rod 33, and the first valve plate 32 opens the guide tube 13 under the elastic force of the opening and closing spring 34.

As shown in fig. 3, in order to reduce friction between the guide rod 33 and the extrusion head 37 and prolong the service lives of the guide rod 33 and the extrusion head 37, the guide rod 33 is rotatably connected with a roller 38, and the roller 38 is tangent to the extrusion head 37.

As shown in fig. 1, in order to guide the vertical push rod 36 and enable the pressing cylinder 21 to recover to an initial state under a larger restoring force, so as to avoid that no shampoo is pressed out when the pressing cylinder 21 is pressed again due to the fact that the pressing cylinder 21 is not restored to the original position, the driving assembly further comprises a second guide cylinder 39, a second guide cylinder 39 through which the vertical push rod 36 passes is fixed on the bottle 11, a mounting ring 391 positioned in the second guide cylinder 39 is fixed on the vertical push rod 36, a first return spring 392 positioned in the second guide cylinder 39 passes through the vertical push rod 36, one end of the first return spring 392 is fixed with the mounting ring 391, the other end of the first return spring 392 is fixed with the top of the second guide cylinder 39, and when the pressing cylinder 21 is not pressed, the first return spring 392 is in a natural extension state.

As shown in fig. 1, in order to avoid leakage of the shampoo caused by a gap at the connection between the vertical push rod 36 and the bottle 11, a sealing ring 393 is disposed in the second guiding cylinder 39 at the connection between the vertical push rod 36 and the bottle 11, and the sealing ring 393 surrounds the vertical push rod 36.

As shown in fig. 4, in order to design the check valve 19 with simple structure and convenient use, the check valve 19 comprises a circular ring 191, the circular ring 191 is fixed on the inner wall of the third air channel 18, a second valve plate 192 is arranged on one side of the circular ring 191 close to the second air cavity 15, a guide ring 193 is arranged on one side of the circular ring 191 close to the outside air pressure, the guide ring 193 is fixed on the inner wall of the third air channel 18 through a mounting frame 194, air can pass through the mounting frame 194, a moving rod 195 slidably passes through the guide ring 193, the moving rod 195 passes through the circular ring 191 and is fixed with the second valve plate 192, the moving rod 195 passes through a second return spring 196, one end of the second return spring 196 is fixed with the circular ring 191, the other end of the second return spring 196 is fixed with the second valve plate 192, and the second valve plate 192 seals the circular ring 191 when the air flows into the third air channel 18 from the second air cavity 15; the second valve sheet 192 can be made to open the circular ring 191 when air enters the circular ring 191 from the outside atmospheric pressure.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present invention, which is intended to be covered by the scope of the claims of the present invention.

Claims (5)

1. A shampoo bottle, comprising: the bottle body is connected with a bottle neck at the top end, a compression cavity is formed in the bottle neck, a liquid guide tube positioned in the vertical direction is fixed on the bottle neck, one end of the liquid guide tube is communicated with the bottom of the bottle body, and the other end of the liquid guide tube extends into the compression cavity;

a pressing cylinder penetrates into the compression cavity from the top of the bottle neck, the top end of the pressing cylinder is communicated with a liquid spray nozzle, the end part of the pressing cylinder, which is positioned in the compression cavity, is sleeved outside the liquid guide pipe and is communicated with the liquid guide pipe, and the liquid guide pipe guides the movement of the pressing cylinder in the vertical direction;

the end part of the compression cylinder, which is positioned in the compression cavity, is connected with a compression piston capable of sliding in the compression cavity, the compression piston divides the compression cavity into a first air cavity positioned above and a second air cavity positioned below, the first air cavity is communicated with the compression cylinder through a first air passage, the second air cavity is communicated with the top of the inner cavity of the bottle body through a second air passage, a compression spring is arranged in the first air cavity, one end of the compression spring is connected with the compression piston, the other end of the compression spring is connected with the top wall of the first air cavity, when the compression cylinder is not pressed, the distance from the communicating part of the first air passage and the compression cylinder to the liquid guide tube is higher than the maximum distance from the communicating part of the compression cylinder to the liquid guide tube, the first air passage is arranged on the bottle neck, the first air cavity is communicated with the outside through the first air passage, the third air passage is arranged at the bottom of the compression cavity, the second air cavity is communicated with the outside atmosphere, and a one-way valve is arranged on the third air passage, so that the outside atmosphere can only enter the second air cavity;

the liquid guiding device comprises a liquid guiding tube, a first guide cylinder, a first valve block, a first pressing head, a second valve block, a pressing head and a liquid guiding tube, wherein the first guide cylinder is inlaid on the wall of the liquid guiding tube at the section of the liquid guiding tube, the first guide cylinder is communicated with the liquid guiding tube and is positioned in the horizontal direction;

the driving assembly penetrates into the bottle body, the driving assembly can apply extrusion force to the guide rod, when the pressing cylinder is not pressed, the driving assembly applies extrusion force to the guide rod, the opening and closing spring is in a compressed state, so that the liquid guide tube is closed by the first valve plate, when the pressing cylinder is pressed, the driving assembly does not have extrusion force to the guide rod, and the liquid guide tube is opened by the first valve plate under the action of the elasticity of the opening and closing spring.

2. The shampoo bottle of claim 1, wherein the guide bar is rotatably coupled with a roller, the roller being tangential to the extrusion head.

3. The shampoo bottle of claim 2, wherein the drive assembly further comprises a second guide cylinder, a vertical push rod is fixed on the bottle body and passes through the second guide cylinder, a mounting ring positioned in the second guide cylinder is fixed on the vertical push rod, the vertical push rod passes through a first return spring positioned in the second guide cylinder, one end of the first return spring is fixed with the mounting ring, the other end of the first return spring is fixed with the top of the second guide cylinder, and the first return spring is in a natural extension state when the pressing cylinder is not pressed.

4. The shampoo bottle of claim 3, wherein a sealing ring is arranged in the second guide cylinder and positioned at the joint of the vertical push rod and the bottle body, and the sealing ring surrounds the vertical push rod.

5. The shampoo bottle according to any one of claims 1 to 4, characterized in that the one-way valve comprises a circular ring, the circular ring is fixed on the inner wall of the third air passage, a second valve plate is arranged on one side of the circular ring, which is close to the second air chamber, a guide ring is arranged on one side of the circular ring, which is close to the outside air pressure, the guide ring is fixed on the inner wall of the third air passage through a mounting frame, air can pass through the mounting frame, a moving rod passes through the guide ring in a sliding manner, the moving rod passes through the circular ring to be fixed with the second valve plate, a second return spring passes through the moving rod, one end of the second return spring is fixed with the circular ring, the other end of the second return spring is fixed with the second valve plate, and the second valve plate seals the circular ring when air flows into the third air passage from the second air chamber; when air enters the circular ring from the external atmospheric pressure, the second valve plate can open the circular ring.