JP6765592B1 - Auxiliary tool for subdivided bottles - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an auxiliary tool capable of controlling the amount of liquid sucked up and capable of handling small bottles having different volumes. SOLUTION: The bottle body 10 is included, a pillar 25 is installed on the top end surface of the bottle body 10, a piston chamber 11 is provided in the pillar 25, and a liquid suction is performed on the left wall of the piston chamber 11. A raising pipe 14 is installed, a glass plate 12 is provided in the inner wall on the right side of the piston chamber 11, a scale is installed in the glass plate 12, and a piston can slide in the piston chamber 11. A valve A is installed in the piston to control the liquid suction performed in the piston chamber 11, and the valve A includes a push block A and a spring A, and the bottom wall of the piston chamber 11 is provided. A valve B for controlling liquid discharge is installed in the. [Selection diagram] Fig. 1

Description

The present invention relates to the field of daily necessities, and specifically is an auxiliary tool for subdivided bottles.

Occasionally, liquids are often placed in small bottles for convenience of carrying. However, the volume of the subdivided bottle is not very large, the mouth is relatively small, and when pouring liquid into the subdivided bottle from a large container, it is wasteful if the liquid overflows and cleaning is troublesome, so when using a small funnel It is necessary to constantly pay attention to the amount of pouring, and it is difficult to control the amount of pouring.

Chinese Patent Application Publication No. 109205103

An object of the present invention is to provide an auxiliary tool for subdivision bottles, which can solve the problems in the current technology described above.

To solve the above problems, the present invention employs the following technical plan: including the bottle body, a pillar is installed on the top end face of the bottle body, and a piston chamber is provided in the bottle body . A liquid suction pipe is installed on the left side wall of the piston chamber, a glass plate is provided in the right inner wall of the piston chamber, a scale is installed on the glass plate, and a piston is installed in the piston chamber. Is installed so that the piston can slide, and a valve A for controlling liquid suction performed in the piston chamber is installed in the piston. The valve A includes a push block A and a spring A, and the piston chamber includes a push block A and a spring A. A valve B for controlling liquid discharge is installed on the bottom wall of the piston chamber, the valve B includes a push block B and a spring B, and the liquid is produced in the piston chamber by connecting the valve A and the valve B. A lifting rod that controls the suction and discharge of the piston and controls the vertical movement of the piston is installed in the bottle body and the column, and the pressing component is fixedly attached to the top end surface of the piston. And an elastic chamber located in the pillar, the limit plate is slidably mounted in the elastic chamber, and the bottom end surface of the limit plate is a connecting rod that enters the piston chamber. Is fixedly attached, and a limit component for controlling the lifting distance of the lifting rod is installed on the pillar.

Preferentially, the valve A includes a push block chamber A located in the piston, the top wall of the push block chamber A is provided with a vent hole open upward, and the bottom of the push block chamber A is provided. A spring chamber A is provided in communication with the wall, an air hole opened downward is provided on the bottom wall of the spring chamber A, and the push block A is mounted so as to slide into the push block chamber A. The spring A is fixedly attached between the push block A and the bottom wall of the spring chamber A, a sealing block is fixedly attached to the top end surface of the push block A, and the sealing block is attached to the sealing block. It can be connected to the ventilation hole and sealed, and a ventilation pipe is provided in communication between the ventilation hole and the push block chamber A.

Preferentially, the valve B includes a push block chamber B located below the bottom wall of the piston chamber, with a liquid inlet communicating between the push block chamber B and the piston chamber. A spring chamber B is continuously installed in the bottom wall of the push block chamber B, the push block B is mounted so as to slide into the push block chamber B, and the spring B is attached to the push block B. It is fixedly attached to the bottom wall of the spring chamber B, and a liquid discharge pipe is connected to the right side wall of the liquid inlet.

The Priority, said pressing component also includes a fixedly mounted that the pressing plate at the top end surface of the lifting rod, the lower side of the pressing plate on the outside of the lifting rod is disposed the compression spring A is the limit A compression spring B is fixedly attached between the top end surface of the plate and the top wall of the elastic chamber, and an insertion rod is fixedly attached to the bottom end surface of the connecting rod.

The limit component includes a slide block that is slidably attached to the column, a thread hole is provided in the left end surface of the slide block, and a thread rod is threaded in the thread hole. A rotating block is fixedly attached to the left end surface of the thread rod, and a scale plate is installed on the right end surface of the column.

The beneficial effects of the present invention are: The amount of liquid sucked up can be controlled by the limit part, it can be used for subdivided bottles of different volumes, it can be adjusted conveniently, it is convenient to use, and the liquid sucking pipe is sucked up from Put in a bottle, put the liquid discharge pipe in a subdivided bottle, the liquid can be separated according to the pressing parts, the liquid does not overflow, it is convenient to use, it satisfies the daily demand and has advertising value.

In order to explain the present invention in detail with reference to FIGS. 1 to 6 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. 1 is a front view of the apparatus of the present invention, and is described above and below. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 are the same.

FIG. 1 is a schematic diagram of the overall structure of the present invention. FIG. 2 is an enlarged view of FIG. 1A of the present invention. FIG. 3 is a schematic diagram of the structure of valve A when liquid discharge starts. FIG. 4 is a schematic diagram of the structure of valve A when liquid suction starts. FIG. 5 is an enlarged view of FIG. 1B of the present invention. FIG. 6 is a schematic diagram of the structure of valve B when the liquid is discharged.

With reference to FIGS. 1 to 6, the auxiliary tool for the subdivided bottle according to the embodiment of the present invention includes the bottle body 10, a pillar 25 is installed on the top end surface of the bottle body 10, and the inside of the bottle body 10 A piston chamber 11 is provided , a liquid suction pipe 14 is installed on the left wall of the piston chamber 11, a glass plate 12 is provided in the inner wall on the right side of the piston chamber 11, and the glass plate 12 has a scale. 13 is installed, the piston 31 is installed in the piston chamber 11 so as to be slidable, and a valve A901 for controlling the liquid suction performed in the piston chamber 11 is installed in the piston 31. The valve A901 includes a push block A36 and a spring A37, a valve B902 for controlling liquid discharge is installed on the bottom wall of the piston chamber 11, and the valve B902 includes a push block B43 and a spring B45. A pressure that controls the suction and discharge of liquid performed in the piston chamber 11 by connecting the A901 and the valve B902, and controls the vertical movement of the piston 31 in the bottle body 10 and the pillar 25. A lifting rod 17 in which the component 903 is installed and the pressing component 903 is fixedly attached to the top end surface of the piston 31 and an elastic chamber 20 located in the pillar 25 are included in the elastic chamber 20. Is attached so that the limit plate 18 can slide, a connecting rod 16 that enters the piston chamber 11 is fixedly attached to the bottom end surface of the limit plate 18, and the lifting rod 17 is attached to the pillar 25. Limit parts that control the climbing distance are installed.

The valve A901 includes a push block chamber A32 located in the piston 31, a vent hole 33 opened upward is provided in the top wall of the push block chamber A32, and the inside of the bottom wall of the push block chamber A32. A spring chamber A38 is communicated with the spring chamber A38, an air hole 40 opened downward is provided on the bottom wall of the spring chamber A38, and the push block A36 is mounted so as to slide into the push block chamber A32. The spring A37 is fixedly attached between the push block A36 and the bottom wall of the spring chamber A38, the sealing block 34 is fixedly attached to the top end surface of the push block A36, and the sealing block 34 is said. It can be connected to the ventilation hole 33 and sealed, and a ventilation pipe 35 is provided in communication between the ventilation hole 33 and the push block chamber A32, and when the liquid is discharged, the push block A36 is provided. And the sealing block 34 move to the apex, the sealing block 34 engages with the vent hole 33 to seal, air cannot flow through the vent pipe 35, and as the piston 31 moves down, the piston chamber 11 The pressure inside increases and begins to drain the liquid,
When the liquid is sucked up, the push block A36 and the sealing block 34 move to the bottom end, the push block A36 closes the ventilation pipe 35, and the air pressure in the piston chamber 11 as the piston 31 moves upward. Decreased and started sucking liquid by the liquid sucking pipe 14.
Push block A36 maintains an intermediate position by the action of the spring A37, air flows through the vent pipe 35.

The valve B902 includes a push block chamber B41 located below the bottom wall of the piston chamber 11, and a liquid inlet 42 is installed between the push block chamber B41 and the piston chamber 11 so as to communicate with the push block chamber B41. A spring chamber B44 is continuously installed in the bottom wall of the block chamber B41, the push block B43 is mounted so as to slide into the push block chamber B41, and the spring B45 is attached to the push block B43 and the spring chamber. Fixedly attached to the bottom wall of B44, a liquid discharge pipe 46 is connected to the right wall of the liquid inlet 42, and when sucking up the liquid, the pressure inside the piston chamber 11 decreases, and the push block B43 Is located at the apex by the action of the spring B45, closes the liquid discharge pipe 46, and when the liquid is discharged, the pressure inside the piston chamber 11 increases, pushing the push block B43 downward, and the liquid in the piston chamber 11 Is discharged through the liquid discharge pipe 46.

The pressing part 903 also includes a pressing plate 23 that fixedly attached to the top end surface of the lifting rod 17, a compression spring A22 is installed in the lower side of the pressing plate 23 on the outside of the lifting rod 17, the limit A compression spring B21 is fixedly attached between the top end surface of the plate 18 and the top wall of the elastic chamber 20, and an insertion rod 15 is fixedly attached to the bottom end surface of the connecting rod 16, and the pressing plate 23 Is pushed down, the piston 31 is pushed down, and when the piston 31 moves down and the position is lower than the liquid suction pipe 14, the liquid is discharged, and the pressing plate 23 moves up to move the piston 31. It is moved upward to take, and when the position of the piston 31 is lower than the liquid suction pipe 14, when the position of the piston 31 is higher than the liquid suction pipe 14 after the piston 31 is moved upward gradually, the liquid wicking state In,
At this time, the insertion rod 15 enters the ventilation hole 33 to locate the sealing block 34 and the push block A36, and as the piston 31 continues to move, the push block A36 and the sealing block 34 are at the bottom. Pushed to the end, the piston 31 continues to move and pushes the insertion rod 15 and the connecting rod 16 upwards.

The limit component 904 includes a slide block 27 that is slidably attached to the pillar 25, and a thread hole 26 is provided in the left end surface of the slide block 27, and a screw is provided in the thread hole 26. The thread rods 28 are connected by threads, a rotating block 30 is fixedly attached to the left end surface of the thread rod 28, a scale plate 24 is installed on the right end surface of the pillar 25, and the lifting rod 17 is raised. When controlling the distance, the slide block 27 is slid, the height of the slide block 27 is controlled by the scale on the scale plate 24, the rising height of the lifting rod 17 is controlled, and the amount of liquid sucked up in the piston chamber 11 is controlled. Control.

When in use, the liquid suction pipe 14 is inserted into the sucked liquid, the liquid discharge pipe 46 is inserted into the subdivision bottle, the height of the slide block 27 is controlled by the scale on the scale plate 24, and the rotation block is used. 30 is tightened, the thread rod 28 is screwed into the thread hole 26 and brought into contact with the left end surface of the column 25 to complete the fixing, control the rising height of the lifting rod 17, and inside the piston chamber 11. Control the amount of liquid sucked up.

When sucking the liquid, lifting move pull rod 17 upward to move upward with his piston 31, and when the position of the piston 31 is lower than the liquid suction pipe 14, the piston after the piston 31 is moved upward gradually When the position of 31 is higher than the liquid suction pipe 14, it is in the liquid suction state. At this time, the insertion rod 15 enters the ventilation hole 33 to insert the sealing block 34 and the push block A36, and the piston 31 continues. As it moves, the push block A36 and the sealing block 34 are inserted to the bottom end, the push block A36 closes the ventilation pipe 35, and the piston 31 continuously moves to connect the insertion rod 15 and the connecting rod 16. It begins to push upwards, the pressure drops into the piston chamber 11, the liquid suction pipe 14 begins to suck the liquid, the push block B43 is located at the apex by the action of the spring B45, blocks the liquid discharge pipe 46, and air. Cannot enter the piston chamber 11 through the liquid discharge pipe 46.

When the liquid is discharged, the pressing plate 23 is pushed down, the piston 31 is pushed down, the piston 31 moves down, and the position is lower than the liquid suction pipe 14, the liquid is discharged, and the push block A36 And the sealing block 34 move to the apex, the sealing block 34 and the ventilation hole 33 are engaged and sealed, air cannot flow through the ventilation pipe 35, and as the piston 31 moves downward, the piston chamber 11 The pressure inside the piston chamber B43 is pushed downward, the liquid in the piston chamber 11 is discharged from the liquid discharge pipe 46, and the liquid discharge starts.

The beneficial effects of the present invention are: The amount of liquid sucked up can be controlled by the limit parts, it can be used for subdivided bottles of different volumes, it can be conveniently adjusted, it is convenient to use, and the liquid sucking pipe is sucked up from the source. Put in a bottle, put the liquid discharge pipe in a subdivided bottle, the liquid can be separated according to the pressing parts, the liquid does not overflow, it is convenient to use, it satisfies the daily demand and has advertising value.

Engineers in this field can clarify that they do not deviate from the general spirit and ideas of the present invention, and various modifications can be made to the above examples, all of which are within the scope of protection of the present invention. The protection plan of the present invention should be standardized on the claim of the present invention.

Claims (1)

When viewed from the front, a pillar is installed on the top end surface of the bottle body including the bottle body, a piston chamber is provided in the bottle body, and a liquid suction pipe is installed on the left wall of the piston chamber. A glass plate is provided in the inner wall on the right side of the piston chamber, a scale is installed in the glass plate, and the piston is installed in the piston chamber so as to be slidable. A valve A for controlling liquid suction performed in the piston chamber is installed, the valve A includes a push block A and a spring A, and a valve B for controlling liquid discharge is installed on the bottom wall of the piston chamber. The valve B includes a push block B and a spring B, and the connection between the valve A and the valve B controls the suction and discharge of liquid in the piston chamber, and the bottle body and the pillar. A pressing component that controls the vertical movement of the piston is installed therein, and includes a lifting rod in which the pressing component is fixedly attached to the top end surface of the piston, and an elastic chamber located in the column. A limit plate is slidably mounted in the elastic chamber, a connecting rod that enters the piston chamber is fixedly mounted on the bottom end surface of the limit plate, and a lifting rod of the lifting rod is mounted on the column. Limit parts that control the climbing distance are installed ,
The valve A includes a push block chamber A located in the piston, the top wall of the push block chamber A is provided with a vent hole opened upward, and the bottom wall of the push block chamber A is provided. A spring chamber A is provided so as to communicate with each other, an air hole opened downward is provided on the bottom wall of the spring chamber A, and the push block A is mounted so as to be slidable into the push block chamber A. Is fixedly attached between the push block A and the bottom wall of the spring chamber A, a sealing block is fixedly attached to the top end surface of the push block A, and the sealing block is connected to the ventilation hole. A ventilation pipe is provided in communication between the ventilation hole and the push block chamber A so that the push block A and the sealing block move to the apex when the liquid is discharged. Then, the sealing block is engaged with the vent hole to seal, air cannot flow through the vent pipe, and as the piston moves down, the pressure in the piston chamber increases and begins to drain the liquid,
When the liquid is sucked up, the push block A and the sealing block move to the bottom end, the push block A closes the ventilation pipe, and as the piston moves upward, the air pressure in the piston chamber decreases. Start sucking liquid with the liquid sucking pipe,
Maintaining the intermediate position push block A by the action of a spring A, the air flows through the vent pipe,
The valve B includes a push block chamber B located below the bottom wall of the piston chamber, and a liquid inlet is installed between the push block chamber B and the piston chamber so as to communicate with the push block chamber B. A spring chamber B is continuously installed in the bottom wall of the body, the push block B is mounted so as to slide into the push block chamber B, and the spring B is attached to the push block B and the bottom of the spring chamber B. It is fixedly attached to the wall, and a liquid discharge pipe is connected to the right wall of the liquid inlet, and when sucking up the liquid, the pressure inside the piston chamber decreases, and the push block B is moved by the action of the spring B. Located at the apex, when closing the liquid drain pipe and draining the liquid, the pressure inside the piston chamber increases, pushing the push block B down, the liquid in the piston chamber is drained through the liquid drain pipe ,
The pressing component also includes a fixedly mounted that the pressing plate at the top end surface of the lifting rod, the lifting on the lower side of the pressing plate on the outside of the rod is disposed the compression spring A is a top end surface of said limit plate A compression spring B is fixedly attached to the top wall of the elastic chamber, and an insertion rod is fixedly attached to the bottom end surface of the connecting rod, pushing the pressing plate downward and pushing the piston downward. , When the piston moves down and the position is lower than the liquid suction pipe, it is in the liquid discharge state, the pressing plate moves up and moves up with the piston, and the position of the piston sucks up the liquid. when less than the pipe, when the position of the piston is higher than the liquid suction pipe after the piston has moved above gradually, it is in a liquid wicking state,
At this time, the insertion rod enters the ventilation hole to locate the sealing block and the push block A, and as the piston continues to move, the push block A and the sealing block are pushed to the bottom end. The piston continues to move, pushing the insertion rod and the connecting rod upwards.
The limit component includes a slide block that is slidably attached to the column, a thread hole is provided in the left end surface of the slide block, and a thread rod is threaded in the thread hole. A rotating block is fixedly attached to the left end surface of the threaded rod, and a scale plate is installed on the right end surface of the column. The slide block is slid to control the lifting distance of the lifting rod, and the scale is used. Auxiliary tool for subdivision bottles, characterized in that the height of the slide block is controlled by the scale on the plate, the height of the lifting rod is controlled, and the amount of liquid sucked up in the piston chamber is controlled .

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