CN218683968U - Push type ration gives salt ware - Google Patents

Abstract

The utility model provides a salt ware is given to push type ration, relates to and stores up salt container technical field, and it is not enough to use quantitative spoon to get the technique that salt is inaccurate, the weight is not mastered well when solving the culinary art, and the technical scheme of adoption is: the upper end of the barrel is provided with a telescopic guide tooth groove, the lower end of the barrel is provided with a salt leakage opening A, a moving rod with a quantitative salt measuring cabin at the lower end is arranged in the barrel, the moving rod is elastically connected with the barrel through a rebound tension spring, a salt storage cabin capable of leaking salt to the salt leakage opening A is arranged outside the barrel, and the upper end of the barrel is movably provided with a press control assembly movably connected with the moving rod through the telescopic guide tooth groove. The utility model has the advantages that when the rebound tension spring drives the moving rod to move upwards for resetting, the salt leakage port B on the quantitative salt taking cabin is butted with the salt leakage port A to realize quantitative salt taking under the resetting state of the quantitative salt taking cabin; press down and press the control assembly and make it move down the location back along the direction tooth's socket that stretches out and spill salt in order to accomplish the ration through barrel bottom opening, move the pole and drive the salt mouth that spills in quantitative salt cabin, simple structure, press the control convenience, the ration adds salt accurate.

Description

Push type ration gives salt ware

Technical Field

The utility model relates to a store up salt container technical field, more specifically relate to a push type ration that can realize salt is got to accurate definite quantity is given salt ware.

Background

The salt is a common seasoning in daily life, can keep the balance of the osmotic pressure inside and outside cells and the osmotic pressure of blood plasma when being eaten in a proper amount, and is an important prerequisite for maintaining normal physiological activities of organisms. Excessive intake of salt not only stimulates gastric mucosa, but also induces hypertension, causing cardiovascular and cerebrovascular diseases, aggravating metabolic burden of kidney, and further causing symptoms such as edema. The world health organization recommends that adults should not ingest more than 5 grams of salt per day.

Generally, the amount of salt added during cooking is basically added according to the feeling of a person cooking the food, and some devices such as a quantitative spoon are used for quantitatively adding the salt, but the quantitative amount of salt weighed by the quantitative spoon is different from person to person, and a convex hull phenomenon is often generated on the top of the quantitative spoon when the salt is actually weighed, so that the specific weighing amount of the salt is not easy to master.

Therefore, it is necessary to provide a container or a device capable of precisely quantitatively supplying salt to solve the above problems.

SUMMERY OF THE UTILITY MODEL

To sum up, the utility model aims to solve the problem that the addition of salt can not be accurately and quantitatively supplied during cooking, and provides a simple structure, convenient operation, the push type ration that can realize the accurate quantitative supply of single salt through the mode of pressing gives the salt ware.

In order to solve the technical problem, the utility model provides a salt ware is given to push type ration to the technical scheme who adopts, a characterized in that, including:

the barrel is of a cylindrical structure which penetrates through the barrel up and down, the inner wall of the upper end of the barrel is provided with a telescopic guide tooth groove, and the side wall of the lower end of the barrel is provided with a salt leakage port A;

the movable rod is movably arranged in the barrel, the lower end of the movable rod is provided with a quantitative salt taking cabin matched with the inner wall of the barrel, the upper side wall of the quantitative salt taking cabin is provided with a salt leakage opening B, the lower side wall of the quantitative salt taking cabin is provided with a salt scattering opening, and the bottom of the quantitative salt taking cabin is provided with an end cover;

the salt storage cabin is fixedly arranged on the outer wall of the barrel body and is coaxial with the barrel body, and the lower part of the salt storage cabin, which corresponds to the salt leakage opening A, is of a funnel-shaped structure;

the upper end of the at least one rebound tension spring is connected with the cylinder body, the lower end of the at least one rebound tension spring is connected with the end cover, the moving rod can be automatically driven to move upwards and reset, and the end cover is elastically abutted to the opening at the bottom of the cylinder body to seal the opening; when the end cover seals the bottom opening of the barrel body, the salt leakage port B is in butt joint with the salt leakage port A, and the inner wall of the barrel body seals the salt scattering port;

the pressing control assembly is movably connected to the upper end in the barrel through the telescopic guide tooth groove, the bottom of the pressing control assembly is movably abutted against the upper end of the moving rod, the upper part of the pressing control assembly movably extends out through an opening in the top of the barrel and is used for moving downwards along the telescopic guide tooth groove for positioning during one-time pressing, and the pressing control assembly overcomes the elasticity of the rebound tension spring and pushes the moving rod downwards to control the salt spreading port of the quantitative salt taking cabin to extend out through an opening in the bottom of the barrel; when the quantitative salt taking cabin is pressed again, the quantitative salt taking cabin is driven to move upwards and reset along the telescopic guide tooth groove by the rebounding tension spring, so that the quantitative salt taking cabin is controlled to be retracted.

Furthermore, the telescopic guide tooth socket comprises:

the inner liner is arranged on the inner wall of the upper end of the barrel body, and is vertically and uniformly provided with a plurality of retraction reset guide grooves of which the upper ends extend to the upper part of the inner liner and the lower ends penetrate through the bottom of the inner liner by taking the axis of the barrel body as the center, and pressing guide grooves arranged at intervals with the retraction reset guide grooves;

the positioning guide teeth are arranged between the adjacent two retraction reset guide grooves, the lower end of the inner liner comprises an extending positioning tooth connected with an opening at the bottom of the retraction reset guide groove on one side and a reset guide tooth connected with an opening at the bottom of the retraction reset guide groove on the other side.

Further, the pressing control assembly comprises:

the rotary sliding claw column can rotate below a telescopic guide tooth groove in the cylinder body, the bottom of the rotary sliding claw column is movably abutted against the upper end of the moving rod, a plurality of sliding claw rods which can be correspondingly inserted into the retracting reset guide groove from bottom to top in a sliding mode are uniformly distributed on the side wall of the rotary sliding claw column, and the upper end of each sliding claw rod is provided with guide positioning teeth which are consistent with the tooth forming directions of the extending positioning teeth and the reset guide teeth and can be clamped at the joint of the extending positioning teeth and the reset guide teeth;

the pressing sleeve is movably sleeved on the upper part of the rotary sliding claw column, the top of the pressing sleeve can extend out of an opening at the top of the cylinder, a plurality of pushing teeth which can movably abut against the guiding and positioning teeth to push the rotary sliding claw column downwards and drive the rotary sliding claw column to rotate along the direction of the guiding and positioning teeth are uniformly distributed on the periphery of an opening at the bottom of the pressing sleeve, and a plurality of sliding block parts which slide from bottom to top and are inserted into the pressing guide groove to prevent the rotary sliding claw column from rotating and moving upwards to be separated from the telescopic guide tooth groove are uniformly distributed on the side wall of the pressing sleeve.

Furthermore, the upper part of the rotary sliding claw column is provided with a sleeve rod coaxial with the rotary sliding claw column, and the pressing sleeve is movably sleeved on the rotary sliding claw column through the sleeve rod.

Furthermore, the rebound tension springs are two and are positioned below the bottom of the salt storage cabin and correspondingly arranged on two sides of the outer wall of the lower part of the barrel body.

Furthermore, the salt spreading openings are two and are arranged in a crossed manner with the two rebound tension springs.

Further, the salt storage cabin comprises:

the cabin body part is of a transparent groove structure and is coaxially and fixedly arranged on the outer wall of the cylinder body;

the cabin cover is of a transparent cover structure, a round hole matched with the outer wall of the upper end of the cylinder body is formed in the center of the cabin cover, and the cabin cover is detachably connected to the upper end opening of the cabin body.

Further, the volume of the quantitative salt measuring cabin is designed to contain 1g or 2g or 5g of salt.

The utility model discloses a salt storage cabin stores salt, and the design of salt storage cabin lower part is for leaking hopper-shaped structure and can make the under-deck salt collect to salt leakage mouth A department under the action of gravity automatically. Under the non-use state, the pressing control assembly pushes the movable rod to move up along the telescopic guide tooth groove to reset under the action of the elastic force of the rebound tension spring, at the moment, the movable rod is pulled by the rebound tension spring to move up to reset, so that the quantitative salt measuring cabin is driven to retract into the barrel, the end cover blocks the bottom opening of the barrel, and the salt leakage opening B is butted with the salt leakage opening A on the side wall of the barrel. Under the state, the salt in the salt storage cabin automatically leaks into the quantitative salt taking cabin through the butted salt leakage port A and the salt leakage port B and is filled up, and the precise quantitative salt taking process is completed. When salt is quantitatively added, the pressing control assembly is pressed down to enable the pressing control assembly to move downwards along the telescopic guide tooth groove for positioning, the elastic force of the springback tension spring pushes the movable rod downwards to control the salt scattering opening of the quantitative salt taking cabin to stretch out through the opening at the bottom of the barrel, so that the quantitative salt taking cabin can be conveniently poured out from the salt scattering opening, and the process of quantitatively supplying salt is completed. After the salt is added, the pressing control assembly can be pressed again to enable the pressing control assembly to move upwards and reset along the telescopic guide tooth grooves under the driving of the rebound tension spring and the moving rod, so that the quantitative salt taking cabin is controlled to retract, and the salt in the salt storage cabin is enabled to leak into the quantitative salt taking cabin through the salt leakage opening A and the salt leakage opening B.

The beneficial effects of the utility model are that:

the utility model discloses for salt ware through the flexible direction tooth's socket on the barrel, move the pole and press control assembly realize that the salt of storage salt under-deck is accurate, the ration leaks into the purpose that the salt cabin was got to the ration volume to through according to moving the mode control volume and getting salt of spilling of salt cabin and getting the salt action, simple structure, convenient operation, the ration is accurate, makes the salt addition during culinary art more accurate, controllable.

Drawings

Fig. 1 is a schematic view of the overall structure of the moving rod in the upward-moving reset state of the present invention;

FIG. 2 is an exploded view of the whole structure of the barrel in perspective state;

FIG. 3 is a schematic structural view of the telescopic guide spline of the present invention in a perspective state;

fig. 4 is an exploded view of the pressing control assembly of the present invention;

fig. 5 is a sectional view of the overall structure of the moving rod in the reset state;

fig. 6 is a schematic view of the connection structure of the pressing control assembly and the telescopic guide tooth socket when the moving rod moves up and returns to the original position;

FIG. 7 is a sectional view of the partial structure of the moving rod of the present invention in a downward-moving and positioning state;

fig. 8 is the connecting structure diagram of the pressing control assembly and the telescopic guiding tooth socket in the moving-down positioning state of the moving rod of the utility model.

In the figure: 1. the automatic salt taking and storing device comprises a cylinder body, 11 telescopic guide tooth grooves, 111 inner liners, 112 retraction reset guide grooves, 113 pressing guide grooves, 114 extension positioning teeth, 115 reset guide teeth, 12 salt leakage openings A,13 tension spring connecting rods, 2 moving rods, 21 quantitative salt taking cabins, 22 salt leakage openings B,23 salt scattering openings, 24 end covers, 3 salt storage cabins, 31 cabin body parts, 32 cabin covers, 321 circular holes, 4 rebound tension springs, 5 pressing control components, 51 rotating sliding claw columns, 511 sliding claw rods, 512 guiding positioning teeth, 513 sleeve connecting rods, 52 pressing sleeves, 521 pushing teeth, 522 sliding block parts.

Detailed Description

The structure of the present invention will be further described with reference to the accompanying drawings and preferred embodiments of the present invention.

Referring to fig. 1 to 2, the utility model relates to a push type ration salt feeder, including barrel 1, move pole 2, store up salt cabin 3, resilience extension spring 4 and press control assembly 5.

Specifically, the cylinder 1 is a long straight cylindrical structure which penetrates through the cylinder from top to bottom, a telescopic guide tooth groove 11 is arranged on the inner wall of the upper end of the cylinder 1, and two salt leakage ports A12 are correspondingly formed in the side wall of the lower end of the cylinder 1.

Specifically, the moving rod 2 is a long right-circular cylinder structure and is movably arranged in the cylinder body 1, a quantitative salt taking cabin 21 matched with the inner wall of the cylinder body 1 is arranged at the lower end of the moving rod, two salt leakage ports B22 matched with the salt leakage ports A12 are correspondingly formed in the side wall of the upper part of the quantitative salt taking cabin 21, two salt scattering ports 23 are correspondingly formed in the side wall of the lower part of the quantitative salt taking cabin 21, and an end cover 24 capable of blocking an opening in the bottom of the cylinder body 1 is arranged at the bottom of the quantitative salt taking cabin 21.

Specifically, the salt storage cabin 3 is fixedly arranged on the outer wall of the barrel 1 and is coaxial with the outer wall, and the lower part of the salt storage cabin 3 corresponding to the salt leakage port A12 is of a funnel-shaped structure.

Specifically, the total of two rebound tension springs 4 are located below the bottom of the salt storage cabin 3 and are correspondingly arranged on two sides of the outer wall of the lower end of the barrel body 1, the upper ends of the rebound tension springs 4 are respectively connected with tension spring connecting rods 13 (shown in fig. 7) which are radially and fixedly arranged on the outer wall of the barrel body 1 and are arranged on the same side, and the lower ends of the rebound tension springs 4 are respectively connected with vertical tension spring buckles (not marked in the figure) which are fixedly arranged on two sides of the edge of the end cover 24. Under the non-use state, two resilience extension springs 4 can automatically drive the moving rod 2 to move up and reset under the action of self elasticity, and enable the end cover 24 to be elastically abutted against the opening at the bottom of the cylinder body 1 so as to seal the opening.

It is specific, move pole 2 and move up when reseing and end cover 24 shutoff barrel 1 bottom opening, salt leaking mouth B22 on the salt cabin 21 upper portion lateral wall is got to the ration and the butt joint of salt leaking mouth A12 on the lateral wall of barrel 1 lower extreme, salt leaking mouth 23 on the lateral wall of barrel 1 inner wall shutoff ration volume salt cabin 21 lower part, salt in the salt storage cabin 3 can leak into the ration through salt leaking mouth A12 and salt leaking mouth B22 are automatic at this moment and get salt cabin 21, until filling up the realization the utility model discloses the accurate quantitative function of collecting of salt for the salt ware.

Specifically, the pressing control component 5 is movably connected to the upper end in the cylinder body 1 through the telescopic guide tooth grooves 11, the bottom of the pressing control component 5 is movably abutted to the upper end of the moving rod 2, and the upper portion of the pressing control component 5 can movably extend out through an opening in the top of the cylinder body 1.

In-service use the utility model discloses when carrying out ration for salt for the salt ware, can be manual press down once press control assembly 5 and make it move down the location along the direction tooth's socket 11 that stretches out and draws back, press control assembly 5 through moving pole 2 in this process, salt cabin 21 and end cover 24 downwardly stretching resilience extension spring 4 are got to the ration, thereby overcome the elasticity of resilience extension spring 4 and push down to push away and move pole 2 and make it move down the location, get salt cabin 21 with the control ration and spill salt mouth 23 and stretch out through 1 bottom opening of barrel, and then convenience of customers gets salt that salt cabin 21 was filled up with the ration under with non-use state and pour through spilling salt mouth 23, in order to accomplish the utility model discloses the purpose that the ration volume got salt and add.

Quantitatively taking salt and adding, then pressing the pressing control component 5 once again, at the moment, the pressing control component 5 is driven by the rebound tension spring 4 to be pushed by the movable rod 2 to move upwards and reset along the telescopic guide tooth groove 11, so that the quantitatively taking salt cabin 21 is controlled to retract into the barrel body 1, the opening at the bottom of the barrel body 1 is sealed and blocked by the end cover 24, and then the salt in the salt storage cabin 3 is filled into the quantitatively taking salt cabin 21 through the salt leakage opening A12 and the salt leakage opening B22 again.

After the technical scheme is adopted, the utility model discloses give salt ware has following beneficial effect.

The utility model discloses salt ware passes through flexible direction tooth's socket 11 on the barrel 1, moves pole 2 and presses control assembly 5 and has realized that salt in the storage salt cabin 3 is accurate, the ration leaks to go into the purpose that the salt cabin 21 was got to the ration volume to through according to the mode control volume of moving spilling salt and getting the salt action of salt cabin 21, simple structure, convenient operation, the ration is accurate, makes the salt addition during culinary art more accurate, controllable.

Additionally, the utility model discloses a rebound tension spring 4 designs for two and correspond the setting, and this kind of design can be injectd and move reciprocating of pole 2, prevents to move pole 2 flexible action back ration and gets salt cabin 21 and take place to twist reverse and lead to leaking salt mouth B22 and leaking salt mouth A12 and counterpoint uneven, inaccurate problem.

Further, referring to fig. 3, the telescopic guide tooth slot 11 of the salt feeder of the present invention includes an inner liner 111 and a positioning guide tooth.

Specifically, the inner liner 111 is a thickness layer which is attached to the inner wall of the upper end of the cylinder 1 and is integrally formed with the inner wall, 4 retraction reset guide grooves 112 are vertically and uniformly distributed on the inner liner 111 by taking the axis of the cylinder 1 as the center, the upper end of each retraction reset guide groove extends to the upper part of each retraction reset guide groove, the lower end of each retraction reset guide groove penetrates through the bottom of each retraction reset guide groove, and 4 pressing guide grooves 113 are arranged at intervals of the retraction reset guide grooves 112.

Specifically, the positioning guide teeth are disposed at the lower end of the inner liner 111 between two adjacent retracting reset guide grooves 112, and include an extending positioning tooth 114 connected to the bottom opening of one retracting reset guide groove 112, and a reset guide tooth 115 connected to the bottom opening of the other retracting reset guide groove 112.

In cooperation, referring to fig. 4-5, the pressing control assembly 5 of the salt feeder of the present invention comprises a rotary sliding claw column 51 and a pressing sleeve 52.

Specifically, the rotary sliding claw column 51 can rotate below the telescopic guide tooth groove 11 in the cylinder body 1, the bottom of the rotary sliding claw column 51 is movably abutted to the upper end of the moving rod 2, 4 sliding claw rods 511 which can be correspondingly inserted into the retraction reset guide groove 112 from bottom to top are vertically and uniformly distributed on the side wall of the rotary sliding claw column 51, and the upper end of each sliding claw rod 511 is provided with a guide positioning tooth 512 which is consistent with the tooth punching direction of the extending positioning tooth 114 and the reset guide tooth 115 and can be clamped at the joint of the extending positioning tooth 114 and the reset guide tooth 115.

Specifically, a sleeved rod 513 coaxial with the rotary sliding claw column 51 is arranged at the upper part of the rotary sliding claw column 51, and the diameter of the sleeved rod 513 is smaller than the outer diameter of the main body of the rotary sliding claw column 51.

Specifically, the pressing sleeve 52 is a cylindrical structure with an opening at the bottom, and is movably sleeved on the upper portion of the rotating pawl column 51 through the sleeving rod 513, the top of the pressing sleeve 52 can extend from the opening at the top of the barrel 1 for a user to manually press, a circle of pushing teeth 521 movably abutted on the guiding and positioning teeth 512 are uniformly distributed on the periphery of the opening at the bottom of the pressing sleeve 52 to push the rotating pawl column 51 downwards, a rebound tension spring 4 is matched at a critical point at the lower end of the telescopic guiding tooth socket 11 to drive the rotating pawl column 51 to rotate along the direction of the guiding and positioning teeth 512, and four sliding block portions 522 slidably inserted into the pressing guide groove 113 from bottom to top are uniformly distributed on the side wall of the pressing sleeve 52 to prevent the pressing sleeve 52 from rotating and moving upwards out of the telescopic guiding tooth socket 11.

Referring to fig. 5 to 8, in actual assembly, the pressing sleeve 52 is first inserted from bottom to top through the bottom opening of the cylinder 1 until the sliding block portions 522 on the side wall of the pressing sleeve are respectively inserted into the pressing guide grooves 113 of the telescopic guide tooth grooves 11 in a sliding manner, so as to prevent the pressing sleeve from rotating in the cylinder 1; then the rotary sliding claw column 51 is placed from bottom to top through the bottom opening of the cylinder 1, so that each sliding claw rod 511 of the rotary sliding claw column 51 is correspondingly and movably inserted into each retraction reset guide groove 112 of the telescopic guide tooth groove 11, or the guide positioning teeth 512 at the upper end of each sliding claw rod 511 of the rotary sliding claw column 51 are movably clamped at the connecting part between the extension positioning teeth 114 and the reset guide teeth 115; then the moving rod 2 is put in from bottom to top through the bottom opening of the cylinder 1, the top end of the moving rod is movably abutted against the bottom surface of the rotary sliding claw column 51, and finally the cylinder 1 and the moving rod 2 are elastically connected together through the rebound tension spring 4, the tension spring connecting rod 13 and the tension spring buckle.

After assembly, if the upper end of the pressing sleeve extends from the top opening of the barrel 1, the moving rod 2 is reset, and the quantitative salt taking bin 21 is retracted into the barrel 1, each sliding claw rod 511 of the rotating sliding claw column 51 is movably inserted into the retraction reset guide groove 112, and pushes the pressing sleeve to make the sliding block portion 522 on the side wall of the pressing sleeve movably abut against the upper end of the pressing guide groove 113 (as shown in fig. 5 to 6). When salt needs to be added, the pressing sleeve is pressed downwards to enable the pressing guide groove 113 to move downwards, the pushing tooth 521 pushes the rotary sliding claw column 51 downwards to enable the rotary sliding claw column to move downwards along the retraction reset guide groove 112, when the guide positioning tooth 512 at the upper end of the sliding claw rod 511 moves to the joint of the retraction reset guide groove 112 and the extension positioning tooth 114, the rotary sliding claw column 51 is pushed by the driven rod 2 under the elastic force of the rebound tension spring 4, and further the rotary sliding claw column rotates along the direction of the guide positioning tooth 512 and slides into the extension positioning tooth 114, and is finally clamped at the joint between the extension positioning tooth 114 and the reset guide tooth 115, so that the rotary sliding claw column 51 is driven to move downwards for positioning, and the quantitative salt taking cabin 21 at the bottom of the driven rod 2 is controlled to extend (as shown in fig. 7 to 8).

After the salt spreading action is finished, the pressing sleeve can be pressed again, the rotating sliding claw column 51 is pushed downwards to enable the guide positioning tooth 512 at the upper end of the sliding claw rod 511 to move to the critical point at the lower end of the joint of the extending positioning tooth 114 and the reset guide tooth 115, the rotating sliding claw column 51 is pushed by the driven rod 2 under the action of the elastic force of the rebound tension spring 4, and then the rotating sliding claw column rotates along the reset guide tooth 115 and slides into the retraction reset guide groove 112 to move upwards for resetting, so that the rotating sliding claw column 51 is driven to move upwards for resetting, and the quantitative salt taking cabin 21 at the bottom of the driven rod 2 is controlled to retract.

The utility model discloses a press down the control and go out salt structure and press down the control with current press-type automatic pen and go out the structure of nib similar, simple structure, reliable, convenient operation, and the preparation technology is ripe, and is with low costs, does benefit to the utility model discloses the marketing of product.

Further, as shown in fig. 2 and 7, the salt spreading openings 23 of the present invention have two openings, and are arranged in a crisscross manner between the resilient tension springs 4.

Two salt mouths 23 that spill correspond and locate between two resilience extension springs 4, fall into resilience extension spring 4 when can avoiding spilling salt on, two openings that spill salt mouth 23 are as big as possible, guarantee to spill salt efficiency.

Further, referring to fig. 2 and 4, the salt storage compartment 3 of the present invention includes a compartment body 31 and a compartment cover 32.

Specifically, cabin portion 31 be transparent groove structure, the bottom is hopper-shaped structure, upper portion is cylindric structure, sets firmly on the outer wall of barrel 1 through its bottom is coaxial, and the bottom of cabin portion 31 is located two and returns and play extension spring 4 tops, does not influence the connection between rebound extension spring 4 and barrel 1, move pole 2.

Funnel-shaped structural design not only is favorable to the under-deck salt storage to leaking salt mouth A12 department and removing, and the finger bearing salt storage cabin 3 of still being convenient for when the user is handheld is used more handy, conveniently presses the control and spills salt.

Specifically, the hatch cover 32 is a transparent cover structure, and a circular hole 321 which is coincident with the outer wall of the upper end of the barrel body 1 is formed in the center of the hatch cover, so that the hatch cover can be detachably connected to the upper end opening of the hatch body 31 from top to bottom during actual assembly and is sleeved on the outer wall of the upper end of the barrel body 1.

The utility model discloses store up salt cabin 3 and adopt the transparent material preparation, the user of being convenient for observes the surplus salt storage volume in the cabin at any time, and cabin cover 32 detachably assembles on cabin body portion 31, conveniently loads the salt, and the preferred cabin cover 32 upper end with after assembling of barrel 1 upper end periphery flushes, and convenience of customers presses down sleeve pipe 52, and it is more convenient to use.

Further, the volume of the quantitative salt taking cabin 21 of the present invention is designed to accommodate 1g or 2g or 5g of salt.

The utility model discloses get salt cabin 21 design for the ration of salt ware and be the volume of different standards, salt interpolation's requirement when adaptable different families cook food, the user can have the salt cabin 21 is got to suitable volumetric ration according to family member's quantity selection and give salt ware product to the reduction presses the number of times of pressing down sleeve pipe 52 when spilling salt, and the quick ration of being convenient for adds salt.

The above embodiments are merely for clarity of the technical solutions of the present invention, and are not intended to limit the embodiments of the present invention. Various corresponding changes and modifications can be made by those skilled in the art without departing from the spirit and essence of the invention, and these corresponding changes and modifications are intended to be included within the scope of the invention.

Claims (8)

1. A push type quantitative salt feeder is characterized by comprising:

the barrel (1) is of a cylindrical structure which penetrates up and down, the inner wall of the upper end of the barrel is provided with a telescopic guide tooth groove (11), and the side wall of the lower end of the barrel is provided with a salt leakage opening A (12);

the moving rod (2) is movably arranged in the barrel body (1), the lower end of the moving rod is provided with a quantitative salt measuring cabin (21) which is matched with the inner wall of the barrel body (1), the side wall of the upper part of the quantitative salt measuring cabin (21) is provided with a salt leakage opening B (22), the side wall of the lower part of the quantitative salt measuring cabin is provided with a salt spreading opening (23), and the bottom of the quantitative salt measuring cabin is provided with an end cover (24);

the salt storage cabin (3) is fixedly arranged on the outer wall of the barrel body (1) and is coaxial with the outer wall, and the lower part of the salt storage cabin, which corresponds to the salt leakage opening A (12), is of a funnel-shaped structure;

the upper end of the at least one rebound tension spring (4) is connected with the cylinder body (1), the lower end of the rebound tension spring is connected with the end cover (24), the moving rod (2) can be automatically driven to move upwards to reset, and the end cover (24) is elastically abutted against the opening at the bottom of the cylinder body (1) to seal the opening; when the end cover (24) seals the bottom opening of the barrel body (1), the salt leakage port B (22) is in butt joint with the salt leakage port A (12), and the inner wall of the barrel body (1) seals the salt spreading port (23);

the pressing control component (5) is movably connected to the upper end in the barrel body (1) through the telescopic guide tooth groove (11), the bottom of the pressing control component is movably abutted to the upper end of the moving rod (2), the upper part of the pressing control component movably extends out through the top opening of the barrel body (1) and is used for moving downwards along the telescopic guide tooth groove (11) for positioning when being pressed once, and the pressing control component overcomes the elasticity of the rebound tension spring (4) to push the moving rod (2) downwards so as to control the salt spreading port (23) of the quantitative salt taking cabin (21) to extend out through the bottom opening of the barrel body (1); when the quantitative salt taking cabin is pressed again, the quantitative salt taking cabin is driven to move upwards and reset along the telescopic guide tooth grooves (11) through the pushing of the movable rod (2) by the rebound tension spring (4) so as to control the quantitative salt taking cabin (21) to retract.

2. The press type quantitative salt feeder of claim 1, wherein the telescopic guide spline (11) comprises:

the inner liner (111) is arranged on the inner wall of the upper end of the cylinder body (1), and is vertically and uniformly provided with a plurality of retraction reset guide grooves (112) with the upper ends extending to the upper part of the cylinder body (1) and the lower ends penetrating through the bottom of the cylinder body, and pressing guide grooves (113) which are arranged at intervals with the retraction reset guide grooves (112);

the positioning guide teeth are arranged at the lower ends of the inner liner layers (111) between the two adjacent retracting and resetting guide grooves (112), and comprise extending positioning teeth (114) connected with the bottom opening of the retracting and resetting guide groove (112) on one side and resetting guide teeth (115) connected with the bottom opening of the retracting and resetting guide groove (112) on the other side.

3. A push type saltdispenser as in claim 2 wherein said push control assembly (5) comprises:

the rotary sliding claw column (51) can rotate below a telescopic guide tooth groove (11) in the barrel body (1), the bottom of the rotary sliding claw column is movably abutted against the upper end of the moving rod (2), a plurality of sliding claw rods (511) which can be correspondingly inserted into the retraction reset guide groove (112) in a sliding mode from bottom to top are uniformly distributed on the side wall of the rotary sliding claw column, and the upper end of each sliding claw rod (511) is provided with a guide positioning tooth (512) which is consistent with the tooth forming direction of the extension positioning tooth (114) and the reset guide tooth (115) and can be clamped at the joint of the extension positioning tooth and the reset guide tooth;

and the pressing sleeve (52) is movably sleeved at the upper part of the rotating sliding claw column (51), the top of the pressing sleeve can extend out of the top opening of the barrel body (1), a plurality of pushing teeth (521) which can movably abut against the guiding and positioning teeth (512) to push the rotating sliding claw column (51) downwards and drive the rotating sliding claw column (51) to rotate along the direction of the guiding and positioning teeth (512) at the critical point of the lower end of the telescopic guiding tooth groove (11) are uniformly distributed on the periphery of the bottom opening of the pressing sleeve, and a plurality of sliding block parts (522) which are inserted into the pressing guiding groove (113) in a sliding mode from bottom to top are uniformly distributed on the side wall of the pressing sleeve to prevent the rotating sliding sleeve from rotating and moving upwards out of the telescopic guiding tooth groove (11).

4. The press type quantitative salt feeder according to claim 3, wherein the upper part of the rotary sliding claw column (51) is provided with a sleeve rod (513) coaxial with the rotary sliding claw column, and the press sleeve (52) is movably sleeved on the rotary sliding claw column (51) through the sleeve rod (513).

5. The push type quantitative salt feeder according to claim 1, wherein two rebound tension springs (4) are arranged below the bottom of the salt storage chamber (3) and are correspondingly arranged on two sides of the outer wall of the lower part of the barrel (1).

6. The pressing type quantitative salt feeder according to claim 5, wherein two salt spreading openings (23) are arranged in a crisscross manner with the two resilient tension springs (4).

7. The press-type saltshaker as claimed in claim 1, wherein the saltcellar (3) comprises:

the cabin body part (31) is of a transparent groove structure and is coaxially and fixedly arranged on the outer wall of the barrel body (1);

the cabin cover (32) is of a transparent cover structure, the center of the cabin cover is provided with a round hole (321) matched with the outer wall of the upper end of the cylinder body (1), and the cabin cover is detachably connected to the upper end opening of the cabin body part (31).

8. The push type saltcellar quantitatively dispensing device as claimed in claim 1, wherein the volume of the saltcellar (21) is designed to accommodate 1g or 2g or 5g of salt.

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