CN211944587U - Milk powder bottle capable of quantitatively supplying powder - Google Patents

Abstract

The utility model belongs to the technical field of infant's articles for use, concretely relates to can quantitative milk powder bottle that supplies powder. Comprises a bottle body and a quantitative chute; the bottle body has a downward bottle mouth and is provided with a quantitative lattice which is through from front to back, and the top opening of the quantitative lattice is butted with the bottle mouth; the quantitative chute can be inserted into the quantitative grid and slides, and is divided into a front part and a rear part, wherein the front part is a quantitative cavity of milk powder and is communicated up and down; the rear part is a pushing part, and the top surface of the pushing part is a closed baffle which can completely cover the bottle mouth; in the initial state, the quantitative cavity is positioned below the bottle mouth of the bottle body, and the milk powder falls into the quantitative cavity; the quantitative chute is pushed forward, the milk powder moves out of the quantitative lattice along with the quantitative cavity, falls into the feeding bottle from the lower opening of the quantitative cavity, the pushing part is positioned below the bottle opening, and the sealing baffle can cover the bottle opening to prevent powder leakage; the utility model has the advantages of simple and ingenious structure, convenient and fast use and single-hand operation, and can continuously pour out milk powder accurately and quantitatively to brew the milk bottle.

Description

Milk powder bottle capable of quantitatively supplying powder

Technical Field

The utility model belongs to the technical field of infant's articles for use, concretely relates to can quantitative milk powder bottle that supplies powder.

Background

When parents take babies to go out or travel, the babies can be fed with milk powder to be brewed with the milk powder in order to ensure that the babies can be fed with milk on time. But since the infant is according to its age, the amount of milk powder fed per time is a fixed amount; the general parents can adopt to carry interim milk powder bottle, and the corresponding volume milk powder of canning according to the trip time often need divide many storage check to carry out the ration partial shipment to when needs are fed, generally need carry extra graduated flask and carry out the ration and steep. The operation is more loaded down with trivial details like this, and the pipe of partial shipment milk powder washs more, and manual operation ration can produce the error moreover, and the measuring cup of additionally placing has the possibility of certain polluted milk powder moreover.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a but milk powder bottle of ration powder that simple structure, the operation is convenient, and ration is accurate.

The utility model provides a milk powder bottle which can supply powder quantitatively, comprising a bottle body and a quantitative chute;

the bottle body is provided with a bottle opening facing downwards, and a quantitative lattice of milk powder is arranged at the opening position, wherein the quantitative lattice is provided with a top part, a front opening and a rear opening; the top of the quantitative lattice is butted with the bottle mouth of the milk powder bottle, so that the bottom of the quantitative lattice can receive the milk powder falling from the bottle mouth, and the quantitative lattice is communicated with the front and the back;

the quantitative sliding groove can be inserted from the front opening and the rear opening of the quantitative grid and can slide back and forth in the quantitative grid; the quantitative chute is divided into a front part and a rear part along the sliding direction; wherein:

the front part is used as a quantitative cavity of milk powder, is communicated up and down, and the communicated upper opening is matched with the bottle mouth of the bottle body and is separated from the rear part by a separating baffle;

the rear part is used as a pushing part, the top surface of the pushing part is provided with a closed baffle which can completely cover the bottle mouth of the bottle body;

the quantitative sliding chute is inserted into the quantitative lattice, and the initial state is that the quantitative cavity in the front part of the quantitative sliding chute is positioned below the bottle opening of the bottle body, at the moment, milk powder in the milk powder bottle falls from the bottle opening and falls into the quantitative cavity through the upper opening of the quantitative cavity, at the moment, the lower opening at the bottom of the quantitative cavity is sealed by the bottom of the quantitative lattice, and the milk powder can be kept and stored in the quantitative cavity; pushing the pushing part of the quantitative chute to push the quantitative chute forwards to move the quantitative cavity out of the quantitative grid, pushing the milk powder in the quantitative cavity out along with the quantitative cavity, losing the support at the bottom of the quantitative grid, and allowing the milk powder to fall from the lower opening of the quantitative cavity and fall into the feeding bottle to be brewed; at the moment, the pushing part at the rear part of the quantitative chute is positioned below the bottle mouth of the milk powder bottle, and the sealing baffle plate on the top surface can cover the bottle mouth of the milk powder bottle, so that milk powder cannot fall out; and moving the quantitative cavity back to the bottom of the bottle mouth of the milk powder bottle, and allowing the milk powder to fall into the quantitative cavity until the next time of milk powder brewing or adding.

The utility model discloses in, milk powder bottleneck department, and be located the one side that the closure baffle removed, be equipped with soft vermicelli of scraping, its one side laminating in the closure baffle, when the closure baffle shifts out from milk powder bottle bottleneck, can block to scrape the milk powder on the closure baffle, and can not spill when the closure baffle shifts out along with the closure baffle.

The utility model is also provided with an elastic rubber ring, and the pushing part is provided with a notch which transversely penetrates through the left and right side walls; when the quantitative cavity is positioned in the quantitative grid, the elastic rubber ring penetrates through the gap and is hooped around the quantitative grid, namely the quantitative grid and the quantitative cavity are hooped together; when pushing the portion of will advancing through external force during the ration check, the elastic rubber circle is stretched, forms the resilience force, removes external force, and the elastic rubber circle resilience shrink is with in the ration check of rebounding automatically in the ration chamber.

In the utility model, the quantitative cavity and the bottom of the quantitative grid are surrounded to form a cavity for limiting a certain amount of milk powder, and the quantitative cavity is filled with the milk powder as a basic metering unit, for example, one spoon of traditional milk powder is generally used for brewing 50ml of milk; the milk powder bottle is placed above the bottle mouth of the milk bottle, 7.5g of milk powder falls into the milk bottle when the quantitative chute is pushed once, and 15g of milk powder falls into the milk bottle when the quantitative chute is pushed once again, so that the milk powder can be accurately controlled without additional equipment such as a measuring cup.

The utility model discloses in, after the capacity of ration chamber is confirmed, still need accomplish more accurate adjustable to ration chamber capacity, can adopt following structure.

In the utility model, the quantitative chute pushing part is provided with a separation blade which can be detachably fixed on the quantitative chute; when the quantitative sliding groove is pushed, the blocking piece can be blocked by the frame of the quantitative grid, so that the distance of pushing the quantitative sliding groove is limited, the staggered distance between the lower opening of the quantitative cavity and the bottom of the quantitative grid is controlled, and the amount of poured milk powder is adjusted and controlled.

Or, the utility model is also provided with a plurality of detachable inserting pieces inserted into the quantitative cavity, and the volume of the inserting pieces occupies the capacity of the quantitative cavity; the milk powder capacity of the quantitative cavity is adjusted through the number of the inserting pieces, and the amount of the milk powder is increased and decreased by increasing and decreasing the number of the inserting pieces.

The utility model discloses in, the bottle of milk powder bottle is detachable segmentation structure, including bottleneck section, a plurality of detachable middle section bottle and bottle end section, sealing connection in proper order. The height of the bottle body is increased and decreased by increasing and decreasing the number of the middle-section bottle bodies, so that the volume of the bottle body is increased and decreased; like this, the head of a family can insert or take out from the middle section bottle according to trip time length, adjusts the volume of whole bottle to this milk powder volume of controlling the area.

The utility model discloses in, the bottle that states the milk powder bottle is cylindrical, through threaded connection between the middle section bottle.

The utility model has the advantages of simple and ingenious structure, convenient and fast use and single-hand operation, and can continuously pour out milk powder accurately and quantitatively to brew the milk bottle.

Drawings

Fig. 1 is a schematic structural diagram of the embodiment.

Fig. 2 is a schematic diagram of an explosive structure of the embodiment.

FIG. 3 is a schematic structural view of a quantitative chute according to an embodiment; (a) from top to bottom, (b) from bottom to top.

Fig. 4 is a diagram showing a structure for controlling the amount of powdered milk by the baffle plate.

Fig. 5 is a diagram showing a structure for controlling the amount of powdered milk by means of an insert sheet.

Reference numbers in the figures: the bottle comprises a bottle body 1, a quantitative sliding groove 2, a quantitative grid 3, a quantitative cavity 4, a sealing baffle 5, an elastic rubber ring 6, a gap 7, a separation baffle 8, a gap 9, a vermicelli scraping strip 10, a blocking piece 11 and an inserting piece 12.

Detailed Description

The utility model comprises a bottle body 1 and a quantitative chute 2; all adopt food grade plastic material.

The bottle body 1 is cylindrical, the bottle mouth is downward, the bottle mouth is square, a rectangular milk powder quantifying grid 3 is arranged at the opening position, the top of the quantifying grid 3 is opened, and a through opening is formed in the front and the back of the quantifying grid 3; the top edges of the left and right side walls of the quantitative lattice 3 are butted with the corresponding square edges of the bottle mouth of the milk powder bottle, so that the bottom of the quantitative lattice 3 can catch the milk powder falling from the bottle mouth.

The whole quantitative sliding chute 2 is a long rectangle and is formed by enclosing four rectangular side plates, namely a front rectangular side plate, a rear rectangular side plate, a left rectangular side plate and a right rectangular side plate, can be inserted from a rear opening of the quantitative grid 3 in an attaching mode, and can slide in the quantitative grid 3 back and forth; the quantitative chute 2 is divided into a front part and a rear part along the sliding direction, and the front part and the rear part are divided into two cavities by a separation baffle 8; wherein:

the front part of the quantitative cavity 4 is used as a quantitative cavity 4 of milk powder, the quantitative cavity 4 is a rectangular cavity, the shape and the size of the quantitative cavity are matched with the hollow part of the quantitative grid 3, the quantitative cavity 4 is communicated up and down, and the upper opening and the lower opening are square and are matched with the bottle mouth of the bottle body 1;

the rear part is used as a pushing part and is also a rectangular cavity as a whole, the top surface of the rectangular cavity is provided with a closed baffle 5, and the size of the closed baffle 5 ensures that the bottle mouth of the bottle body 1 can be completely covered.

The powder scraping strip 10 with the same length is arranged at the bottle mouth of the milk powder bottle and positioned on one side (one side of the rear opening) of the front and rear moving of the sealing baffle 5, when the sealing baffle 5 is moved out of the bottle mouth of the milk powder bottle, the milk powder on the sealing baffle 5 can be prevented from being scraped, and the milk powder cannot leak out along with the movement of the sealing baffle 5;

the vermicelli scraping strip 10 can be a strip-shaped silica gel strip made of soft silica gel, as shown in fig. 1; or may be an elongated brush.

In addition, an elastic rubber ring 6 is also arranged, and the left side plate area and the right side plate area of the pushing part are provided with a gap 7 transversely penetrating through the left side wall and the right side wall; when the quantitative cavity 4 is positioned in the quantitative grid 3, in this state, the elastic rubber ring 6 passes through the gap 7 and can be hooped outside the left and right side walls of the quantitative grid 3, the separating baffle 8 and the front side plate of the quantitative chute 2, namely the quantitative grid 3 and the quantitative cavity 4 are hooped together; bulldoze through external force (finger) and promote the portion of advancing posterior lateral plate fast, when pushing the portion of advancing into quantitative check 3, elastic rubber circle 6 is stretched, forms the resilience force, removes external force, and elastic rubber circle 6 resilience shrink is with 4 automatic bounces quantitative check 3 in quantitative chamber. As shown in fig. 3.

A transversely penetrating gap 9 is arranged on the rear side plate (for pushing and pressing by fingers) of the pushing part, and the elastic rubber ring 6 penetrates through the gap 9 and is hooped on the separating baffle 8; facilitating the installation of the elastic rubber ring 6.

The bottle body 1 of the milk powder bottle is made of edible plastic, and the main body of the bottle body 1 is cylindrical and adopts a detachable segmented structure; including the bottleneck section, the bottle end section and a plurality of interlude that are equipped with the bottleneck, the interlude is the middle section bottle, is hollow cylinder, and one end is equipped with the external screw thread, and the other end is equipped with the internal thread, and bottleneck section and bottle end section also corresponding be equipped with the screw thread to the kneck, and bottleneck section, a plurality of interlude and bottle end section can rotate in proper order and screw up the connection like this. The height of the bottle body 1 is increased or decreased by increasing or decreasing the number of the middle-stage bottle bodies, so that the volume of the bottle body 1 is increased or decreased; like this, the head of a family can insert or take out from the middle section bottle according to trip time length, through injecing middle section bottle quantity, adjusts the volume of whole bottle 1 to this milk powder volume of controlling the area. As described in fig. 1.

The body 1 of the milk powder bottle may also take other shapes, such as a cube, by a conventional snap-fit form, etc.

When the utility model is used, the quantitative chute 2 is inserted into the quantitative grid 3, the initial state is that the quantitative cavity in the front of the quantitative chute 2 is positioned under the bottleneck of the bottle body 1, at the moment, milk powder in the milk powder bottle falls from the bottleneck and falls into the quantitative cavity 4 through the upper opening of the quantitative cavity 4 of the quantitative chute 2, at the moment, the lower opening at the bottom of the quantitative cavity 4 is sealed by the bottom of the quantitative grid 3, and the milk powder can be kept to be stored in the quantitative cavity 4; pushing the pushing part at the rear part of the quantitative chute 2 to rapidly push the quantitative chute 2 forwards so that the quantitative cavity 4 is moved out of the quantitative grid 3, the milk powder in the quantitative cavity is pushed out along with the quantitative cavity 4, the bottom support of the quantitative grid 3 is lost, and the milk powder falls from the lower opening of the quantitative cavity and falls into the feeding bottle to be brewed; at the moment, the pushing part at the rear part of the quantitative chute 2 is positioned below the bottle mouth of the milk powder bottle, and the sealing baffle 5 at the top surface can cover the bottle mouth of the milk powder bottle, so that milk powder cannot fall out; and moving the quantitative cavity 4 back to the bottom of the bottle mouth of the milk powder bottle, and allowing the milk powder to fall into the quantitative cavity 4 to wait for the next brewing or adding of the milk powder.

The bottom of the quantitative cavity 4 and the bottom of the quantitative grid 3 are surrounded to form a cavity body for limiting a certain amount of milk powder, and the quantitative cavity 4 is filled with the milk powder to be used as a basic metering unit.

For example, a grid of 7.5g of milk powder corresponds to 50ml of water; the milk powder bottle is placed above the bottle mouth of the milk bottle, 7.5g of milk powder falls into the milk bottle by pushing the quantitative chute 2 once, 50ml of water is needed, and the milk powder falls into the milk bottle by pushing once again, 15g of milk powder and 100ml of water are needed, so that the amount of the milk powder can be accurately controlled without additional equipment such as a measuring cup;

the brewing amount can be designed and adjusted according to various brands.

When the volume of the dosing chamber 4 is determined, the following configuration may be used if more precise adjustment of the volume of the dosing chamber 4 is to be made, for example for a desired 5g milk powder increment.

A blocking piece 11 is arranged on the pushing part of the quantitative chute 2, the main body of the blocking piece 11 is in a transverse strip shape and is attached and fixed above the closed baffle 5, the left end and the right end are respectively provided with a downward clamping pin, and clamping hooks of the clamping pins at the two sides are inwards opposite; two rows of grooves are respectively arranged on the pushing part of the quantitative chute 2 and the notches 7 at the left side and the right side, and the clamping hook can be clamped in the grooves; the distance between the main body of the baffle plate 11 and the separation baffle plate 8 is adjusted by clamping the quantitative sliding chute 2 on different grooves, so that the pushing distance of the quantitative sliding chute 2 is adjusted; as shown in fig. 4; when the quantitative sliding groove 2 is pushed, the blocking piece 11 can be blocked by the frame of the quantitative grid 3, so that the distance for pushing the quantitative sliding groove 2 is limited, and the staggered distance between the lower opening of the quantitative cavity 4 and the bottom of the quantitative grid 3 is controlled, so that the amount of poured milk powder is adjusted and controlled. For example, the pitch of each row of grooves represents the amount of 1g of powdered milk.

Or, a plurality of detachable inserting pieces 12 inserted into the quantitative cavity 4 can be arranged, and the volume of the inserting pieces 12 occupies the capacity of the quantitative cavity 4; the milk powder capacity of the quantitative cavity 4 is adjusted by the number of the inserting pieces 12, and the milk powder amount is increased or decreased by increasing or decreasing the number of the inserting pieces 12; as shown in fig. 5. For example, the volume of each insert 12 represents the amount of 1g of milk powder occupied.

The utility model has the advantages of simple and ingenious structure, convenient and fast use and single-hand operation, and can continuously pour out milk powder accurately and quantitatively to brew the milk bottle.

While, for purposes of simplicity of explanation, the above-described methodologies are shown and described as a series of structures, it is to be understood and appreciated that the methodologies are not limited by detail, as some structures may, in accordance with one or more embodiments, occur in different orders and/or concurrently with other acts from that shown and described herein or not shown and described herein, but as may be understood by those of ordinary skill in the art.

The previous description of the disclosure is provided to enable any person skilled in the art to make or use the disclosure. Various modifications to the disclosure will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other variations without departing from the spirit or scope of the disclosure. Thus, the disclosure is not intended to be limited to the examples and designs described herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (7)

1. A milk powder bottle capable of supplying powder quantitatively is characterized by comprising a bottle body and a quantitative chute;

the bottle body is provided with a bottle opening facing downwards, and a quantitative lattice of milk powder is arranged at the opening position, wherein the quantitative lattice is provided with a top part, a front opening and a rear opening; the top of the quantitative lattice is butted with the bottle mouth of the milk powder bottle, so that the bottom of the quantitative lattice can receive the milk powder falling from the bottle mouth, and the quantitative lattice is communicated with the front and the back;

the quantitative sliding groove can be inserted from the front opening and the rear opening of the quantitative grid and can slide back and forth in the quantitative grid; the quantitative chute is divided into a front part and a rear part along the sliding direction; wherein:

the front part is used as a quantitative cavity of milk powder, is communicated up and down, and the communicated upper opening is matched with the bottle mouth of the bottle body and is separated from the rear part by a separating baffle;

the rear part is used as a pushing part, the top surface of the pushing part is provided with a closed baffle which can completely cover the bottle mouth of the bottle body;

the quantitative sliding chute is inserted into the quantitative lattice, and the initial state is that the quantitative cavity in the front part of the quantitative sliding chute is positioned below the bottle opening of the bottle body, at the moment, milk powder in the milk powder bottle falls from the bottle opening and falls into the quantitative cavity through the upper opening of the quantitative cavity, at the moment, the lower opening at the bottom of the quantitative cavity is sealed by the bottom of the quantitative lattice, and the milk powder can be kept and stored in the quantitative cavity; pushing the pushing part of the quantitative chute to push the quantitative chute forwards to move the quantitative cavity out of the quantitative grid, pushing the milk powder in the quantitative cavity out along with the quantitative cavity, losing the support at the bottom of the quantitative grid, and allowing the milk powder to fall from the lower opening of the quantitative cavity and fall into the feeding bottle to be brewed; at the moment, the pushing part at the rear part of the quantitative chute is positioned below the bottle mouth of the milk powder bottle, and the sealing baffle plate on the top surface can cover the bottle mouth of the milk powder bottle, so that milk powder cannot fall out; and moving the quantitative cavity back to the bottom of the bottle mouth of the milk powder bottle, and allowing the milk powder to fall into the quantitative cavity until the next time of milk powder brewing or adding.

2. The powder bottle capable of supplying powder quantitatively according to claim 1, wherein a soft powder scraping strip is provided at the bottle mouth of the powder bottle and located at one side where the sealing baffle moves, and one side of the soft powder scraping strip is attached to the sealing baffle, so that the soft powder scraping strip can block the milk powder from being scraped off the sealing baffle when the sealing baffle is moved out of the bottle mouth of the powder bottle.

3. The milk powder bottle capable of supplying powder quantitatively according to claim 1 or 2, further comprising an elastic rubber ring, wherein the pushing portion is provided with a notch transversely penetrating through the left and right side walls; when the quantitative cavity is positioned in the quantitative grid, the elastic rubber ring penetrates through the gap and is hooped around the quantitative grid, namely the quantitative grid and the quantitative cavity are hooped together; when pushing the portion of will advancing through external force during the ration check, the elastic rubber circle is stretched, forms the resilience force, removes external force, and the elastic rubber circle resilience shrink is with in the ration check of rebounding automatically in the ration chamber.

4. The milk powder bottle capable of supplying powder quantitatively according to claim 1 or 2, wherein a stopper is provided on the quantitative chute pushing part, and the stopper is detachably fixed to the quantitative chute; when the quantitative sliding groove is pushed, the blocking piece can be blocked by the frame of the quantitative grid, so that the distance of pushing the quantitative sliding groove is limited, the staggered distance between the lower opening of the quantitative cavity and the bottom of the quantitative grid is controlled, and the amount of poured milk powder is adjusted and controlled.

5. The milk powder bottle capable of quantitatively supplying powder according to claim 1 or 2, which is further provided with a plurality of detachable inserting pieces inserted into the quantitative cavity, wherein the volume of the inserting pieces occupies the capacity of the quantitative cavity; the milk powder capacity of the quantitative cavity is adjusted through the number of the inserting pieces, and the amount of the milk powder is increased and decreased by increasing and decreasing the number of the inserting pieces.

6. The milk powder bottle capable of supplying powder quantitatively according to claim 1, wherein the bottle body of the milk powder bottle is a detachable segmented structure comprising a bottle mouth section, a plurality of middle bottle bodies and a bottle bottom section which are sequentially connected in a sealing manner.

7. The powder bottle according to claim 6, wherein the bottle body is cylindrical and the middle bottle body is connected by a screw thread.

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