CN213605898U - Bidirectional constant temperature device for feeding bottle - Google Patents

Abstract

The utility model discloses a two-way constant temperature equipment for feeding bottle, including two-way constant temperature equipment and feeding bottle, two-way constant temperature equipment includes base and heating box, sets up the inner chamber that runs through its both ends on the heating box, and the bottom at the base is fixed to the one end of heating box, is provided with heating device in the heating box, is provided with the drive chamber in the base, and the drive intracavity is provided with rotary cooling device, is provided with the thermocouple thermometer on the lateral wall of feeding bottle. When cooling, injecting cold water into the cavity, placing the feeding bottle in the heating box, driving the feeding bottle to rotate in the cold water by rotating the cooling device, so that boiled water in the feeding bottle is quickly cooled, and controlling the temperature of milk powder in the feeding bottle by a thermocouple thermometer on the feeding bottle; during the heating, the milk powder in the feeding bottle is heated through the heating device, the bidirectional constant-temperature treatment of the milk powder is realized, the milk can be fed to the baby quickly, the nutrient components of the milk powder are prevented from being damaged, and unnecessary waste is reduced.

Description

Bidirectional constant temperature device for feeding bottle

Technical Field

The utility model relates to a feeding bottle technical field specifically is a two-way constant temperature equipment for feeding bottle.

Background

A feeding bottle is a device for containing milk and is generally used for infants. The milk powder is brewed by using boiled water, the brewing temperature of the milk powder is generally 40-45 ℃, otherwise, the nutrition components of the milk powder are easily damaged by the water with too high temperature, so the milk powder is brewed by cooling the boiled water to a certain temperature, and the prior art needs to wait for the boiled water to be naturally cooled, so that the boiled water can be cooled for a long time, and the baby cries for a long time; when the milk powder has not drunk up simultaneously, the milk powder will thoroughly cool off, and cool milk powder can make the baby belly, therefore, when feeding next time, need heat the milk powder, and current feeding bottle can not heat the milk powder, the user generally directly falls, the waste has been caused, perhaps place and heat in the boiling water, and use boiling water heating can not effectively control the heating temperature of milk powder, the temperature that leads to the heating is probably too high, need cool down again and handle, so relapse, the heat time overlength that leads to the milk powder, can not reach the quick feeding to the baby equally, seriously influence user's experience, be unfavorable for feeding of baby.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art not enough, provide a two-way constant temperature equipment for feeding bottle, can be quick heat milk powder or cool down to suitable temperature, guaranteed that milk powder's nutrient composition is not destroyed, it is extravagant to have reduced unnecessary.

The purpose of the utility model is realized through the following technical scheme: a bidirectional constant temperature device for a feeding bottle comprises the bidirectional constant temperature device and the feeding bottle, wherein the bidirectional constant temperature device comprises a base and a heating box, an inner cavity penetrating through two ends of the heating box is formed in the heating box, one end of the heating box is fixed to the top of the base, and a heating device is arranged in the heating box;

the heating device comprises a water tank and a resistance wire heating layer which are sequentially arranged from inside to outside, the water tank is fixed on the base, the resistance wire heating layer is arranged on the inner wall of the heating box, the water tank is in contact with the resistance wire heating layer, the top of the water tank is communicated with a water inlet pipe, the water tank is communicated with a water outlet pipe, a manual control assembly is arranged in the water tank, and the manual control assembly is used for opening or closing the water outlet pipe;

a driving cavity is arranged in the base, a rotary cooling device is arranged in the driving cavity, the rotary cooling device comprises a motor, a rotating shaft and a placing plate, the motor is arranged in the driving cavity, the rotating shaft is rotatably arranged in the base in a penetrating mode, one end of the rotating shaft extends into the driving cavity and is connected with an output shaft of the motor, the other end of the rotating shaft extends into the inner cavity and is fixed with the placing plate, a circular groove is formed in the top of the placing plate, and the feeding bottle is arranged in the circular groove;

and a thermocouple thermometer is arranged on the side wall of the feeding bottle.

When the milk bottle is cooled to a proper temperature, the milk bottle is taken out to be mixed with milk powder; during heating, the opening of the water outlet pipe is opened by rotating the cooling device, so that water heated by the resistance wire heating layer flows into the inner cavity, and cooled milk powder in the feeding bottle is heated; therefore, the bidirectional constant-temperature treatment of the milk powder is realized, the milk can be rapidly fed to the baby, the nutrient components of the milk powder are not damaged, and unnecessary waste is reduced.

Further, the symmetry is provided with two elastic fixing device on the circular slot inner wall, elastic fixing device includes arc splint and two flexible members, two flexible member symmetry is fixed on the inner wall of circular slot, arc splint are fixed the tip of flexible member, the cover is equipped with the spring on the flexible member, the both ends of spring respectively with the inner wall and the arc splint of circular slot are connected.

Furthermore, a rubber pad is fixed on one surface of the arc-shaped clamping plate, which is far away from the telescopic rod piece.

Further, the manual control subassembly includes connecting rod, toper sprue and button, the shoulder hole has been seted up on the outer wall of heating box, minor diameter hole in the shoulder hole is close to the inner chamber sets up, connecting rod slidable wears to establish in the shoulder hole and with minor diameter hole looks adaptation in the shoulder hole, the one end of connecting rod is passed the outlet pipe is fixed with toper sprue, the other end are fixed with the button, be fixed with the spacing ring on the connecting rod, the spacing ring is located in major diameter hole in the shoulder hole, the cover is equipped with spring an on the connecting rod, spring an's both ends respectively with spacing ring and major diameter hole are kept away from the one end of button is connected.

Furthermore, the conical block is composed of a conical block and a circular block, the conical block is matched with the water outlet pipe, and the diameter of the circular block is larger than that of the water outlet pipe.

Further, when the spring a is in a normal state, the conical block is matched with the water outlet pipe, and the end face of the water outlet pipe is in contact with the circular block.

Further, a storage battery is arranged in the base and electrically connected with the resistance wire heating layer.

The utility model has the advantages that:

a bidirectional constant temperature device for a feeding bottle is characterized in that cold water is injected into a cavity during cooling, the feeding bottle is placed in a circular groove, a cooling device is rotated to drive the feeding bottle to rotate in the cold water, so that boiled water in the feeding bottle is cooled rapidly, the cooling temperature is controlled through a thermocouple thermometer on the feeding bottle, and the feeding bottle is taken out to be mixed with milk powder when cooled to a proper temperature; during heating, the opening of the water outlet pipe is opened through the manual control assembly, so that water heated by the resistance wire heating layer flows into the inner cavity, and cooled milk powder in the feeding bottle is heated; therefore, the bidirectional constant-temperature treatment of the milk powder is realized, the milk can be rapidly fed to the baby, the nutrient components of the milk powder are not damaged, and unnecessary waste is reduced.

Drawings

FIG. 1 is a perspective view of a bidirectional thermostat for a feeding bottle according to the present invention;

FIG. 2 is a schematic view of the internal structure of a bidirectional thermostat for a feeding bottle according to the present invention;

FIG. 3 is an enlarged view taken at A in FIG. 2;

FIG. 4 is a top view of a placement plate of the bidirectional thermostatic device for a feeding bottle of the present invention;

in the figure, 1-bidirectional constant temperature device, 2-milk bottle, 3-base, 4-heating box, 5-inner cavity, 6-resistance wire heating layer, 7-water tank, 8-water outlet pipe, 9-water inlet pipe, 10-driving cavity, 11-motor, 12-rotating shaft, 13-placing plate, 14-circular groove, 15-thermocouple thermometer, 16-arc clamping plate, 17-telescopic rod piece, 18-spring, 19-connecting rod, 20-conical block, 21-button, 22-stepped hole, 23-spring a, 24-accumulator and 25-limit ring.

Detailed Description

The technical solution of the present invention is described in further detail below with reference to the accompanying drawings, but the scope of the present invention is not limited to the following description.

As shown in fig. 1 to 4, a bidirectional constant temperature device for a feeding bottle comprises a bidirectional constant temperature device 1 and a feeding bottle 2, wherein the bidirectional constant temperature device 1 comprises a base 3 and a heating box 4, an inner cavity 5 penetrating through two ends of the heating box 4 is formed in the heating box 4, one end of the heating box 4 is fixed at the top of the base 3, and a heating device is arranged in the heating box 4;

as shown in fig. 2, the heating device comprises a water tank 7 and a resistance wire heating layer 6 which are sequentially arranged from inside to outside, the water tank 7 is fixed on the base 3, the resistance wire heating layer 6 is arranged on the inner wall of the heating box 4, the water tank 7 is contacted with the resistance wire heating layer 6, the top of the water tank 7 is communicated with a water inlet pipe 9, the water tank 7 is communicated with a water outlet pipe 8, a manual control assembly is arranged in the water tank 7, and the manual control assembly is used for opening or closing the water outlet pipe 8;

a driving cavity 10 is arranged in the base 3, a rotary cooling device is arranged in the driving cavity 10, the rotary cooling device comprises a motor 11, a rotating shaft 12 and a placing plate 13, the motor 11 is arranged in the driving cavity 10, the rotating shaft 12 is rotatably arranged in the base 3 in a penetrating manner, one end of the rotating shaft extends into the driving cavity 10 and is connected with an output shaft of the motor 11, the other end of the rotating shaft extends into the inner cavity 5 and is fixed with the placing plate 13, a circular groove 14 is formed in the top of the placing plate 13, and the feeding bottle 2 is arranged in the circular groove 14;

the side wall of the nursing bottle 2 is provided with a thermocouple thermometer 15.

When cooling, cold water is injected into the cavity 5, the milk bottle 2 is placed in the circular groove 14, the rotary cooling device drives the milk bottle 2 to rotate in the cold water, so that boiled water in the milk bottle 2 is cooled rapidly, the temperature of milk powder in the milk bottle is controlled by the thermocouple thermometer 15 on the milk bottle 2, the milk bottle 2 is taken out to be mixed with milk powder when the milk powder is cooled to a proper temperature, and the nutrition ingredients of the milk powder are prevented from being damaged while the boiled water is cooled rapidly; during heating, the opening of the water outlet pipe 8 is opened through the manual control assembly, so that water heated by the resistance wire heating layer 6 flows into the inner cavity 5, and cooled milk powder in the milk bottle 2 is heated; the bidirectional constant-temperature treatment of the milk powder is realized, the milk can be fed to the baby quickly, the nutrient components of the milk powder are not damaged, and unnecessary waste is reduced. It is worth noting that, because the milk powder cools off the back, partial milk powder will appear, probably has the heating inadequately during the heating simultaneously, consequently, when heating the milk powder in feeding bottle 2, drive feeding bottle 2 through rotatory cooling device and rotate, make the milk powder in the bottle rotatory, fully make milk powder and water mix, make the milk powder in the bottle fully heat simultaneously, improved heating efficiency.

The working process of the rotary cooling device is as follows: the motor 11 is started, and the motor 11 drives the placing plate 13 to rotate through the rotating shaft 12, so as to drive the feeding bottle 2 thereon to rotate.

Further, a storage battery 24 is arranged in the base 3, and the storage battery 24 is electrically connected with the resistance wire heating layer 6.

During specific implementation, water is injected into the water tank 7 through the water inlet pipe 9, the resistance wire heating layer 6 provides electric energy through the storage battery 24, so that the water in the water tank 7 is heated, and the heating of milk powder is realized. It is worth noting that temperature sensor can be set in the water tank 7, predetermined value is set on temperature sensor, when the water temperature in the water tank 7 is reduced to the predetermined value, the water in the water tank 7 is heated by the work of the resistance wire heating layer 6, thereby ensuring that the water in the water tank 7 is always in a standby state, when milk powder is required to be heated, the milk powder can be directly used, the time for waiting for the heating of the resistance wire heating layer 6 is avoided, and the heating efficiency of the milk powder is improved.

Further, as shown in fig. 4, two elastic fixing devices are symmetrically arranged on the inner wall of the circular groove 14, each elastic fixing device comprises an arc-shaped clamping plate 16 and two telescopic rod members 17, the two telescopic rod members 17 are symmetrically fixed on the inner wall of the circular groove 14, the arc-shaped clamping plates 16 are fixed at the end portions of the telescopic rod members 17, a spring 18 is sleeved on each telescopic rod member 17, and two ends of each spring 18 are respectively connected with the inner wall of the circular groove 14 and the arc-shaped clamping plates 16.

In order to avoid the situation that the feeding bottle 2 shakes or falls down when rotating in the inner cavity 5, so that the feeding bottle 2 collides with the heating box 4 to cause damage, a fixing device is arranged in the circular groove 14 to fix the feeding bottle 2; the specific implementation mode is as follows: the nursing bottle 2 is placed between the two arc-shaped clamping plates 16, at this time, the arc-shaped clamping plates 16 enable the telescopic rod member 17 to contract, the spring 18 is compressed, and after the nursing bottle 2 is placed in the circular groove 14, the two arc-shaped clamping plates 16 clamp the nursing bottle 2 under the action force of the spring 18, so that the condition that the nursing bottle 2 shakes or falls down when rotating is effectively avoided. The telescopic rod member 17 includes a fixing rod and a sliding rod slidably inserted into the fixing rod, thereby achieving extension or contraction of the telescopic rod member 17.

Furthermore, a rubber pad is fixed on one surface of the arc-shaped clamping plate 16 far away from the telescopic rod 17. The rubber pad increases the friction force between the feeding bottle 2 and the rubber pad, and the clamping effect is enhanced.

Further, as shown in fig. 2 and 3, the manual control assembly includes a connecting rod 19, a conical block 20 and a button 21, a stepped hole 22 is formed in the outer wall of the heating box 4, a small-diameter hole in the stepped hole 22 is arranged near the inner cavity 5, the connecting rod 19 slidably penetrates through the stepped hole 22 and is matched with the small-diameter hole in the stepped hole 22, one end of the connecting rod 19 penetrates through the water outlet pipe 8 and is fixed with the conical block 20, the button 21 is fixed at the other end of the connecting rod, a limiting ring 25 is fixed on the connecting rod 19, the limiting ring 25 is located in a large-diameter hole in the stepped hole 22, a spring a23 is sleeved on the connecting rod 19, and two ends of the spring a23 are respectively connected with the limiting ring 25 and one end of the large-diameter hole far away from.

Further, the conical block 20 is composed of a conical block and a circular block, the conical block is matched with the water outlet pipe 8, and the diameter of the circular block is larger than that of the water outlet pipe 8.

Further, when spring a23 is in a normal state, the conical block is fitted with outlet pipe 8 and the end surface of outlet pipe 8 contacts the circular block.

When the spring a23 is in a normal state, the conical block is adapted in the water outlet pipe 8, the end face of the water outlet pipe 8 is in contact with the circular block, so that the opening of the water outlet pipe 8 is blocked by the conical block 20, water in the water tank 7 cannot flow into the inner cavity 5, when heating is needed, the button 21 is pressed towards the inner side of the heating box 4, the connecting rod 19 drives the conical block 20 to slide inwards, the conical block is moved out of the water outlet pipe 8, the opening of the water outlet pipe 8 is further opened, hot water in the water tank 7 flows into the inner cavity 5 through the water outlet pipe 8 to heat milk powder in the milk bottle, at the moment, the spring a23 is compressed, when the water in the inner cavity 5 is submerged to the height of the milk powder, the button 21 is released, the button 21 and the conical block 20 are restored to the original position under the action force of the spring a23, the opening of the water outlet pipe 8 is closed, and the water. It is worth noting that when the feeding bottle 2 is heated, hot water in the water tank 7 does not need to be discharged completely, and only the water level in the inner cavity 5 needs to be higher than the milk powder in the feeding bottle 2, so that the heating effect is guaranteed, the use of the hot water is reduced, and the hot water in the water tank 7 can be used for multiple times.

The foregoing is illustrative of the preferred embodiments of the present invention, and it is to be understood that the invention is not limited to the precise forms disclosed herein, and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the invention as defined by the appended claims. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (7)

1. The bidirectional constant temperature device for the feeding bottle is characterized by comprising a bidirectional constant temperature device (1) and the feeding bottle (2), wherein the bidirectional constant temperature device (1) comprises a base (3) and a heating box (4), an inner cavity (5) penetrating through two ends of the heating box (4) is formed in the heating box (4), one end of the heating box (4) is fixed to the top of the base (3), and a heating device is arranged in the heating box (4);

the heating device comprises a water tank (7) and a resistance wire heating layer (6) which are sequentially arranged from inside to outside, the water tank (7) is fixed on the base (3), the resistance wire heating layer (6) is arranged on the inner wall of the heating box (4), the water tank (7) is in contact with the resistance wire heating layer (6), the top of the water tank (7) is communicated with a water inlet pipe (9), the water tank (7) is communicated with a water outlet pipe (8), a manual control assembly is arranged in the water tank (7), and the manual control assembly is used for enabling the water outlet pipe (8) to be opened or closed;

a driving cavity (10) is formed in the base (3), a rotary cooling device is arranged in the driving cavity (10), the rotary cooling device comprises a motor (11), a rotating shaft (12) and a placing plate (13), the motor (11) is arranged in the driving cavity (10), the rotating shaft (12) is rotatably arranged in the base (3) in a penetrating mode, one end of the rotating shaft extends into the driving cavity (10) and is connected with an output shaft of the motor (11), the other end of the rotating shaft extends into the inner cavity (5) and is fixedly provided with the placing plate (13), a circular groove (14) is formed in the top of the placing plate (13), and the milk bottle (2) is arranged in the circular groove (14);

the side wall of the feeding bottle (2) is provided with a thermocouple thermometer (15).

2. The bidirectional thermostat device for the feeding bottle as claimed in claim 1, characterized in that two elastic fixing devices are symmetrically arranged on the inner wall of the circular groove (14), the elastic fixing devices comprise an arc-shaped clamping plate (16) and two telescopic rod members (17), the two telescopic rod members (17) are symmetrically fixed on the inner wall of the circular groove (14), the arc-shaped clamping plate (16) is fixed at the end part of the telescopic rod member (17), a spring (18) is sleeved on the telescopic rod member (17), and two ends of the spring (18) are respectively connected with the inner wall of the circular groove (14) and the arc-shaped clamping plate (16).

3. The bi-directional thermostatic device for feeding bottles of claim 2 characterized in that a rubber pad is fixed on the side of said arc-shaped clamping plate (16) far from said telescopic rod (17).

4. The bidirectional constant temperature device for the feeding bottle as claimed in claim 1, wherein the manual control assembly comprises a connecting rod (19), a conical block (20) and a button (21), a stepped hole (22) is opened on the outer wall of the heating box (4), a small diameter hole in the stepped hole (22) is arranged close to the inner cavity (5), the connecting rod (19) is slidably arranged in the stepped hole (22) in a penetrating manner and matched with the small diameter hole in the stepped hole (22), one end of the connecting rod (19) penetrates through the water outlet pipe (8) and is fixed with the conical block (20), the other end of the connecting rod (19) is fixed with the button (21), a limiting ring (25) is fixed on the connecting rod (19), the limiting ring (25) is arranged in the large diameter hole in the stepped hole (22), and a spring a (23) is sleeved on the connecting rod (19), and two ends of the spring a (23) are respectively connected with the limiting ring (25) and one end of the large-diameter hole far away from the button (21).

5. A bi-directional thermostatic device for feeding bottles according to claim 4 characterised in that said conical block (20) consists of a conical block, which is adapted to said outlet pipe (8), and a circular block, which has a diameter greater than that of said outlet pipe (8).

6. A bi-directional thermostatic device for feeding bottles according to claim 5 characterised in that, in the normal state of the spring a (23), the conical block fits the outlet tube (8) and the end face of the outlet tube (8) contacts the circular block.

7. The bidirectional thermostat device for the feeding bottle as claimed in claim 1, characterized in that a storage battery (24) is arranged in the base (3), and the storage battery (24) is electrically connected with the resistance wire heating layer (6).

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