CN209751694U - Portable feeding bottle sterilizer - Google Patents

Abstract

the utility model provides a portable feeding bottle sterilizer, belonging to the field of daily necessities for mother and infant, comprising a sterilizer shell; a disinfection device is arranged in the disinfector shell; a first port used for communicating the sterilizer shell with the nipple component is convexly arranged above the sterilizer shell; the bottom of the sterilizer shell is provided with a second port which is used for communicating the sterilizer shell with the feeding bottle in a downward convex way; the action range of the disinfection device can penetrate through the upper plane of the first port and the lower plane of the second port. The utility model provides a feeding bottle nipple sterilizer can disinfect nipple and/or feeding bottle conveniently, high-efficiently, has simplified traditional feeding bottle and/or nipple disinfecting equipment's structure and process, has less volume, makes things convenient for split type design and application, has the advantage that the function is many, easily operation and portability are good, has longer life, conveniently carries out batch production.

Description

Portable feeding bottle sterilizer

Technical Field

The utility model relates to the field of daily necessities for mother and infant, in particular to a portable feeding bottle sterilizer.

Background

The infant is accompanied with the feeding bottle for a long time in the growth process, the immune system of the infant is not developed and matured, the infant is easily attacked by germs and bacteria, and food residues, saliva and the like on the feeding bottle and the nipple can become a hotbed for breeding the bacteria if the infant is not cleaned well.

In order to clean the used feeding bottle, the prior art generally adopts the following measures: rinsing with clear water, boiling with boiled water, sterilizing with high-temperature steam, etc. The clean water washing method is the most traditional method, but the used milk bottle and nipple are washed only by clean water, so that insufficient cleaning is easily caused, and bacteria are bred. Boiling water boiling refers to placing the feeding bottle and the nipple in a pot and boiling the feeding bottle and the nipple with boiling water for disinfection, but the mode is troublesome, the disinfection time is not easy to control, and secondary pollution is easily caused. The equipment that the high temperature steam method disinfected mainly evaporates into water vapor through heating device earlier water heating, and rethread high temperature water vapor disinfects, and the disinfection space that this type of equipment often occupy is great, and the disinfection time is also longer, and on the other hand still needs extra stoving and dries the process, and it is hard to use to get up to waste time, has increased a great deal of inconvenience for the user.

The infant does not have specific rules in diet, and the infant probably needs diet anytime and anywhere, and the diet mechanism of eating less and more has provided higher requirement to the portability, the portability of disinfecting equipment, and the lightweight, small volume, multi-functional integration and the convenient operation of feeding bottle sterilizer are the unanimous pursuit of many thousands of parents in mother and infant market, have certain development prospect and realistic significance.

SUMMERY OF THE UTILITY MODEL

The utility model provides a portable feeding bottle sterilizer to it is great to solve traditional sterilizer structure volume, and operating procedure is complicated, inconvenient carrying, inconvenient maintenance and the not convenient scheduling problem of using at any time.

In order to achieve the above object, the present invention provides the following technical solutions:

the utility model provides a portable feeding bottle sterilizer, which comprises a sterilizer shell; a disinfection device is arranged in the disinfector shell; a first port used for communicating the sterilizer shell with the nipple component is convexly arranged above the sterilizer shell; the bottom of the sterilizer shell is provided with a second port which is used for communicating the sterilizer shell with the feeding bottle in a downward convex way; the action range of the disinfection device can penetrate through the upper plane of the first port and the lower plane of the second port.

The utility model provides a portable feeding bottle sterilizer, preferably, the sterilizing device comprises a control circuit for controlling the sterilizing device to work; the control circuit is provided with a first circuit connecting part and a second circuit connecting part; the first circuit connecting part and the second circuit connecting part comprise an open state and a connected state and are arranged in the disinfector shell; when the nipple component is covered on the first port, the first circuit connecting part is in a communicated state; when the feeding bottle is covered on the second port, the second circuit connecting part is in a communicated state; when the first circuit connecting part and/or the second circuit connecting part are in an opening state, the control circuit is opened; when the first circuit connecting part and the second circuit connecting part are both in a communicated state, the control circuit is communicated.

The utility model provides a portable feeding bottle sterilizer, preferably, the first circuit connecting part comprises a first bracket and a first trigger switch arranged below the first bracket; the first support is elastically and movably connected into the disinfector shell, and the first trigger switch is fixedly arranged in the disinfector shell; a first through hole is formed in the upper surface of the sterilizer shell at the edge of the first port; the top of the first bracket can extend out of the upper plane of the first through hole; the working state of the first trigger switch comprises an open state and a closed state;

The first trigger switch comprises a first trigger action point for switching the first trigger switch from an open state to a closed state; when the bottom of the first bracket is spaced from a first trigger action point of the first trigger switch, the first trigger switch is in an off state; when the bottom of the first bracket extrudes a first trigger action point on the upper surface of the first trigger switch, the first trigger switch is in a closed state; when the first trigger switch is in a closed state, the first circuit connecting part is in a communicated state.

The utility model provides a portable feeding bottle sterilizer, preferably, the second circuit connecting part comprises a second bracket and a second trigger switch arranged above the second bracket; the second bracket is elastically and movably arranged in the disinfector shell, and the second trigger switch is fixedly arranged in the disinfector shell; a second through hole is formed in the lower surface of the disinfector shell at the edge of the second port; the bottom of the second bracket can extend out of the lower plane of the second through hole; the working state of the second trigger switch comprises an open state and a closed state;

The second trigger switch comprises a second trigger action point for switching the second trigger switch from an open state to a closed state; when a gap exists between the top of the second bracket and a second trigger action point on the lower surface of the second trigger switch, the second trigger switch is in an off state; when the top of the second bracket extrudes a second trigger action point on the lower surface of the second trigger switch, the second trigger switch is in a closed state; when the second trigger switch is in a closed state, the second circuit connecting part is in a communicated state.

the portable feeding bottle sterilizer provided by the utility model has the advantages that preferably, a top cover is arranged above the first port; the top cover is detachably covered on the first port; the top cover comprises a top cover wall matched with the first port; the top cover covers the first port, and the top of the first bracket extends out of the upper plane of the first through hole; in the process that the top cover and the first end cover are closed, the bottom of the top cover wall can be in contact with the top of the first support.

The portable feeding bottle sterilizer provided by the utility model has the advantages that preferably, a bottom cover is arranged below the second port; the bottom cover is detachably covered on the second port; the bottom cover comprises a bottom cover wall matched with the second port; the bottom cover covers the second port, and the bottom of the second support extends out of the lower plane of the second through hole; and in the process of closing the bottom cover and the second port, the top of the wall of the bottom cover can be contacted with the bottom of the second bracket.

The utility model provides a portable feeding bottle sterilizer, preferably, first port outer wall includes first external screw thread.

The utility model provides a portable feeding bottle sterilizer, preferably, the second port inner wall includes the second internal thread.

The utility model provides a portable feeding bottle sterilizer, preferably, still be provided with in the sterilizer casing and be used for the switching degassing unit.

the utility model provides a portable feeding bottle sterilizer, preferably, the sterilizing device is an ultraviolet sterilizing lamp; the sterilizer shell is also provided with a display unit used for indicating the working state and/or the working time of the sterilizing device, and the display unit is an indicator light and/or a display screen.

The technical scheme has the following advantages or beneficial effects:

the utility model provides a portable feeding bottle sterilizer, which comprises a sterilizer shell; a disinfection device is arranged in the disinfector shell; a first port used for communicating the sterilizer shell with the nipple component is convexly arranged above the sterilizer shell; the bottom of the sterilizer shell is provided with a second port which is used for communicating the sterilizer shell with the feeding bottle in a downward convex way; the action range of the disinfection device can penetrate through the upper plane of the first port and the lower plane of the second port. The portable feeding bottle sterilizer provided by the utility model can conveniently and efficiently sterilize the nipple and the feeding bottle, simplifies the structure and the working procedure of the traditional feeding bottle and/or nipple sterilizing equipment, has smaller volume, and is convenient for split design and application; the multifunctional portable multifunctional desk has the advantages of multiple functions, easiness in operation and good portability, has longer service life and is convenient for batch production.

Drawings

The invention and its features, aspects and advantages will become more apparent from a reading of the following detailed description of non-limiting embodiments with reference to the attached drawings. Like reference symbols in the various drawings indicate like elements. The drawings are not intended to be drawn to scale, emphasis instead being placed upon illustrating the principles of the invention.

FIG. 1 is an exploded view of a portable sterilizer for baby bottles provided in embodiment 1 of the present invention;

FIG. 2 is a block diagram of an electrical connection structure of the portable baby bottle sterilizer provided in embodiment 1 of the present invention;

FIG. 3 is a schematic sectional view showing the structure of a portable sterilizer for baby bottles and nipples provided in embodiment 1 of the present invention;

FIG. 4 is a schematic sectional view of a portable sterilizer for baby bottles and nipples provided in embodiment 1 of the present invention;

FIG. 5 is a schematic sectional view showing the structure of a portable sterilizer for baby bottles according to embodiment 1 of the present invention;

FIG. 6 is a schematic sectional view showing a baby bottle sterilized by the portable baby bottle sterilizer according to embodiment 1 of the present invention;

FIG. 7 is a schematic sectional view showing a structure of a portable sterilizer for baby bottles according to embodiment 1 of the present invention for individually sterilizing a teat unit;

FIG. 8 is a schematic sectional view showing a nipple module sterilized individually by the portable baby bottle sterilizer according to embodiment 1 of the present invention;

Fig. 9 is a schematic view of a combined structure of the portable baby bottle sterilizer provided in embodiment 1 of the present invention.

Detailed Description

the present invention will be further described with reference to the accompanying drawings and specific examples, which should not be construed as limiting the invention.

example 1:

In order to realize efficient and convenient disinfection of infant feeding bottles and nipples and reduce the product volume as much as possible, the utility model provides a portable feeding bottle sterilizer, which comprises a sterilizer casing 1, wherein a sterilizer 11 is arranged in the sterilizer casing 1, and a first port 2 for communicating the sterilizer casing 1 and a nipple component 3 is convexly arranged above the sterilizer casing 1, as shown in figure 1; a second port 5 for communicating the sterilizer casing 1 with the feeding bottle 4 is convexly arranged at the bottom of the sterilizer casing 1; the range of action of the disinfection device 11 may run through the upper plane of the first port 2 and the lower plane of the second port 5. The action range of the disinfection device can penetrate through the upper plane of the first port, so that the disinfection device can conveniently disinfect the cavity of the nipple assembly; and the action range of the disinfection device penetrates through the lower plane of the second port, so that the disinfection device can disinfect the cavity of the feeding bottle conveniently. The sterilizer is arranged in the sterilizer shell, and the upper position and the lower position of the sterilizer shell are respectively provided with the ports communicated with the nipple component and the feeding bottle, so that the formed feeding bottle and nipple sterilizer has the characteristics of simple integral structure, small volume, high integration level and good portability compared with the sterilizer in the prior art.

Preferably, as shown in fig. 3 and 4, in order to prevent direct impact and injury to human body when the disinfection device is activated when the disinfection device is not stably installed, the disinfection device 11 comprises a control circuit for controlling the operation of the disinfection device 11; the control circuit is provided with a first circuit connecting part 14 and a second circuit connecting part 15; the first circuit connecting part 14 and the second circuit connecting part 15 both include an open state and a connected state, and are both arranged in the sterilizer casing 1; when the nipple component 3 is covered on the first port 2, the first circuit connecting part 14 is in a communication state; when the feeding bottle 4 is covered on the second port 5, the second circuit connecting part 15 is in a communicated state; when the first circuit connecting part 14 and/or the second circuit connecting part 15 is in an opening state, the control circuit is opened; when the first circuit connecting portion 14 and the second circuit connecting portion 15 are both in a connected state, the control circuit is connected. In this way, the first circuit connecting part and the second circuit connecting part function as a double safety lock, and the mounting tightness of the nipple assembly and the feeding bottle can be ensured before the sterilizing device is opened. When nipple subassembly and feeding bottle installation were ready simultaneously, degassing unit's control circuit could communicate, and degassing unit just can work promptly, can prevent that the disinfection process from taking place because of the phenomenon of the degassing unit injury human body that leads to of fixed insecure, and it is in the bud to prevent, can realize effectual safety isolation and reliable installation, has also ensured the abundant effect of degassing unit in feeding bottle nipple cavity among the disinfection process, under simple device structure, has realized the dual disinfection of feeding bottle, nipple subassembly safely.

The structural section views of the device for simultaneously sterilizing the feeding bottle and the nipple by using the structure are shown in fig. 3 and 4, and concretely, the general flow for ensuring the safety when in use comprises the following steps: covering the opening of the nipple component 3 on the first port 2, wherein in the covering process, the side wall 32 of the nipple component 3 can apply pressure downwards to trigger the first circuit connecting part 14 to be closed; at the same time, by fitting the opening of the baby bottle 4 to the second port 5, the bottle wall 42 of the baby bottle 4 can be forced upward to close the second circuit connecting portion 15. This process can be understood with reference to the block diagram of the electrical connection structure of fig. 2, and the sterilizing device 11 can be operated only when the first circuit-connecting portion 14 and the second circuit-connecting portion 15 are both in the closed state; otherwise, the sterilizing device 11 does not operate, with good installation reliability and safety compared to conventional sterilizers. In the implementation process, in order to prolong the service life of the circuit structure and more conveniently turn on and off the disinfection device 11, an additional switch unit 12 may be arranged in the disinfector housing 1, and for the switch unit 12, the switch unit may be a key or a button which can only realize two states of "on" and "off" of the circuit, or a multi-stage switch or a multifunctional intelligent input device which can at least realize two states of "on" and "off" (the selection of the switch unit 12 is well known by those skilled in the art and is not described herein again). Through setting up switch unit 12, just can start degassing unit when first circuit connecting portion 14, second circuit connecting portion 15 and switch unit 12 are closed simultaneously, just so can guarantee the security performance of circuit structure better, also be convenient for at the in-process of using the device, can in time put through, cut off degassing unit's control circuit fast according to user's needs, if only press key switch, just make degassing unit stop work.

As for the structure of the first circuit connection part for reflecting the mounting reliability of the pacifier assembly, specifically, as shown in fig. 3, the first circuit connection part 14 includes a first bracket 142 and a first trigger switch 141 disposed under the first bracket 142; the first support 142 is elastically and movably connected in the sterilizer casing 1, and the first trigger switch 141 is fixedly arranged in the sterilizer casing 1; a first through hole 143 is formed in the upper surface of the sterilizer casing 1 at the edge of the first port 2; the top of the first bracket 142 can extend out of the upper plane of the first through hole 143; the operating state of the first trigger switch 141 includes an open state and a closed state; the first trigger switch 141 comprises a first trigger action point for switching the first trigger switch 141 from an open state to a closed state; when there is a gap between the bottom of the first bracket 142 and the first trigger action point of the first trigger switch 141, the first trigger switch 141 is in an off state; when the bottom of the first bracket 142 presses a first trigger action point on the upper surface of the first trigger switch 141, the first trigger switch 141 is in a closed state; when the first trigger switch 141 is in a closed state, the first circuit connecting portion 14 is in a connected state. When no external force is applied, the bottom of the first bracket 142 is not in contact with the first trigger switch 141, and the top of the first bracket 142 extends out of the upper surface of the first through hole 143. When the top of the first support 142 is continuously acted downwards (for example, the first support is pressed downwards when the nipple module is covered in fig. 3), the first trigger switch 141 is pushed to be switched from the open state to the closed state, so that the nipple module can be reliably installed.

Similarly, as for the structure of the second circuit connecting part reflecting the mounting reliability of the baby bottle, refer to fig. 4, including a second bracket 152 and a second trigger switch 151 disposed above the second bracket 152; the second bracket 152 is elastically movably disposed in the sterilizer casing 1, and the second trigger switch 151 is fixedly disposed in the sterilizer casing 1; a second through hole 153 is formed in the lower surface of the sterilizer casing 1 at the edge of the second port 5; the bottom of the second bracket 152 can extend out of the lower plane of the second through hole 153; the working state of the second trigger switch 151 includes an open state and a closed state; the second trigger switch 151 comprises a second trigger action point for switching the second trigger switch 151 from an open state to a closed state; when there is a gap between the top of the second bracket 152 and a second trigger action point on the lower surface of the second trigger switch 151, the second trigger switch 151 is in an off state; when the top of the second bracket 152 presses a second trigger action point on the lower surface of the second trigger switch 151, the second trigger switch 151 is in a closed state; when the second trigger switch 151 is in the closed state, the second circuit connecting portion 15 is in the connected state. When no external force is applied, the top of the second bracket 152 is not in contact with the second trigger switch 151, and the top of the second bracket 152 extends out of the lower surface of the second through hole 153. When the bottom of the second support 152 is continuously acted upwards (for example, the second support is pressed upwards when the nipple is closed in fig. 4), the second support can move upwards, the second trigger switch 151 is pushed to be switched from the open state to the closed state, and the milk bottle can be installed in place.

In some cases, it is desirable to achieve split sterilization, i.e., sterilization of only the bottle or nipple assembly. To achieve this, for example, for individually sterilizing feeding bottles, as shown in fig. 5, a cap 6 may be provided above the first port 2, with the cap 6 detachably covering the first port 2, the cap 6 including a cap wall 62 fitted to the first port 2; before the top cover 6 is covered on the first port 2, the top of the first bracket 142 is in a state of extending out of the upper plane of the first through hole 143; the bottom of the top cover wall 62 can be kept in contact with the top of the first bracket 142 during the process of closing the top cover 6 with the first port 2. Therefore, the top of the first bracket is continuously pressed by the wall of the top cover to be downwards close to the first trigger action point of the first trigger switch and push the first trigger switch to be closed, and the top cover is reliably installed.

When the single milk bottle disinfection process shown in fig. 5 is implemented, the top cover 6 needs to be closed with the first port 2, and when the top cover 6 is closed downwards, the top cover wall 62 can trigger the first bracket 142 to close the first trigger switch 141 downwards; at the same time, with the baby bottle 4 mounted on the second port 5, the sidewall 42 of the baby bottle 4 can push the second holder 152 upward to close the second trigger switch 151. Therefore, after the top cover and the feeding bottle are safely fixed with the shell of the sterilizer, the sterilizing device can start to work, the sterilizing device can be safely isolated from the human body, and the injury caused by the false opening of the sterilizing device is prevented. In the process of sterilizing the feeding bottle independently, the switch unit 12 can ensure the safety of a circuit structure, and is convenient for a user to operate, namely, after the top cover and the feeding bottle are installed in place, the switch unit 12 is started, and the sterilizing device can be started; the disinfection device can be switched off by switching off the switch unit 12, and the use is more convenient.

Similarly, as shown in fig. 6, a bottom cover 7 may be further disposed below the second port 5 for individually sterilizing the nipple assembly; the bottom cover 7 is detachably covered on the second port 5; said bottom cover 7 comprises a bottom cover wall 72 cooperating with said second port 5; before the bottom cover 7 is covered on the second port 5, the bottom of the second bracket 152 extends out of the lower plane of the second through hole 153; when the bottom cover 7 is covered with the second port 5, the top of the bottom cover wall 72 can keep contact with the bottom of the second bracket 152, and this structure enables the bottom of the second bracket 152 to be pushed to move towards the second trigger switch 151 and turn on the second trigger switch 151 when the bottom cover is covered upwards. When the flow of sterilizing the nipple module alone as shown in fig. 6 is performed, the nipple module 3 needs to be covered with the first port 2, and when the nipple module 3 is covered downwards, the first bracket 142 is triggered to close the first trigger switch 141 downwards; at the same time, when the bottom cover 7 is mounted on the second port 5, the bottom cover wall 72 of the bottom cover can push the second bracket 152 upward to close the second trigger switch 151. After the nipple assembly and the bottom cover are both safely fixed with the disinfector shell, the disinfector can start to work, and the disinfector can be prevented from harming the human body. For the independent disinfection process of the nipple component, after the switch unit 12 is turned on, the disinfection device can work only when the bottom cover and the feeding bottle are installed in place, otherwise, the disinfection device cannot work, and the principle of ensuring the circuit safety can be understood by referring to the process, which is not described herein again.

The first trigger switch 141 and the second trigger switch 151 are selected as long as the internal circuit can be turned on when the acting force is applied, so as to achieve the purpose of the solution provided by embodiment 1 of the present invention, for example, the first trigger switch may be a cantilever type trigger switch as shown in fig. 3 to 8, and the operation principle of the cantilever type trigger switch is that the initial state of the cantilever of the trigger switch is inclined upward, and at this time, the trigger switch is in an off state; when the cantilever is closed downwards and becomes horizontal, the internal circuit of the trigger switch can be conducted, and the trigger switch can be in a closed state. The object of the present invention according to embodiment 1 of the present invention can be achieved by providing the first bracket 142 and the second bracket 152 that can contact with the trigger switch under the action of external force and can effectively apply the force to the trigger switch to turn on the inside thereof, which is not limited to a specific shape and can be understood by those skilled in the art.

The top cover and the first port of the sterilizer can be covered by the structure shown in fig. 1, 5 and 6, and the outer wall of the first port 2 comprises a first external thread 21, which is convenient to match with the internal thread of the nipple assembly commonly used in the prior art. Preferably, the top cover 6 includes a first internal thread 61 for mating with the first external thread 21, so that the first port 2 can be more closely mated with the top cover 6. More preferably, in order to facilitate the overall appearance of the integrated sterilizer casing and top cover to have an attractive and simple structure and to facilitate grasping, the outer diameter of the top cover wall 62 may be set to the same size as the outer diameter of the sterilizer casing 1 as shown in fig. 1, 5 and 6, and a concave cavity with an annular horizontal cross section is formed in the top cover wall 62 and is recessed from bottom to top, so that the first bracket 142 is subjected to concentrated pressure from the bottom of the top cover wall 62 when moving downwards, and the product is light when the appearance is simple.

Referring to fig. 1, 7 and 8, the inner wall of the second port 5 includes a second internal thread 51 for engaging with an external thread of a feeding bottle commonly used in the prior art. Preferably, the bottom cover 7 includes a second external thread 71 matching with the second internal thread 51, so that the second port 5 can be more closely matched with the bottom cover 7 when the bottom cover is installed. Similarly, in order to make the entire appearance of the sterilizer casing and the bottom cover attractive and simple when combined and to facilitate grasping, the outer diameter of the bottom cover wall 72 may be set to the same size as the outer diameter of the sterilizer casing 1 as shown in fig. 1, 7 and 8, and the bottom cover wall 72 is provided with a cavity having a horizontal cross section in an annular shape recessed from top to bottom, so that the bottom cover wall 72 can be screwed up to extrude the second bracket 152 to uniformly concentrate force application, which is beneficial to the light weight of the entire structure.

Adopt the screw-thread fit mounting means that above-mentioned provided to make the installation more firm and inseparable, simultaneously, when top cap, bottom, feeding bottle and nipple subassembly and sterilizer casing carry out the combination installation locking, can ensure the continuous closed state of first circuit connecting portion, second circuit connecting portion when using effectively for the working process state of whole device is stable. And when the screw thread is slowly screwed out, the first circuit connecting part and the second circuit connecting part can be smoothly disconnected respectively, so that the first support and the second support slowly leave the first trigger switch and the second trigger switch respectively, the stable disconnection of the circuit can be realized by the screw thread connection mode, and the service life of the whole sterilizer can be prolonged to a certain extent.

It should be noted that, when the portable baby bottle sterilizer provided in embodiment 1 of the present invention is implemented in a manner of screw cap closure, as shown in fig. 7 and 8, the nipple assembly 3 needs to include a nipple internal thread 31 which is matched with the first external thread 21 of the first port 2; when the nipple internal thread 31 is screwed downwards along the first external thread 21 of the first port 2, the bottom of the nipple sidewall 32 attached with the nipple internal thread 31 on the nipple assembly 3 can push the first bracket 142 to turn on the first trigger switch 141; with respect to the screw-mounting manner of the feeding bottle 4 and the second port 5, as shown in fig. 5 and 6, the feeding bottle 4 needs to include the feeding bottle external screw thread 41 which is matched with the second internal screw thread 51; when the external bottle thread 41 is screwed upwards along the second internal thread 51 of the second port 5, the wall 42 of the feeding bottle 4 with the external bottle thread 41 attached thereon can push the second bracket 152 upwards to turn on the second trigger switch 151.

To the utility model discloses embodiment 1 provides a portable feeding bottle sterilizer, its overall structure can be as shown in fig. 9 structure, wholly occupy small, simple to operate, portable performance is superior, can be applied to feeding bottle and nipple subassembly while or sterile application scenario alone, good application prospect has, and simultaneously, the equipment mode of top cap + sterilizer casing + bottom can be convenient for use according to the disinfection demand is nimble, can also realize under the condition of the request of not using dustproof and avoid impaired, the beneficial effect of easily accomodating.

To the portable feeding bottle sterilizer provided by the embodiment 1 of the utility model, the sterilizing device and the related circuit design thereof can adopt different combined circuit structures, as long as the sterilizing action scope of the sterilizing device can cover the cavity in the feeding bottle and/or the nipple component. As for the disinfection device, preferably, the disinfection device can select an ultraviolet disinfection lamp, has the characteristic of thorough sterilization, has no toxic or side effect, is widely accepted and approved, and is convenient to design an implementation control circuit, thereby being beneficial to the light weight and the integration of the structure of the whole disinfector. To the control circuit electric connection mode in the sterilizer casing, can adopt integrated circuit PCB board mode, power 13 in figure 2 can be dry battery or USB power supply mode, so, has reduced the volume that occupies of components and parts on the one hand greatly, improves portable ability, and on the other hand also is convenient for batch production, is convenient for maintain.

further, in order to observe the working state of the sterilizer, prevent the sterilizer from being turned on for a long time under unattended condition, or avoid the sterilizer from being turned on unsuccessfully for sterilization, as shown in fig. 2, a display unit 16 may be added to the sterilizer housing for indicating the working state and/or working duration of the sterilizer, for example, an indicator light or a display screen, which is not described herein again. Further, in order to strengthen the utility model provides a portable feeding bottle sterilizer's convenient to use nature and intellectuality can add the power-off circuit who is used for sterilizing equipment to open back timing self-closing in sterilizer casing 1, make the sterilizer when the disinfection, pilot lamp suggestion operating condition, after (like 3 ~ 5 minutes) feeding bottle and/or the sterile several minutes of nipple, sterilizer self-closing, the pilot lamp goes out, the disinfection is accomplished in the suggestion, so, to the user more attentive, it is more convenient.

Those skilled in the art will appreciate that variations may be implemented by those skilled in the art in combination with the prior art and the above-described embodiments, and will not be described in detail herein. Such variations do not affect the essence of the present invention, and are not described herein.

for the circuit control method mentioned in the present disclosure, further circuit design or programming control can be realized based on the disclosed concept, and the implementation manner thereof can be understood by those skilled in the art. Meanwhile, in the electrical connection structure block diagram provided by the present invention, the electrical connection mode only represents an implementation idea, and the circuit connection in the implementation process can be a plurality of modes such as integrated circuit and electric wire, and the description about the functional circuits such as driving circuit and amplifying circuit is omitted, and the technical solution disclosed by the present invention is not affected to the implementation of the technical solution disclosed by the present invention, which is clear and understood by the technical personnel in the field.

The above description is directed to the preferred embodiment of the present invention. It is to be understood that the invention is not limited to the particular embodiments described above, and that devices and structures not described in detail are understood to be implemented in a manner common in the art; the person skilled in the art, without affecting the essence of the invention, may make numerous possible variations and modifications, or may modify the equivalent embodiments, without departing from the technical solution of the invention. Therefore, any simple modification, equivalent change and modification made to the above embodiments by the technical entity of the present invention all still fall within the protection scope of the technical solution of the present invention, where the technical entity does not depart from the content of the technical solution of the present invention.

Claims (10)

1. A portable feeding bottle sterilizer is characterized by comprising a sterilizer shell; a disinfection device is arranged in the disinfector shell; a first port used for communicating the sterilizer shell with the nipple component is convexly arranged above the sterilizer shell; the bottom of the sterilizer shell is provided with a second port which is used for communicating the sterilizer shell with the feeding bottle in a downward convex way; the action range of the disinfection device can penetrate through the upper plane of the first port and the lower plane of the second port.

2. The portable baby bottle sterilizer of claim 1, wherein said sterilizing means includes a control circuit for controlling the operation of said sterilizing means; the control circuit is provided with a first circuit connecting part and a second circuit connecting part; the first circuit connecting part and the second circuit connecting part comprise an open state and a connected state and are arranged in the disinfector shell; when the nipple component is covered on the first port, the first circuit connecting part is in a communicated state; when the feeding bottle is covered on the second port, the second circuit connecting part is in a communicated state; when the first circuit connecting part and/or the second circuit connecting part are in an opening state, the control circuit is opened; when the first circuit connecting part and the second circuit connecting part are both in a communicated state, the control circuit is communicated.

3. The portable baby bottle sterilizer of claim 2, wherein the first circuit connecting part comprises a first bracket and a first trigger switch disposed below the first bracket; the first support is elastically and movably connected into the disinfector shell, and the first trigger switch is fixedly arranged in the disinfector shell; a first through hole is formed in the upper surface of the sterilizer shell at the edge of the first port; the top of the first bracket can extend out of the upper plane of the first through hole; the working state of the first trigger switch comprises an open state and a closed state;

the first trigger switch comprises a first trigger action point for switching the first trigger switch from an open state to a closed state; when the bottom of the first bracket is spaced from a first trigger action point of the first trigger switch, the first trigger switch is in an off state; when the bottom of the first bracket extrudes a first trigger action point on the upper surface of the first trigger switch, the first trigger switch is in a closed state; when the first trigger switch is in a closed state, the first circuit connecting part is in a communicated state.

4. The portable baby bottle sterilizer of claim 2, wherein the second circuit connecting part comprises a second bracket and a second trigger switch disposed above the second bracket; the second bracket is elastically and movably arranged in the disinfector shell, and the second trigger switch is fixedly arranged in the disinfector shell; a second through hole is formed in the lower surface of the disinfector shell at the edge of the second port; the bottom of the second bracket can extend out of the lower plane of the second through hole; the working state of the second trigger switch comprises an open state and a closed state;

The second trigger switch comprises a second trigger action point for switching the second trigger switch from an open state to a closed state; when a gap exists between the top of the second bracket and a second trigger action point on the lower surface of the second trigger switch, the second trigger switch is in an off state; when the top of the second bracket extrudes a second trigger action point on the lower surface of the second trigger switch, the second trigger switch is in a closed state; when the second trigger switch is in a closed state, the second circuit connecting part is in a communicated state.

5. The portable baby bottle sterilizer of claim 3, wherein a top cap is further provided above the first port; the top cover is detachably covered on the first port; the top cover comprises a top cover wall matched with the first port; the top cover covers the first port, and the top of the first bracket extends out of the upper plane of the first through hole; in the process that the top cover and the first end cover are closed, the bottom of the top cover wall can be in contact with the top of the first support.

6. The portable baby bottle sterilizer of claim 4, wherein a bottom cap is further provided below said second port; the bottom cover is detachably covered on the second port; the bottom cover comprises a bottom cover wall matched with the second port; the bottom cover covers the second port, and the bottom of the second support extends out of the lower plane of the second through hole; and in the process of closing the bottom cover and the second port, the top of the wall of the bottom cover can be contacted with the bottom of the second bracket.

7. the portable baby bottle sterilizer of claim 1, wherein the first port outer wall comprises a first external thread.

8. The portable baby bottle sterilizer of claim 1, wherein the inner wall of the second port comprises a second internal thread.

9. The portable sterilizer for a baby bottle according to any one of claims 1 to 8, wherein a switch unit for opening and closing said sterilizing device is further provided in said sterilizer casing.

10. The portable baby bottle sterilizer of claim 9, wherein said sterilizing means is an ultraviolet sterilizing lamp; the sterilizer shell is also provided with a display unit used for indicating the working state and/or the working time of the sterilizing device, and the display unit is an indicator light and/or a display screen.