Liquid bottle
By incorporating a semiconductor cooling chip and a heating chip into the liquid bottle, the problem of the liquid bottle being unable to provide hot or cold liquids is solved, achieving the effect of adjusting the liquid temperature according to demand and ensuring the safety of the liquid.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN LINGLANG TECHNOLOGY CO LTD
- Filing Date
- 2025-05-07
- Publication Date
- 2026-07-10
AI Technical Summary
Existing liquid bottles cannot provide cold or hot liquids according to the user's needs, and cannot meet the temperature requirements when dispensing liquids.
A liquid bottle was designed with a built-in semiconductor cooling chip and heating chip, which can heat or cool the liquid inside the bottle, and is equipped with a pH measuring unit to ensure that the liquid temperature is consistent with the human body environment.
It enables the supply of liquids at the desired temperature based on demand, ensuring the safety and health of the liquids.
Smart Images

Figure CN224477325U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of packaging containers, and more particularly to a liquid bottle capable of heating or cooling liquids. Background Technology
[0002] The portable liquid bottle can hold liquids such as skin care products, makeup remover, toilet water, and personal lubricant. When taking out liquids, use the pouring or pressing method to take out the cosmetics.
[0003] Users sometimes have specific temperature requirements when dispensing liquids. For example, they may need warm massage oil or cool water when dispensing moisturizer in the summer. However, existing liquid bottles do not have the function of heating or cooling liquids. Often, users can only dispense liquids at room temperature, which cannot meet their needs for hot or cold liquids. Utility Model Content
[0004] This invention was made in view of the above-mentioned problems, and provides a liquid bottle that can cool and heat the liquid stored inside the bottle, so that the user can obtain the liquid at the desired temperature from the liquid bottle 1 according to his or her own needs.
[0005] One embodiment of this utility model provides a liquid bottle including a bottle body for storing liquid and a liquid outlet disposed in the bottle body. The liquid outlet is installed in the bottle body and is capable of discharging the liquid in the liquid bottle to the outside of the bottle body. The liquid bottle also includes a heating and cooling unit installed in the bottle body and is capable of heating or cooling the liquid in the liquid bottle.
[0006] According to some embodiments of the present invention, the liquid bottle of the present invention uses a semiconductor cooling chip and a heating chip to cool and heat the liquid stored in the bottle, so that the user can obtain the liquid at the desired temperature from the liquid bottle according to his or her own needs.
[0007] According to some embodiments of this utility model, the liquid bottle of this utility model can measure the pH value of the liquid to be taken out through the pH value measuring unit, which can ensure that the liquid is as consistent as possible with the human body's internal environment and avoid the liquid from harming human health. Attached Figure Description
[0008] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0009] Figure 1 This is a perspective view of the liquid bottle of this utility model.
[0010] Figure 2 This is an exploded view of the liquid bottle of this utility model.
[0011] Figure 3 This utility model relates to the rim of a liquid bottle. Figure 1 A schematic diagram of the cross-sectional structure of line III-III.
[0012] Figure 4 This utility model relates to the rim of a liquid bottle. Figure 1 A schematic diagram of the cross-sectional structure of line IV-IV.
[0013] Figure 5 This is a partial schematic diagram of the mounting part in the liquid bottle of this utility model and the components mounted on the mounting part.
[0014] Figure 6 This is another partial schematic diagram of the mounting part in the liquid bottle of this utility model and the components mounted on the mounting part. Detailed Implementation
[0015] The present invention will be further described below with reference to the accompanying drawings and specific embodiments.
[0016] This invention provides a liquid bottle 1 that can cool and heat the liquid stored inside, so that users can obtain liquid at the desired temperature from the liquid bottle 1 according to their own needs.
[0017] Reference Figures 1-4 The liquid bottle 1 includes a bottle body 10, a liquid outlet 20 disposed on the bottle body 10, and a heating and cooling unit 12.
[0018] The bottle body 10 is used to contain liquids such as skin care products, makeup remover, toilet water, and lubricant. The bottle body 10 includes a liquid compartment 11 and a cap 19.
[0019] The liquid reservoir 11 includes a liquid storage section 110 and a connecting section 111 extending from one side of the liquid storage section 110. The liquid storage section 110 has a cylindrical structure and can hold liquids such as skin care products, makeup remover, toilet water, and lubricant.
[0020] A liquid suction hole 1112 and an air inflation hole 1113 are provided through the side of the connecting part 111 away from the liquid storage part 110. The liquid suction hole 1112 is located in the middle of the connecting part 111, and the air inflation hole 1113 is located on the side of the connecting part 111 near the edge, that is, the air inflation hole 1113 and the liquid suction hole 1112 are arranged alternately.
[0021] The cover 19 includes an upper cover portion 191 and a mounting portion 121 mounted on one side of the upper cover portion 191.
[0022] The mounting portion 121 is detachably connected to the connecting portion 111. The mounting portion 121 includes a base portion 121a covering the connecting portion 111, a mounting platform 121b protruding upward from the base portion 121a, and an inlet pipe 112 extending from the side of the base portion 121a away from the mounting platform 121b.
[0023] The base portion 121a has a disc-shaped structure and a threaded portion at its bottom, which is threadedly connected to the threaded portion on the side of the connecting portion 111. The liquid inlet pipe 112 passes through the liquid suction hole 1112 and is partially housed in the liquid storage portion 110, where it comes into contact with the liquid inside the liquid storage portion 110.
[0024] Continue to refer to Figures 5-6 The mounting platform 121b has an open top and a hollow interior. A connecting pipe 121c is located at the bottom of the base portion 121a. One portion of the connecting pipe 121c protrudes from the bottom of the base portion 121a and connects to the inlet pipe 112. The other portion of the connecting pipe 121c connects to one side wall of the groove 121d of the mounting platform 121b along the bottom surface of the groove 121d, ensuring that the connecting pipe 121c is not in communication with the groove 121d. An infusion hole 121f is provided on the side wall of the groove 121d near the connecting pipe 121c, and the infusion hole 121f communicates with the interior of the groove 121d. Two through holes 121g are provided on the other side wall of the groove 121d of the mounting platform 121b, and both through holes 121g communicate with the interior of the groove 121d.
[0025] The liquid outlet section 20 includes an air pump 123, a first conduit 1231, and a second conduit 1233.
[0026] The first conduit 1231 and the second conduit 1233 are respectively installed on an outer side wall of the mounting platform 121b. One end of the first conduit 1231 is connected to the connecting pipe 121c, and the other end is connected to the air pump 123. One end of the second conduit 1233 is connected to the air pump 123, and the other end is connected to the infusion port 121f. When the air pump 123 operates, it generates negative pressure, causing the liquid in the storage section 110 to enter the connecting pipe 121c through the inlet pipe 112, and then enter the liquid storage space inside the air pump 123 through the connecting pipe 121c and the first conduit 1231. Then, the liquid enters the groove 121d from inside the air pump 123 through the second conduit 1233.
[0027] The liquid bottle 1 also includes a control unit 122, a pH measuring unit 124, a one-way air inlet valve 125, and a battery 126 that powers the air pump 123 and the pH measuring unit 124, all mounted on the base 121a.
[0028] The control unit 122 is mounted on the base 121a and is connected to the pH measuring unit 124, the one-way air inlet valve 125, the air pump 123 and the battery 126, and can control the pH measuring unit 124, the one-way air inlet valve 125 and the air pump 123 respectively.
[0029] The pH measuring unit 124 is mounted on the base 121a and partially inserted into the groove 121d through two through holes 121g, contacting the liquid within the groove 121d. The pH measuring unit 124 includes a main body 124a and a probe 124b extending outward from the main body 124a. The main body 124a is mounted on the base 121a, and the probe 124b is inserted into the groove 121d through the two through holes 121g, contacting the liquid within the space S of the groove 121d. The pH measuring unit 124 can measure the pH value of the liquid within the space S of the groove 121d through the probe 124b. When this liquid is used on vulnerable or sensitive parts of the human body (e.g., the vagina), measuring the pH value ensures that the liquid is as consistent as possible with the internal environment of the human body, preventing the liquid from harming human health.
[0030] A charging terminal 128 is embedded in the side wall of the upper cover 191, which is electrically connected to the battery 126 and is used for connecting an external charging cable.
[0031] The control unit 122 may be a PCBA (Printed Circuit Board Assembly), which connects to and controls the air pump 123 and the pH measuring unit 124. The control unit 122 also includes a screen mounted on the PCBA, which is capable of displaying the pH value measured by the pH measuring unit 124.
[0032] The heating and cooling unit 12 includes a cylindrical heating and cooling chamber 127, a semiconductor cooling chip 127a, and a heating chip 127b, all mounted on a mounting platform 121b.
[0033] The bottom opening of the heating and cooling chamber 127 is provided and inserted into the groove 121d of the mounting platform 121b, thereby forming a liquid-containing space S together with the groove 121d of the mounting platform 121b and the heating and cooling chamber 127.
[0034] One-way air inlet valve 125 is installed on air inlet 1113. One-way air inlet valve 125 can only allow outside air to enter the liquid storage section 110 and will not leak, thus making it easy to carry.
[0035] Therefore, when the air pump 123 operates, it generates negative pressure suction to draw the liquid stored in the liquid storage section 110 into the liquid storage space inside the air pump 123 through the liquid inlet pipe 112. Then, the liquid enters the groove 121d (space S) from inside the air pump 123 via the second conduit 1233. It should be noted that the one-way air inlet valve 125 is installed on the side of the base section 121a facing the connecting section 111 and passes through the connecting section 111 to connect to the liquid storage section 110. The one-way air inlet valve 125 allows gas to enter the liquid storage section 110 in one direction, while the liquid and gas in the liquid storage section 110 cannot be discharged from the outside of the liquid storage section 110. When the air pump 123 operates and generates negative pressure suction to discharge the liquid stored in the liquid storage section 110, the one-way air inlet valve 125 allows gas to enter the liquid storage section 110 in one direction, thereby maintaining the air pressure balance in the liquid storage section 110 and allowing the liquid to be smoothly discharged from the liquid storage section 110 through the liquid inlet pipe.
[0036] An opening is provided at the top of the heating and cooling chamber 127. In this embodiment, the liquid capacity of the heating and cooling chamber 127 is 5 mL, so the amount of liquid dispensed each time is fixed, making operation convenient. It can be understood that the liquid capacity of the heating and cooling chamber 127 can be set according to needs.
[0037] The heating and cooling chamber 127 is made of metal, preferably copper, aluminum, or their alloys. A thermoelectric cooler 127a and a heating element 127b are attached to the outside of the heating and cooling chamber 127. The thermoelectric cooler 127a and the heating element 127b are powered by a battery 126, and the control unit 122 controls the thermoelectric cooler 127a and the heating element 127b to cool and heat the heating and cooling chamber 127, respectively. Thus, the user can obtain liquid at the desired temperature from the liquid bottle 1 according to their needs. In this embodiment, the thermoelectric cooler 127a is disposed on one side wall of the heating and cooling chamber 127, and the heating element 127b is disposed around the other three side walls of the heating and cooling chamber 127.
[0038] The upper cover 191 is mounted on one side of the base 121a, so that the liquid outlet 20, the control unit 122, the pH measuring unit 124, the one-way air inlet valve 125, and the battery 126 are all housed inside the upper cover 191. A liquid outlet pipe 22 is provided on the top of the upper cover 191. One end of the liquid outlet pipe 22 communicates with the outside of the upper cover 191, and the other end extends vertically from the inner wall of the upper cover 191, passes through the top of the heating and cooling chamber 127 and enters the heating and cooling chamber 127, so that the liquid in the heating and cooling chamber 127 is sprayed to the outside through the liquid outlet hole 21 of the liquid outlet pipe 22.
[0039] One end of the liquid outlet pipe 22 inside the liquid outlet section 20. It can be understood that the liquid outlet hole 21 may also be provided at other locations in the liquid outlet section 20.
[0040] Furthermore, when the heating and cooling chamber 127 is not in use, the control unit 122 controls the air pump 123 to return the liquid in the heating and cooling chamber 127 to the liquid storage section 110 through the liquid inlet pipe 112, which can ensure that the liquid will not leak from the liquid storage section 110 to the outside and can ensure the cleanliness of the liquid.
[0041] In summary, this invention provides a liquid bottle 1 that uses a semiconductor cooling chip 127a and a heating chip 127b to cool and heat the liquid stored inside, allowing users to obtain liquid at their desired temperature from the liquid bottle 1. Furthermore, the liquid bottle 1 can measure the pH value of the liquid to be taken out via a pH measuring unit 124, ensuring that the liquid is as close as possible to the human body's internal environment and preventing the liquid from harming human health.
[0042] The above-disclosed embodiments are merely preferred embodiments of this application and should not be construed as limiting the scope of this application. Therefore, any equivalent variations made in accordance with this application are still within the scope of this application.
Claims
1. A liquid bottle comprising a bottle body for storing liquid and a liquid outlet disposed within the bottle body, characterized in that, The liquid outlet can discharge the liquid inside the liquid bottle to the outside of the bottle body. The liquid bottle also includes a heating and cooling unit. The heating and cooling unit is installed inside the bottle and can heat or cool the liquid inside the liquid bottle. The bottle body includes a liquid compartment and a cap. The liquid reservoir includes a storage section for storing the liquid and a connecting section extending from one side of the storage section. The cover is provided on the connecting part. The liquid outlet is installed inside the cover body.
2. The liquid bottle according to claim 1, characterized in that, The heating and cooling unit includes a heating and cooling chamber, a semiconductor cooling chip, and a heating chip. The heating and cooling chamber is installed inside the bottle and connected to the liquid outlet, so that the liquid can enter the heating and cooling chamber when the liquid outlet is in operation. The semiconductor cooling chip and the heating chip are respectively installed on the outside of the heating and cooling chamber. The semiconductor refrigeration chip can cool the liquid in the heating and cooling chamber. The heating element can heat the liquid in the heating and cooling chamber.
3. The liquid bottle according to claim 1, characterized in that, The liquid bottle also includes a pH measuring unit, which includes a probe inserted into the bottle body. The probe is capable of contacting the liquid in the bottle body and measuring the pH value of the liquid.
4. The liquid bottle according to claim 2, characterized in that, It has a through-hole for liquid absorption. The cover includes an upper cover portion and a mounting portion installed on one side of the upper cover portion. The mounting part is detachably connected to the connecting part. The mounting portion includes a base portion covering the connecting portion, a mounting platform protruding upward from the base portion, and an inlet pipe extending from the side of the base portion away from the mounting platform. The inlet pipe passes through the suction hole and is partially housed within the liquid storage section, where it comes into contact with the liquid inside the liquid storage section.
5. The liquid bottle according to claim 4, characterized in that, A connecting pipe is provided at the bottom of the base. One end of the connecting pipe protrudes from the bottom of the base and extends to be connected to the liquid inlet pipe, and the other end is connected to the liquid outlet. This allows the liquid in the storage compartment to flow into the heating and cooling compartment via the liquid inlet pipe, the connecting pipe, and the liquid outlet when the liquid outlet is in operation.
6. The liquid bottle according to claim 5, characterized in that, The liquid outlet section includes an air pump, a first conduit, and a second conduit. One end of the first conduit is connected to the connecting pipe, and the other end is connected to the air pump. One end of the second conduit is connected to the air pump, and the other end is connected to the heating and cooling chamber. When the air pump is working, it can generate negative pressure, so that the liquid in the storage section flows into the heating and cooling section through the inlet pipe, the connecting pipe, the first conduit, the internal space of the air pump, and the second conduit.
7. The liquid bottle according to claim 6, characterized in that, The mounting platform has a groove with an opening on one side. A portion of the connecting pipe passes through the bottom surface of the groove and protrudes from the bottom surface of the base. Another portion of the connecting pipe passes through one side of the groove and connects to the first conduit. The second conduit communicates with the interior of the groove.
8. The liquid bottle according to claim 4, characterized in that, The top of the upper cover is provided with a liquid outlet pipe. One end of the liquid outlet pipe is connected to the outside of the upper cover, and the other end enters the heating and cooling chamber, so that the liquid in the heating and cooling chamber is sprayed to the outside through the liquid outlet pipe.
9. The liquid bottle according to claim 4, characterized in that, The connecting part is also provided with an air inlet, which is spaced apart from the liquid absorption inlet. The liquid bottle also includes a one-way air inlet valve, which is installed at the air inlet, allowing air to enter the liquid storage section only from the outside.