CN216256554U - Multifunctional glass cup - Google Patents
Multifunctional glass cup Download PDFInfo
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- CN216256554U CN216256554U CN202123015758.7U CN202123015758U CN216256554U CN 216256554 U CN216256554 U CN 216256554U CN 202123015758 U CN202123015758 U CN 202123015758U CN 216256554 U CN216256554 U CN 216256554U
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Abstract
The multifunctional glass comprises a glass body, a glass base, a storage battery, a power switch, a charging socket, an electric heating plate, a temperature control switch and a launching mechanism; the cup holder is divided into an upper shell and a lower shell which are independent, the storage battery, the power switch, the charging socket, the detection mechanism and the control mechanism are arranged in the lower shell, and the electric heating plate and the temperature control switch are arranged in the upper shell; the lower magnet is arranged on the outer side of the upper end of the upper shell, and the upper magnet is arranged at the lower end of the glass cup body; the glass cup body is attracted on the cup seat through the upper magnet and the lower magnet; the storage battery is electrically connected with the detection mechanism, the control mechanism, the temperature control switch and the electric heating plate. This is novel when using night or the not good region of light, can effectively indicate the position and play the light filling effect, and the user can be under the prerequisite of not getting up the bed etc. convenient through the wireless control heating liquid body drink, when having brought very big facility like this for the user, and enriched the function of glass cup product.
Description
Technical Field
The utility model relates to the technical field of glass cups, in particular to a multifunctional glass cup.
Background
The glass is a widely used liquid drink container, and the existing glass only has the function of containing liquid. In practical situations, people use the glass at night or in an area with poor light (for example, a user gets up to drink water at night, or feeds hot water to children at home, or drinks hot milk, etc.), when the light is poor indoors or power failure occurs, the position of the glass is not easy to find, certain inconvenience is brought to the user, and the glass is damaged by collision due to probability. In addition, the existing glass cup has no heating function, and particularly, at night, when people need to heat drinks with low temperature, only cold drinks are put into a heating tool to be heated and then poured into the glass cup to drink, and the mode also brings great inconvenience to users.
Finally, with the development of industrial technology, the production scale of corresponding products is larger and larger, and the market competitiveness of the products is more and more whitish. Therefore, based on the above, it is particularly necessary to provide a light-supplementing glass which not only has the function of a common glass, but also can automatically emit light to effectively prompt a user of directions and prevent from being broken as far as possible when people approach a certain distance when the glass is used at night, and also has the function of heating drinks.
SUMMERY OF THE UTILITY MODEL
In order to overcome the defects that the existing common glass has single function, cannot play the functions of direction prompting and lighting light supplementing for people at night or in areas with poor light and cannot realize the heating of liquid drinks, the utility model provides a glass-based glass body, which not only has the function of a common glass, but also can effectively obtain electricity and give out light through a prompting lamp and prompt the direction and play the role of light supplementing when a user approaches to a certain distance at night (such as power failure) or in areas with poor light, and can also put liquid drinks into the glass body in advance in seasons (such as cold winter) where the liquid drinks are not easy to deteriorate, so that the user can conveniently control the liquid drinks without getting up, thereby realizing the convenience for the user and simultaneously preventing the multifunctional glass from being broken as much as possible.
The technical scheme adopted by the utility model for solving the technical problems is as follows:
the multifunctional glass comprises a glass body, a glass base, a storage battery, a power switch, a charging socket, an electric heating plate, a temperature control switch and a launching mechanism; it is characterized by also comprising a detection mechanism and a control mechanism; the cup holder is of a hollow structure and is divided into an upper shell and a lower shell which are independent, the storage battery, the power switch, the charging socket, the detection mechanism and the control mechanism are arranged in the lower shell, and the electric heating plate and the temperature control switch are arranged in the upper shell; a lower magnet is arranged on the outer side of the upper end of the upper shell, and an upper magnet is arranged at the lower end of the glass cup body; the glass cup body is attracted to the cup seat through the upper magnet and the lower magnet; the two poles of the storage battery are electrically connected with the power input ends of the detection mechanism and the control mechanism, the power output end of the control mechanism is electrically connected with one end of the temperature control switch, and the other end of the temperature control switch is electrically connected with one end of the power input end of the heating plate.
Furthermore, a heat insulation mechanism is arranged between the lower end of the electric heating plate and the upper end of the upper shell, and the upper end of the electric heating plate, the upper part of the temperature sensing surface of the temperature control switch and the upper end of the upper shell are in a horizontal state.
Further, the lower magnet and the upper end of the upper shell are in a horizontal state, the lower end of the upper magnet and the lower end of the glass cup body are in a horizontal state, and the polarities of the upper end of the lower magnet and the lower end of the upper magnet are opposite.
Further, the electric heating plate is a constant temperature ceramic PTC heating sheet; the temperature control switch is a temperature switch at the normally closed contact end; the transmitting mechanism is a wireless transmitting circuit module.
Furthermore, the detection mechanism comprises a heat release detection module and an illuminating lamp which are electrically connected, and a power output end and a negative power input end of the heat release detection module are respectively connected with two power input ends of the illuminating lamp.
Furthermore, the control mechanism comprises a wireless receiving circuit module, a resistor and an NPN triode which are electrically connected, wherein the positive power supply input end of the wireless receiving circuit is connected with the positive power supply input end of the relay and the positive control power supply input end, the negative power supply input end of the wireless receiving circuit is connected with the emitting electrode of the NPN triode, one output end of a finished wireless receiving circuit is connected with one end of the resistor, the other end of the resistor is respectively connected with the base electrode of the NPN triode, and the collecting electrode of the NPN triode is connected with the negative power supply input end of the relay.
The utility model has the beneficial effects that: this novel function that has ordinary glass, and can conveniently pass through between magnet actuation or the separation glass body and the cup. This is novel under detection mechanism's effect, when the region that is not good at night (for example have a power failure) or light uses, after the user is close one section distance of glass body, can effectively get electric luminescence, suggestion position and play the light filling effect through the warning light, the user can conveniently find glass body position like this to prevented as far as possible and broken because of the collision. In this is novel, in the season that liquid drink is difficult to rotten (for example chilly winter), the user can put into the glass cup this internally liquid drink in advance, and the user can be under the prerequisite of not getting up etc. conveniently through the liquid drink of wireless control heating, when having brought very big facility like this for the user, and enriched the function of glass cup product to its market competition has been improved. Based on the above, the utility model has good application prospect.
Drawings
The utility model is further illustrated below with reference to the figures and examples.
Fig. 1 is a schematic view of the overall structure of the present invention.
Fig. 2 is a circuit diagram of the present invention.
Detailed Description
As shown in fig. 1 and 2, the multifunctional glass cup comprises a cylindrical flat-bottom heatable glass cup body 1 with an open upper end and a closed lower end, a cup cover 2, a cup holder (stainless steel or copper) with an open upper end and a closed lower end, a storage battery G1, a waterproof power switch S, a waterproof charging socket CZ, an electric heating plate RT, a temperature control switch W and a launching mechanism A3, wherein the glass cover 2 covers the glass cup body 1; also provided with a detection mechanism 7 and a control mechanism 4; the cup holder 3 is of a hollow structure, the cup holder is divided into an upper shell 32 and a lower shell 33 by a partition plate 31 in the middle of the cup holder 3, the storage battery G1, the waterproof power switch S, the waterproof charging socket CZ, the detection mechanism 7 and the control mechanism 4 are arranged on a circuit board in the lower shell 33 of the lower layer in the cup holder 3 (the circuit board is sealed by a circuit board sealant in a waterproof way), and the electric heating plate RT and the temperature control switch W are arranged in the upper shell; the outer side of the upper end of the upper shell 32 is provided with a circle of annular groove, an annular hollow lower permanent magnet 5 is adhered in the groove by glue, a circle of upper concave annular groove is arranged at the lower end of the glass cup body 1, and an annular hollow upper permanent magnet 6 is adhered in the groove by glue; the glass cup body is attracted on the cup base 3 through the upper magnet 6 and the lower magnet 5, and the button of the power switch S, the jack of the charging socket CZ, the detection head of the pyroelectric detection module A1 of the detection mechanism and the light emitting surface of the prompt lamp H are respectively positioned outside the front end of the rectangular concave groove 331 at the front lower end of the lower shell 33 (the concave groove plays a waterproof role).
As shown in fig. 1 and 2, a circular heat insulating glass wool is padded between the lower end of the electric heating plate RT and the upper end of the upper casing 32 to prevent excessive temperature from being transmitted into the lower casing 33, and the upper end of the electric heating plate RT, the temperature sensing surface of the temperature control switch W and the upper end of the upper casing 32 are in a horizontal state. The upper ends of the lower magnet 5 and the upper shell 6 are in a horizontal state, the lower end of the upper magnet 6 and the lower end of the glass cup body 1 are in a horizontal state, and the polarity of the upper end of the lower magnet 5 is opposite to that of the lower end of the upper magnet 6. The groove is matched with a rectangular sealing rubber sleeve 332, and the sealing rubber sleeve 332 is sleeved in the front end of the groove 331 (the sealing groove is waterproof to enter); the front end of the sealing rubber sleeve is adhered with an operation sheet 3321 with the diameter larger than the outer diameter of the sealing rubber sleeve, the outer diameter of the sealing rubber sleeve 332 is slightly larger than the inner diameter of the groove by 1 mm, the sealing rubber sleeve 332 is sleeved in the groove 331 to play a sealing role, and the rear end of the operation sheet 3321 (which is convenient for pulling out the rubber sleeve) is in front contact with the outer part 33 of the lower shell at the front end of the groove. The battery G1 is a lithium battery of type 12V/10 Ah; the charging socket CZ is a coaxial power socket; the power switch S is a coaxial power switch; the electric heating plate RT is a constant temperature 100 ℃ ceramic PTC heating sheet armored by a 12V/25W aluminum shell of type B-35; the temperature control switch W is a 45 ℃ temperature switch at the flat kick type normally closed contact end of the model KSD 301; the transmitting mechanism A3 (located at the side of the user) is a finished wireless transmitting circuit module product of TWH9236, and is provided with four wireless signal transmitting keys and a special battery for a 12V wireless transmitting circuit, and the four keys are arranged in the shell, and are located outside four openings at the upper end of the shell.
Fig. 1 and 2 show that the detection mechanism includes a micropower pyroelectric detection module a1 (standby current is about 10 μ a) connected by circuit board wiring, a lighting lamp H, the power output end 3 pin and the negative power input end 2 pin of the pyroelectric detection module a1 are respectively connected with the power input ends of the lighting lamp H, the pyroelectric detection module a1 is a human body infrared induction pyroelectric probe module finished product of model HC-SR501, which has two power input ends and a high level signal output end, when the front end of a detection head detects a human body infrared signal, 3 pins can output high level, the farthest detection distance is 5 meters (with a micro fresnel lens), an adjusting knob is arranged in the pyroelectric detection mechanism, the detection distance is decreased leftwards, and the detection distance is increased rightwards (the embodiment adjusts to about 3 meters, which is suitable). The control mechanism comprises a finished wireless receiving circuit module product A2 (standby current is only about 5 mA) of a TWH9236 model, a resistor R1, an NPN triode Q1 and a relay K1 which are connected through circuit board wiring, wherein a pin 1 of a positive power supply input end of the wireless receiving circuit A2 is connected with a positive power supply input end and a positive control power supply input end of the relay K1, a pin 3 of a negative power supply input end of the wireless receiving circuit A2 is connected with an emitting electrode of the NPN triode Q1, a pin 4 (2, 5, 6 and 7 are suspended) of one output end of the finished wireless receiving circuit product A2 is connected with one end of a resistor R1, the other end of the resistor R1 is connected with a base of the NPN triode Q1, and a collector electrode of the NPN triode Q1 is connected with a negative power supply input end of the relay K1.
As shown in fig. 1 and 2, two poles of the storage battery G1 and two ends of the charging socket CZ are respectively connected through leads (when the storage battery G1 is out of power, a charging plug of an external power supply charger can be inserted into the charging socket CZ to charge the storage battery), and the positive pole of the storage battery G1 is connected with one end of the power switch S through a lead. The other end of the power switch S, the negative electrode of the storage battery G1, pins 1 and 2 of the pyroelectric detection module A1 at the power input end of the detection mechanism, the positive power input end of the relay K1 at the power input end of the control mechanism and the emitting electrode of the NPN triode Q1 are respectively connected through leads. The power output end relay K1 normally open contact end of the control mechanism is connected with one end of the temperature control switch W through a lead, and the other end of the temperature control switch W is connected with the negative electrode of the storage battery G1 and the two ends of the power input of the heating plate RT through leads respectively.
As shown in figures 1 and 2, the novel glass cup has the functions of a common glass cup, and can be conveniently attracted or separated between the glass cup body 1 and the cup seat 3 through the magnets 5 and 6 (the glass cup body 1 is more convenient as a drinking container independently). The user is at night with glass cup body 1 actuation on cup 3 (the bottom of cup hugs closely electric heating board RT upper end), then just do nothing more after opening switch S (and do not have the detection head of pyroelectric detection module A1 to the front end barrier department, also be the position department that the user is close gradually when waiting to use evening), at this moment, detection mechanism, control mechanism all can get electric work. When a user is not close to the front 3 meters or so of the detection head of the pyroelectric detection module A1 at night, the 3 feet of the pyroelectric detection module A1 do not output high level, and then the illuminating lamp H does not get electric light. When the user wait at night when being close in the preceding 3 meters of detecting head of pyroelectric detection module A1, the positive power input end that the high level got into the light can be exported to the 3 feet of pyroelectric detection module A1, so, light H gets electric luminous, can effectively get electric through the warning light, luminous suggestion position and play the light filling effect, the user can conveniently find glass body place position like this to prevented as far as possible to break glass body 1 because of the collision.
In the seasons where the liquid drink is not easily deteriorated (such as cold winter), a user can put the liquid drink into the glass body 1 in advance (for example, 12 o 'clock at night needs to feed hot milk for children, etc., 10 o' clock before sleep adds sterilized milk in bags, and the glass can be drunk after heating). After the user presses a first wireless signal transmitting key of the wireless transmitting circuit module A3 around the user, the wireless transmitting circuit module A3 transmits and outputs a first wireless closing signal, the wireless receiving circuit module A2 receives the first wireless closing signal, 4 pins of the wireless receiving circuit module A2 can output a high level, the high level is subjected to voltage reduction and current limitation through the resistor R1 and enters the base electrode of the NPN triode Q1, the NPN triode Q1 is conducted with the collector and outputs a low level to enter the negative power input end of the relay K1, and the relay K1 is electrified to attract the control power input end and the normally open contact end of the relay to be closed. Because the temperature control switch K is connected in series between the normally open contact end of the relay K1 and the positive power supply input end of the electric heating plate RT, when the temperature of liquid in the glass cup body 1 is lower than 45 ℃, the internal contact of the temperature control switch W is closed, so that a 12V power supply can enter the power supply input end of the electric heating plate RT, and the electric heating plate RT is electrified to generate heat and heat the liquid in the glass cup body 1; when the temperature of the liquid in the glass cup body 1 is higher than 45 ℃, the internal contact of the glass cup body is opened, and then the electric heating plate RT loses electricity and does not heat any more. When the temperature in the cup body 1 is lower than 45 ℃ again next time, the electric heating plate RT can get electricity again to generate heat and heat the liquid temperature in the glass cup body. Through the aforesaid, this novel do not have before the outage, just can keep this internal liquid temperature of glass cup to be in about 45 ℃ always. After a period of time, before the user gets up, press the first wireless signal emission button A3 of wireless transmitting circuit module A3 again, then, wireless signal emission button A3 launches the wireless signal of opening a way of the first way, 4 feet of wireless transmitting circuit module A2 stop outputting the high level, and then, relay K1 electricity no longer attracts, so electric heating board RT also can lose the electricity and no longer generate heat, the user just can drink the drink that has certain temperature in glass body 1 (under normal circumstances, half cup liquid drink is about covering 2 heating time in minute, just can reach about 45 ℃). This is novel when having brought very big facility for the user, and has richened the function of glass cup product to its market competition has been improved. As shown in fig. 2, NPN transistor Q1 model number 9013; the resistance R1 is 1K; relay K1 is a DC12V micro relay; the lighting lamp H adopts an electric bulb with the voltage of 12V and the power of 5W (considering the power saving requirement, an LED lamp can also be adopted).
While there have been shown and described what are at present considered the fundamental principles and essential features of the utility model and its advantages, it will be apparent to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.
Furthermore, it should be understood that although the present description refers to embodiments, the embodiments do not include only one independent technical solution, and such description is only for clarity, and those skilled in the art should take the description as a whole, and the technical solutions in the embodiments may be appropriately combined to form other embodiments that can be understood by those skilled in the art.
Claims (6)
1. The multifunctional glass comprises a glass body, a glass base, a storage battery, a power switch, a charging socket, an electric heating plate, a temperature control switch and a launching mechanism; it is characterized by also comprising a detection mechanism and a control mechanism; the cup holder is of a hollow structure and is divided into an upper shell and a lower shell which are independent, the storage battery, the power switch, the charging socket, the detection mechanism and the control mechanism are arranged in the lower shell, and the electric heating plate and the temperature control switch are arranged in the upper shell; a lower magnet is arranged on the outer side of the upper end of the upper shell, and an upper magnet is arranged at the lower end of the glass cup body; the glass cup body is attracted to the cup seat through the upper magnet and the lower magnet; the two poles of the storage battery are electrically connected with the power input ends of the detection mechanism and the control mechanism, the power output end of the control mechanism is electrically connected with one end of the temperature control switch, and the other end of the temperature control switch is electrically connected with one end of the power input end of the heating plate.
2. The multi-functional glass according to claim 1, wherein a heat insulating means is provided between the lower end of the electric heating plate and the upper end of the upper casing, and the upper end of the electric heating plate and the upper portions of the temperature sensing surface of the temperature controlled switch and the upper end of the upper casing are in a horizontal state.
3. The multi-functional glass according to claim 1, wherein the lower magnet and the upper end of the upper case are in a horizontal state, the lower end of the upper magnet and the lower end of the glass body are in a horizontal state, and the upper end of the lower magnet and the lower end of the upper magnet have opposite polarities.
4. The multifunctional glass according to claim 1, wherein the electric heating plate is a constant temperature ceramic PTC heating sheet; the temperature control switch is a temperature switch at the normally closed contact end; the transmitting mechanism is a wireless transmitting circuit module.
5. The multifunctional glass cup as claimed in claim 1, wherein the detection mechanism comprises a pyroelectric detection module and a lighting lamp electrically connected, and the power output end and the negative power input end of the pyroelectric detection module are respectively connected with the two ends of the power input of the lighting lamp.
6. The multifunctional glass according to claim 1, wherein the control mechanism comprises a wireless receiving circuit module, a resistor and an NPN triode which are electrically connected, wherein a positive power input end of the wireless receiving circuit is connected with a positive power input end of the relay and a positive control power input end of the relay, a negative power input end of the wireless receiving circuit is connected with an emitting electrode of the NPN triode, one output end of the finished wireless receiving circuit is connected with one end of the resistor, the other end of the resistor is respectively connected with a base electrode of the NPN triode, and a collector electrode of the NPN triode is connected with a negative power input end of the relay.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202123015758.7U CN216256554U (en) | 2021-12-03 | 2021-12-03 | Multifunctional glass cup |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202123015758.7U CN216256554U (en) | 2021-12-03 | 2021-12-03 | Multifunctional glass cup |
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CN216256554U true CN216256554U (en) | 2022-04-12 |
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Family Applications (1)
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CN202123015758.7U Active CN216256554U (en) | 2021-12-03 | 2021-12-03 | Multifunctional glass cup |
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2021
- 2021-12-03 CN CN202123015758.7U patent/CN216256554U/en active Active
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