WO2023039818A1 - 温度探针及具有其的智能厨具 - Google Patents

温度探针及具有其的智能厨具 Download PDF

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Publication number
WO2023039818A1
WO2023039818A1 PCT/CN2021/118993 CN2021118993W WO2023039818A1 WO 2023039818 A1 WO2023039818 A1 WO 2023039818A1 CN 2021118993 W CN2021118993 W CN 2021118993W WO 2023039818 A1 WO2023039818 A1 WO 2023039818A1
Authority
WO
WIPO (PCT)
Prior art keywords
support
temperature probe
bracket
rechargeable battery
clamping
Prior art date
Application number
PCT/CN2021/118993
Other languages
English (en)
French (fr)
Inventor
郭士军
李彬杰
Original Assignee
深圳市海一电器有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 深圳市海一电器有限公司 filed Critical 深圳市海一电器有限公司
Priority to PCT/CN2021/118993 priority Critical patent/WO2023039818A1/zh
Priority to US17/528,139 priority patent/US20230086509A1/en
Publication of WO2023039818A1 publication Critical patent/WO2023039818A1/zh

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Classifications

    • GPHYSICS
    • G01MEASURING; TESTING
    • G01KMEASURING TEMPERATURE; MEASURING QUANTITY OF HEAT; THERMALLY-SENSITIVE ELEMENTS NOT OTHERWISE PROVIDED FOR
    • G01K1/00Details of thermometers not specially adapted for particular types of thermometer
    • G01K1/14Supports; Fastening devices; Arrangements for mounting thermometers in particular locations
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J36/00Parts, details or accessories of cooking-vessels
    • A47J36/06Lids or covers for cooking-vessels
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J36/00Parts, details or accessories of cooking-vessels
    • A47J36/32Time-controlled igniting mechanisms or alarm devices
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01KMEASURING TEMPERATURE; MEASURING QUANTITY OF HEAT; THERMALLY-SENSITIVE ELEMENTS NOT OTHERWISE PROVIDED FOR
    • G01K1/00Details of thermometers not specially adapted for particular types of thermometer
    • G01K1/02Means for indicating or recording specially adapted for thermometers
    • G01K1/024Means for indicating or recording specially adapted for thermometers for remote indication
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01KMEASURING TEMPERATURE; MEASURING QUANTITY OF HEAT; THERMALLY-SENSITIVE ELEMENTS NOT OTHERWISE PROVIDED FOR
    • G01K13/00Thermometers specially adapted for specific purposes
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J50/00Circuit arrangements or systems for wireless supply or distribution of electric power
    • H02J50/005Mechanical details of housing or structure aiming to accommodate the power transfer means, e.g. mechanical integration of coils, antennas or transducers into emitting or receiving devices
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J50/00Circuit arrangements or systems for wireless supply or distribution of electric power
    • H02J50/10Circuit arrangements or systems for wireless supply or distribution of electric power using inductive coupling
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J2202/00Devices having temperature indicating means
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01KMEASURING TEMPERATURE; MEASURING QUANTITY OF HEAT; THERMALLY-SENSITIVE ELEMENTS NOT OTHERWISE PROVIDED FOR
    • G01K2207/00Application of thermometers in household appliances
    • G01K2207/02Application of thermometers in household appliances for measuring food temperature
    • G01K2207/06Application of thermometers in household appliances for measuring food temperature for preparation purposes
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01KMEASURING TEMPERATURE; MEASURING QUANTITY OF HEAT; THERMALLY-SENSITIVE ELEMENTS NOT OTHERWISE PROVIDED FOR
    • G01K2215/00Details concerning sensor power supply

Definitions

  • the present application relates to the field of intelligent cooking system and its supporting equipment, especially relates to a temperature probe and an intelligent kitchen utensil with the same.
  • smart cooking equipment is used in many restaurants or homes. Smart cooking equipment can automatically cook ingredients into dishes according to different cooking modes. Cook the ingredients at the corresponding temperature, and in the automatic cooking process, obtaining the temperature of the ingredients in real time is one of the core steps of the smart cooking device.
  • smart cooking equipment usually has a smart probe installed on the lid of the pot.
  • a temperature sensor is built into the tip of the smart probe. The smart probe contacts the ingredients through the tip and collects the temperature of the ingredients in real time through the temperature sensor. temperature data.
  • Smart probes are generally powered by batteries, but the battery capacity of the battery is limited. When the battery is exhausted, it needs to be replaced. The cost of one-time use is relatively high. At the same time, the exhausted battery is generally discarded, which is likely to cause environmental pollution. Not environmentally friendly enough.
  • the first purpose of the present application is to provide a temperature probe, which has the characteristics of reducing the cost of one-time use and being more environmentally friendly.
  • a temperature probe including a casing, a metal head fixed to the casing, and a temperature sensing element arranged in the metal head;
  • the housing is provided with a wireless charging coil, a rechargeable battery, and a bracket for supporting the wireless charging coil and the rechargeable battery; the temperature sensing element is electrically connected to the charging circuit of the rechargeable battery; the wireless The charging coil is electrically connected to the rechargeable battery to charge the rechargeable battery.
  • the metal head is used for contacting the ingredients and transferring heat to the temperature-sensing element in real time, so that the temperature-sensing element can measure the temperature of the ingredients in real time.
  • the rechargeable battery is used to supply power to the temperature sensing element to maintain the normal operation of the temperature sensing element.
  • the user can place the temperature probe on the wireless charging stand and make the wireless charging coil close to the charging area of the wireless charging stand to charge the rechargeable battery. Since the rechargeable battery in the temperature probe can be recharged repeatedly, the frequency that the user needs to replace the battery is reduced, the cost of one-time use is reduced, and at the same time, the discarded amount of the battery is reduced, and the pollution to the environment is reduced.
  • the bracket is provided with several first engaging parts, and the inner side of the housing is provided with several engaging grooves for engaging and fitting adjacent to the first engaging parts.
  • the bracket is clamped in the housing through the first clamping portion, which is convenient for the user to install or disassemble the bracket.
  • the bracket is provided with a limiting block, and a limiting slot for limiting the limiting block is arranged in the housing, and the limiting block is slidably connected in the limiting slot; The position of the locking groove passes through the sliding path of the first locking part.
  • the manufacturer when producing and assembling the temperature probe, the manufacturer can slide the limit block into the limit slot, and gradually push the bracket completely into the shell; when the first clamping part passes through the adjacent clamping slot , as the bracket continues to move, the first clamping portion will engage with the adjacent clamping groove to achieve fixation between the bracket and the housing, which is convenient for users to install and improves production efficiency.
  • the shell is provided with a head seal ring for sealing the gap between the metal head and the shell
  • the bracket (5) is provided with a head seal ring (6) for conflicting with the head seal ring (6) to achieve a sealing effect
  • the sealing ring of the head is in contact with the bracket, so that the bracket and the housing can stably maintain the clamped state, improving the durability of the temperature probe.
  • the head seal will deform inside the housing to fill the gap between the housing and the metal head, thereby improving the sealing of the temperature probe and preventing moisture or debris from entering the inside of the housing.
  • the housing is provided with an installation cavity for the bracket to be accommodated, and one end of the installation cavity is provided with an installation opening for the bracket to enter and exit, and an installation opening for the bracket is provided between the installation opening and the end of the bracket.
  • the accommodating space where the wireless charging coil is accommodated, the installation port is detachably installed with a rear cover for covering the accommodating space.
  • the manufacturer when producing and assembling the temperature probe, the manufacturer can first install the bracket into the installation cavity through the installation opening, then install the wireless charging coil in the accommodation space, and then install and fix the back cover on the installation mouth, so that the bracket and the wireless charging coil are fixed in the installation cavity, improving assembly efficiency and production efficiency.
  • the bracket is provided with several first clamping parts, and the inner side of the housing is provided with several clamping grooves for clamping and fitting adjacent to the first clamping parts;
  • the connecting piece of the first clamping part, the rear cover is provided with a mounting block that has a position-limiting effect on the connecting piece;
  • the connecting piece is provided with a second clamping portion, and the installation block is provided with a clamping hole for clamping adjacent to the second clamping portion.
  • the mounting block prevents the connecting block from moving away from the clamping groove, so as to prevent the first clamping part from breaking away from the clamping groove, so that the bracket and the shell can shake
  • the environment can still maintain a relatively fixed state, improving the working stability of the temperature probe.
  • the back cover is fixed on the bracket by snap-fitting, which is convenient for users to install or disassemble.
  • the bracket includes a first support, a second support that can be assembled and matched with the first support, and a fixing device for detachably fixing the first support and the second support.
  • Components; an accommodating chamber for the rechargeable battery is provided between the first support component and the second support component.
  • the manufacturer can place the rechargeable battery between the first support and the second support when producing and assembling the temperature probe, and then fix the first support and the second support through the fixing parts , Improve installation efficiency and production efficiency.
  • the first supporting part and the second supporting part are detachable, which is convenient for the user to replace the rechargeable battery after disassembling the bracket.
  • the first support and/or the second support is provided with a support sheet, and the wireless charging coil can be sleeved on the support sheet; the first support and/or the second support The side of the two support members close to the support sheet is provided with a wire hole through which the power supply line passes.
  • the supporting sheet can be passed through the wireless charging coil to support the wireless charging coil, thereby improving the installation stability of the wireless charging coil.
  • the wire hole can pass through the wires between the main control circuit board and the rechargeable battery.
  • the fixing member is fixed to the first supporting member
  • the second supporting member is provided with a positioning hole for the fixing member to accommodate
  • a positioning block is arranged in the positioning hole
  • the fixing member is provided with There are locking protrusions for locking the positioning block.
  • the fixing part is engaged with the positioning block through the engaging protrusion, so that the first supporting part and the second supporting part are relatively fixed.
  • the positioning hole has a positioning effect on the fixing part, and improves the clamping stability between the fixing part and the positioning block, so that the first supporting part and the second supporting part are not easy to be separated.
  • the first supporting part and the second supporting part are fixed by clamping, which is convenient for users to install or disassemble.
  • the second purpose of this application is to provide an intelligent kitchen utensil, which has the characteristics of reducing the cost of one-time use and being more environmentally friendly.
  • Smart kitchen utensils include any one of the temperature probes above and a pot cover for the temperature probe to be installed, the pot cover is provided with a mounting hole, and the metal head is passed through the mounting hole.
  • FIG. 1 is a schematic structural diagram of a temperature probe in Example 1 of the present application.
  • Fig. 2 is a sectional view along line A-A in Fig. 1 .
  • Figure 3 is a schematic diagram of the assembly of the back cover, bracket, shell and head sealing ring.
  • Fig. 4 is a schematic diagram of a temperature probe in a charged state.
  • Fig. 5 is a diagram of a combined state of the first support and the second support.
  • Fig. 6 is an exploded view of the first support and the second support.
  • Fig. 7 is a schematic diagram of the working state of the temperature probe of the second embodiment of the present application.
  • Fig. 8 is an exploded view of the rear cover of the temperature probe according to the third embodiment of the present application.
  • Fig. 9 is a front view of an intelligent kitchen appliance with a temperature probe according to Embodiment 4 of the present application.
  • Fig. 10 is a front view of an intelligent kitchen appliance with a temperature probe according to Embodiment 4 of the present application.
  • Head sealing ring 7. First support member; 71. First limit part; 72. Wire hole; 73. Winding hole; 8. Second support member; 81. Second Limiting part; 82, positioning hole; 83, positioning block; 9, fixing piece; 91, clamping protrusion; 10, pot; 11, pot cover; 111, installation hole; 12, smart stove; 13, wireless charging seat.
  • Embodiment 1 of the present application discloses a temperature probe.
  • the temperature probe includes a metal head 1 and a housing 2 for transferring heat, and the metal head 1 is fixedly installed at one end of the housing 2 .
  • the casing 2 is in the shape of a round tube as a whole, and an installation cavity 21 is provided inside the casing 2 .
  • the installation cavity 21 communicates with the end surface of the casing 2 away from the end of the metal head 1 to form an installation opening 211 .
  • the installation opening 211 can be used for installing the electronic components of the temperature probe into the installation cavity 21 , and the housing 2 is also provided with a rear cover 3 for closing the installation opening 211 .
  • the back cover 3 has a cylindrical shape as a whole, one end of the back cover 3 is accommodated in the installation opening 211, and the other end of the back cover 3 is exposed to the installation cavity 21 and protrudes to form a flat surface 31.
  • the metal head 1 is cylindrical as a whole, and the flat surface 31 is perpendicular to the axis of the metal head 1.
  • the flat surface 31 parallel to the horizontal plane.
  • the temperature probe is also provided with a hanging ring 4 for hanging objects such as hooks
  • the end surface of the back cover 3 is concavely provided with an accommodating groove 32 for the hanging ring 4, and the rear
  • the cover 3 is fixedly provided with a hook 33 for cooperating with the accommodation groove 32 to fix the hanging ring 4.
  • the hook 33 is L-shaped as a whole, and the opening of the hook 33 faces the accommodation groove 32, and the accommodation groove 32 The notch is towards the hook 33.
  • the hanging ring 4 is accommodated between the opening of the hook 33 and the notch of the accommodating groove 32, and the hook 33 and the accommodating groove 32 cooperate to clamp and limit the hanging ring 4, so that the hanging ring 4 is installed on the
  • the back cover 3 and the hanging ring 4 can rotate between the hook 33 and the receiving groove 32, so that the back cover 3 and the hanging ring 4 are rotatably connected.
  • part of the hanging ring 4 is accommodated in the receiving groove 32; in the idle state, the user can rotate the hanging ring 4 to separate the part of the hanging ring 4 from the receiving groove 32, and then put the The hanging ring 4 is hung on the corresponding hook.
  • a finger position 212 is provided on the end surface of the installation opening 211 , and when the hanging ring 4 is accommodated in the accommodating groove 32 , the user can break the hanging ring 4 apart through the finger position 212 .
  • a sealing groove 34 is provided on the outer peripheral wall of the end of the rear cover 3 entering the installation port 211, and an annular tail sealing ring 341 is arranged in the sealing groove 34, and the tail sealing ring 341 is arranged in the sealing groove 34, and the tail The sealing ring 341 is embedded and clamped in the sealing groove 34 .
  • a main control circuit board 22 and a rechargeable battery 23 are arranged inside the casing 2, and a temperature sensing element 24 is arranged at the end of the metal head, and the rechargeable battery 23 and the temperature sensing element 24 are respectively electrically connected to the main control circuit board 22.
  • the temperature sensing element 24 is fixedly installed on one end of the metal head 1; the main control circuit board 22 is also electrically connected with a wireless communication module for sending the temperature data measured by the temperature sensing element 24 to a remote terminal through wireless communication.
  • the temperature sensing element 24 is electrically connected to the charging circuit of the rechargeable battery 23 so that the rechargeable battery 23 can provide electric energy to the temperature sensing element 24 .
  • control circuit of the charging circuit of the rechargeable battery 23 has the same structural principle as the control circuit of the wireless charging device in the prior art, and this application does not improve the charging circuit itself, so the specific control principle of the control circuit will not be repeated here.
  • a wireless charging coil 25 is disposed inside the housing 2 , and the wireless charging coil 25 and the rechargeable battery 23 are electrically connected to the main control circuit board 22 respectively.
  • the inside of the casing 2 is provided with a bracket 5.
  • the support 5 is distributed along the length direction of the housing 2 as a whole, and the support 5 is hollow.
  • the interior of the support 5 is formed with an accommodating cavity 51 , and the rechargeable battery 23 is fixed in the accommodating cavity 51 .
  • An installation surface 52 is provided on the outside of the bracket 5 , and the main control circuit board 22 is fixed on the installation surface 52 .
  • An accommodating space 53 is disposed at one end of the bracket 5 close to the installation opening 211 , and the wireless charging coil 25 is fixedly installed in the accommodating space 53 .
  • the back cover 3 When the back cover 3 is fixedly installed in the installation opening 211 , the back cover 3 can shield the electronic components inside the housing 2 and prevent water, oil or sundries from entering the housing 2 from affecting the electronic components.
  • the rear cover 3 When the user needs to charge the temperature probe, the rear cover 3 can be used as the bottom, and the housing 2 can be placed vertically on the matching wireless charging stand 13 (refer to FIG. 4 ).
  • each connector 54 is fixed on the end of the bracket 5 close to the rear cover 3 , and each connector 54 is circumferentially distributed around the axis of the housing 2 .
  • the inner wall of the housing 2 is provided with a plurality of snapping grooves 26 for the first snapping portion 541 to accommodate, and the distribution of each snapping groove 26 corresponds to the distribution of each first snapping portion 541 .
  • each first engaging portion 541 is engaged in the adjacent engaging groove 26 so that the bracket 5 can be fixed in the housing 2 .
  • the number of connecting pieces 54 is two.
  • the shell 2 is close to the metal head 1.
  • One end is provided with a head sealing ring 6 .
  • the end of the bracket 5 away from the connecting piece 54 is provided with an anti-sealing portion 55 , and the anti-sealing portion 55 abuts against the head sealing ring 6 to cooperate with the housing 2 to squeeze the head sealing ring 6 .
  • the first engaging portion 541 located in the engaging groove 26 can keep in contact with the groove wall of the engaging groove 26, so that the bracket 5 can be fixed in the housing 2, further improving The clamping stability between the first clamping portion 541 and the clamping groove 26 .
  • the interference sealing portion 55 is in the shape of a ring as a whole, so as to enhance the force bearing effect of the head sealing ring 6 and make the deformation of the head sealing ring 6 more uniform.
  • the housing 2 is provided with a narrowed portion 27 at one end close to the head sealing ring 6, the inner diameter of the narrowed portion 27 gradually decreases toward the direction away from the installation port 211, and the head sealing ring 6 is accommodated in In the narrowed part 27.
  • the outer periphery of the head sealing ring 6 is provided with a narrowing surface corresponding to the narrowing portion 27 to increase the contact area between the head sealing ring 6 and the narrowing portion 27 to achieve a better sealing effect.
  • One end of the metal head 1 passes through the end of the narrowed portion 27 , the head sealing ring 6 , the interference sealing portion 55 and the bracket 5 in sequence. In this embodiment, one end of the metal head 1 passing through the bracket 5 is also clipped with the bracket 5 to enhance the installation stability of the metal head 1 .
  • each connecting member 54 is provided with a second engaging portion 542 protruding from the side away from the first engaging portion 541, and the rear cover 3 is fixedly provided with a plurality of connecting members 54.
  • the mounting blocks 35 correspond one to one, and the mounting blocks 35 are provided with locking holes 351 for the adjacent second locking portions 542 to be locked.
  • each second clamping portion 542 is clamped in the adjacent clamping hole 351 to prevent the rear cover 3 from detaching from the installation opening 211; at the same time, each installation block 35 is attached to the The connecting piece 54 adjacent to it, since the mounting block 35 is located on the side of the connecting piece 54 away from the engaging groove 26, it is difficult for the connecting piece 54 to be bent and deformed in a direction away from the engaging groove 26, thereby improving the first engaging portion 541 and the engaging groove 26.
  • the clamping stability between the connecting slots 26 . .
  • the inner wall edge of the installation port 211 is also provided with a relief groove 213.
  • the relief groove 213 has a position-limiting effect on the back cover 3 to prevent the back cover 3 from continuing to move toward the direction of entering the interior of the housing 2 .
  • the bracket 5 and the rear cover 3 when the user assembles the casing 2, the bracket 5 and the rear cover 3, the user can first put the bracket 5 into the installation cavity 21 from the installation opening 211, so that the conflicting sealing part 55 is in conflict with the head sealing ring 6, and the Each of the first clamping parts 541 is clamped and fitted into the adjacent clamping groove 26; then, the rear cover 3 is pushed into the installation opening 211, so that each mounting block 35 is in contact with each connecting piece 54, and the second clamping part 542 snap fits into the adjacent snap hole 351 .
  • the side of the first clamping part 541 close to the bracket 5, the side of the second clamping part 542 away from the bracket 5, and the side of the mounting block 35 away from the back cover 3 One side is provided with guide slopes.
  • the outer side of the bracket 5 is fixedly provided with a limiting block 56, and the cavity wall of the installation cavity 21 is provided with a limiting groove 214 for the sliding connection of the limiting block 56, and the limiting groove 214 communicates with the installation port 211.
  • the manufacturer can slide the limiting block 56 into the limiting groove 214, and gradually push the bracket 5 completely into the housing 2; when the first clamping part 541 passes through the adjacent clamping groove 26 , as the bracket 5 continues to move, under the guidance of the limit block 56 , the first engaging portion 541 will engage with the adjacent engaging slot 26 to achieve fixing between the bracket 5 and the housing 2 .
  • the bracket 5 in this embodiment adopts a split detachable structure
  • the bracket 5 is composed of a first support 7 and a second support 8, and the first support
  • the component 7 and the second supporting component 8 are installed and fixed by the fixing component 9 .
  • the first support member 7 and the second support member 8 are arranged side by side along the length direction of the housing 2 , and the two connecting members 54 are respectively arranged on the first support member 7 and the second support member 8 .
  • Both ends of the first support member 7 are respectively fixedly provided with a first limiting portion 71, and both ends of the second support member 8 are respectively fixedly provided with a second limiting portion 81, two first limiting portions 71 and two second limiting portions
  • the two limiting parts 81 correspond to each other.
  • the middle part of the first support member 7 and the middle part of the second support member 8 are provided with grooves, when the first support member 7 and the second support member 8 are spliced together, the first support member 7 and the second support member A complete accommodating cavity 51 is formed between the components 8 , and the first limiting portion 71 and the adjacent second limiting portion 81 are combined and spliced to form a limiting block 56 .
  • the first limiting portion 71 and the connecting member 54 are both integrally formed on the corresponding first supporting member 7 ; the second limiting portion 81 and the connecting member 54 are integrally formed on the corresponding second supporting member 8 .
  • each fixing piece 9 is 4, and each fixing piece 9 is divided into two groups in groups of two.
  • a locking protrusion 91 protrudes from one end of a support member 7 .
  • Four positioning holes 82 are opened on the outer side of the second supporting member 8 for receiving each fixing member 9 , and each positioning hole 82 is fixedly provided with a positioning block 83 .
  • the user when assembling the temperature probe, the user can install and fix electronic components such as rechargeable battery 23 between the first support 7 and the second support 8, and then install the fixing 9 into the corresponding
  • the positioning hole 82 and the positioning block 83 form a snap fit.
  • a wedge-shaped surface is provided on the surface of the engaging protrusion 91 , so that when the engaging protrusion 91 engages with the positioning block 83 , the fixing member 9 is more likely to be deformed.
  • the user needs to disassemble the bracket 5 to replace the electronic components, he can break apart each fixing piece 9 so that the fixing piece 9 and the positioning block 83 are released from the locked state.
  • a supporting piece 57 is provided in the accommodating space 53 , and the supporting piece 57 is passed through the wireless charging coil 25 to support the wireless charging coil 25 .
  • both the first support member 7 and the second support member 8 are provided with a support sheet 57; in some embodiments, any one of the first support member 7 and the second support member 8 is provided with a support sheet 57 That's it.
  • the wireless charging coil 25 is also bonded to the first support member 7 and the second support member 8 respectively to provide installation stability.
  • the installation surface 52 is arranged on the first support member 7, and the side of the first support member 7 close to the accommodating space 53 starts to have a wire hole 72, and the wire hole 72 communicates with the accommodating cavity 51 and The accommodating space 53, the wire between the main control circuit board 22 and the rechargeable battery 23 can be passed through the wire hole 72; the first support member 7 is also provided with a wire winding hole 73, and the wire winding hole 73 is a through hole structure, wireless The wires between the charging coil 25 , the main control circuit board 22 and the rechargeable battery 23 can pass through the wire winding hole 73 .
  • the wire hole 72 can also be opened on the side of the second support 8 close to the accommodating space 53 , or the first support 7 Both the second support member 8 and the second support member 8 are provided with wire holes 72 to increase the maximum passing capacity of the wires.
  • Embodiment 1 of the present application is: the metal head 1 is used to contact the food material and transmit heat to the temperature sensing element 24 in real time, so that the temperature sensor 24 can measure the temperature of the food material in real time.
  • the rechargeable battery 23 is used to supply power to the temperature sensing element 24 to maintain the normal operation of the temperature sensing element 24 .
  • the user can place the temperature probe on the wireless charging stand 13 and make the wireless charging coil 25 close to the charging area of the wireless charging stand 13 to charge the rechargeable battery 23 to charge. Since the rechargeable battery 23 in the temperature probe can be recharged repeatedly, the frequency that the user needs to replace the battery is reduced, and the cost of one-time use is reduced. At the same time, the discarded amount of the battery is reduced, and the pollution to the environment is reduced.
  • Embodiment 2 of the present application discloses a temperature probe.
  • the number of temperature sensing elements 24 is 2, which are respectively the first temperature sensing element 241 and the second sensing element 241.
  • the first temperature sensing element 241 is fixed at the end of the metal head 1
  • the second temperature sensing element 242 is fixed at the middle of the metal head 2.
  • the first temperature sensing element 241 can measure the temperature of the food materials such as meat at the bottom of the pot 10
  • the second temperature sensing element 242 can measure the temperature of the air or food materials such as water in the upper part of the pot 10. temperature.
  • Embodiment 3 of the present application discloses a temperature probe.
  • the difference between this embodiment and Embodiment 1 is that no clamping structure is provided between the installation block 35 and the connector 54 , and the rear cover 3 enters the installation port.
  • One end of 211 is integrally formed with several fixing blocks 36 , and the fixing blocks 36 and the housing 2 are fixed by bolts 37 .
  • the number of fixing blocks 36 is 2, and the two fixing blocks 36 are distributed symmetrically about the axis of the rear cover 3 .
  • the user can take out the back cover 3 from the casing 2 after unscrewing the bolt 37 , and then take out the bracket 5 inside the casing 2 .
  • Embodiment 4 of the present application discloses a smart kitchen appliance, which includes a pot 10 , a pot cover 11 matched with the pot 10 , and an intelligent probe.
  • the pot cover 11 is provided with an installation hole 111 , and the metal head 1 of the smart probe is penetrated in the installation hole 111 .
  • an elastic ring (not shown in the figure) is further provided between the installation hole 111 and the metal head 1 .
  • Embodiment 5 of the present application discloses a smart kitchen utensil.
  • the smart kitchen utensil also includes a smart stove 12, and the smart stove 12 has a built-in communication module and a control module.
  • the communication module It is used to receive the temperature information sent by the temperature probe, and the control module is used to control the firepower of the price-adjusting intelligent stove 12 according to the temperature information.
  • the communication module can be one or more combinations of Bluetooth module, WIFI module, 4G module or 5G module.
  • the communication module is preferably a Bluetooth module.
  • the control module is preferably a single-chip microcomputer.

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Power Engineering (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Food Science & Technology (AREA)
  • Measuring Temperature Or Quantity Of Heat (AREA)

Abstract

温度探针及具有其的智能厨具,温度探针包括外壳(2)、感温元件(24),以及固定于外壳(2)的金属头(1),金属头(1)的一端连接于感温元件(24);外壳(2)内设置有无线充电线圈(25)、充电电池(23),以及用于支撑无线充电线圈(25)和充电电池(23)的支架(5);感温元件(24)电性连接于充电电池(23)的充电回路;无线充电线圈(25)电性连接于充电电池(23),以向充电电池(23)充电。当充电电池(23)的电量较少或电量耗尽时,使用者可将温度探针放置在无线充电座(13)上,以对充电电池(23)进行充电。由于温度探针内的充电电池(23)可以重复进行充电,降低了使用者需要更换电池的频次,降低一次性使用成本,同时,减少了电池的丢弃量,降低对环境的污染。

Description

温度探针及具有其的智能厨具 技术领域
本申请涉及智能烹饪系统及其配套设备的领域,尤其是涉及温度探针及具有其的智能厨具。
背景技术
目前,很多餐厅或家庭中会使用智能烹饪设备,智能烹饪设备可以根据不同的烹饪模式将食材原料自动烹饪为菜肴,其主要原理是根据预设的烹饪模式,使食材原料在不同的烹饪时间内处于对应的温度以将食材原料煮熟,而在自动烹饪过程中,实时获取食材原料的温度是智能烹饪设备的核心步骤之一。
现有技术中,智能烹饪设备通常会在锅盖处设置智能探针,智能探针的针尖部内置有温度传感器,智能探针通过针尖部与食材原料接触,并通过温度传感器实时采集食材原料的温度数据。
智能探针一般通过电池供电,但是电池的电池容量有限,当电池耗尽后需要进行更换,一次性使用的成本比较高,同时,电量耗尽的电池一般会被丢弃,容易造成环境的污染,不够环保。
发明内容
本申请目的一是提供一种温度探针,具有降低一次性使用成本、更加环保的特点。
本申请的上述发明目的一是通过以下技术方案得以实现的:
温度探针,包括外壳、固定于外壳的金属头,以及设置于所述金属头内的感温元件;
所述外壳内设置有无线充电线圈、充电电池,以及用于支撑所述无线充电线圈和所述充电电池的支架;所述感温元件电性连接于所述充电电池的充电回路;所述无线充电线圈电性连接于所述充电电池,以向所述充电电池充电。
通过采用上述技术方案,金属头用于接触食材原料并将热量实时传递给感温元件,以使感温元件能够实时测量食材原料的温度。充电电池用于向感温元件供电,以维持感温元件的正常工作。当充电电池的电量较少或电量耗尽时,使用者可将温度探针放置在无线充电座上,并使无线充电线圈接近于无线充电座的充电区,以对充电电池进行充电。由于温度探针内的充电电池可以重复进行充电,降低了使用者需要更换电池的频次,降低一次性使用成本,同时,减少了电池的丢弃量,降低对环境的污染。
可选的,所述支架设置有若干个第一卡接部,所述外壳的内侧设置有若干个供邻近 所述第一卡接部卡接配合的卡接槽。
通过采用上述技术方案,支架通过第一卡接部卡接于外壳内,方便使用者对支架进行安装或拆卸。
可选的,所述支架设置有限位块,所述外壳内设置有用于对所述限位块进行限位的限位槽,所述限位块滑动连接于所述限位槽内;所述卡接槽的位置经过所述第一卡接部的滑移路径。
通过采用上述技术方案,产家在生产装配温度探针时,可将限位块滑动进限位槽中,并逐渐将支架完整推进外壳内;当第一卡接部经过邻近的卡接槽时,随着支架的继续移动,第一卡接部会与邻近的卡接槽卡接,以实现支架和外壳之间固定,方便使用者进行安装,提高生产效率。
可选的,所述外壳设置有用于密封所述金属头和所述外壳之间间隙的头部密封圈,所述支架(5)设置有用于与头部密封圈(6)抵触以达到密封效果的抵触密封部(55)。
通过采用上述技术方案,当支架卡接固定于外壳内时,头部密封圈抵触于支架,使支架与外壳能够稳定保持卡接的状态,提高温度探针的耐用性。当头部密封圈被抵触时,头部密封圈会在外壳内发生形变,以填充外壳和金属头之间的间隙,从而提高温度探针的密封性,阻止水分或杂物进入外壳内部。
可选的,所述外壳设置有供所述支架容纳的安装腔,所述安装腔的一端设置有供所述支架进出的安装口,所述安装口和所述支架端部之间设置有供所述无线充电线圈容纳的容置空间,所述安装口可拆卸安装有用于遮挡所述容置空间的后盖。
通过采用上述技术方案,产家在生产装配温度探针时,可将支架先通过安装口安装进安装腔内,然后再将无线充电线圈安装于容置空间内,再将后盖安装固定于安装口处,以使支架和无线充电线圈固定于安装腔内,提高装配效率和生产效率。
可选的,所述支架设置有若干个第一卡接部,所述外壳的内侧设置有若干个供邻近所述第一卡接部卡接配合的卡接槽;所述支架设置有用于连接所述第一卡接部的连接件,所述后盖设置有对所述连接件具有限位作用的安装块;
所述连接件设置有第二卡接部,所述安装块设置有供邻近所述第二卡接部卡接的卡孔。
通过采用上述技术方案,当后盖、外壳和支架安装完成后,安装块阻止连接块朝远离卡接槽的方面移动,以阻止第一卡接部脱离卡接槽,使支架和外壳能够在抖动环境中依然能保持相对固定的状态,提高温度探针的工作稳定性。后盖通过卡接方式固定于支架上,方便使用者进行安装或拆卸。
可选的,所述支架包括第一支撑件、能够与所述第一支撑件拼装配合的第二支撑件,以及用于可拆卸固定所述第一支撑件和所述第二支撑件的固定件;所述第一支撑件和所述第二支撑件之间设置有供所述充电电池容纳的容置腔。
通过采用上述技术方案,产家在生产装配温度探针时,可将充电电池放置于第一支撑件和第二支撑件之间,然后再通过固定件固定安装第一支撑件和第二支撑件,提高安装效率和生产效率。第一支撑件和第二支撑件可拆卸,方便使用者拆卸支架后对充电电池进行更换。
可选的,所述第一支撑件和/或所述第二支撑件设置有支撑片,所述无线充电线圈能够套设于所述支撑片;所述第一支撑件和/或所述第二支撑件接近所述支撑片的一面设置有供电线穿设的通线孔。
通过采用上述技术方案,支撑片能够穿设于无线充电线圈以对无线充电线圈进行支撑,提供无线充电线圈的安装稳固性。通线孔可以供主控电路板和充电电池之间的电线穿过。
可选的,所述固定件固定于所述第一支撑件,所述第二支撑件设置有供所述固定件容纳的定位孔,所述定位孔内设置有定位块,所述固定件设置有用于卡接所述定位块的卡接凸起。
通过采用上述技术方案,固定件通过卡接凸起与定位块卡接,以使第一支撑件和第二支撑件相对固定。定位孔对固定件具有定位作用,提高固定件和定位块之间的卡接稳定性,以使第一支撑件和第二支撑件不易于发生分离。第一支撑件和第二支撑件通过卡接方式固定,方便使用者进行安装或拆卸。
本申请目的二是提供一种智能厨具,具有降低一次性使用成本、更加环保的特点。
本申请的上述发明目的二是通过以下技术方案得以实现的:
智能厨具,包括上述任一种温度探针和供所述温度探针安装的锅盖,所述锅盖设置有安装孔,所述金属头穿设于所述安装孔。
附图说明
图1是本申请实施例一的温度探针的结构示意图。
图2是沿图1中A-A线的剖视图。
图3是后盖、支架、外壳和头部密封圈的装配示意图。
图4是温度探针处于充电状态的示意图。
图5是第一支撑件和第二支撑件组合状态的图。
图6是第一支撑件和第二支撑件的爆炸图。
图7是本申请实施例二的温度探针的工作状态示意图。
图8是本申请实施例三的温度探针的后盖的爆炸图。
图9是本申请实施例四的具有温度探针的智能厨具的主视图。
图10是本申请实施例四的具有温度探针的智能厨具的主视图。
附图标记说明:
1、金属头;2、外壳;21、安装腔;211、安装口;212、手指位;213、让位槽;214、限位槽;22、主控电路板;23、充电电池;24、感温元件;241、第一感温元件;242、第二感温元件;25、无线充电线圈;26、卡接槽;27、收窄部;3、后盖;31、平置面;32、容置凹槽;33、卡勾;34、密封槽;341、尾密封圈;35、安装块;351、卡孔;36、固定块;37、螺栓;4、挂环;5、支架;51、容置腔;52、安装面;53、容置空间;54、连接件;541、第一卡接部;542、第二卡接部;55、抵触密封部;56、限位块;57、支撑片;6、头部密封圈;7、第一支撑件;71、第一限位部;72、通线孔;73、绕线孔;8、第二支撑件;81、第二限位部;82、定位孔;83、定位块;9、固定件;91、卡接凸起;10、锅具;11、锅盖;111、安装孔;12、智能炉台;13、无线充电座。
具体实施方式
为使本发明实施例的目的、技术方案和优点更加清楚,下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例是本发明一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有作出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。
另外,本文中术语“和/或”,仅仅是一种描述关联对象的关联关系,表示可以存在三种关系,例如,A和/或B,可以表示:单独存在A,同时存在A和B,单独存在B这三种情况。另外,本文中字符“/”,如无特殊说明,一般表示前后关联对象是一种“或”的关系。
下面结合说明书附图1-图10对本发明实施例作进一步详细描述。
实施例一:
本申请实施例一公开一种温度探针。参照图1和图2,温度探针包括有金属头1和用于传递热量的外壳2,金属头1固定安装于外壳2的一端。外壳2整体呈圆管状,外壳2的内部设置有安装腔21,安装腔21连通外壳2远离金属头1一端的端面形成有安装口211。安装口211能够供温度探针的电子元件安装进安装腔21内,外壳2还设置有用于封闭安装口211 的后盖3。
参照图1和图2,后盖3整体呈圆筒状,后盖3的一端容纳于安装口211中,后盖3的另一端外露于安装腔21并凸出形成有平置面31。优选的,金属头1整体呈柱状,平置面31垂直于金属头1的轴线,当温度探针整体以竖直方向设置时,即当金属头1的轴线垂直于水平面时,平置面31平行于水平面。使用者在需要将温度探针放置在固定物如桌面上时,可使金属头1朝上,将外壳2以竖直方向放置在固定物上。
参照图3,优选的,温度探针还设置有供吊挂物如挂钩进行吊挂的挂环4,后盖3的端面凹设有供挂环4容置的容置凹槽32,且后盖3固定设置有用于与容置凹槽32配合以固定挂环4的卡勾33,卡勾33整体呈L形,且卡勾33的开口朝向容置凹槽32,而容置凹槽32的槽口朝向卡勾33。挂环4容纳于卡勾33的开口处和容置凹槽32的槽口处之间,卡勾33和容置凹槽32配合对挂环4进行卡接限位,使挂环4安装于后盖3,并且挂环4能够在卡勾33和容置凹槽32之间发生转动,以使后盖3和挂环4转动连接。
在正常使用状态时,挂环4部分收纳于容置凹槽32中;在闲置状态时,使用者可通过转动挂环4的方式,使挂环4部分脱离于容置凹槽32,再将挂环4吊挂于对应的挂钩上。优选的,安装口211端面还开设有手指位212,当挂环4容纳于容置凹槽32内时,使用者可通过手指位212掰开挂环4。
参照图2和图3,为了增强温度探针的密封性,后盖3进入安装口211一端的外周壁开设有密封槽34,密封槽34内设置有呈圆环状的尾密封圈341,尾密封圈341嵌设卡接于密封槽34内。当后盖3安装于安装口211时,后盖3和外壳2配合挤压尾密封圈341,以使尾密封圈341发生形变并填充后盖3和外壳2之间的间隙。
参照图1和图2,外壳2的内部设置有主控电路板22和充电电池23,金属头的端部设置有感温元件24,充电电池23和感温元件24分别电性连接于主控电路板22。其中,感温元件24固定安装于金属头1的一端;主控电路板22还电性连接有无线通信模块,用于将感温元件24测得的温度数据通过无线通信方式发送给远程终端。感温元件24电性连接于充电电池23的充电回路,以使充电电池23能够向感温元件24提供电能。其中,充电电池23充电回路的控制电路与现有技术中的无线充电装置的控制电路结构原理相同,本申请并未对充电回路本身进行改进,因此,控制电路的具体控制原理在此不进行赘述。在本实施例中,外壳2的内部还设置有无线充电线圈25,无线充电线圈25和充电电池23分别电性连接于主控电路板22。
参照图2和图3,为了对外壳2内部的电子元件进行支撑和固定,外壳2的内部设置 有支架5。支架5整体沿外壳2的长度方向分布,支架5呈中空设置,支架5的内部形成有容置腔51,充电电池23固定于容置腔51内。支架5的外侧设置有安装面52,主控电路板22固定于安装面52上。支架5接近安装口211的一端设置有容置空间53,无线充电线圈25固定安装于容置空间53内。当后盖3固定安装于安装口211时,后盖3能够对外壳2内部的电子元件进行遮挡,阻止水、油或杂物进入外壳2内对电子元件的影响。使用者在需要对温度探针进行充电时,可以后盖3作为底部,将外壳2以竖直方向放置在配套的无线充电座13(参照图4)上。
参照图3,支架5接近后盖3的一端固定有若干个连接件54,各个连接件54围绕外壳2的轴线呈圆周分布,连接件54接近外壳2内壁的一侧凸设有第一卡接部541,外壳2的内壁开设有若干个供第一卡接部541容纳的卡接槽26,各个卡接槽26的分布与各个第一卡接部541的分布相对应。当支架5安装于外壳2内时,各个第一卡接部541均卡接于邻近的卡接槽26中,以使支架5能够固定在外壳2内。在本实施例中,连接件54的数量为2。
参照图2和图3,为了使第一卡接部541和卡接槽26能够保持较为稳定的卡接状态,同时增强外壳2远离尾密封圈341一端的密封性,外壳2接近金属头1的一端设置有头部密封圈6。支架5远离连接件54的一端设置有抵触密封部55,抵触密封部55抵触于头部密封圈6,以配合外壳2对头部密封圈6进行挤压。在头部密封圈6弹力的作用下,位于卡接槽26内的第一卡接部541能够保持抵触于卡接槽26槽壁的状态,从而使支架5能够固定在外壳2内,进一步提高第一卡接部541和卡接槽26之间的卡接稳定性。优选的,抵触密封部55整体呈圆环状,增强头部密封圈6的受力效果,使头部密封圈6的形变更加均匀。
参照图2和图3,具体的,外壳2接近头部密封圈6的一端设置有收窄部27,收窄部27的内径朝远离安装口211的方向逐渐减少,头部密封圈6容纳于收窄部27中。同时,头部密封圈6的外周设置有与收窄部27相对应的收窄面,以增大头部密封圈6与收窄部27之间的接触面积,达到更好的密封效果。金属头1的一端依次穿设于收窄部27末端、头部密封圈6、抵触密封部55和支架5。在本实施例中,金属头1穿过支架5的一端还与支架5卡接,以增强金属头1的安装稳定性。
参照图2和图3,为了固定后盖3,各个连接件54远离第一卡接部541的一面均凸设有第二卡接部542,后盖3固定设置有多个与各个连接件54一一对应的安装块35,安装块35开设有供邻近的第二卡接部542卡接的卡孔351。当后盖3安装于安装口211内时,各个第二卡接部542均卡接于邻近的卡孔351内,以阻止后盖3脱离安装口211;同时,各个安装块35均贴合于与其邻近的连接件54,由于安装块35位于连接件54远离卡接槽26 的一面,因此连接件54难以朝远离卡接槽26的方向发生弯曲形变,从而提高第一卡接部541和卡接槽26之间的卡接稳定性。。
参照图3,在本实施例中,安装口211的内壁边缘部还开设有让位槽213,当后盖3与支架5卡接固定时,后盖3的外周边缘部能够部分容纳于让位槽213中,让位槽213对后盖3具有限位作用,以阻止后盖3继续朝进入外壳2内部的方向移动。
参照图3,使用者在装配外壳2、支架5和后盖3时,可先将支架5从安装口211进入安装腔21中,使抵触密封部55与头部密封圈6相抵触,并使各个第一卡接部541卡接配合于邻近的卡接槽26中;然后,将后盖3推进安装口211中,使各个安装块35与各个连接件54接触,并使第二卡接部542卡接配合于邻近的卡孔351中。为了提高装配效率,使支架5或安装块35更易于进行安装,第一卡接部541接近支架5的一面、第二卡接部542远离支架5的一面,以及安装块35远离后盖3的一面均设置有导向斜面。
参照图3和图5,进一步的,支架5的外侧固定设置有限位块56,安装腔21的腔壁开设有供限位块56滑动连接的限位槽214,且限位槽214连通安装口211。产家在生产装配温度探针时,可将限位块56滑动进限位槽214中,并逐渐将支架5完整推进外壳2内;当第一卡接部541经过邻近的卡接槽26时,随着支架5的继续移动,在限位块56的导向作用下,第一卡接部541会与邻近的卡接槽26卡接,以实现支架5和外壳2之间固定。
参照图6,为了方便使用者将电子元件安装于支架5,本实施例中的支架5采用分体式可拆卸结构,支架5由第一支撑件7和第二支撑件8组成,且第一支撑件7和第二支撑件8通过固定件9安装固定。第一支撑件7和第二支撑件8沿外壳2的长度方向并列设置,两个连接件54分别设置于第一支撑件7和第二支撑件8上。第一支撑件7的两端分别固定设置有第一限位部71,第二支撑件8的两端分别固定设置有第二限位部81,两个第一限位部71和两个第二限位部81相对应。
参照图6,第一支撑件7的中部和第二支撑件8的中部均设置有凹槽,当第一支撑件7和第二支撑件8组合拼接时,第一支撑件7和第二支撑件8之间形成完整的容置腔51,且第一限位部71和邻近的第二限位部81之间组合拼接形成限位块56。在本实施例中,第一限位部71和连接件54均一体成型于对应的第一支撑件7;第二限位部81和连接件54均一体成型于对应的第二支撑件8。
参照图6,具体的,固定件9的数量为4,各个固定件9以两个一组分为两组,两组固定件9分别于第一支撑件7的两端,固定件9远离第一支撑件7的一端凸设有卡接凸起91。第二支撑件8的外侧开设有四个供各个固定件9容纳的定位孔82,且各个定位孔82内 均固定设置有定位块83。当第一支撑件7和第二支撑件8处于固定状态时,各个固定件9均容纳于邻近的定位孔82中,且固定件9上的定位块83均与邻近的定位块83卡接。
参照图2和图6,使用者在装配温度探针时,可将充电电池23等电子元件安装固定于第一支撑件7和第二支撑件8之间,然后再将固定件9安装进对应的定位孔82中并与定位块83形成卡接配合。为了便于固定件9的安装,卡接凸起91的表面设置有楔形面,以使卡接凸起91与定位块83卡接时,固定件9更易于发生形变。使用者在需要拆卸支架5对电子元件进行更换时,可掰开各个固定件9,以使固定件9和定位块83解除卡接状态。
参照图2,进一步的,容置空间53内还设置有支撑片57,支撑片57穿设于无线充电线圈25,以对无线充电线圈25进行支撑。在本实施例中,第一支撑件7和第二支撑件8均设置有支撑片57;在一些实施例中,第一支撑件7、第二支撑件8中的任意一个设置有支撑片57即可。无线充电线圈25还分别与第一支撑件7、第二支撑件8粘接,以提供安装稳固性。
参照图6,在本实施例中,安装面52设置于第一支撑件7,第一支撑件7接近容置空间53的一面开始有通线孔72,通线孔72连通容置腔51和容置空间53,主控电路板22和充电电池23之间的电线可穿设于通线孔72;第一支撑件7还开设有绕线孔73,绕线孔73为通孔结构,无线充电线圈25、主控电路板22和充电电池23之间的电线可穿设于绕线孔73。
参照图6,在一些实施例中,若安装面52设置于第二支撑件8上,通线孔72也可开设于第二支撑件8接近容置空间53的一面,或者第一支撑件7和第二支撑件8均开设有通线孔72,以提高电线的最大通过量。
本申请实施例一的实施原理为:金属头1用于接触食材原料并将热量实时传递给感温元件24,以使感温元件24能够实时测量食材原料的温度。充电电池23用于向感温元件24供电,以维持感温元件24的正常工作。当充电电池23的电量较少或电量耗尽时,使用者可将温度探针放置在无线充电座13上,并使无线充电线圈25接近于无线充电座13的充电区,以对充电电池23进行充电。由于温度探针内的充电电池23可以重复进行充电,减少了使用者需要更换电池的频次,降低一次性使用成本,同时,减少了电池的丢弃量,降低对环境的污染。
实施例二:
参照图7,本申请实施例二公开一种温度探针,本实施例与实施例一的不同之处在于:感温元件24的数量为2,分别为第一感温元件241和第二感温元件242。其中,第一感温元件 241固定于金属头1的端部,第二感温元件242固定于金属头2的中部。在实际工作过程中,第一感温元件241能够对锅具10内底部的食材原料如肉类进行测温,第二感温元件242能够对锅具10内上部的空气或者食材原料如水进行测温。
实施例三:
参照图8,本申请实施例三公开一种温度探针,本实施例与实施例一的不同之处在于:安装块35与连接件54之间不设置卡接结构,后盖3进入安装口211的一端一体成型有若干个固定块36,固定块36与外壳2通过螺栓37固定。在本实施例中,固定块36的数量为2,且两个固定块36以后盖3的轴线呈对称分布。
由于后盖3与外壳2之间为可拆卸的固定连接方式,使用者拧出螺栓37后,可将后盖3从外壳2中取出,进而取出外壳2内部的支架5。
实施例四:
参照图9,本申请实施例四公开一种智能厨具,智能厨具包括有锅具10、与锅具10配套的锅盖11,以及智能探针。锅盖11开设有安装孔111,智能探针的金属头1穿设于安装孔111。为了提高智能探针的安装稳固性,安装孔111与金属头1之间还设置有弹性圈(图中未示出)。使用者在进行烹饪时,可以将锅具10内放入食材原料,然后盖3上锅盖11,使温度探针的金属头1与食材原料接触,以检测食材原料的温度。
实施例五:
参照图10,本申请实施例五公开一种智能厨具,本实施例与实施例四的不同之处在于:智能厨具还包括有智能炉台12,智能炉台12内置有通信模块和控制模块,通信模块用于接收温度探针发送的温度信息,控制模块用于根据温度信息控制调价智能炉台12的火力大小。具体的,通信模块可以为蓝牙模块、WIFI模块、4g模块或5g模块中的一种或多种结合。本实施例中,通讯模块优选为蓝牙模块。控制模块优选为单片机。
以上均为本申请的较佳实施例,并非依此限制本申请的保护范围,故:凡依本申请的结构、形状、原理所做的等效变化,均应涵盖于本申请的保护范围之内。

Claims (10)

  1. 温度探针,其特征在于:包括外壳(2)、固定于外壳(2)的金属头(1),以及设置于所述金属头(1)内的感温元件(24);
    所述外壳(2)内设置有无线充电线圈(25)、充电电池(23),以及用于支撑所述无线充电线圈(25)和所述充电电池(23)的支架(5);所述感温元件(24)电性连接于所述充电电池(23)的充电回路;所述无线充电线圈(25)电性连接于所述充电电池(23),以向所述充电电池(23)充电。
  2. 根据权利要求1所述的温度探针,其特征在于:所述支架(5)设置有若干个第一卡接部(541),所述外壳(2)的内侧设置有若干个供邻近所述第一卡接部(541)卡接配合的卡接槽(26)。
  3. 根据权利要求2所述的温度探针,其特征在于:所述支架(5)设置有限位块(56),所述外壳(2)内设置有用于对所述限位块(56)进行限位的限位槽(214),所述限位块(56)滑动连接于所述限位槽(214)内;所述卡接槽(26)的位置经过所述第一卡接部(541)的滑移路径。
  4. 根据权利要求2所述的温度探针,其特征在于:所述外壳(2)设置有用于密封所述金属头(1)和所述外壳(2)之间间隙的头部密封圈(6),所述支架(5)的一端设置有用于与头部密封圈(6)抵触以达到密封效果的抵触密封部(55)。
  5. 根据权利要求1所述的温度探针,其特征在于:所述外壳(2)设置有供所述支架(5)容纳的安装腔(21),所述安装腔(21)的一端设置有供所述支架(5)进出的安装口(211),所述安装口(211)和所述支架(5)端部之间设置有供所述无线充电线圈(25)容纳的容置空间(53),所述安装口(211)可拆卸安装有用于遮挡所述容置空间(53)的后盖(3)。
  6. 根据权利要求5所述的温度探针,其特征在于:所述支架(5)设置有若干个第一卡接部(541),所述外壳(2)的内侧设置有若干个供邻近所述第一卡接部(541)卡接配合的卡接槽(26);所述支架(5)设置有用于连接所述第一卡接部(541)的连接件(54),所述后盖(3)设置有对所述连接件(54)具有限位作用的安装块(35);
    所述连接件(54)设置有第二卡接部(542),所述安装块(35)设置有供邻近所述第二卡接部(542)卡接的卡孔(351)。
  7. 根据权利要求1所述的温度探针,其特征在于:所述支架(5)包括第一支撑件(7)、能够与所述第一支撑件(7)拼装配合的第二支撑件(8),以及用于可拆卸固定所述第一支撑件(7)和所述第二支撑件(8)的固定件(9);所述第一支撑件(7)和所述第二支撑件 (8)之间设置有供所述充电电池(23)容纳的容置腔(51)。
  8. 根据权利要求7所述的温度探针,其特征在于:所述第一支撑件(7)和/或所述第二支撑件(8)设置有支撑片(57),所述无线充电线圈(25)能够套设于所述支撑片(57);所述第一支撑件(7)和/或所述第二支撑件(8)接近所述支撑片(57)的一面设置有供电线穿设的通线孔(72)。
  9. 根据权利要求7所述的温度探针,其特征在于:所述固定件(9)固定于所述第一支撑件(7),所述第二支撑件(8)设置有供所述固定件(9)容纳的定位孔(82),所述定位孔(82)内设置有定位块(83),所述固定件(9)设置有用于卡接所述定位块(83)的卡接凸起(91)。
  10. 智能厨具,其特征在于:包括如权利要求1至9任意一项所述的温度探针和供所述温度探针安装的锅盖(11),所述锅盖(11)设置有安装孔(111),所述金属头(1)穿设于所述安装孔(111)。
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CN213021979U (zh) * 2020-09-25 2021-04-20 广东美德时仪器仪表有限公司 一种防水型厨房食品测温仪

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