1. A combined Bluetooth thermometer is characterized by comprising a main body box (1), a first probe (2) and a second probe (3);

the first probe (2) is detachably arranged on the main body box (1), the first probe (2) is sequentially provided with a first temperature measuring section (4), a transition section (5) and a charging section (6) along the length direction, the first temperature measuring section (4) is used for measuring temperature, and the charging section (6) is used for electrically connecting the first probe (2) and the main body box (1) so as to charge the first probe (2);

the second probe (3) comprises a second temperature measuring section (7) and a connecting section (8), the second temperature measuring section (7) is used for measuring temperature, and the connecting section (8) is connected with the main body box (1) so as to rotatably connect the second probe (3) with the main body box (1).

2. The combined Bluetooth thermometer according to claim 1, wherein a placing groove (9) is arranged on the main body box (1), a plurality of limiting groups are arranged in the placing groove (9), and a clamping space is formed in the limiting groups for clamping the first probe (2).

3. The combined Bluetooth thermometer according to claim 2, wherein the limiting group comprises a connecting sheet (10) abutting against the bottom of the placing groove (9), and limiting sheets (11) arranged at two ends of the connecting sheet (10), the clamping space is formed between the two limiting sheets (11) and the connecting sheet (10), the limiting sheets (11) comprise an arc-shaped section (12) close to the connecting sheet (10), and a bending section (13) arranged on one side of the arc-shaped section (12) far away from the connecting sheet (10), and the bending sections (13) on the two limiting sheets (11) form a guide opening (14) for the first probe (2) to be embedded.

4. The combined Bluetooth thermometer according to claim 3, wherein a charging terminal (15) is arranged on an end face of the charging section (6) far away from the transition section (5), an electrode plate (16) is arranged on an inner wall of one side of the placement groove (9), and when the first probe (2) is embedded into the clamping space, the charging terminal (15) abuts against the electrode plate (16).

5. The combined Bluetooth thermometer according to claim 4, wherein the electrode sheet (16) and the limiting sheet (11) are both elastic sheets, the electrode sheet (16) comprises an inclined section (17) arranged on the inner wall of the placement groove (9) and a straight lower section (18) connected to the inclined section (17), and when the first probe (2) is inserted into the clamping space, the charging terminal (15) abuts against the straight lower section (18).

6. The combined Bluetooth thermometer according to claim 5, wherein a limiting protrusion (19) is arranged on the inner wall of the placement groove (9) and between the two electrode plates (16), a limiting groove (20) is arranged between the two charging terminals (15) of the charging section (6), the cross-sectional area of the limiting protrusion (19) far away from the length direction of the main body box (1) is gradually smaller towards the direction far away from the bottom of the placement groove (9), and the opening of the limiting groove (20) is gradually larger towards the notch of the placement groove (9).

7. A combined bluetooth thermometer according to claim 2, characterised in that the placing grooves (9) are provided with yielding grooves (21) on the inner walls of both sides of the charging section (6).

8. The combined Bluetooth thermometer according to claim 1, wherein a rotating groove (22) is formed in an end portion of the main body case (1) close to the charging section (6), a rotating shaft (23) is arranged between two opposite side inner walls of the rotating groove (22), a rotating disk (24) is rotatably sleeved on the rotating shaft (23), and the connecting section (8) is connected to an outer wall of the rotating disk (24).

9. The combined Bluetooth thermometer according to claim 8, wherein the rotating disk (24) is provided with a limiting block (25), the inner wall of the rotating groove (22) near the limiting block (25) is provided with a limiting stop (26), and the limiting block (25) abuts against the limiting stop (26) when the rotating disk (24) rotates.

10. The combined Bluetooth thermometer according to claim 1, wherein a holding groove (27) for the second probe (3) to be inserted is formed on one side surface of the main body case (1), and a positioning groove (28) for the second temperature measuring section (7) to be inserted is formed on one side surface of the main body case (1) provided with the holding groove (27).

Background

The thermometer is a tool that can accurately judge and measure the temperature, and is classified into a pointer thermometer and a digital thermometer. Various thermometers have been designed and manufactured according to differences in purposes of use.

One of the purposes of the thermometer is to detect the internal temperature of meat food in the process of cooking some food (such as meat food), the thermometer can be inserted into the food to acquire the temperature change of the food in the cooking process, and because some food is in a relatively closed environment (microwave oven) in the cooking process, the thermometer needs the function of data transmission, and generally adopts a bluetooth thermometer to transmit data by using a bluetooth communication module on the thermometer.

The bluetooth thermometer includes wired bluetooth thermometer and wireless bluetooth thermometer, places wireless bluetooth thermometer in the closed, and general wireless bluetooth thermometer places inside the enclosed environment, when food culinary art process, need cook under the enclosed environment earlier then take out again and process, also need be to the food temperature measurement in the follow-up course of working, if take out the temperature measurement again with wireless bluetooth thermometer, can be more troublesome waste time, so need the bluetooth thermometer of a section combination formula.

Disclosure of Invention

In order to carry out the temperature measurement to food in can in closed environment, the convenient temperature measurement of processing of taking out in the clever closed environment with food simultaneously, this application provides a modular bluetooth thermometer.

The application provides a modular bluetooth thermometer adopts following technical scheme:

a combined Bluetooth thermometer comprises a main body box, a first probe and a second probe;

the first probe is detachably arranged on the main body box and sequentially comprises a first temperature measuring section, a transition section and a charging section along the length direction, the first temperature measuring section is used for measuring temperature, and the charging section is used for electrically connecting the first probe and the main body box so as to charge the first probe;

the second probe comprises a second temperature measuring section and a connecting section, the second temperature measuring section is used for measuring temperature, and the connecting section is connected with the main body box so as to rotatably connect the second probe to the main body box.

By adopting the technical scheme, when food in the cooking process needs to be processed, if the food only needs to be processed in a closed environment, the first probe can be taken down from the main body box and installed in the closed environment, and the first temperature measuring section is inserted into the food, so that the temperature of the food in the cooking process can be obtained; in addition, if the food is cooked in a non-closed environment, the first temperature measuring section of the first probe can be directly inserted into the food or the second temperature measuring section of the second probe can be inserted into the food, so that the temperature of the food in the cooking process can be obtained; if the food needs to be cooked in a closed environment and then taken out for processing, the first probe can be used for processing in the closed environment, and the second probe can be used for measuring the temperature when the food is taken out of the closed environment for processing; in conclusion, the temperature measurement can be carried out on food in a closed environment, the temperature measurement during processing can be conveniently taken out from the intelligent closed environment of the food, and the temperature measurement efficiency of the whole process of food cooking can be improved.

Optionally, a placing groove is formed in the main body box, a plurality of limiting groups are arranged in the placing groove, and a clamping space is formed in each limiting group and used for clamping the first probe.

Through adopting above-mentioned technical scheme, when accomodating first probe in the main part box, place first probe in the standing groove to the both ends of first probe are placed in the centre gripping space, play and carry out fixed effect with first probe, at first probe non-use time section, the convenience is to accomodating of first probe.

Optionally, the limiting group comprises a connecting sheet abutted to the bottom of the placing groove and limiting sheets arranged at two ends of the connecting sheet, the clamping space is formed between the two limiting sheets and the connecting sheet, each limiting sheet comprises an arc-shaped section close to the connecting sheet and a bending section arranged on one side of the connecting sheet, the arc-shaped section is far away from the bending section, and the bending sections on the limiting sheets form a guide port for embedding the first probe.

Through adopting above-mentioned technical scheme, when accomodating first probe fixedly, through the section of bending that sets up, first probe from guide port department embedding to make things convenient for the embedding of first probe, and with between two arc ends of first probe embedding, thereby put into the centre gripping space with first probe, alright in order to accomodate first probe fixedly.

Optionally, a charging terminal is arranged on an end face of one end, far away from the transition section, of the charging section, an electrode plate is arranged on an inner wall of one side of the placement groove, and when the first probe is embedded into the clamping space, the charging terminal is abutted to the electrode plate.

Through adopting above-mentioned technical scheme, accomodate in the standing groove back at first probe, through the charging terminal and the electrode slice that set up, after the electrode slice mutual butt on the charging terminal on first probe and the main part box, alright in order to play the effect of charging to first probe.

Optionally, the electrode plate and the limiting piece are both elastic pieces, the electrode plate includes an inclined section arranged on the inner wall of the placement groove and a straight lower section connected to the inclined section, and when the first probe is embedded into the clamping space, the charging terminal is abutted to the straight lower section.

Through adopting above-mentioned technical scheme, when charging terminal and electrode slice begin the butt, earlier with the section of bending carry out the butt, along with continue with first probe embedding centre gripping space in, the section of bending is extruded to the charging terminal to the cunning move to with straight lower segment butt, the section of bending this moment is in always by the extrusion state, there is the trend that resets in the section of bending and straight lower segment, thereby ensures the continuation butt of charging terminal and electrode slice.

Optionally, the inner wall of the placing groove is provided with two limiting protrusions, the charging section is provided with two limiting grooves, the cross-sectional area of the charging section, which is far away from the length direction of the main body box, is gradually smaller towards the direction far away from the bottom of the placing groove, and the opening of each limiting groove is gradually increased towards the notch of the placing groove.

Through adopting above-mentioned technical scheme, when first probe embedding centre gripping space in, will charge spacing recess and spacing arch on the section and aim at for spacing arch is embedded into in the spacing recess, through the above-mentioned in-process, when accomodating first probe, can ensure that the terminal that charges can accurate butt on the electrode plate.

Optionally, the placing groove is located the inner wall of the charging section both sides all is provided with the groove of stepping down.

Through adopting above-mentioned technical scheme, when needs take out the electrode slice from the standing groove, through the groove of stepping down that sets up, can conveniently take out first probe from the standing groove.

Optionally, the main part box is close to be provided with the rotation groove on the section one end tip that charges, be provided with the axis of rotation between the relative both sides inner wall in rotation groove, it is equipped with the rotating disc to rotate the cover in the axis of rotation, the linkage segment is connected on the rotating disc outer wall.

Through adopting above-mentioned technical scheme, when needs use the second probe, through rotation groove and the axis of rotation that sets up, alright with rotate the disc and rotate round the axis of rotation at the rotation inslot to roll out the second probe from main part box one side, alright with be used for the temperature measurement with the second probe, when needs accomodate the second probe, can rotate the rotation disc, thereby accomodate the second probe on the main part box.

Optionally, a limiting block is arranged on the rotating disc, a limiting stop is arranged on the inner wall of the rotating groove close to one side of the limiting block, and the limiting block abuts against the limiting stop when the rotating disc rotates.

Through adopting above-mentioned technical scheme, at the rotation in-process that rotates the disc, through stopper and the limit stop who sets up, when rotating the second probe unanimous with main part box length direction, stopper butt on limit stop, if use the second probe this moment, alright in order to handheld main part box, make things convenient for the use operation of second probe.

Optionally, a handheld groove for embedding the second probe is formed in the side face of one side of the main body box, and a positioning groove for embedding the second temperature measuring section is formed in the side face of one side of the main body box, which is provided with the handheld groove.

By adopting the technical scheme, when the second probe is used, the accommodating space of the second probe can be provided through the arranged handheld groove; in addition, after the second probe is stored, the second temperature measuring section is positioned in the positioning groove through the positioning groove, so that the second temperature measuring section can be positioned.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when food in the cooking process needs to be cooked, if the food only needs to be processed in a closed environment, the first probe can be taken down from the main body box and installed in the closed environment, and the first temperature measuring section is inserted into the food, so that the temperature of the food in the cooking process can be obtained; in addition, if the food is cooked in a non-closed environment, the first temperature measuring section of the first probe can be directly inserted into the food or the second temperature measuring section of the second probe can be inserted into the food, so that the temperature of the food in the cooking process can be obtained; if the food needs to be cooked in a closed environment and then taken out for processing, the first probe can be used for processing in the closed environment, and the second probe can be used for measuring the temperature when the food is taken out of the closed environment for processing; in conclusion, the temperature measurement can be carried out on food in a closed environment, the temperature measurement during processing can be conveniently taken out from the intelligent closed environment of the food, and the temperature measurement efficiency of the whole process of food cooking can be improved.

2. When accomodating fixedly with first probe, through the section of bending that sets up, embedding from guide port department is followed to first probe to make things convenient for the embedding of first probe, and with between two arc ends of first probe embedding, thereby put into the centre gripping space with first probe, alright with accomodate fixedly with first probe.

3. When needs use the second probe, through rotation groove and the axis of rotation that sets up, alright rotate the disc round the axis of rotation in rotating the groove to rotate the second probe from main part box one side, alright be used for the temperature measurement with the second probe, when needs accomodate the second probe, can rotate the disc that rotates, thereby accomodate the second probe on the main part box.

Drawings

FIG. 1 is a schematic structural diagram of a main body case, a first probe, and a second probe in an embodiment of the present application;

FIG. 2 is an exploded view of the embodiment of the present application between the restriction group and the first probe;

FIG. 3 is an exploded view of the body case and the first probe in an embodiment of the present application;

FIG. 4 is an enlarged schematic view of portion A of FIG. 3 in an embodiment of the present application;

FIG. 5 is an enlarged schematic view of a portion B in FIG. 2 in an embodiment of the present application;

FIG. 6 is an exploded view of the rotating disk and the main body case in the embodiment of the present application, showing the rotating shaft and the limit stops;

fig. 7 is a structural diagram of a rotating disc and a second probe in the embodiment of the present application, which is used for showing a limiting block.

Description of reference numerals:

1. a main body case; 2. a first probe; 3. a second probe; 4. a first temperature measurement section; 5. a transition section; 6. a charging section; 7. a second temperature measurement section; 8. a connecting section; 9. a placement groove; 10. connecting sheets; 11. a limiting sheet; 12. an arc-shaped section; 13. bending sections; 14. a guide port; 15. a charging terminal; 16. an electrode sheet; 17. an inclined section; 18. a straight lower section; 19. a limiting bulge; 20. a limiting groove; 21. a yielding groove; 22. a rotating groove; 23. a rotating shaft; 24. rotating the disc; 25. a limiting block; 26. a limit stop block; 27. a hand-held tank; 28. and (6) positioning a groove.

Detailed Description

The present application will be described in further detail below.

The embodiment of the application discloses modular bluetooth thermometer, refer to fig. 1, including main part box 1, first probe 2 and second probe 3, first probe 2 on the main part box 1 is wireless bluetooth thermometer, and second probe 3 is wired bluetooth thermometer, in the use temperature measurement process of second probe 3 and second probe 3, can transmit the temperature data who gathers.

Referring to fig. 1, a first probe 2 is detachably mounted on a main body box 1, the first probe 2 is detachably mounted on the main body box 1, and the first probe 2 is detached to be used for measuring temperature of food in a closed environment or a non-closed environment during a cooking process of the food; the first probe 2 is sequentially provided with a first temperature measuring section 4, a transition section 5 and a charging section 6 along the length direction, the first temperature measuring section 4 is used for measuring temperature, the first temperature measuring section 4 can be inserted into food being cooked in the using process of the first probe 2, the charging end is used for electrically connecting the first probe 2 and the main body box 1, and the charging section 6 can be used for charging the first probe 2 when the first probe 2 is installed on the main body box 1;

referring to fig. 1, the second probe 3 includes a second temperature measuring section 7 and a connecting section 8, the second temperature measuring section 7 is used for measuring temperature, when food is cooked in a non-closed environment, the second temperature measuring section 7 of the second probe 3 can be used for measuring temperature of the food, the connecting section 8 is connected with the main body box 1 to connect the second probe 3 to the main body box 1 in a rotating manner, when the second probe 3 is used for measuring temperature of the food, the second probe 3 can be rotated to separate the second temperature measuring section 7 from the main body box 1.

Referring to fig. 2, in order to realize the detachability of the first probe 2 on the main body box 1, a placing groove 9 is opened on the main body box 1, and the length of the placing groove 9 is greater than the length of the whole first probe 2, a plurality of limit groups are provided in the placing groove 9, and a clamping space is formed in each limit group for clamping the first probe 2, so as to fix the first probe 2 in the placing groove 9.

Referring to fig. 2, in the present embodiment, the limiting set includes a connecting piece 10 and two limiting pieces 11, the connecting piece 10 abuts against the bottom of the placing groove 9, the connecting piece 10 is fixed at the bottom of the placing groove 9 by a bolt, the two limiting pieces 11 are provided, the limiting pieces 11 are respectively integrally formed at two ends of the connecting piece 10, and a clamping space is formed between the two limiting pieces 11 and the connecting piece 10; in addition, the limiting pieces 11 include an arc-shaped section 12 close to the connecting piece 10, and a bending section 13 integrally formed on one side of the arc-shaped section 12 away from the connecting piece 10, and the bending sections 13 on the two limiting pieces 11 form a guide opening 14 for the first probe 2 to be embedded into.

When first probe 2 accomodates fixedly, with first probe 2 from 14 imbeds of uide port, in order to make things convenient for the embedding of first probe 2, along with first probe 2 lasts the embedding, can lead to the junction between segmental arc 12 and the section of bending 13 to strut, and with between two arc ends of first probe 2 embedding, thereby put into centre gripping space with first probe 2, when two segmental arcs 12 with first probe 2 centre gripping, segmental arc 12 and the junction between the section of bending 13 and can support first probe 2, thereby can play and accomodate fixed effect with first probe 2.

Referring to fig. 3 and 4, a charging terminal 15 is installed on an end surface of the charging section 6 far away from the transition section 5, an electrode plate 16 is arranged on an inner wall of the placement groove 9, and when the first probe 2 is inserted into the clamping space, the charging terminal 15 abuts against the electrode plate 16, so that the first probe 2 can be charged; in addition, the electrode plate 16 is an elastic sheet and is made of a metal sheet, the electrode plate 16 comprises an inclined section 17 arranged on the inner wall of the placement groove 9 and a straight lower section 18 connected to the inclined section 17, when the first probe 2 starts to be embedded into the clamping space, the charging terminal 15 starts to abut against the inclined section 17, the charging terminal 15 can slide on the inclined section 17 and extrude the inclined section 17, along with the fact that the first probe 2 is embedded into the clamping space, the charging terminal 15 slides to the straight lower section 18 from the inclined section 17 and the charging terminal 15 can extrude the straight lower section 18, the whole electrode plate 16 is driven to deform, and charging of the first probe 2 can be guaranteed.

Referring to fig. 4 and 5, when the first probe 2 is stored and fixed, in order to ensure that the charging terminal 15 on the first probe 2 can be abutted against the electrode plate 16, a limiting protrusion 19 is integrally formed on the inner wall of the placement groove 9 and between the two electrode plates 16, a limiting groove 20 is formed between the two charging terminals 15 in the charging section 6, and the limiting groove 20 on the first probe 2 can be stored after being aligned with the limiting protrusion 19 through the limiting protrusion 19 and the limiting groove 20; keep away from spacing arch 19 simultaneously at 1 length direction's of main part box cross sectional area toward keeping away from the direction of standing groove 9 tank bottom less gradually, increase gradually spacing recess 20's opening toward standing groove 9 notch to the convenience can be with spacing arch 19 embedding spacing recess 20 in.

Referring to fig. 4, when the first probe 2 is needed to be used, in order to take out the first probe 2 in the placing groove 9, the placing groove 9 is provided with the yielding groove 21 on the inner wall of the two sides of the charging section 6, and a yielding space for clamping the two sides of the charging section 6 on the first probe 2 can be provided, so that the first probe 2 can be taken out.

In order to realize that the second probe 3 is fixed in the storage of main part box 1, have seted up rotation groove 22 on main part box 1 is close to charging section 6 one end tip to install axis of rotation 23 between the relative both sides inner wall in rotation groove 22, rotate the cover and be equipped with rotating disc 24 on axis of rotation 23, and on connecting segment 8 connects rotating disc 24 outer wall, alright realize the rotation of second probe 3 on main part box 1.

Referring to fig. 6 and 7, when the second probe 3 is needed, the second probe 3 needs to be rotated out; when the second probe 3 is used, the second probe 3 is rotated to be consistent with the length direction of the main body box 1, so that the second probe 3 can be conveniently held by hands, a limiting block 25 is integrally formed on the rotating disc 24, a limiting block 26 is integrally formed on the inner wall of the rotating groove 22 close to the limiting block 25, and when the second probe 3 is rotated to be consistent with the length direction of the main body box 1, the limiting block 25 is abutted against the limiting block 26 to limit the further rotation of the rotating disc 24, so that the second probe 3 is ensured to be rotated to be consistent with the length direction of the main body box 1.

In addition, offer the handheld groove 27 that supplies the embedding of second probe 3 on main part box 1 one side, when accomodating second probe 3, second probe 3 is located and accomodates the inslot to offer the constant head tank 28 that supplies the embedding of second temperature measurement section 7 in main part box 1 one side that is provided with handheld groove 27, thereby protect second temperature measurement section 7 of second probe 3.

The implementation principle of the combined Bluetooth thermometer in the embodiment of the application is as follows: when food in the cooking process needs to be cooked, if the food only needs to be processed in a closed environment, the first probe 2 can be taken down from the main body box 1 and installed in the closed environment, and the first temperature measuring section 4 is inserted into the food, so that the temperature of the food in the cooking process can be obtained; in addition, if the food is cooked in a non-closed environment, the first temperature measuring section 4 of the first probe 2 or the second temperature measuring section 7 of the second probe 3 can be directly inserted into the food, so that the temperature of the food in the cooking process can be obtained; if the food needs to be cooked in a closed environment and then taken out for processing, the first probe 2 can be used for processing in the closed environment, and the second probe 3 can be used for measuring the temperature when the food is taken out from the closed environment for processing; in conclusion, the temperature of the food can be measured in the closed environment, and the temperature measurement during the process of taking out the food from the closed environment is convenient, so that the temperature measurement efficiency of the whole food cooking process can be improved; in the idle time of the bluetooth thermometer, the first probe 2 can be accommodated in the placing groove 9, and the second probe 3 can be accommodated in the handheld groove 27.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.