CN112345100A - Novel wireless temperature sensor - Google Patents

Abstract

The invention discloses a novel wireless temperature sensor which comprises a shell, a fixing component and an adsorption component, wherein the shell comprises an installation opening arranged at the bottom of the shell, the fixing component comprises a connecting piece and a lengthening block, and the adsorption component comprises an angle adjusting piece and a folding piece. The device controls the extension and the folding of the adsorption component through the angle adjusting piece and the folding piece, fully utilizes the space of the shell and meets the fixing requirements of different tested equipment. Through extension piece and connecting piece cooperation to and the installation multiunit extension piece, satisfy the installation demand of different devices under test, realized the regulation to connecting band length, practicality when having improved the device and having matchd different equipment. Each lengthening block can be connected with the connecting piece and is arranged on the device to be tested, so that the device is convenient to mount and dismount, and the time is saved. Through two kinds of cooperation modes, adjust the elasticity degree of connecting band, make the better laminating of measuring module surveyed the device, make measuring result more accurate.

Description

Novel wireless temperature sensor

Technical Field

The invention relates to the technical field of power temperature detection, in particular to a novel wireless temperature sensor.

Background

The wireless temperature sensor is a wireless sensor network product integrating the technologies of sensing, wireless communication, low power consumption and the like, the wireless temperature sensor is powered by a battery, laying of communication cables, pipelines and power supply lines with large workload is avoided in engineering implementation, and a user can conveniently adjust the installation position according to the actual use condition on site. In industry and electric power industry, the normal operating of electrical equipment has guaranteed the normal operation of society and the normal life of people, therefore the reliability of equipment is vital, the temperature is the most important control parameter in the preventive maintenance, too high or too low of temperature all means the possibility that the trouble produced, realize that temperature on-line monitoring is the important means of guaranteeing high-voltage apparatus safe operation, therefore it is very necessary to utilize wireless temperature sensing device to carry out real time monitoring to the temperature of equipment, current wireless temperature sensing device can be divided into screw and watchband formula two kinds, current watchband formula wireless temperature sensing device has the defect that watchband length can't be adjusted, thereby can not effectually carry out the installation work according to the size of being detected equipment pipeline diameter, the practicality when having reduced the device and matching different equipment, inconvenient use.

Disclosure of Invention

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. In this section, as well as in the abstract and the title of the invention of this application, simplifications or omissions may be made to avoid obscuring the purpose of the section, the abstract and the title, and such simplifications or omissions are not intended to limit the scope of the invention.

The present invention has been made in view of the above and/or other problems occurring in the prior art wireless temperature sensors.

Therefore, the invention aims to solve the problems that the length and the tightness of the connecting belt of the wireless temperature sensor cannot be adjusted according to a measured device, and the connecting belt cannot be installed and used in different equipment.

In order to solve the technical problems, the invention provides the following technical scheme: a novel wireless temperature sensor comprises a shell, a sensor and a control unit, wherein an accommodating space is formed in the shell and comprises an installation opening arranged at the bottom of the shell; the fixing assembly is arranged in the mounting opening, two ends of the fixing assembly extend out of the mounting opening, and the fixing assembly comprises a connecting piece arranged at one end of the shell and an elongated block matched with the connecting piece; and the adsorption component is arranged at the bottom of the shell and comprises an angle adjusting piece arranged on the side surface of the shell and a folding piece connected with the angle adjusting piece.

As a preferable scheme of the novel wireless temperature sensor of the invention, wherein: the angle adjusting piece comprises a rotating worm arranged on the side face of the shell, a first gear meshed with the rotating worm, a second gear meshed with the first gear, a first rotating shaft movably connected with the first gear, and a second rotating shaft fixedly connected with the second gear.

As a preferable scheme of the novel wireless temperature sensor of the invention, wherein: the folded piece includes with second axis of rotation fixed connection's first stock and second stock, set up in first stock with third stock between the second stock, and with the sucking disc that the third stock is connected.

As a preferable scheme of the novel wireless temperature sensor of the invention, wherein: the first rotating shaft and the second rotating shaft are connected with the shell, and the third long rod is hinged with the first long rod and the second long rod.

As a preferable scheme of the novel wireless temperature sensor of the invention, wherein: the shell further comprises a placement groove arranged at the bottom of the shell and a round hole arranged on the side face of the shell.

As a preferable scheme of the novel wireless temperature sensor of the invention, wherein: the connecting piece comprises a first connecting end arranged at one end of the connecting piece, a first matching plate arranged at the other end of the connecting piece, and a mounting plate connected with the first connecting end and the first matching plate; the first connecting end comprises a lug arranged at the top of the first connecting end, a matching groove arranged at the bottom of the lug and an L-shaped through groove arranged in the middle of the lug; the first matching plate comprises a spring arranged at the top of the first matching plate, a baffle connected with the spring, a square through groove arranged on the baffle, a square block matched with the square through groove and an internal block matched with the first connecting end; the built-in block comprises a matching convex block matched with the matching groove and a groove matched with the convex block.

As a preferable scheme of the novel wireless temperature sensor of the invention, wherein: the lengthening blocks are provided with a plurality of groups, and comprise second connecting end heads arranged at the tops of the lengthening blocks and second matching plates connected with the second connecting end heads; the second connecting end is consistent with the first connecting end structure, and the second matching plate is consistent with the first matching plate structure.

As a preferable scheme of the novel wireless temperature sensor of the invention, wherein: the shell further comprises a wireless temperature measuring module, a microprocessor module and a wireless transmitting module which are arranged in the accommodating space.

As a preferable scheme of the novel wireless temperature sensor of the invention, wherein: the wireless temperature measurement module is connected with the microprocessor module, the microprocessor module is connected with the wireless transmitting module, and the shell further comprises a temperature measurement probe connected with the wireless temperature measurement module.

As a preferable scheme of the novel wireless temperature sensor of the invention, wherein: the shell further comprises inserting ports arranged at the top of the shell, and at least two groups of inserting ports are arranged.

The invention has the advantages that the expansion and the folding of the adsorption component are controlled by the angle adjusting piece and the folding piece, and the space of the shell is fully utilized under the condition that the sucker is fixed. Through extension piece and connecting piece cooperation to and the installation multiunit extension piece, satisfy the installation demand of different devices under test, realized the regulation to connecting band length, practicality when having improved the device and having matchd different equipment. Each lengthening block can be connected with the connecting piece and is arranged on the device to be tested, so that the device is convenient to mount and dismount, and the time is saved. Through two kinds of cooperation modes, adjust the elasticity degree of connecting band, make the better laminating of measuring module surveyed the device, make measuring result more accurate.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise. Wherein:

fig. 1 is a scene diagram of a novel wireless temperature sensor.

Fig. 2 is a structure diagram of a casing of the novel wireless temperature sensor.

Fig. 3 is a structural diagram of an adsorption assembly of the novel wireless temperature sensor.

Fig. 4 is a structural diagram of the novel wireless temperature sensor.

Fig. 5 is a connecting part structure diagram of the novel wireless temperature sensor.

FIG. 6 is a diagram of a first head and extension block of the novel wireless temperature sensor.

Fig. 7 is a cross-sectional view of the fixing assembly and extension block of the novel wireless temperature sensor.

Fig. 8 is a cross-sectional view of a first snap-in mode of the novel wireless temperature sensor.

Fig. 9 is a cross-sectional view of a second snap-in mode of the novel wireless temperature sensor.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 to 9, for a first embodiment of the present invention, the embodiment provides a novel wireless temperature sensor, the novel wireless temperature sensor includes a housing 100 and a fixing assembly 200, the fixing assembly 200 is disposed at the bottom of the housing 100, the fixing assembly 100 includes a connecting member 201 and an extension block 202, the connecting member 201 itself can be connected at the front end and the rear end to realize fixing, and the extension block 202 can be additionally installed on the premise that the housing is fixed by the connecting member 201 to realize length adjustment, so as to meet fixing requirements of different devices to be tested.

Specifically, the housing 100, which has an accommodating space M formed therein, includes a mounting opening 101 disposed at the bottom of the housing 100, and the mounting opening 101 is disposed to be connected to the fixing component 200, so as to fix the sensor to the device to be tested.

The fixing assembly 200, which is disposed in the mounting opening 101 and has two ends extending out of the mounting opening 101, includes a connecting member 201 disposed at one end of the housing 100 and an elongated block 202 engaged with the connecting member 201. Through connecting piece 201 end to end, can fix the sensor on being surveyed the device, extension piece 202 can set up to the multiunit according to the device being surveyed of difference, and every group extension piece 202 all can be connected with connecting piece 201 one end, according to being surveyed the device, dismantles or increases the extension piece, realizes the regulation to length to simple to operate, convenient to detach practices thrift a large amount of time.

The suction assembly 300, disposed at the bottom of the housing 100, includes an angle adjustment member 301 disposed at a side of the housing 100, and a folding member 302 connected to the angle adjustment member 301. The adsorption component 300 can be adjusted through the angle adjusting piece 301 and the folding piece 302, so that the extending length of the adsorption component 300 meets different tested devices, the adsorption component can be folded and stored in the shell 100 when not in use, and the residual space of the shell 100 is fully utilized.

Further, the angle adjusting member 301 includes a rotating worm 301a disposed on a side surface of the housing 100, a first gear 301b engaged with the rotating worm 301a, a second gear 301c engaged with the first gear 301b, a first rotating shaft 301d movably connected with the first gear 301b, and a second rotating shaft 301e fixedly connected with the second gear 301 c. The folding member 302 includes a first long rod 302a and a second long rod 302b fixedly connected to the second rotating shaft 301e, a third long rod 302c disposed between the first long rod 302a and the second long rod 302b, and a suction cup 302d connected to the third long rod 302 c. The first and second rotating shafts 301d and 301e are connected to the housing 100, and the third long rod 302c is hinged to the first and second long rods 302a and 302 b. The housing 100 further includes a seating groove 102 provided at the bottom thereof, and a circular hole 103 provided at a side thereof.

Further, the connection member 201 includes a first connection terminal 201a disposed at one end thereof, a first mating plate 201b disposed at the other end thereof, and a mounting plate 201c connected to the first connection terminal 201a and the first mating plate 201 b. The first connection end 201a comprises a bump 201a-1 arranged at the top of the first connection end, a matching groove 201a-2 arranged at the bottom of the bump 201a-1, and an L-shaped through groove 201a-3 arranged in the middle of the bump 201 a-1; the first matching plate 201b comprises a spring 201b-1 arranged at the top of the first matching plate, a baffle plate 201b-2 connected with the spring 201b-1, a square through groove 201b-3 arranged on the baffle plate 201b-2, a square block 201b-4 matched with the square through groove 201b-3, and a built-in block 201b-5 matched with the first connecting end 201 a. The spring 201b-1 is used for connecting the baffle 201b-2 and the first matching plate 201b, and after the first connection end 201a is installed in the inner cavity of the first matching plate 201b, the first connection end 201a is continuously extruded by the baffle 201b-2, so that the first connection end 201a is better fixed.

Further, the built-in block 201b-5 includes a fitting projection 201b-51 fitted with the fitting groove 201a-2, and a groove 201b-52 fitted with the projection 201 a-1. The lengthening block 202 is provided with a plurality of groups, including a second connecting end 202a arranged on the top thereof, and a second matching plate 202b connected with the second connecting end 202 a; the second connection terminal 202a is identical in structure to the first connection terminal 201a, and the second mating plate 202b is identical in structure to the first mating plate 201 b. The multiple groups of lengthening blocks 202 are connected with the second matching board 202b through the second connecting end 202a in a matching mode, and each group of lengthening blocks 202 can be connected with the first connecting end 201a in a matching mode, so that the length can be adjusted conveniently, the device is suitable for multiple tested devices, and the practicability is improved. The spring 201b-1, the baffle plate 201b-2, the square block 201b-4 and the built-in block 201b-5 are all arranged in the inner cavity of the first matching plate 201 b. The housing 100 further includes at least two sets of sockets 107 disposed at a top portion thereof. The housing can be plugged into the housing 100 through the plug 107 to close the housing 100.

When the device is used, the rotating worm 301a is rotated to drive the first gear 301b to rotate, so that the second gear 301c meshed with the first gear is rotated, the first long rod 302a and the second long rod 302b are rotated along with the first gear, the angle adjusting function is achieved, the third long rod 302c and the sucker 302d are integrated, the third long rod 302c is rotated out from the position between the first long rod 302a and the second long rod 302b, the sucker 302d is attached to the surface of a device to be measured, and the effect of enhancing fixation is achieved. When not in use, the adsorption component 300 can be folded and placed in the placing groove 102, so that the internal space of the shell 100 is fully utilized, and the space is saved.

The extension block 202 is increased or decreased according to the size of the device to be measured, and the fixing component 200 is connected with the second matching plate 202b through the first connecting end 201a, so that the fixing component is fixed on the device to be measured in a ring shape. The first adding mode is that when the adding block 202 is added, one end of the second connecting end 202a slides into the inner cavity of the first matching plate 201b through the sliding inlet 201b-6, when the top end bump of the second connecting end crosses the matching bump 201b-51, the second connecting end 202a is pushed into the cavity, then the adding block 202 is loosened, the extruded spring 201b-1 rebounds, the baffle plate 201b-2 is driven to extrude the second connecting end 202a, finally the second connecting end 202a is matched with the built-in block 201b-5, the adding block 202 is fixed in the second matching plate 202b, and the adding block 202 repeats the process. In the second adding mode, one end of a second connecting end 202a is jacked to the bottom of a first matching plate 201b through a sliding inlet 201b-6, at the moment, an L-shaped through groove 201a-3 and a square block 201b-4 are located on the same straight line, the second connecting end 202a is pushed into the cavity, the square block 201b-4 enters the L-shaped through groove 201a-3, when the square block is pushed into the cavity end face, an extension block 202 is loosened, at the moment, an extruded spring 201b-1 rebounds to drive a baffle plate 201b-2 to extrude the second connecting end 202a, and finally the L-shaped through groove 201a-3 is clamped with the square block 201b-4 to fix the extension block. Can adjust the elasticity degree of fixed subassembly 200 through the second joint mode, the temperature measuring device of being convenient for and the laminating of being surveyed the device improve the measuring degree of accuracy.

In conclusion, through the adsorption component 300, when the temperature sensor is installed on the device to be tested, the fixation is strengthened through the sucker, the stability of the device is improved, and when the sensor is not used, the adsorption component 300 can be folded and stored in the shell 100, so that the space is saved. The length can be adjusted by additionally arranging the plurality of groups of lengthening blocks 202, different tested devices are met, and the practicability of the temperature sensor is improved. Each group of the elongated blocks 202 can be matched with the connecting piece 201, so that the shell 100 is fixed, the installation is convenient, the disassembly is rapid, and the time is saved. Through two kinds of block modes, adjust fixed subassembly 200's elasticity, be favorable to temperature measuring device and the laminating of being surveyed the device, effectual measurement accuracy that has improved.

Example 2

Referring to fig. 1 and 4, a second embodiment of the present invention, which is different from the first embodiment, is: the device also comprises a wireless temperature measuring module 103, a microprocessor module 104 and a wireless transmitting module 105. In the last embodiment, novel wireless temperature sensor includes casing 100 and fixed subassembly 200, and fixed subassembly 200 sets up in the bottom of casing 100, and fixed subassembly 100 includes connecting piece 201 and extension piece 202, and connecting piece 201 itself can connect the realization fixedly in front and back end, and realizes can also installing extension piece 202 additional under the fixed prerequisite of casing through connecting piece 201 and realize the regulation to length to satisfy the fixed demand of different devices under test.

Specifically, the housing 100, which has an accommodating space M formed therein, includes a mounting opening 101 disposed at the bottom of the housing 100, and the mounting opening 101 is disposed to be connected to the fixing component 200, so as to fix the sensor to the device to be tested.

The fixing assembly 200, which is disposed in the mounting opening 101 and has two ends extending out of the mounting opening 101, includes a connecting member 201 disposed at one end of the housing 100 and an elongated block 202 engaged with the connecting member 201. Through connecting piece 201 end to end, can fix the sensor on being surveyed the device, extension piece 202 can set up to the multiunit according to the device being surveyed of difference, and every group extension piece 202 all can be connected with connecting piece 201 one end, according to being surveyed the device, dismantles or increases the extension piece, realizes the regulation to length to simple to operate, convenient to detach practices thrift a large amount of time.

The suction assembly 300, disposed at the bottom of the housing 100, includes an angle adjustment member 301 disposed at a side of the housing 100, and a folding member 302 connected to the angle adjustment member 301. The adsorption component 300 can be adjusted through the angle adjusting piece 301 and the folding piece 302, so that the extending length of the adsorption component 300 meets different tested devices, the adsorption component can be folded and stored in the shell 100 when not in use, and the residual space of the shell 100 is fully utilized.

Further, the angle adjusting member 301 includes a rotating worm 301a disposed on a side surface of the housing 100, a first gear 301b engaged with the rotating worm 301a, a second gear 301c engaged with the first gear 301b, a first rotating shaft 301d movably connected with the first gear 301b, and a second rotating shaft 301e fixedly connected with the second gear 301 c. The folding member 302 includes a first long rod 302a and a second long rod 302b fixedly connected to the second rotating shaft 301e, a third long rod 302c disposed between the first long rod 302a and the second long rod 302b, and a suction cup 302d connected to the third long rod 302 c. The first and second rotating shafts 301d and 301e are connected to the housing 100, and the third long rod 302c is hinged to the first and second long rods 302a and 302 b. The housing 100 further includes a seating groove 102 provided at the bottom thereof, and a circular hole 103 provided at a side thereof.

Further, the connection member 201 includes a first connection terminal 201a disposed at one end thereof, a first mating plate 201b disposed at the other end thereof, and a mounting plate 201c connected to the first connection terminal 201a and the first mating plate 201 b. The first connection end 201a comprises a bump 201a-1 arranged at the top of the first connection end, a matching groove 201a-2 arranged at the bottom of the bump 201a-1, and an L-shaped through groove 201a-3 arranged in the middle of the bump 201 a-1; the first matching plate 201b comprises a spring 201b-1 arranged at the top of the first matching plate, a baffle plate 201b-2 connected with the spring 201b-1, a square through groove 201b-3 arranged on the baffle plate 201b-2, a square block 201b-4 matched with the square through groove 201b-3, and a built-in block 201b-5 matched with the first connecting end 201 a. The spring 201b-1 is used for connecting the baffle 201b-2 and the first matching plate 201b, and after the first connection end 201a is installed in the inner cavity of the first matching plate 201b, the first connection end 201a is continuously extruded by the baffle 201b-2, so that the first connection end 201a is better fixed.

Further, the built-in block 201b-5 includes a fitting projection 201b-51 fitted with the fitting groove 201a-2, and a groove 201b-52 fitted with the projection 201 a-1. The lengthening block 202 is provided with a plurality of groups, including a second connecting end 202a arranged on the top thereof, and a second matching plate 202b connected with the second connecting end 202 a; the second connection terminal 202a is identical in structure to the first connection terminal 201a, and the second mating plate 202b is identical in structure to the first mating plate 201 b. The multiple groups of lengthening blocks 202 are connected with the second matching board 202b through the second connecting end 202a in a matching mode, and each group of lengthening blocks 202 can be connected with the first connecting end 201a in a matching mode, so that the length can be adjusted conveniently, the device is suitable for multiple tested devices, and the practicability is improved. The spring 201b-1, the baffle plate 201b-2, the square block 201b-4 and the built-in block 201b-5 are all arranged in the inner cavity of the first matching plate 201 b. The housing 100 further includes at least two sets of sockets 107 disposed at a top portion thereof. The housing can be plugged into the housing 100 through the plug 107 to close the housing 100.

Preferably, the housing 100 further includes a wireless temperature measuring module 103, a microprocessor module 104 and a wireless transmitting module 105 disposed in the accommodating space M. The wireless temperature measuring module 103 is connected with the microprocessor module 104, and the microprocessor module 104 is connected with the wireless transmitting module 105. The housing 100 further includes a temperature probe 105 connected to the wireless temperature measurement module 103. The wireless temperature measurement module adopts a high-precision digital temperature sensor, particularly adopts a American DALLAS high-precision digital temperature sensor, and the series of sensors adopt measures such as full sealing, shielding grounding, equipotential principle, high-voltage absorption isolation and the like in design and manufacturing process, so that the safety, stability and high precision of data can be ensured. In the embodiment, the shell 100 is provided with the opening, the temperature measuring probe 105 of the temperature sensor extends out of the shell 100 through the opening, and when the temperature measuring device is used, the measuring end is attached to a point to be measured.

When the device is used, the rotating worm 301a is rotated to drive the first gear 301b to rotate, so that the second gear 301c meshed with the first gear is rotated, the first long rod 302a and the second long rod 302b are rotated along with the first gear, the angle adjusting function is achieved, the third long rod 302c and the sucker 302d are integrated, the third long rod 302c is rotated out from the position between the first long rod 302a and the second long rod 302b, the sucker 302d is attached to the surface of a device to be measured, and the effect of enhancing fixation is achieved. When not in use, the adsorption component 300 can be folded and placed in the placing groove 102, so that the internal space of the shell 100 is fully utilized, and the space is saved.

The extension block 202 is increased or decreased according to the size of the device to be measured, and the fixing component 200 is connected with the second matching plate 202b through the first connecting end 201a, so that the fixing component is fixed on the device to be measured in a ring shape. The first adding mode is that when the adding block 202 is added, one end of the second connecting end 202a slides into the inner cavity of the first matching plate 201b through the sliding inlet 201b-6, when the top end bump of the second connecting end crosses the matching bump 201b-51, the second connecting end 202a is pushed into the cavity, then the adding block 202 is loosened, the extruded spring 201b-1 rebounds, the baffle plate 201b-2 is driven to extrude the second connecting end 202a, finally the second connecting end 202a is matched with the built-in block 201b-5, the adding block 202 is fixed in the second matching plate 202b, and the adding block 202 repeats the process. In the second adding mode, one end of a second connecting end 202a is jacked to the bottom of a first matching plate 201b through a sliding inlet 201b-6, at the moment, an L-shaped through groove 201a-3 and a square block 201b-4 are located on the same straight line, the second connecting end 202a is pushed into the cavity, the square block 201b-4 enters the L-shaped through groove 201a-3, when the square block is pushed into the cavity end face, an extension block 202 is loosened, at the moment, an extruded spring 201b-1 rebounds to drive a baffle plate 201b-2 to extrude the second connecting end 202a, and finally the L-shaped through groove 201a-3 is clamped with the square block 201b-4 to fix the extension block. Can adjust the elasticity degree of fixed subassembly 200 through the second joint mode, the temperature measuring device of being convenient for and the laminating of being surveyed the device improve the measuring degree of accuracy.

In summary, the plurality of sets of elongated blocks 202 are connected to each other, the elongated blocks 202 are connected to the connecting member 201, the fixing assembly 200 is connected to the housing 100, and the suction assembly 300 is connected to the housing 100. The fixing ability of the fixing member 200 is enhanced by the adsorption member 300 and can be stored in the housing 100 while being folded when not in use, saving space. The length can be adjusted by additionally arranging the multiple groups of lengthening blocks 202, different tested devices are met, and the practicability of the temperature sensor is improved. Each group of the elongated blocks 202 can be matched with the connecting piece 201, so that the shell 100 is fixed, the installation is convenient, the disassembly is rapid, and the time is saved. Through two kinds of block modes, adjust fixed subassembly 200's elasticity, be favorable to temperature measuring device and the laminating of being surveyed the device, effectual measurement accuracy that has improved. The functions of measurement and wireless communication are realized through the wireless temperature measurement module 103, the microprocessor module 104 and the wireless transmission module 105, and the practicability of the device is enhanced.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims (10)

1. A novel wireless temperature sensor is characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the shell (100) forms an accommodating space (M) inside and comprises a mounting opening (101) arranged at the bottom of the shell (100);

the fixing assembly (200) is arranged in the mounting opening (101), two ends of the fixing assembly extend out of the mounting opening (101), and the fixing assembly comprises a connecting piece (201) arranged at one end of the shell (100) and an elongated block (202) matched with the connecting piece (201); and the number of the first and second groups,

the adsorption component (300) is arranged at the bottom of the shell (100) and comprises an angle adjusting piece (301) arranged on the side surface of the shell (100) and a folding piece (302) connected with the angle adjusting piece (301).

2. The novel wireless temperature sensor of claim 1, wherein: the angle adjusting piece (301) comprises a rotating worm (301a) arranged on the side face of the shell (100), a first gear (301b) meshed with the rotating worm (301a), a second gear (301c) meshed with the first gear (301b), a first rotating shaft (301d) movably connected with the first gear (301b), and a second rotating shaft (301e) fixedly connected with the second gear (301 c).

3. The novel wireless temperature sensor of claim 2, wherein: the folding piece (302) comprises a first long rod (302a) and a second long rod (302b) which are fixedly connected with the second rotating shaft (301e), a third long rod (302c) arranged between the first long rod (302a) and the second long rod (302b), and a sucker (302d) connected with the third long rod (302 c).

4. The novel wireless temperature sensor of claim 3, wherein: the first rotating shaft (301d) and the second rotating shaft (301e) are connected with the shell (100), and the third long rod (302c) is hinged with the first long rod (302a) and the second long rod (302 b).

5. The novel wireless temperature sensor of any of claims 1, 2, 4, wherein: the shell (100) further comprises a placement groove (102) arranged at the bottom of the shell, and a round hole (103) arranged on the side face of the shell.

6. The novel wireless temperature sensor according to any one of claims 1 to 4, wherein: the connecting piece (201) comprises a first connecting end (201a) arranged at one end of the connecting piece, a first matching plate (201b) arranged at the other end of the connecting piece, and a mounting plate (201c) connected with the first connecting end (201a) and the first matching plate (201 b); the first connecting end (201a) comprises a lug (201a-1) arranged at the top of the first connecting end, a matching groove (201a-2) arranged at the bottom of the lug (201a-1), and an L-shaped through groove (201a-3) arranged in the middle of the lug (201 a-1); the first matching plate (201b) comprises a spring (201b-1) arranged at the top of the first matching plate, a baffle plate (201b-2) connected with the spring (201b-1), a square through groove (201b-3) arranged on the baffle plate (201b-2), a square block (201b-4) matched with the square through groove (201b-3), and a built-in block (201b-5) matched with the first connecting end (201 a); the built-in block (201b-5) comprises a matching convex block (201b-51) matched with the matching groove (201a-2), and a groove (201b-52) matched with the convex block (201 a-1).

7. The novel wireless temperature sensor of claim 6, wherein: the lengthening blocks (202) are provided with a plurality of groups, and comprise second connecting end heads (202a) arranged at the tops of the lengthening blocks and second matching plates (202b) connected with the second connecting end heads (202 a); the second connection end (202a) is consistent with the first connection end (201a), and the second matching plate (202b) is consistent with the first matching plate (201 b).

8. The novel wireless temperature sensor according to any one of claims 1 to 4, wherein: the shell (100) further comprises a wireless temperature measuring module (103), a microprocessor module (104) and a wireless transmitting module (105) which are arranged in the accommodating space (M).

9. The novel wireless temperature sensor of claim 8, wherein: the wireless temperature measurement module (103) is connected with the microprocessor module (104), the microprocessor module (104) is connected with the wireless transmission module (105), and the shell (100) further comprises a temperature measurement probe (106) connected with the wireless temperature measurement module (103).

10. The novel wireless temperature sensor according to any one of claims 1 to 4, wherein: the shell (100) further comprises inserting ports (107) arranged at the top of the shell, and at least two groups of inserting ports (107) are arranged.

Images