CN112842281B

CN112842281B - Rechargeable wireless body temperature detection device

Info

Publication number: CN112842281B
Application number: CN202110018447.1A
Authority: CN
Inventors: 王丹丹; 马卓
Original assignee: Zhengzhou Railway Vocational and Technical College
Current assignee: Zhengzhou Railway Vocational and Technical College
Priority date: 2021-01-07
Filing date: 2021-01-07
Publication date: 2023-02-03
Anticipated expiration: 2041-01-07
Also published as: CN112842281A

Abstract

The invention relates to the technical field of body temperature detection, in particular to a rechargeable wireless body temperature detection device. Comprises a front end shell, a rear end shell, a thermometer, a plurality of metal elastic sheets and a balancing weight; the metal elastic sheet is connected between a first wedge block of the front end shell and a second wedge block of the rear end shell, the surface of the first spiral groove and the surface of the second spiral groove on the outer circular surface of the balancing weight are divided into a plurality of diamond blocks, the outer surfaces of the diamond blocks are completely covered with magnetic parts, the metal elastic sheet is installed on the first wedge block through floating screws, and the inner ends of the floating screws are connected with bar magnets. The floating screw is driven to move up and down by different stresses of the metal elastic sheet, so that different magnetic poles of the bar magnet are matched with the magnetic poles of the magnetic part, the balancing weight moves back and forth to enable the bar magnet to move along the first spiral groove and the second spiral groove on the same side, the rotation direction of the front-end shell is consistent when the balancing weight moves forwards or backwards, and the change trend of the metal elastic sheet is consistent to adapt to different pressures of the auditory canals of livestock.

Description

Rechargeable wireless body temperature detection device

Technical Field

The invention relates to the technical field of body temperature detection, in particular to a rechargeable wireless body temperature detection device.

Background

In the large-scale development process of animal husbandry, the health of livestock is particularly important, and the health is directly related to whether the livestock farm can normally develop or not. The health of livestock has an important relationship with the body temperature, so that the tracking and detection of the body temperature of the livestock is an important means for monitoring the health condition of the livestock in modern society with the changing electronic technology. In the prior art, some monitoring devices are required to be arranged in the ear canals of livestock when monitoring the body temperature of the livestock. However, the strength and uncertainty of the movement of the animal is relatively large, which results in the detection device being easily rotated in the ear canal, and because the ear canal of the animal is not in a regular circular shape, the support of the monitoring device to the ear canal after the rotation may be too loose or too strong, which results in an improper support force, which easily causes the device to fall off, or the ear canal to be rubbed to cause inflammation.

Disclosure of Invention

According to at least one of the defects in the prior art, the invention provides a rechargeable wireless body temperature detection device, which is used for solving the problem that the existing detection device cannot dynamically adapt to the pressure of an ear canal.

The invention discloses a rechargeable wireless body temperature detection device, which adopts the following technical scheme: comprises that

The axis of the front end shell extends horizontally, a plurality of first wedge blocks are uniformly distributed at the rear end of the front end shell along the circumferential direction of the front end shell, and a front end fixing hole is formed in each first wedge block;

the axis of the rear end shell extends horizontally, a plurality of second wedge blocks are uniformly distributed at the front end of the rear end shell along the circumferential direction of the rear end shell, and a rear end fixing hole is formed in each second wedge block; the front end shell and the rear end shell are inserted into each other;

a thermometer mounted to the front end housing and extending away from the front end housing for measuring a temperature within an ear canal of the livestock;

the metal elastic sheets are connected between the corresponding front end fixing holes and the corresponding rear end fixing holes;

the balancing weight is positioned inside the front end shell, a first spiral groove and a second spiral groove which are opposite in rotation direction are formed in the outer circumferential surface of the balancing weight, the first spiral groove and the second spiral groove divide the outer circumferential surface of the balancing weight into a plurality of diamond blocks, magnetic parts are fully covered on the outer surfaces of the diamond blocks, and two magnetic poles of the magnetic parts are respectively positioned at two ends of the magnetic parts in the circumferential direction of the balancing weight;

the metal elastic sheet is installed in the front end fixing hole through a floating screw to be connected with the front end shell, the inner end of the floating screw is connected with a bar-shaped magnet extending along the radial direction of the balancing weight, and the bar-shaped magnet is inserted into the balancing weight and located at the intersection of the first spiral groove and the second spiral groove.

Optionally, a pressing block is arranged on the outer peripheral wall of the front end housing and located on the front side of the front end fixing hole, a pressing groove is arranged inside the pressing block, and the pressing groove is provided with an arc-shaped pressing surface extending along the circumferential direction of the front end housing;

the front end of the metal elastic sheet extends to form a metal bending sheet, the front end of the metal bending sheet is tilted towards the direction far away from the axis of the front end shell and is abutted against the arc-shaped abutting surface, the metal bending sheet is provided with a bending point, and the bending point is abutted against the outer circular surface of the counterweight block.

Optionally, still include the installation pole, the installation pole sets up along fore-and-aft direction level the front end shell with the inside of rear end shell, and its rear end with the rear end shell is connected, the balancing weight cover is established on the installation pole and follow the installation pole slides from beginning to end.

Optionally, the axle center of balancing weight is provided with the direction spout that the level extends along the fore-and-aft direction, the circumferencial direction equipartition of direction spout has a plurality of spacing spouts that extend along the horizontal direction, the outer disc of installation pole is provided with a plurality of spacing sand grips, spacing sand grip is located in order to hinder in the spacing spout the balancing weight rotates.

Optionally, the metal dome and the rear end housing are connected by a connection screw.

Optionally, the front end of the front end housing is connected with a fixing retainer ring, the rear end of the thermometer is mounted on the fixing retainer ring, and the front end of the thermometer is provided with a temperature measuring probe.

Optionally, the outer portion of the metal elastic sheet is sleeved with a rubber sleeve to reduce friction.

Optionally, the wireless body temperature detection device further comprises a master control mechanism, a temperature sensing mechanism, a rechargeable power supply and an external device, wherein the master control mechanism, the temperature sensing mechanism, the rechargeable power supply and the external device are electrically connected with each other, the temperature sensing mechanism is configured to transmit temperature data measured by the thermometer to the master control mechanism, the master control mechanism is configured to receive and process the temperature data and send the temperature data to the external device, and the rechargeable power supply is configured to supply power to the rechargeable wireless body temperature detection device.

The invention has the beneficial effects that: the invention discloses a rechargeable wireless body temperature detection device which is provided with a front end shell, a rear end shell, a balancing weight and a metal elastic sheet, wherein the front end shell and the rear end shell are mutually inserted through a first wedge block and a second wedge block on the front end shell, the metal elastic sheet is connected between a front end fixing hole on the front end shell and a rear end fixing hole on the rear end shell, a first spiral groove and a second spiral groove which are opposite in rotation direction are arranged on the surface of the balancing weight, a bar-shaped magnet is arranged between the balancing weight and the front end shell, and the bar-shaped magnet is inserted into the intersection of the first spiral groove and the second spiral groove and corresponds to a magnetic part on the balancing weight. Lead to the screw that floats to reciprocate according to metal shrapnel's different atress, make bar magnet's different magnetic poles and magnetic part's magnetic pole cooperation, when bar magnet's magnetic pole and magnetic part's corresponding magnetic pole cooperation, bar magnet is close to the back to magnetic part's corresponding magnetic pole, the balancing weight back-and-forth movement, make bar magnet move along first helicla flute and the second helicla flute of nodical department with one side, the direction of rotation when making the front end shell move forward and move backward at the balancing weight is unanimous, front end fixed orifices and rear end fixed orifices all are close to each other or keep away from each other, make metal shrapnel's change trend unanimous, in order to adapt to the different pressure of livestock duct.

Drawings

In order to illustrate more clearly the embodiments of the invention or the solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained by those skilled in the art without inventive exercise from these drawings, it being understood that these drawings are not necessarily drawn to scale.

Fig. 1 is a schematic view illustrating a structure of a rechargeable wireless body temperature detecting device of the present invention with a reduced degree of arching of a metal spring;

FIG. 2 is a schematic view of a rechargeable wireless body temperature detecting device according to the present invention, showing an increased degree of arching of a metal spring;

FIG. 3 is a schematic structural view of a front end housing according to the present invention;

FIG. 4 is a schematic structural view of a weight member according to the present invention;

FIG. 5 is a schematic view of the front housing and the rear housing of the present invention;

FIG. 6 is a schematic view of the front housing and the rear housing of the present invention after they are rotated relative to each other;

fig. 7 is a partially enlarged view of a portion a in fig. 2.

In the figure: 100. a thermometer; 101. a temperature measuring probe; 102. connecting sleeves; 200. a balancing weight; 201. a magnetic member; 202. a first helical groove; 203. a second helical groove; 208. a guide chute; 300. a front end housing; 301. a pressing block; 302. a front end fixing hole; 303. a first wedge; 305. pressing the groove; 306. an arc-shaped abutting surface; 400. a rear end housing; 401. a rear end fixing hole; 402. a second wedge; 500. mounting a rod; 501. limiting convex strips; 600. a floating screw; 601. a bar magnet; 700. a metal spring sheet; 701. a metal bending sheet; 800. a connecting screw; 900. and fixing the retainer ring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 6, a rechargeable wireless body temperature detecting device (hereinafter referred to as body temperature detecting device) according to the present invention includes a front case 300, a rear case 400, a thermometer 100, a plurality of metal elastic sheets 700, and a weight 200. The axis of the front end housing 300 extends horizontally, the rear end of the front end housing is uniformly provided with a plurality of first wedges 303 along the circumferential direction, and each first wedge 303 is provided with a front end fixing hole 302. The axis of the rear end housing 400 extends horizontally, a plurality of second wedges 402 are uniformly distributed at the front end of the rear end housing along the circumferential direction of the rear end housing, and a rear end fixing hole 401 is formed in each second wedge 402. The front end housing 300 and the rear end housing 400 are inserted into each other by a first wedge 303 and a second wedge 402. A plurality of metal spring pieces 700 are connected between the corresponding front end fixing holes 302 and the rear end fixing holes 401. The thermometer 100 is mounted on the front housing 300 and extends in a direction away from the front housing 300, the body temperature detecting device of the present invention is mounted in the ear canal of the livestock, and the temperature of the livestock is measured by the thermometer 100.

The balancing weight 200 is located inside the front end housing 300, the outer circumferential surface of the balancing weight 200 is provided with a first spiral groove 202 and a second spiral groove 203 which are opposite in rotation direction, the outer circumferential surface of the balancing weight 200 is divided into a plurality of diamond blocks by the first spiral groove 202 and the second spiral groove 203, the outer surfaces of the diamond blocks are completely covered with magnetic parts 201, and two magnetic poles of the magnetic parts 201 are respectively located at two ends of the magnetic parts 201 in the circumferential direction of the balancing weight 200.

The metal dome 700 is installed at the front end fixing hole 302 through a floating screw 600 to be connected with the front end housing 300, the inner end of the floating screw 600 is connected with a bar magnet 601 extending along the radial direction of the weight block 200, and the bar magnet 601 is inserted into the weight block 200 and located at the intersection point of the first spiral groove 202 and the second spiral groove 203. The metal elastic sheet 700 causes the floating screw 600 to move up and down due to different stress, so that different magnetic poles of the bar magnet 601 are matched with the magnetic poles of the magnetic part 201, when the magnetic poles of the bar magnet 601 are matched with the corresponding magnetic poles of the magnetic part 201, the bar magnet 601 approaches to the corresponding magnetic poles of the magnetic part 201, the counterweight block 200 moves back and forth, so that the bar magnet 601 moves along the first spiral groove 202 and the second spiral groove 203 at the same side of the intersection point, so that the rotation directions of the front end shell 300 when the counterweight block 200 moves forwards and backwards are consistent, the front end fixing hole 302 and the rear end fixing hole 401 both approach to each other or keep away from each other, so that the change trend of the metal elastic sheet 700 is consistent, and the metal elastic sheet is suitable for different pressures of the auditory canals of livestock.

In this embodiment, the pressing block 301 is disposed on the front side of the front end fixing hole 302 of the outer peripheral wall of the front end housing 300, the pressing groove 305 is disposed on the right end of the pressing block 301, the pressing groove 305 penetrates through the rear end surface of the pressing block 301 and the end of the pressing block 301 on the clockwise side relative to the front end housing 300, and the pressing groove 305 has an arc-shaped pressing surface 306 extending along the circumferential direction of the front end housing 300. The front end of the metal elastic sheet 700 extends with a metal bending sheet 701, the rigidity of the metal bending sheet 701 is greater than that of the metal elastic sheet 700, the front end of the metal bending sheet 701 tilts towards the direction away from the axis of the front end housing 300 and abuts against the arc-shaped pressing surface 306, the metal bending sheet 701 has a bending point, and the bending point abuts against the outer circular surface of the counterweight 200.

Under the conventional state, adjust the position relation between front end shell 300 and the rear end shell 400, make metal shrapnel 700 put into the ear canal of livestock after being in suitable state, the elasticity of metal shrapnel 700 makes front end shell 300 and rear end shell 400 keep initial position, and the support pressure of metal shrapnel 700 is moderate and metal shrapnel 700 has the initial stage to twist reverse deformation this moment, and metal bending sheet 701 receives the initial pressure of propping of arc pressure face 306, and the middle part of the two magnetic poles of bar magnet 601 is in the position relative with magnetic part 201 simultaneously. Because the inner diameter of the ear canal of the livestock is not a conventional circle, if the body temperature detection device of the invention rotates in the ear canal of the livestock during the violent movement of the livestock, the supporting point of the metal elastic sheet 700 and the inner wall of the ear canal may be supported too tightly or loosened. For convenience of description, the bar magnet 601 provided by the invention has an N pole at the inner end and an S pole at the outer end; the magnetic member 201 has an S-pole starting point and an N-pole ending point in the clockwise direction.

When the metal elastic sheet 700 is supported too tightly, the pressure of the ear canal on the metal elastic sheet 700 is increased, and the metal elastic sheet 700 is further twisted and deformed under the extrusion of the ear canal, so that the front end of the metal elastic sheet 700 rotates around the floating screw 600 in the first direction (the end of the metal elastic sheet 700 connected with the rear end housing 400 is fixed) and drives the front end of the metal bending sheet 701 to rotate along the arc-shaped pressing surface 306. When the metal bending piece 701 gradually rotates to the inner end of the abutting groove 305, the extrusion force of the arc abutting surface 306 to the metal bending piece 701 increases, the front end of the metal bending piece 701 is extruded to the axial line position close to the front end housing 300, the metal bending piece 701 takes the bending point of the metal bending piece 701 as a fulcrum to lift up the rear end of the metal bending piece, and then the floating screw 600 is pulled outwards, and the floating screw 600 drives the bar magnet 601 to move outwards, so that the N pole of the bar magnet 601 corresponds to the magnetic piece 201. At this time, if the weight block 200 moves back and forth due to the movement of the livestock, under the attraction of the magnetic member 201S pole, if the weight block 200 moves backward, the bar magnet 601 moves along the first spiral groove 202 close to the magnetic member 201S pole at the intersection point relative to the weight block 200, and drives the front end housing 300 to rotate clockwise; if the weight 200 moves forward, the bar magnet 601 moves along the second spiral groove 203 near the S pole of the magnetic member 201 at the intersection point with respect to the weight 200, and also drives the front end housing 300 to rotate clockwise. Front end shell 300 rotates clockwise under the effect of first voussoir 303 and second voussoir 402, and front end shell 300 and rear end shell 400 rotate relatively and keep away from each other, and the distance grow of first front end fixed orifices 302 and second front end fixed orifices 302, and the hunch-up degree of metal shrapnel 700 reduces, and gyration is to initial position, reduces the extrusion force of auditory canal to metal shrapnel 700.

When the metal elastic sheet 700 is supported too loosely, the pressure of the ear canal on the metal elastic sheet 700 is reduced, the initial torsion force of the metal elastic sheet 700 is released, so that the front end of the metal elastic sheet 700 rotates around the floating screw 600 in a second direction opposite to the first direction, and drives the front end of the metal bending sheet 701 to rotate along the arc-shaped pressing surface 306, when the metal bending sheet 701 gradually rotates to the outer end of the pressing groove 305, the downward limit degree of the metal bending sheet 701 by the arc-shaped pressing surface 306 is gradually weakened, the metal bending sheet 701 is gradually released by the initial extrusion force, the front end of the metal bending sheet 701 recovers deformation and moves outward, so that the metal bending sheet 701 inwardly extrudes the rear end thereof by taking the bending point of the metal bending sheet 701 as a fulcrum, and further the floating screw 600 is pushed inwardly, and the floating screw 600 drives the bar-shaped magnet 601 to move inwardly so that the S pole of the bar-shaped magnet 601 corresponds to the magnetic member 201. At this time, if the weight 200 moves back and forth due to the movement of the livestock, the bar magnet 601 moves relative to the weight 200 along the first and

second spiral grooves

202 and 203 at the intersection point near the magnetic member 201N pole under the attraction of the magnetic member 201N pole, and the front end housing 300 rotates counterclockwise regardless of whether the weight 200 moves forward or backward. The front end shell 300 rotates anticlockwise under the action of the first wedge 303 and the second wedge 402, the front end shell 300 and the rear end shell 400 rotate relatively and approach to each other, the distance between the first front end fixing hole 302 and the second front end fixing hole 302 is reduced, the arching degree of the metal elastic sheet 700 is increased, the metal elastic sheet rotates to the initial position, and the supporting force of the metal elastic sheet 700 on the auditory canal is increased. Therefore, the metal elastic sheet 700 dynamically adapts to the pressure of the auditory canal, and when the metal elastic sheet is prevented from falling off, the metal elastic sheet 700 is ensured to be suitable for the supporting force of the auditory canal, and the auditory canal of the livestock is prevented from being inflamed due to excessive friction.

In this embodiment, further include the installation pole 500, the installation pole 500 is along the inside of fore-and-aft direction horizontal setting at front end shell 300 and rear end shell 400, and its rear end is connected with rear end shell 400, and the balancing weight 200 cover is established on installation pole 500 and is slided along installation pole 500 front and back.

The axle center of balancing weight 200 is provided with the direction runner 208 that the level extends along the fore-and-aft direction, and the circumferencial direction equipartition of direction runner 208 has a plurality of spacing spouts that extend along the horizontal direction, and the outer disc of installation pole 500 is provided with a plurality of spacing sand grips 501, and spacing sand grip 501 is located spacing spout and rotates in order to hinder balancing weight 200.

In this embodiment, the metal dome 700 and the rear case 400 are connected by a connection screw 800.

In this embodiment, the fixing collar 900 is connected to the front end of the front housing 300, the rear end of the thermometer 100 is attached to the fixing collar 900, and the temperature measuring probe 101 is provided at the front end of the thermometer 100. It should be noted that, in order to facilitate replacement of the thermometer 100, the rear end of the thermometer 100 is provided with a connection sleeve 102, and the thermometer 100 is mounted to the fixing collar 900 through the connection sleeve 102.

In this embodiment, the metal spring 700 is sleeved with a rubber sleeve to reduce friction.

In this embodiment, the body temperature detection device further includes a main control mechanism, a temperature sensing mechanism, a rechargeable power supply and an external device, which are electrically connected to each other, the temperature sensing mechanism is configured to transmit temperature data measured by the thermometer to the main control mechanism, the main control mechanism is configured to receive and process the temperature data and send the temperature data to the external device, and the rechargeable power supply is configured to supply power to the rechargeable wireless body temperature detection device.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A rechargeable wireless body temperature detection device, its characterized in that: comprises that

the balancing weight is positioned inside the front end shell, a first spiral groove and a second spiral groove which are opposite in rotation direction are formed in the outer circumferential surface of the balancing weight, the first spiral groove and the second spiral groove divide the outer circumferential surface of the balancing weight into a plurality of diamond blocks, a magnetic part is completely covered on the outer surfaces of the diamond blocks, and two magnetic poles of the magnetic part are respectively positioned at two ends of the magnetic part in the circumferential direction of the balancing weight;

2. The rechargeable wireless body temperature detecting device of claim 1, wherein: a pressing block is arranged on the outer peripheral wall of the front end shell and positioned on the front side of the front end fixing hole, a pressing groove is formed in the pressing block, and the pressing groove is provided with an arc-shaped pressing surface extending along the circumferential direction of the front end shell;

3. The rechargeable wireless body temperature detecting device of claim 1, wherein: still including the installation pole, the installation pole sets up along the fore-and-aft direction level the front end shell with the inside of rear end shell, and its rear end with the rear end shell is connected, the balancing weight cover is established on the installation pole and follow the installation pole slides from beginning to end.

4. The rechargeable wireless body temperature detecting device according to claim 3, wherein: the axle center of balancing weight is provided with the direction spout that the level extends along the fore-and-aft direction, the circumferencial direction equipartition of direction spout has a plurality of spacing spouts that extend along the horizontal direction, the outer disc of installation pole is provided with a plurality of spacing sand grips, spacing sand grip is located in order to hinder in the spacing spout the balancing weight rotates.

5. The rechargeable wireless body temperature detection device according to claim 2, wherein: the metal elastic sheet is connected with the rear end shell through a connecting screw.

6. The rechargeable wireless body temperature detecting device of claim 2, wherein: the front end of the front end shell is connected with a fixed check ring, the rear end of the thermometer is installed on the fixed check ring, and the front end of the thermometer is provided with a temperature measuring probe.

7. The rechargeable wireless body temperature detection device of claim 1, wherein: the outside cover of metal shrapnel is equipped with the rubber sleeve to reduce the friction.

8. The rechargeable wireless body temperature detection device of claim 1, wherein: the temperature sensing mechanism is configured to transmit temperature data measured by the thermometer to the master control mechanism, the master control mechanism is configured to receive and process the temperature data and send the temperature data to the external equipment, and the rechargeable power supply is configured to supply power to the rechargeable wireless body temperature detection device.