CN113483906A - Temperature sensor - Google Patents

Abstract

The application relates to the technical field of sensors, in particular to a temperature sensor, which has the technical scheme that: including body and installation sleeve, the installation sleeve with the body cup joints the cooperation, the installation sleeve with movable mounting has the moving mechanism between the body, the moving mechanism is used for supplying the installation sleeve with be connected and rotate relatively between the body, the installation sleeve lateral wall is provided with the screw thread, the screw thread is used for being connected with external equipment. The application has the technical effect of reducing the occurrence of the damaged condition of the wire.

Description

Temperature sensor

Technical Field

The application relates to the technical field of sensors, in particular to a temperature sensor.

Background

A temperature sensor (temperature transducer) refers to a sensor that senses temperature and converts it into a usable output signal. The temperature sensor is the core part of the temperature measuring instrument and has a plurality of varieties. The measurement method can be divided into a contact type and a non-contact type, and the measurement method can be divided into a thermal resistor and a thermocouple according to the characteristics of sensor materials and electronic elements.

Referring to fig. 1, the conventional temperature sensor includes a body 1, a probe 2 and a wire 3, the body 1 is in a cylindrical shape, the probe 2 is fixedly installed at one end of the body 1 in the length direction, one end of the wire 3 is fixedly installed at one end of the body 1 in the length direction away from the probe 2, and the other end of the wire 3 is used for being connected with an external device. The lateral wall circumference of body 1 is provided with screw thread 6, utilizes screw thread 6, and then is convenient for body 1 fixed mounting on the required equipment of staff.

Because in temperature sensor's installation, the staff need grip and rotate the body, and then when the screw thread of body lateral wall rotated, the body drove the one end rotation of probe and wire, because the length of wire is longer, the one end of wire is rotated and then is driven whole root wire and takes place to twist reverse from the one end of orientation body to the one end that deviates from the body, and then leads to wire fixed mounting to appear damaging in the one end of body easily, and then influences temperature sensor's normal work easily.

Disclosure of Invention

In order to reduce the occurrence of the condition that the wire is damaged, the application provides a temperature sensor.

The application provides a temperature sensor adopts following technical scheme:

the utility model provides a temperature sensor, includes body and installation sleeve, the installation sleeve with the body cup joints the cooperation, the installation sleeve with movable mounting has the moving mechanism between the body, the moving mechanism is used for supplying the installation sleeve with be connected and rotate relatively between the body, the installation sleeve lateral wall is provided with the screw thread, the screw thread is used for being connected with external equipment.

By adopting the technical scheme, when a worker needs to install the temperature sensor on the required equipment, the worker holds and moves the installation sleeve, the mounting sleeve is matched with the body in a sleeved mode, the mounting sleeve and the body can rotate relatively by the aid of the movable mechanism, further, the installation sleeve and the temperature sensor are placed at the position to be installed by a worker, the worker rotates the installation sleeve and lightly holds the body by hands by utilizing the threads on the side wall of the installation sleeve so that the installation sleeve is fixedly installed on external equipment, simultaneously, the temperature sensor is driven to be fixedly arranged on external equipment, and simultaneously, the movable mechanism is utilized to ensure that the mounting sleeve rotates in the process, the body remains stable, and relative rotation has reduced the condition emergence that the wire wrench movement appears between installation sleeve and the body, and then has reduced the condition emergence that the wire appears damaging.

Preferably, the movable mechanism comprises two groups of movable assemblies, the two groups of movable assemblies are movably arranged on the inner side wall of the mounting sleeve, and the two groups of movable assemblies can be respectively tightly propped against two opposite sides of the body in any diameter direction; when the mounting sleeve rotates, the mounting sleeve drives the movable assembly to slide along the side wall of the body.

Through adopting above-mentioned technical scheme, when installation sleeve and body cup jointed the cooperation, the movable assembly supports respectively tightly in the relative both ends of the arbitrary diameter direction of body lateral wall, and then realizes the clamping action to the body, and the staff rotates the installation sleeve, and the installation sleeve drives the movable assembly and slides, and then the movable assembly slides along body lateral wall circumference for relative sliding between movable assembly and the body, and then reduced the condition emergence that the wire that is connected with the body appears damaging.

Preferably, the mounting sleeve is provided with a containing groove, a groove is circumferentially arranged on the side wall of the body, and the containing groove can be communicated with the groove; the movable assembly comprises a butting block and a spring, the butting block is in sliding fit in the accommodating groove, the butting block is used for being in splicing fit with the groove and can be butted against the body, the spring is connected with the butting block and is accommodated in the accommodating groove, and the spring is used for enabling the butting block to be in sliding fit with the accommodating groove; when the spring is in a natural state, the abutting block is in inserting fit with the groove; when the mounting sleeve rotates, the abutting block is matched with the groove in a sliding mode.

By adopting the technical scheme, when the movable assembly is required to be abutted against the body tightly, the mounting sleeve is in sleeve fit with the body, meanwhile, a worker pushes the abutting block towards the inner direction of the accommodating groove, the abutting block moves towards the inner direction of the accommodating groove, meanwhile, the abutting block extrudes the spring, the spring is in a compressed state until the abutting block is communicated with the groove, then the worker releases the abutting block, the spring resets and pushes the abutting block towards the direction of the groove, the abutting block slides and is in plug fit with the groove, the abutting block abuts against the side wall of the body, and then the abutting blocks in the two groups of movable assemblies respectively abut against two opposite ends of the side wall of the body in any diameter direction, so that a clamping action bar is realized on the body; when needs rotate the installation sleeve, the staff holds the body gently on one hand, and the other hand rotates the installation sleeve, and the installation sleeve rotates and drives the butt piece and slides, and the cooperation of sliding along the direction of recess is followed to the butt piece, and the guide effect is realized to sliding of butt piece to the recess, and then rotates relatively between installation sleeve and the body, and the body keeps quiescent condition, has reduced the condition emergence that the wire appears damaging.

Preferably, the tank bottom of recess is the circular-arc setting of indent, the butt joint piece is the circular arc terminal surface setting towards the one end of recess, the radian of butt joint piece with the radian phase-match of recess.

By adopting the technical scheme, when the mounting sleeve is in sleeve joint with the body, the spring is in a natural state, the abutting block abuts against the side wall of the body, the end surface of the abutting block is arranged in a circular arc shape, so that the abutting block and the body slide relatively, the abutting block slides towards the inner direction of the accommodating groove and extrudes the spring, the spring is in a compressed state, and the spring can conveniently push the abutting block to slide towards the direction of the groove in the later period; when workers need to disassemble and replace the installation sleeve, the workers directly hold and pull the installation sleeve along the length direction of the body, then the installation sleeve drives the abutting blocks to slide in the same direction, the end surfaces of the abutting blocks are arranged in a circular arc shape, the abutting blocks can slide along the length direction of the body, meanwhile, the abutting blocks can slide towards the inner direction of the accommodating groove, and then the abutting blocks can be separated from the groove, so that the workers can directly disassemble and replace the installation sleeve; when the butt joint block is in splicing fit with the groove, the groove bottom of the groove is in an inwards concave arc shape, so that the contact area between the butt joint block and the groove is increased, and the clamping effect of the two groups of movable assemblies on the body is facilitated.

Preferably, the groove is arranged in a circular ring shape.

Through adopting above-mentioned technical scheme, utilize the recess to be the ring form setting, and then improve butt joint piece and recess grafting complex precision.

Preferably, the movable assembly further comprises a limiting block and a top block, the limiting block is fixedly connected to the abutting block, the top block is fixedly connected to the installation sleeve, the top block is located at the notch of the accommodating groove, and the top block is in abutting fit with the limiting block.

Through adopting above-mentioned technical scheme, when the butt piece slided to the direction of recess, the butt piece drove the stopper and slides to the direction of kicking block, until stopper and kicking block looks butt cooperation, and then the butt piece stops to slide, and then has reduced the butt piece and has leaded to breaking away from the condition emergence of storage tank because of sliding excessively.

Preferably, the movable assembly further comprises a guide rod, the guide rod is fixedly connected to the bottom of the accommodating groove, and the guide rod is in insertion fit with the spring.

Through adopting above-mentioned technical scheme, when the spring takes place to deform, utilize the cooperation of pegging graft between guide bar and the spring for the spring takes place to deform along the length direction of guide bar, and the guide bar realizes the guide effect to the deformation direction of spring, and then has improved the promotion efficiency of spring to the butt piece, and the extrusion efficiency of butt piece to the spring.

Preferably, the number of the movable mechanisms is a plurality of groups, and the groups of the movable mechanisms are uniformly arranged along the side wall of the body at intervals.

Through adopting above-mentioned technical scheme, utilize a plurality of groups of moving mechanism even interval to set up, and then make the body atress even, improved the stability of body.

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

1. the installation sleeve is held and moved by workers, so that the installation sleeve is in sleeve fit with the body, the installation sleeve and the body can rotate relatively by using the movable mechanism, the installation sleeve and the temperature sensor are placed at positions to be installed by the workers, the body is lightly held by the workers by hands while the installation sleeve is rotated by the workers by using threads on the side wall of the installation sleeve, the installation sleeve is fixedly installed on external equipment, and meanwhile, the temperature sensor is driven to be fixedly installed on the external equipment;

2. the movable components are respectively abutted against two opposite ends of any diameter direction of the side wall of the body, so that the body is clamped, a worker rotates the mounting sleeve, the mounting sleeve drives the movable components to slide, and the movable components circumferentially slide along the side wall of the body, so that the movable components and the body relatively slide, and the occurrence of the condition that a lead connected with the body is damaged is reduced;

3. the installation sleeve is in sleeve fit with the body, meanwhile, a worker pushes the abutting block towards the inner direction of the containing groove, the abutting block moves towards the inner direction of the containing groove, meanwhile, the abutting block extrudes the spring, the spring is in a compressed state until the abutting block is communicated with the groove, then the worker releases the abutting block, the spring resets and pushes the abutting block towards the direction of the groove, the abutting block slides and is in plug fit with the groove, the abutting block abuts against the side wall of the body, and then the abutting blocks in the two groups of movable assemblies respectively abut against the two opposite ends of the side wall of the body in any diameter direction, so that a clamping effect on the body is realized; when needs rotate the installation sleeve, the staff holds the body gently on one hand, and the other hand rotates the installation sleeve, and the installation sleeve rotates and drives the butt piece and slides, and the cooperation of sliding along the direction of recess is followed to the butt piece, and the guide effect is realized to sliding of butt piece to the recess, and then rotates relatively between installation sleeve and the body, and the body keeps quiescent condition, has reduced the condition emergence that the wire appears damaging.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a temperature sensor in the prior art;

FIG. 2 is a schematic view showing the overall structure of a temperature sensor according to the present embodiment;

fig. 3 is a partial structural sectional view of a temperature sensor in the present embodiment.

In the figure, 1, a body; 11. a groove; 2. a probe; 3. a wire; 4. installing a sleeve; 42. a containing groove; 421. a notch; 422. the bottom of the tank; 5. a movable component; 51. a butting block; 52. a guide bar; 53. a spring; 54. a limiting block; 55. a top block; 6. and (4) threading.

Detailed Description

The present application is described in further detail below with reference to figures 2-3.

The embodiment of the application discloses a temperature sensor. Referring to fig. 2 and 3, a temperature sensor includes body 1, probe 2, wire 3 and installation sleeve 4, and body 1 is cylindric setting, and probe 2 fixed mounting is in body 1 length direction's one end, and the one end fixed mounting of wire 3 deviates from the one end of probe 2 in body 1 length direction, and the other end of wire 3 is used for being connected with external equipment. Installation sleeve 4 cup joints the cooperation with body 1, and body 1 runs through 4 length direction's of installation sleeve relative both ends simultaneously. Movable mounting has the moving mechanism between installation sleeve 4 and the body 1, and the moving mechanism is used for supplying installation sleeve 4 and body 1 to be connected, and moving mechanism still is used for supplying to rotate relatively between installation sleeve 4 and the body 1 simultaneously. The lateral wall circumference of installing sleeve 4 is provided with screw thread 6, and screw thread 6 is used for being connected with the external equipment, and then the installing sleeve 4 of being convenient for and body 1 all are connected with the external equipment.

When it is desired to mount the temperature sensor to an external device, the worker holds and moves the mounting sleeve 4, so that the mounting sleeve 4 is sleeve-fitted from the end facing away from the probe 2 to the end of the body 1 facing the lead 3, then the mounting sleeve 4 moves to the middle point position of the length direction of the body 1 along the length direction of the body 1, the body 1 and the mounting sleeve 4 are connected by a movable mechanism, then the worker places the temperature sensor in the position to be installed, rotates the installation sleeve 4, utilizes the movable mechanism to enable the installation sleeve 4 and the body 1 to rotate relatively, the body 1 is kept stable, thereby reducing the occurrence of damage to the lead 3, and simultaneously, by using the thread 6 on the side wall of the mounting sleeve 4, so that the thread 6 is connected with the external device and the mounting sleeve 4 and the body 1 are mounted on the external device.

Referring to fig. 2 and 3, in particular, the movable mechanism comprises two sets of movable assemblies 5, and the two sets of movable assemblies 5 are respectively located at two opposite ends of any diameter of the inner side wall of the mounting sleeve 4. When the mounting sleeve 4 is in sleeve joint with the body 1, the movable components 5 are respectively positioned at two opposite ends of the side wall of the body 1 in the diameter direction. The movable components 5 are all used for abutting against the side wall of the body 1, and two groups of movable components 5 are utilized to further realize clamping effect on the body 1. Preferably, in this embodiment, the number of the movable mechanisms is three, three groups of movable mechanisms are circumferentially and uniformly arranged on the inner side wall of the mounting sleeve 4 at intervals, and then the number of the movable assemblies 5 is six. Three groups of moving mechanisms are utilized, and the clamping effect of the mounting sleeve 4 on the body 1 is further improved.

Referring to fig. 2 and 3, the inner side wall of the mounting sleeve 4 is provided with an accommodating groove 42, and the length direction of the accommodating groove 42 is parallel to the diameter direction of the mounting sleeve 4. One end of the receiving groove 42 facing the inner side wall of the mounting sleeve 4 in the length direction is a notch 421 of the receiving groove 42, and the notch 421 of the receiving groove 42 is provided in an open shape. The end of the length of the receiving groove 42 facing away from the inner side wall of the mounting sleeve 4 is a groove bottom 422 of the receiving groove 42. The receiving groove 42 is used for receiving and installing the movable assembly 5.

Referring to fig. 2 and 3, the side wall of the body 1 is circumferentially provided with a groove 11, and the groove 11 is used for connecting the movable assembly 5. In particular, the mobile assembly 5 comprises an abutment block 51, a spring 53 and a guide rod 52. The abutting block 51 and the abutting block 51 are arranged in a long strip shape, and the length direction of the abutting block 51 is parallel to the length direction of the accommodating groove 42. One end of the abutting block 51 faces the groove bottom 422 of the accommodating groove 42, the other end of the abutting block 51 faces the notch 421 of the accommodating groove 42, and the abutting block 51 is used for sliding fit with the groove 11, so as to abut against the body 1. One end of the spring 53 in the length direction is welded and fixed to the bottom 422 of the accommodating groove 42, and the other end of the spring 53 in the length direction is fixedly connected to one end of the abutting block 51 facing the bottom 422 of the accommodating groove 42. The spring 53 is used for driving the abutting block 51 to slide. When the spring 53 is in the natural state, the abutment block 51 is in a plug-in fit with the recess 11. The guide bar 52 is elongated, and the longitudinal direction of the guide bar 52 is parallel to the longitudinal direction of the spring 53. One end of the guide rod 52 in the length direction is welded and fixed to the groove bottom 422 of the accommodating groove 42, the guide rod 52 is in insertion fit with the inside of the spring 53, and the guide rod 52 is used for guiding the deformation direction of the spring 53.

Referring to fig. 2 and 3, an end of the abutting block 51 facing away from the spring 53 is disposed in a circular arc end surface, and preferably, in the present embodiment, an end of the abutting block 51 facing away from the spring 53 is disposed in a hemispherical shape. The groove bottom 422 of the groove 11 is also arranged in an inward concave arc, and the radian of the groove bottom 422 of the groove 11 is matched with the radian of the end surface of the abutting block 51. When the abutting block 51 is in inserting fit with the groove 11 and abuts against the body 1 tightly, the radian of the groove bottom 422 of the groove 11 is matched with the radian of the end face of the abutting block 51, so that the contact area between the groove 11 and the abutting block 51 is increased, and the efficiency of abutting the abutting block 51 against the body 1 is improved. The cross-section of recess 11 along 1 diameter direction of body is the ring form setting, when butt piece 51 need be linked together with recess 11, utilizes recess 11 to be the ring form setting, and then has reduced the intensity of labour that the staff need carry out manual positioning with butt piece 51 and recess 11.

When the mounting sleeve 4 needs to be mounted on the body 1, a worker holds the mounting sleeve and moves along the length direction of the body 1, the spring 53 is temporarily in a natural state, the end face of the abutting block 51 is hemispherical, the mounting sleeve 4 is in sleeved fit with the body 1, the abutting block 51 is in abutting fit with the side wall of the body 1, the abutting block 51 slides towards the inner direction of the accommodating groove 42, the abutting block 51 extrudes the spring 53, the spring 53 deforms along the length direction of the guide rod 52, and the spring 53 is in a compressed state; until the abutting block 51 is communicated with the groove 11, the spring 53 resets and pushes the abutting block 51 towards the direction of the groove 11, the abutting block 51 is in inserting fit with the groove 11 and abuts against the groove bottom 422 of the groove 11, and the movable mechanism realizes the clamping effect on the body 1 by utilizing the two groups of movable components 5.

When needs install temperature sensor in external equipment, the staff holds body 1 towards the one end of direction gently on one hand, and another hand rotates installation sleeve 4, and installation sleeve 4 drives butt piece 51 and rotates, and butt piece 51 slides around 1 lateral wall circumference of body for relative sliding between installation sleeve 4 and the body 1, body 1 keeps quiescent condition, and the condition that reduces wire 3 and appear damaging takes place.

When the installation sleeve 4 needs to be changed, the staff directly grips and moves the installation sleeve 4 along the length direction of the body 1, utilize the butt piece 51 to be hemispherical terminal surface setting, the installation sleeve 4 drives the butt piece 51 syntropy and slides, butt piece 51 and body 1 looks butt, and then the butt piece 51 slides to the inside direction of storage tank 42, butt piece 51 extrudes spring 53, make spring 53 compression state once more, and then the butt piece 51 breaks away from with recess 11 mutually, the staff can directly take out the installation sleeve 4, the staff of being convenient for changes the installation sleeve 4.

Referring to fig. 2 and 3, in particular, the movable assembly 5 further includes a stopper 54 and a top block 55. Stopper 54 is cylindricly setting, and the one end welded fastening of stopper 54 is in the one end of butt piece 51 towards spring 53, and coaxial setting between stopper 54 and the butt piece 51, the diameter of stopper 54 is greater than the diameter of butt piece 51. One end of the limiting block 54 departing from the abutting block 51 is welded and fixed with one end of the spring 53 departing from the groove bottom 422 of the accommodating groove 42 in the length direction. The top block 55 is disposed in a circular ring shape, and the top block 55 is located at the notch 421 of the receiving groove 42. Coaxial setting between kicking block 55 and the butt piece 51, the one end that the cell wall of lateral wall circumference welded fastening of kicking block 55 is located notch 421 in storage tank 42, and the inside wall of kicking block 55 extends to the direction of butt piece 51, and kicking block 55 is used for and stopper 54 between the butt cooperation. When the abutting block 51 slides to the outside direction of the accommodating groove 42, the abutting block 51 penetrates through the top block 55, and the limit block 54 is in abutting fit with the top block 55.

The implementation principle of the temperature sensor in the embodiment of the application is as follows:

when the staff dismantles installation sleeve 4, butt piece 51 extrudees spring 53, and spring 53 is in compression state, breaks away from body 1 completely until installation sleeve 4, and then butt piece 51 slides to the outside direction of storage tank 42, and then butt piece 51 drives stopper 54 and slides to the direction of kicking block 55, until the butt cooperation between stopper 54 and the kicking block 55, and then butt piece 51 stops sliding, and then has reduced butt piece 51 and has leaded to breaking away from the condition emergence of storage tank 42 because of sliding excessively.

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.

Claims (8)

1. A temperature sensor, characterized by: including body (1) and installation sleeve (4), installation sleeve (4) with body (1) cup joints the cooperation, installation sleeve (4) with movable mounting has moving mechanism between body (1), moving mechanism is used for supplying installation sleeve (4) with be connected and rotate relatively between body (1), installation sleeve (4) lateral wall is provided with screw thread (6), screw thread (6) are used for being connected with external equipment.

2. A temperature sensor according to claim 1, wherein: the movable mechanism comprises two groups of movable assemblies (5), the two groups of movable assemblies (5) are movably arranged on the inner side wall of the mounting sleeve (4), and the two groups of movable assemblies (5) can be respectively tightly propped against two opposite sides of the body (1) in any diameter direction; when the mounting sleeve (4) rotates, the mounting sleeve (4) drives the movable assembly (5) to slide along the side wall direction of the body (1).

3. A temperature sensor according to claim 2, wherein: the mounting sleeve (4) is provided with a containing groove (42), a groove (11) is circumferentially arranged on the side wall of the body (1), and the containing groove (42) can be communicated with the groove (11); the movable assembly (5) comprises a butting block (51) and a spring (53), the butting block (51) is in sliding fit in the accommodating groove (42), the butting block (51) is used for being in splicing fit with the groove (11) and can be butted against the body (1), the spring (53) is connected with the butting block (51) and is accommodated in the accommodating groove (42), and the spring (53) is used for enabling the butting block (51) to be in sliding fit with the accommodating groove (42); when the spring (53) is in a natural state, the abutting block (51) is in inserted fit with the groove (11); when the mounting sleeve (4) rotates, the abutting block (51) is matched with the groove (11) in a sliding mode.

4. A temperature sensor according to claim 3, wherein: the tank bottom (422) of recess (11) is the circular-arc setting of indent, butt piece (51) is the circular arc terminal surface setting towards the one end of recess (11), the radian of butt piece (51) with the radian phase-match of recess (11).

5. A temperature sensor according to claim 3, wherein: the groove (11) is arranged in a circular ring shape.

6. A temperature sensor according to claim 3, wherein: the movable assembly (5) further comprises a limiting block (54) and a top block (55), the limiting block (54) is fixedly connected to the abutting block (51), the top block (55) is fixedly connected to the mounting sleeve (4), the top block (55) is located at a notch (421) of the accommodating groove (42), and the top block (55) is abutted and matched with the limiting block (54).

7. A temperature sensor according to claim 3, wherein: the movable assembly (5) further comprises a guide rod (52), the guide rod (52) is fixedly connected to the groove bottom (422) of the accommodating groove (42), and the guide rod (52) is in plug fit with the spring (53).

8. A temperature sensor according to claim 7, wherein: the number of the movable mechanisms is a plurality of groups, and the movable mechanisms of the groups are uniformly arranged along the side wall of the body (1) at intervals.

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