CN220288793U - Automatic monitoring structure of temperature sensing sensor - Google Patents

Abstract

The utility model relates to the technical field of monitoring structures, and discloses an automatic temperature sensor monitoring structure which comprises a wall top, a supporting plate, a mounting rack and a mounting block, wherein the supporting plate is slidably arranged below the wall top, the mounting rack is movably arranged below the supporting plate, and the mounting block is movably arranged below the mounting rack.

Description

Automatic monitoring structure of temperature sensing sensor

Technical Field

The utility model relates to the technical field of monitoring structures, in particular to an automatic monitoring structure of a temperature sensing sensor.

Background

The temperature sensor utilizes the radiation heat effect to enable the temperature of a detection device to rise after receiving radiation energy, so that the performance of a column and the temperature in the sensor is changed, radiation can be detected by detecting the change of a certain performance, the temperature is a physical quantity for measuring the cold and hot degree of an object, and is a thermal parameter which is very common and important in industrial production, and a plurality of production processes all require to monitor and control the temperature, particularly in the production processes of chemical industry, food industry and the like, the measurement and control of the temperature directly affect the quality and the performance of a product, and in the use process of the temperature sensor, a special monitoring structure is required to automatically monitor the temperature sensor;

for example, in the chinese patent No. 202021604507.5, a full-temperature sensor monitoring device is specifically mentioned, which can expand the temperature monitoring range in the factory, reduce the cost of the monitoring equipment to be installed, and has simple structure and convenient installation;

but this full temperature sensor monitoring devices in-process, the stability of carrying out position adjustment to the sensor is relatively poor, and the great condition of sensor position adjustment skew appears easily, also appears rocking the condition in the sensor adjustment in-process easily, influences stability and security when sensor is adjusted, is difficult to satisfy current user demand.

Aiming at the defects of the prior art, the utility model provides an automatic temperature-sensing sensor monitoring structure which has the advantages of stable adjustment, high safety, more accurate adjustment and the like, and solves the problem of unstable sensor adjustment.

Disclosure of Invention

In order to achieve the purposes of stable regulation, high safety and more accurate regulation of the sensor, the utility model provides the following technical scheme: the utility model provides a temperature sensor automatic monitoring structure, includes wall top, backup pad, mounting bracket and installation piece, the below slidable mounting of wall top has the backup pad, the below activity of backup pad has placed the mounting bracket, the below activity of mounting bracket has placed the installation piece, stable adjustment mechanism is installed in the outside of backup pad and mounting bracket, stable adjustment mechanism includes slide rail, horizontal lead screw and horizontal driving motor;

the bottom end of the wall top is symmetrically and fixedly provided with sliding rails, the inner wall of each sliding rail is rotatably provided with a transverse screw rod, and one end of one sliding rail is fixedly provided with a transverse driving motor;

the bottom end of the mounting block is provided with a precise adjusting and positioning mechanism, and the precise adjusting and positioning mechanism comprises a chute, a sliding block, an adjusting screw and a crank;

the bottom symmetry of installation piece has seted up the spout, the slider is installed to the inside slip of spout, the inner wall rotation of spout is installed adjusting screw, adjusting screw's one end is connected with the crank through the installation piece.

Preferably, the stable adjusting mechanism further comprises an adjusting plate, a longitudinal driving motor, a longitudinal screw rod, a limiting rod, a frosted contact surface and a fastening screw;

an adjusting plate is arranged below the supporting plate, a longitudinal driving motor is fixedly arranged at the top end of the supporting plate, a longitudinal screw rod is fixedly arranged on an output shaft of the longitudinal driving motor, limiting rods are fixedly arranged at four corners of the bottom end of the supporting plate, frosted contact surfaces are arranged on the outer sides of the limiting rods, and fastening screw buttons are embedded and arranged at positions, corresponding to the frosted contact surfaces, of two ends of the adjusting plate;

the input end of the longitudinal driving motor is electrically connected with the output end of the mains supply.

Preferably, the output shaft of the transverse driving motor is in transmission connection with the two transverse screw rods through a gear tooth chain, and the transverse screw rods are in threaded connection with the supporting plate.

Preferably, the longitudinal screw rod is connected with the adjusting plate through threads, and one end of the fastening screw penetrates through the adjusting plate to be in contact with the surface of the frosted contact surface.

Preferably, the accurate adjusting and positioning mechanism further comprises a scale mark, a pointer and a laser lamp;

the bottom end of the mounting block is uniformly provided with scale marks at the position corresponding to one side of the sliding groove, one end of the sliding block is fixedly provided with a pointer, and the bottom end of the sliding block is fixedly provided with a laser lamp;

the input end of the laser lamp is electrically connected with the output end of the mains supply.

Preferably, the outer side of the crank is sleeved with a rubber anti-skid sleeve, and the adjusting screw is connected with the sliding block through threads.

Compared with the prior art, the utility model provides an automatic temperature sensor monitoring structure, which has the following beneficial effects:

1. through the stable adjustment mechanism who sets up, can adjust backup pad, mounting bracket and installation piece's transverse position, and can remove the regulating plate along the gag lever post outside, the longitudinal position of regulating plate adjusts, can also use the static friction between fastening screw button and the dull polish contact surface, carry out the fixed position between regulating plate and the gag lever post, transverse and longitudinal position adjustment when being convenient for this temperature sensor automatic monitoring structure uses, and the stability when having improved this temperature sensor automatic monitoring structure position adjustment, avoid appearing rocking and the inaccurate condition of position offset to this temperature sensor automatic monitoring structure position adjustment in-process, the security of this temperature sensor automatic monitoring structure in-process of adjusting has been increased.

2. Through the accurate adjustment positioning mechanism who sets up, can rotate adjusting screw, combine adjusting screw and the threaded connection of slider, can adjust the position of two sliders respectively to carry out quick and audio-visual regulation to the temperature sensor position of two slider bottom, and through observing the relative position between pointer and the scale mark, carry out accurate positioning and observation to the temperature sensor position of two slider bottom, be convenient for carry out the position control of a small circle to temperature sensor, stability and accuracy when having guaranteed temperature sensor position control simultaneously.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model.

In the drawings:

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic structural view of the stability adjustment mechanism of the present utility model;

FIG. 3 is a schematic view of the mounting structure of the longitudinal lead screw and the stop lever of the present utility model;

FIG. 4 is a schematic view of the precise adjusting and positioning mechanism of the present utility model;

reference numerals in the drawings: 1. a wall top; 2. a support plate; 3. a mounting frame; 4. a mounting block;

5. a stability adjustment mechanism; 501. a slide rail; 502. a transverse screw rod; 503. a transverse driving motor; 504. an adjusting plate; 505. a longitudinal driving motor; 506. a longitudinal screw rod; 507. a limit rod; 508. a frosted contact surface; 509. fastening the screw;

6. the positioning mechanism is accurately adjusted; 601. a chute; 602. a slide block; 603. adjusting a screw; 604. a crank; 605. a scale mark; 606. a pointer; 607. and a laser lamp.

Description of the embodiments

The preferred embodiments of the present utility model will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present utility model only, and are not intended to limit the present utility model.

Examples: the utility model provides a technical scheme, as shown in fig. 1-4, an automatic temperature sensor monitoring structure comprises a wall top 1, a supporting plate 2, a mounting frame 3 and a mounting block 4, wherein the supporting plate 2 is slidably arranged below the wall top 1, the mounting frame 3 is movably arranged below the supporting plate 2, the mounting block 4 is movably arranged below the mounting frame 3, a stable adjusting mechanism 5 is arranged outside the supporting plate 2 and the mounting frame 3, and the stable adjusting mechanism 5 comprises a sliding rail 501, a transverse screw 502 and a transverse driving motor 503;

the bottom end of the wall top 1 is symmetrically and fixedly provided with the sliding rails 501, the inner walls of the sliding rails 501 are rotationally provided with the transverse screw rods 502, the transverse screw rods 502 are in threaded connection with the supporting plate 2, when the transverse screw rods 502 rotate, the supporting plate 2 is driven to move, one end of one sliding rail 501 is fixedly provided with the transverse driving motor 503, the output shaft of the transverse driving motor 503 is in toothed chain transmission connection with the two transverse screw rods 502, and the two transverse screw rods 502 are driven to synchronously rotate when the transverse driving motor 503 operates;

the stable adjusting mechanism 5 further comprises an adjusting plate 504, a longitudinal driving motor 505, a longitudinal screw rod 506, a limiting rod 507, a frosted contact surface 508 and a fastening screw 509;

an adjusting plate 504 is arranged below the supporting plate 2, a longitudinal driving motor 505 is fixedly arranged at the top end of the supporting plate 2, a longitudinal screw rod 506 is fixedly arranged at an output shaft of the longitudinal driving motor 505, the longitudinal screw rod 506 is connected with the adjusting plate 504 through threads, the adjusting plate 504 is driven to move when the longitudinal screw rod 506 rotates, a limiting rod 507 is fixedly arranged at four corners of the bottom end of the supporting plate 2, a frosted contact surface 508 is arranged on the outer side of the limiting rod 507, fastening screw buttons 509 are embedded and arranged at positions of the two ends of the adjusting plate 504 corresponding to the frosted contact surface 508, one end of each fastening screw button 509 passes through the adjusting plate 504 to be in contact with the surface of the frosted contact surface 508, friction force between the fastening screw buttons 509 and the surface of the frosted contact surface 508 is convenient to use, the adjusting plate 504 and the limiting rod 507 are limited, and the input end of the longitudinal driving motor 505 is electrically connected with the output end of commercial power.

The bottom end of the mounting block 4 is provided with a precise adjusting and positioning mechanism 6, and the precise adjusting and positioning mechanism 6 comprises a chute 601, a sliding block 602, an adjusting screw 603 and a crank 604;

the bottom end of the mounting block 4 is symmetrically provided with a sliding groove 601, the inner side of the sliding groove 601 is slidably provided with a sliding block 602, the inner wall of the sliding groove 601 is rotatably provided with an adjusting screw 603, the adjusting screw 603 is connected with the sliding block 602 through threads, the sliding block 602 is driven to move along the sliding groove 601 when the adjusting screw 603 rotates conveniently, one end of the adjusting screw 603 passes through the mounting block 4 and is connected with a crank 604, the outer side of the crank 604 is sleeved with a rubber anti-skid sleeve, and the outer side anti-skid performance of the crank 604 is improved;

the accurate adjusting and positioning mechanism 6 also comprises a scale mark 605, a pointer 606 and a laser lamp 607;

the bottom of installation piece 4 corresponds chute 601 one side position department and evenly has offered scale mark 605, and the one end fixed mounting of slider 602 has pointer 606, and the bottom fixed mounting of slider 602 has laser lamp 607, and the output of laser lamp 607 input electric connection commercial power.

Working principle: when the automatic temperature sensor monitoring structure is used, firstly, the transverse screw rod 502 is driven to rotate through the operation of the transverse driving motor 503, the support plate 2 is driven to move through the threaded connection of the transverse screw rod 502 and the support plate 2, so that the transverse positions of the support plate 2, the mounting frame 3 and the mounting block 4 are regulated, then, the longitudinal driving motor 505 can be operated, the longitudinal screw rod 506 is driven to rotate, the longitudinal screw rod 506 is combined with the threaded connection of the regulating plate 504, the regulating plate 504 can be driven to move along the outer side of the limiting rod 507, the longitudinal position of the regulating plate 504 is regulated, after the position of the regulating plate 504 is regulated, the fastening screw button 509 can be rotated, so that the fastening screw button 509 is moved to be in close contact with the outer side of the frosted contact surface 508, the static friction force between the fastening screw button 509 and the frosted contact surface 508 is used, the position of the regulating plate 504 and the limiting rod 507 is regulated, the transverse and longitudinal position regulation during the automatic temperature sensor monitoring structure is facilitated, the stability during the automatic temperature sensor monitoring structure position regulation is improved, the automatic temperature sensor monitoring structure position regulation is prevented from being carried out, and the safety sensor is not accurately regulated during the automatic temperature sensor monitoring structure;

when the automatic temperature sensor monitoring structure is used, the crank 604 can be rotated to drive the adjusting screw 603 to rotate, the adjusting screw 603 is combined with the threaded connection of the sliding block 602, the sliding block 602 can be driven to move, the positions of the two sliding blocks 602 can be adjusted respectively, the positions of the two sliding blocks 602 can be visually observed respectively in a long distance by combining the operation of the laser lamp 607, the positions of the temperature sensors at the bottom ends of the two sliding blocks 602 can be quickly and intuitively adjusted, the temperature sensors at the bottom ends of the two sliding blocks 602 can be accurately positioned and observed by observing the relative positions between the pointer 606 and the scale mark 605, the small-range position adjustment of the temperature sensors can be conveniently carried out, and meanwhile, the stability and the accuracy of the temperature sensor position adjustment are ensured.

Finally, it should be noted that: the foregoing is merely a preferred example of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (6)

1. The utility model provides a temperature sensor automatic monitoring structure, includes wall top (1), backup pad (2), mounting bracket (3) and installation piece (4), below slidable mounting of wall top (1) has backup pad (2), mounting bracket (3) have been placed to the below activity of backup pad (2), installation piece (4) have been placed to the below activity of mounting bracket (3), its characterized in that: the outer sides of the supporting plate (2) and the mounting frame (3) are provided with a stable adjusting mechanism (5), and the stable adjusting mechanism (5) comprises a sliding rail (501), a transverse screw rod (502) and a transverse driving motor (503);

the bottom end of the wall top (1) is symmetrically and fixedly provided with sliding rails (501), the inner wall of the sliding rail (501) is rotatably provided with transverse screw rods (502), and one end of one sliding rail (501) is fixedly provided with a transverse driving motor (503);

the bottom end of the mounting block (4) is provided with a precise adjusting and positioning mechanism (6), and the precise adjusting and positioning mechanism (6) comprises a chute (601), a sliding block (602), an adjusting screw (603) and a crank (604);

the bottom symmetry of installation piece (4) has seted up spout (601), slider (602) are installed to the inside slip of spout (601), adjusting screw (603) are installed in the inner wall rotation of spout (601), one end of adjusting screw (603) is passed installation piece (4) and is connected with crank (604).

2. The automatic temperature sensor monitoring structure according to claim 1, wherein the stability adjusting mechanism (5) further comprises an adjusting plate (504), a longitudinal driving motor (505), a longitudinal screw (506), a limiting rod (507), a frosted contact surface (508) and a fastening screw (509);

an adjusting plate (504) is arranged below the supporting plate (2), a longitudinal driving motor (505) is fixedly arranged at the top end of the supporting plate (2), a longitudinal screw rod (506) is fixedly arranged on an output shaft of the longitudinal driving motor (505), a limiting rod (507) is fixedly arranged at four corners of the bottom end of the supporting plate (2), a frosted contact surface (508) is arranged on the outer side of the limiting rod (507), and fastening screw buttons (509) are embedded and arranged at positions of two ends of the adjusting plate (504) corresponding to the frosted contact surface (508);

the input end of the longitudinal driving motor (505) is electrically connected with the output end of the mains supply.

3. The automatic temperature sensor monitoring structure according to claim 2, wherein the output shaft of the transverse driving motor (503) is connected with two transverse screw rods (502) through a gear tooth chain transmission, and the transverse screw rods (502) are connected with the supporting plate (2) through threads.

4. The automatic temperature sensor monitoring structure according to claim 2, wherein the longitudinal screw rod (506) is connected with the adjusting plate (504) through threads, and one end of the fastening screw button (509) penetrates through the adjusting plate (504) to be in contact with the surface of the frosted contact surface (508).

5. The automatic temperature sensor monitoring structure according to claim 1, wherein the precise adjustment positioning mechanism (6) further comprises a scale mark (605), a pointer (606) and a laser lamp (607);

a scale mark (605) is uniformly arranged at the position of the bottom end of the mounting block (4) corresponding to one side of the sliding groove (601), a pointer (606) is fixedly arranged at one end of the sliding block (602), and a laser lamp (607) is fixedly arranged at the bottom end of the sliding block (602);

the input end of the laser lamp (607) is electrically connected with the output end of the mains supply.

6. The automatic temperature sensor monitoring structure according to claim 5, wherein a rubber anti-skid sleeve is sleeved on the outer side of the crank (604), and the adjusting screw (603) is connected with the sliding block (602) through threads.