CN112304453A - Telescopic temperature sensing probe with simple installation process - Google Patents

Abstract

The invention discloses a telescopic temperature sensing probe with simple installation process, which comprises an installation cylinder, a telescopic unit, a sealing unit, a linkage unit and a temperature sensing probe body, wherein the installation cylinder is provided with a plurality of installation holes; mounting a cylinder: the device is of a cylindrical structure, a circular array of the front side surface of the device is provided with at least three sliding chutes; a telescopic unit: it contains rotatory section of thick bamboo, helicla flute, slider, spacing groove, spacing protruding and slip post, and the inside of three spout corresponds three slider of sliding connection, the both sides of slider are provided with spacing protruding respectively, the inside both sides of spout are equipped with the spacing groove that corresponds the setting with spacing protruding, and this installation simple process's flexible temperature sensing probe, not only temperature sensing probe is difficult to rock in inside, and stability is good, has enclosed construction moreover, and impurity is difficult to get into, and long service life can also carry out quick assembly disassembly, convenient to use.

Description

Telescopic temperature sensing probe with simple installation process

Technical Field

The invention relates to the technical field of temperature sensing probes, in particular to a telescopic temperature sensing probe with simple installation process.

Background

The temperature is a physical quantity representing the cold and hot degree of an object, is one of the most common and important thermal parameters in industrial production and scientific experiments, and a temperature measuring method is divided into a contact type measurement method and a non-contact type measurement method, and in the technical field of temperature detection technology, namely mainly probe utilization, the probe mainly has the following forms: dilations, resistances, thermoelectrics, colorations, and the like, and particularly resistances have very wide applications;

the conventional temperature sensing probe in the application field adopts a built-in type, the temperature sensing probe is arranged in the induction cooker, the installation process is simple, the temperature sensing probe is contacted with the microcrystal panel during temperature measurement, the measured temperature is the temperature of the microcrystal panel, and the actual temperature of the cooker cannot be truly reflected; therefore, the temperature sensing probe can extend out of the microcrystal panel to contact the pot bottom, truly reflect the temperature of the pot bottom and accurately control the temperature;

however, the existing telescopic temperature sensing probe has the following disadvantages: 1. the current flexible temperature sensing probe generally adopts simple slip mode to realize flexible, and the structure is not compact, uses the longer time after, and temperature sensing probe rocks easily in inside, poor stability, and 2 current flexible temperature sensing probe front end does not have any enclosed construction, and impurity gets into easily, causes temperature sensing probe temperature measurement inaccurate or damage, and life is short, and 3, current flexible temperature sensing probe can not carry out quick assembly disassembly, when maintaining and overhaul, and it is very inconvenient to use.

Disclosure of Invention

The invention aims to overcome the existing defects and provides the telescopic temperature sensing probe with simple installation process, which has the advantages of difficult shaking inside, good stability, closed structure, difficult impurity entering, long service life, quick disassembly and assembly, convenient use and capability of effectively solving the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the telescopic temperature sensing probe with simple installation process comprises an installation cylinder, a telescopic unit, a sealing unit, a linkage unit and a temperature sensing probe body;

mounting a cylinder: the device is of a cylindrical structure, a circular array of the front side surface of the device is provided with at least three sliding chutes;

a telescopic unit: the sliding device comprises a rotating cylinder, spiral grooves, sliding blocks, limiting grooves, limiting protrusions and sliding columns, wherein the three sliding blocks are correspondingly and slidably connected inside the three sliding grooves, the limiting protrusions are respectively arranged on two sides of each sliding block, the limiting grooves correspondingly arranged with the limiting protrusions are arranged on two sides inside the sliding grooves, the limiting protrusions are slidably connected with the corresponding limiting grooves, the sliding columns are fixed on the outer side surfaces of the sliding blocks, the rotating cylinder is sleeved on the outer side surface of the mounting cylinder, the spiral grooves correspondingly arranged with the sliding columns are arrayed on the side surfaces of the rotating cylinder, and the sliding columns are arranged inside the corresponding spiral grooves;

a temperature sensing probe body: the inner side surfaces of the three sliding blocks are correspondingly fixed with three connecting rods, the middle parts of the three connecting rods are fixed with mounting columns, and the front end heads of the mounting columns are fixed with temperature sensing probe bodies;

a sealing unit: which comprises a mounting ring, a second sliding block, a second limiting groove, a second limiting protrusion, a fan-shaped cover, a closed edge, an edge groove and a first sliding groove, the front end of the mounting cylinder is fixedly connected with a mounting ring through a bolt, a first sliding groove is arranged on the side surface of the mounting ring in a circular array, a second sliding block is connected inside the first sliding groove in a sliding manner, a second limiting protrusion is arranged on the side surface of the second sliding block, the inner side surface of the second sliding groove is provided with a second limiting groove which is arranged corresponding to the second limiting protrusion, the second limiting protrusion is in sliding connection with the corresponding second limiting groove, the front side surface of the second sliding block is fixed with at least three fan-shaped covers, at least three fan-shaped covers are spliced for use, a sealing edge is fixed on one right-angle side of each fan-shaped cover, the other right-angle side of each fan-shaped cover is provided with a ridge groove, and the closed ridge of one fan-shaped cover is matched with the ridge groove of the adjacent fan-shaped cover;

a linkage unit: the rotary cylinder comprises a spiral gear ring and arc-shaped teeth, the spiral gear ring is arranged at the front end opening of the rotary cylinder, the arc-shaped teeth are arranged on the rear side surface of the second sliding block, and the arc-shaped teeth are meshed with the spiral gear ring;

shaft clamping: a retainer ring is sleeved on the side surface of the mounting cylinder and arranged at the rear side of the rotary cylinder, a clamping groove is formed in the side surface of the mounting cylinder and arranged at the rear side of the retainer ring, and a shaft clamp is clamped in the clamping groove;

wherein: the temperature-sensing probe comprises a mounting cylinder, and is characterized by further comprising a controller, wherein the controller is fixed on the rear side inside the mounting cylinder, the input end of the controller is electrically connected with the output end of an external power supply, and the output end of the temperature-sensing probe body is electrically connected with the input end of the controller;

when the telescopic adjustment is carried out, the rotary cylinder of the rotary unit rotates, and then the spiral groove and the sliding column act, so that the sliding column drives the sliding block to move, and further the sliding block enables the temperature sensing probe main body to stretch and retract; through the rotation of a rotatory section of thick bamboo, a rotatory section of thick bamboo drives slider two through the interlock unit and slides in spout one is inside, along with the slip of slider two and then the concatenation of sector cover of array, can seal installation section of thick bamboo front end mouth, and this kind of mode can prevent effectively that impurity from getting into inside, increases its life.

Further, still include power pack, it contains motor, straight-teeth gear and ring gear, the rear end side of rotatory section of thick bamboo is fixed with the ring gear, the rear end side of installation section of thick bamboo is fixed with the motor, the output shaft end fixedly connected with straight-teeth gear of motor, straight-teeth gear and ring gear meshing, the input of motor is connected with the output electricity of controller, and power pack mainly drives rotatory section of thick bamboo and rotates, and then realizes stretching out and drawing back.

Furthermore, still include mount pad, plug ring and mounting hole, the rear side of an installation section of thick bamboo is pegged graft and is had the plug ring, the rear side of plug ring is fixed with the mount pad, the side array of mount pad has the mounting hole, install the positioning unit between an installation section of thick bamboo and the plug ring, the mount pad is main fixing base, mainly plays the effect of fixed plug ring, and the plug ring is mainly an installation section of thick bamboo, guarantees the stability of an installation section of thick bamboo.

Further, the positioning unit contains locating lever and constant head tank, the trailing flank of an installation section of thick bamboo is fixed with the locating lever, the medial surface of grafting circle is provided with the constant head tank that corresponds the setting with the locating lever, the locating lever uses with the constant head tank cooperation, and the positioning unit mainly is play the positioning action, makes the installation section of thick bamboo can insert the grafting circle with the same position at every turn inside.

Further, still include the rapid disassembly structure, it contains installing frame, inserted bar, spring, baffle and handle, the lateral surface of grafting circle is fixed with the installing frame, the top of installing frame and the side of grafting circle are equipped with corresponding slide opening, sliding connection has the inserted bar in the slide opening, the top of inserted bar is fixed with the handle, the side cover of the inside inserted bar of installing frame has baffle and spring, baffle and inserted bar lateral surface fixed connection, the spring sets up at the top of baffle, and the rapid disassembly structure mainly is the dismantlement of an easy to assemble section of thick bamboo, and then more facilitates the use.

Further, the quick detach structure still includes the jack, the trailing flank of installation section of thick bamboo is equipped with the jack that corresponds the setting with the inserted bar, the inserted bar is mainly cooperated with the inserted bar with jack grafting jack, realizes fixed mounting.

Further, still include guide structure, it contains direction inclined plane one and direction inclined plane two, the back side of installation section of thick bamboo is equipped with direction inclined plane one, the bottom of inserted bar is equipped with direction inclined plane two, direction inclined plane one uses with the cooperation of direction inclined plane two, enables the inserted bar through guide structure and shortens fast, and then can insert inside the jack fast.

Further, still include bearing and fender lid, the lateral surface cover of slip post has the bearing, the end of slip post is fixed with the fender lid, and the bearing can effectively reduce the contact wear between slip post and the helicla flute.

Further, still include the cooperation piece, the trailing flank of installation circle is fixed with the cooperation piece that corresponds the setting with the spout, the cooperation piece is pegged graft with the spout that corresponds, and the cooperation piece can increase the stability of installation circle, makes it more stable.

The screw thread protection ring is fixed on the rear side face of the mounting ring, the inner side face of the screw thread protection ring is matched with the front end side face of the rotary cylinder for use, and the screw thread protection ring mainly protects the spiral gear ring and the arc-shaped teeth.

Compared with the prior art, the invention has the beneficial effects that: this flexible temperature sensing probe of simple installation technology has following benefit:

1. according to the telescopic temperature sensing probe with the simple installation process, the rotary cylinder of the rotary unit rotates, the spiral groove and the sliding column act, the sliding column drives the sliding block to move, and the sliding block enables the temperature sensing probe body to stretch and retract;

2. according to the telescopic temperature sensing probe with the simple installation process, the rotary cylinder rotates, the rotary cylinder drives the sliding block II to slide in the sliding groove I through the linkage unit, the sliding block II slides along with the sliding of the sliding block II, and the arrayed fan-shaped covers are spliced, so that the front end opening of the installation cylinder can be sealed, impurities can be effectively prevented from entering the interior of the installation cylinder, and the service life of the installation cylinder is prolonged;

3. according to the telescopic temperature sensing probe with the simple installation process, the installation cylinder is inserted into the insertion ring, the insertion rod is lifted by the installation cylinder through the guide structure, the spring is compressed and then continuously inserted into the insertion rod, after the lower end of the insertion rod is aligned with the insertion hole, the spring rebounds to push the baffle, the baffle drives the insertion rod to slide into the insertion hole, and when the telescopic temperature sensing probe is disassembled, the handle is pulled and drives the insertion rod to slide out of the insertion hole, so that the rapid disassembly and assembly are realized, and the use is convenient;

4. this flexible temperature sensing probe of simple installation technology, not only temperature sensing probe is difficult to rock in inside, and stability is good, has enclosed construction moreover, and impurity is difficult to get into, and long service life can also carry out quick assembly disassembly, convenient to use.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the construction of the telescopic unit and the power unit of the present invention;

FIG. 3 is a schematic view of a closed cell structure according to the present invention;

fig. 4 is a schematic structural diagram of the quick release structure of the present invention.

In the figure: 1 mounting cylinder, 2 controller, 3 telescopic unit, 31 rotary cylinder, 32 spiral groove, 33 slide block, 34 limit groove, 35 limit projection, 36 sliding column, 4 closed unit, 41 mounting ring, 42 slide block two, 43 limit groove two, 44 limit projection two, 45 sector cover, 46 closed edge, 47 edge groove, 48 slide groove one, 5 linkage unit, 51 spiral gear ring, 52 arc tooth, 6 power unit, 61 motor, 62 spur gear, 63 gear ring, 7 positioning unit, 71 positioning rod, 72 positioning groove, 8 quick-release positioning structure, 81 mounting frame, 82 inserted bar, 83 spring, 84 baffle, 85 handle, 86 insertion hole, 9 guide structure, 91 guide inclined plane one, 92 guide inclined plane two, 10 slide groove, 11 temperature-sensing probe body, 12 connecting bar, 13 mounting column, 14 retainer ring, 15 shaft clamp, 16 retainer ring, 17 mounting seat, 18 insertion ring, 19 mounting hole, 20 bearing, 21 retainer cover, 22 mating block, mating block, 23 thread protector.

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.

Referring to fig. 1-4, the present invention provides a technical solution: the telescopic temperature-sensing probe with simple installation process comprises an installation cylinder 1, a telescopic unit 3, a sealing unit 4, a linkage unit 5 and a temperature-sensing probe body 11;

the installation cylinder 1: the mounting tube is of a tubular structure, a sliding groove 10 is arranged on the circular array of the front side surface of the mounting tube, at least three sliding grooves 10 are arranged, the mounting tube also comprises a mounting seat 17, an inserting ring 18 and mounting holes 19, an inserting ring 18 is inserted on the rear side surface of the mounting tube 1, the mounting seat 17 is fixed on the rear side of the inserting ring 18, the mounting seat 17 is arranged on the side surface array of the mounting seat 17, a positioning unit 7 is arranged between the mounting tube 1 and the inserting ring 18, the mounting seat 17 is a main fixed seat and mainly plays a role in fixing the inserting ring 18, the inserting ring 18 mainly plays a role in mounting the mounting tube 1 to ensure the stability of the mounting tube 1, the positioning unit 7 comprises a positioning rod 71 and a positioning groove 72, a positioning rod 71 is fixed on the rear side surface of the mounting tube 1, a positioning groove 72 corresponding to the positioning rod 71 is arranged on the inner side surface of the inserting ring 18, the positioning rod 71 is matched with the positioning groove 72, the positioning unit 7 mainly plays, the quick-release structure 8 further comprises a guide structure 9 which comprises a first guide inclined plane 91 and a second guide inclined plane 92, the outer side surface of the insertion ring 18 is fixedly provided with the mounting frame 81, the top of the mounting frame 81 and the side surface of the insertion ring 18 are provided with corresponding sliding holes, the insertion rod 82 is connected in the sliding holes in a sliding mode, the top end of the insertion rod 82 is fixedly provided with a handle 85, the side surface of the insertion rod 82 in the mounting frame 81 is sleeved with the baffle 84 and the spring 83, the baffle 84 is fixedly connected with the outer side surface of the insertion rod 82, the spring 83 is arranged at the top of the baffle 84, the quick-release structure 8 is mainly convenient to disassemble the mounting cylinder 1 and further is more convenient to use, the rear side surface of the mounting cylinder 1 is provided with a jack 86 corresponding to the insertion rod 82, the insertion rod 82 and the jack 86 are mainly matched with the insertion rod 82 to realize fixed installation, and the guide structure 9 comprises a first guide inclined plane 91 and a second guide inclined plane 92, the rear side end of the mounting cylinder 1 is provided with a first guide inclined plane 91, the bottom end of the insertion rod 82 is provided with a second guide inclined plane 92, the first guide inclined plane 91 is matched with the second guide inclined plane 92 for use, the insertion rod 82 can be quickly shortened through the guide structure 9, and then the insertion rod can be quickly inserted into the insertion hole 86;

the telescopic unit 3: the sliding device comprises a rotary cylinder 31, a spiral groove 32, a sliding block 33, a limiting groove 34, a limiting protrusion 35 and a sliding column 36, wherein three sliding blocks 33 are correspondingly and slidably connected inside three sliding grooves 10, the limiting protrusion 35 is respectively arranged on two sides of each sliding block 33, the limiting grooves 34 correspondingly arranged with the limiting protrusion 35 are arranged on two sides inside each sliding groove 10, the limiting protrusions 35 are slidably connected with the corresponding limiting grooves 34, the sliding columns 36 are fixed on the outer side surfaces of the sliding blocks 33, the rotary cylinder 31 is sleeved on the outer side surface of an installation cylinder 1, the spiral grooves 32 correspondingly arranged with the sliding columns 36 are arrayed on the side surface of the rotary cylinder 31, the sliding columns 36 are arranged inside the corresponding spiral grooves 32, the sliding device also comprises a power unit 6 which comprises a motor 61, a straight gear 62 and a gear 63, the rear end side surface of the rotary cylinder 31 is fixed with the gear ring 63, the rear end side surface of the installation cylinder 1 is fixed with the, the straight gear 62 is meshed with the gear ring 63, the input end of the motor 61 is electrically connected with the output end of the controller 2, the power unit 6 mainly drives the rotary cylinder 31 to rotate so as to realize extension and retraction, the hydraulic power unit further comprises a bearing 20 and a blocking cover 21, the bearing 20 is sleeved on the outer side surface of the sliding column 36, the blocking cover 21 is fixed at the end of the sliding column 36, and the bearing 20 can effectively reduce contact wear between the sliding column 36 and the spiral groove 32;

temperature-sensitive probe body 11: the inner side surfaces of the three sliding blocks 33 are correspondingly fixed with three connecting rods 12, the middle parts of the three connecting rods 12 are fixed with an installation column 13, and the front end of the installation column 13 is fixed with a temperature sensing probe body 11;

the closing unit 4: the installation barrel comprises an installation ring 41, a second sliding block 42, a second limiting groove 43, a second limiting protrusion 44, a fan-shaped cover 45, a closed edge 46, a first edge groove 47 and a first sliding groove 48, wherein the front end of the installation barrel 1 is fixedly connected with the installation ring 41 through bolts, the circular array on the side surface of the installation ring 41 is provided with the first sliding groove 48, the sliding block 42 is connected in the first sliding groove 48 in a sliding manner, the second limiting protrusion 44 is arranged on the side surface of the second sliding block 42, the second limiting groove 43 corresponding to the second limiting protrusion 42 is arranged on the inner side surface of the second sliding groove 42, the second limiting protrusion 42 is connected with the corresponding second limiting groove 43 in a sliding manner, the fan-shaped cover 45 is fixed on the front side surface of the second sliding block 42, the fan-shaped covers 45 are not less than three, the fan-shaped covers 45 are spliced for use, the closed edge 46 is fixed on one right-angle edge of the fan-shaped cover 45, the edge 47 is arranged on, the mounting structure comprises a mounting ring 41, a matching block 22 and a thread protection ring 23, wherein the matching block 22 is fixed on the rear side face of the mounting ring 41 and corresponds to the sliding groove 10, the matching block 22 is inserted into the corresponding sliding groove 10, the matching block 22 can increase the stability of the mounting ring 41 and enable the mounting ring to be more stable, the mounting structure further comprises the thread protection ring 23, the thread protection ring 23 is fixed on the rear side face of the mounting ring 41, the inner side face of the thread protection ring 23 is matched with the front end side face of the rotating cylinder 31 for use, and the thread protection ring 23 mainly protects a spiral gear ring 51 and an arc-shaped;

the linkage unit 5: the rotary cylinder 31 comprises a spiral gear ring 51 and arc-shaped teeth 52, the spiral gear ring 51 is arranged at the front end opening of the rotary cylinder 31, the arc-shaped teeth 52 are arranged on the rear side surface of the second sliding block 42, and the arc-shaped teeth 52 are meshed with the spiral gear ring 51;

the shaft clamp 15: a retainer ring 14 is sleeved on the side surface of the mounting cylinder 1, the retainer ring 14 is arranged on the rear side of the rotary cylinder 31, a clamping groove 16 is arranged on the side surface of the mounting cylinder 1, the clamping groove 16 is arranged on the rear side of the retainer ring 14, and a shaft clamp 15 is clamped in the clamping groove 14;

wherein: the temperature-sensing probe further comprises a controller 2, the controller 2 is fixed on the rear side inside the mounting cylinder 1, the input end of the controller 2 is electrically connected with the output end of an external power supply, and the output end of the temperature-sensing probe body 11 is electrically connected with the input end of the controller 2;

when the telescopic adjustment is carried out, the rotary cylinder 31 of the rotary unit 3 rotates, and then the spiral groove 32 and the sliding column 36 act, so that the sliding column 36 drives the sliding block 33 to move, and further the sliding block 33 enables the temperature sensing probe main body 11 to stretch and retract, when the temperature sensing probe main body slides in the process, the limiting groove 34 and the limiting protrusion 35 can play a better limiting role, and at the same time, at least three sliding grooves 10 are arranged in different directions, so that the stability of the middle temperature sensing probe main body 11 can be ensured; rotate through rotatory section of thick bamboo 31, rotatory section of thick bamboo 31 drives two 42 sliders 48 inside slideings in the spout through interlock unit 5, along with the slip of two 42 sliders and then the concatenation of sector cover 45 of array, can seal installation section of thick bamboo 1 front end mouth, and this kind of mode can effectively prevent inside impurity gets into, increases its life.

When in use: firstly, the mounting seat 17 is fixedly mounted, then the mounting cylinder 1 can be inserted into the insertion ring 18, the positioning rod 71 is inserted into the positioning groove 72, the first guide inclined plane 91 at the rear side of the mounting cylinder 1 is in contact with the second guide inclined plane 92 to slide, the insertion rod 82 is further lifted, the spring 83 is compressed, then the insertion rod 82 is continuously inserted into the insertion rod 82, after the lower end of the insertion rod is aligned with the insertion hole 86, the spring 83 rebounds to push the baffle 84, the baffle 84 drives the insertion rod 82 to slide into the insertion hole 86, when the mounting cylinder is dismounted, the handle 85 is pulled, the handle 85 drives the insertion rod 82 to slide out from the insertion hole 86, quick dismounting and mounting are realized, the use is convenient, when the temperature sensing probe is telescopic, the controller 2 controls the motor 61 to rotate, the motor 61 drives the gear ring 63 to rotate through the straight gear 62, the gear ring 63 drives the rotary cylinder 31 to rotate, then the spiral groove 32 and the sliding column 36 act to enable the sliding block 33 to slide in the, simultaneously, the rotary cylinder 31 drives the spiral gear ring 51 to rotate, the spiral gear ring 51 drives the arc-shaped teeth 52 to move, then the arc-shaped teeth 52 drive the second sliding block 42 to slide, then the second sliding block 42 drives the fan-shaped cover 45 to move and splice, the front end opening of the installation cylinder 1 can be sealed, and the mode can effectively prevent impurities from entering the interior and prolong the service life of the installation cylinder.

It should be noted that, as disclosed in this embodiment, the controller 2 is preferably an STM32 single chip microcomputer, the motor 61 is preferably a mitsubishi MR-JE series servo motor according to the actual size, and the controller 2 controls the motor 61 to operate by a method commonly used in the prior art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The telescopic temperature sensing probe with simple installation process is characterized in that: comprises an installation cylinder (1), a telescopic unit (3), a sealing unit (4), a linkage unit (5) and a temperature sensing probe body (11);

mounting cylinder (1): the device is of a cylindrical structure, the front side surface of the device is circularly arrayed with at least three sliding chutes (10), and the number of the sliding chutes (10) is not less than three;

expansion unit (3): the mounting device comprises a rotating cylinder (31), spiral grooves (32), sliding blocks (33), limiting grooves (34), limiting protrusions (35) and sliding columns (36), wherein the three sliding grooves (10) are correspondingly and slidably connected with the three sliding blocks (33), the limiting protrusions (35) are respectively arranged on two sides of each sliding block (33), the limiting grooves (34) corresponding to the limiting protrusions (35) are arranged on two sides of the inside of each sliding groove (10), the limiting protrusions (35) are slidably connected with the corresponding limiting grooves (34), the sliding columns (36) are fixed on the outer side surfaces of the sliding blocks (33), the rotating cylinder (31) is sleeved on the outer side surface of the mounting cylinder (1), the spiral grooves (32) corresponding to the sliding columns (36) are arrayed on the side surface of the rotating cylinder (31), and the sliding columns (36) are arranged inside the corresponding spiral grooves (32);

temperature-sensitive probe body (11): the inner side surfaces of the three sliding blocks (33) are correspondingly fixed with three connecting rods (12), the middle parts of the three connecting rods (12) are fixed with mounting columns (13), and the front end heads of the mounting columns (13) are fixed with temperature sensing probe bodies (11);

a closing unit (4): the mounting structure comprises a mounting ring (41), a second sliding block (42), a second limiting groove (43), a second limiting protrusion (44), a fan-shaped cover (45), a sealing edge (46), a ridge groove (47) and a first sliding groove (48), wherein the front end of the mounting cylinder (1) is fixedly connected with the mounting ring (41) through a bolt, the circular array of the side surface of the mounting ring (41) is provided with the first sliding groove (48), the sliding block (42) is slidably connected inside the first sliding groove (48), the second limiting protrusion (44) is arranged on the side surface of the second sliding block (42), the second limiting groove (43) corresponding to the second limiting protrusion (42) is arranged on the inner side surface of the second sliding groove (42), the second limiting protrusion (42) is slidably connected with the second corresponding limiting groove (43), the fan-shaped cover (45) is fixed on the front side surface of the second sliding block (42), the number of the fan-shaped covers (45) is not less than three, and the fan-shaped covers, a sealing edge (46) is fixed on one right-angle side of each fan-shaped cover (45), a ridge groove (47) is formed in the other right-angle side of each fan-shaped cover (45), and the sealing edge (46) of one fan-shaped cover (45) is matched with the ridge groove (47) of the adjacent fan-shaped cover (45);

interlocking unit (5): the screw thread rotating mechanism comprises a screw gear ring (51) and arc-shaped teeth (52), the screw gear ring (51) is arranged at the front end opening of the rotating cylinder (31), the arc-shaped teeth (52) are arranged on the rear side surface of the second sliding block (42), and the arc-shaped teeth (52) are meshed with the screw gear ring (51);

shaft clip (15): a retainer ring (14) is sleeved on the side surface of the mounting cylinder (1), the retainer ring (14) is arranged on the rear side of the rotating cylinder (31), a clamping groove (16) is formed in the side surface of the mounting cylinder (1), the clamping groove (16) is formed in the rear side of the retainer ring (14), and a shaft clamp (15) is clamped in the clamping groove (14);

wherein: the temperature-sensing probe is characterized by further comprising a controller (2), the controller (2) is fixed on the rear side inside the mounting cylinder (1), the input end of the controller (2) is electrically connected with the output end of an external power supply, and the output end of the temperature-sensing probe body (11) is electrically connected with the input end of the controller (2).

2. The telescopic temperature-sensing probe with a simple mounting process according to claim 1, wherein: still include power pack (6), it contains motor (61), straight-teeth gear (62) and ring gear (63), the rear end side of rotatory section of thick bamboo (31) is fixed with ring gear (63), the rear end side of installation section of thick bamboo (1) is fixed with motor (61), the output shaft end fixedly connected with straight-teeth gear (62) of motor (61), straight-teeth gear (62) and ring gear (63) meshing, the input of motor (61) is connected with the output electricity of controller (2).

3. The telescopic temperature-sensing probe with a simple mounting process according to claim 1, wherein: the mounting structure is characterized by further comprising a mounting seat (17), an inserting ring (18) and a mounting hole (19), the inserting ring (18) is inserted into the rear side face of the mounting cylinder (1), the mounting seat (17) is fixed to the rear side of the inserting ring (18), the mounting hole (19) is formed in the side face array of the mounting seat (17), and a positioning unit (7) is mounted between the mounting cylinder (1) and the inserting ring (18).

4. The telescopic temperature-sensing probe with a simple mounting process according to claim 3, wherein: the positioning unit (7) comprises a positioning rod (71) and a positioning groove (72), the positioning rod (71) is fixed on the rear side face of the installation barrel (1), the positioning groove (72) correspondingly arranged with the positioning rod (71) is formed in the inner side face of the insertion ring (18), and the positioning rod (71) is matched with the positioning groove (72) for use.

5. The telescopic temperature-sensing probe with a simple mounting process according to claim 3, wherein: still include rapid disassembly structure (8), it contains installing frame (81), inserted bar (82), spring (83), baffle (84) and handle (85), the lateral surface of grafting circle (18) is fixed with installing frame (81), the top of installing frame (81) and the side of grafting circle (18) are equipped with corresponding slide opening, sliding connection has inserted bar (82) in the slide opening, the top of inserted bar (82) is fixed with handle (85), the side cover of inserted bar (82) of installing frame (81) inside has baffle (84) and spring (83), baffle (84) and inserted bar (82) lateral surface fixed connection, spring (83) set up the top at baffle (84).

6. The telescopic temperature-sensing probe with a simple mounting process according to claim 5, wherein: quick detach structure (8) still include jack (86), the trailing flank of installation section of thick bamboo (1) is equipped with jack (86) that correspond the setting with inserted bar (82), inserted bar (82) are pegged graft with jack (86).

7. The telescopic temperature-sensing probe with a simple mounting process according to claim 5, wherein: still include guide structure (9), it contains direction inclined plane one (91) and direction inclined plane two (92), the back side of installation section of thick bamboo (1) is equipped with direction inclined plane one (91), the bottom of inserted bar (82) is equipped with direction inclined plane two (92), direction inclined plane one (91) and direction inclined plane two (92) cooperation use.

8. The telescopic temperature-sensing probe with a simple mounting process according to claim 1, wherein: the sliding column is characterized by further comprising a bearing (20) and a blocking cover (21), the bearing (20) is sleeved on the outer side face of the sliding column (36), and the blocking cover (21) is fixed at the end of the sliding column (36).

9. The telescopic temperature-sensing probe with a simple mounting process according to claim 1, wherein: still include cooperation piece (22), the trailing flank of installing circle (41) is fixed with cooperation piece (22) that correspond the setting with spout (10), cooperation piece (22) are pegged graft with corresponding spout (10).

10. The telescopic temperature-sensing probe with a simple mounting process according to claim 1, wherein: the novel rotary drum is characterized by further comprising a thread protection ring (23), the thread protection ring (23) is fixed on the rear side face of the mounting ring (41), and the inner side face of the thread protection ring (23) is matched with the side face of the front end of the rotary drum (31) for use.

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