CN220983015U - Novel sensor of trinity - Google Patents

Abstract

The utility model provides a three-in-one novel sensor, which relates to the field of sensors and comprises a supporting table, wherein the top of the supporting table is fixedly connected with a supporting block, the top of the supporting block is provided with a lifting mechanism, the right side of the lifting mechanism is provided with a clamping block, the right side of the clamping block is provided with a sensor mechanism, and the sensor mechanism comprises an analyzer body; the component detector body provided by the utility model realizes detection of the component of the oil, so that the element content in the oil is analyzed, the viscosity detector body realizes detection of the viscosity of the oil, the phenomena of aging, pollution, mixing and the like of the oil can be primarily identified, the position sensor body controls the position of the sensor mechanism when the sensor mechanism is inserted into an oil container for detection, the position sensor body is prevented from touching the bottom of the oil detection container, the container is damaged, and the analyzer body is used for reading the data detected by the component detector body and the viscosity detector body.

Description

Novel sensor of trinity

Technical Field

The utility model belongs to the field of sensors, and particularly relates to a novel three-in-one sensor.

Background

The sensor is a detection device, can sense the detected information, and can convert the sensed information into an electric signal or other information output in a required form according to a certain rule so as to meet the requirements of information transmission, processing, storage, display, recording, control and the like, wherein the sensor is also used for detecting oil;

When detecting the quality of fluid, through inserting the detection sensor into fluid for the detection sensor can contact with fluid, and then through the quality detection analysis of fluid, thereby judge whether fluid accords with the standard, but in actual operation, need different sensors to detect viscosity, temperature or the composition detection of fluid respectively, not only the step is loaded down with trivial details, has also greatly reduced the detection efficiency of fluid.

In summary, the present utility model provides a novel sensor with three-in-one structure to solve the above problems.

Disclosure of utility model

In order to solve the technical problems, the utility model provides the following technical scheme:

The utility model provides a novel sensor of trinity, includes the brace table, the top fixedly connected with supporting shoe of brace table, the top of supporting shoe is provided with elevating system, elevating system's right side is provided with the fixture block, the right side of fixture block is provided with sensor mechanism, sensor mechanism includes the analysis appearance body, the bottom of analysis appearance body is provided with composition detection mechanism, composition detection mechanism's bottom is provided with viscosity detection mechanism, viscosity detection mechanism's bottom is provided with position sensor mechanism, composition detection mechanism includes the composition detector body, viscosity detection mechanism includes the viscosity detector body, position sensor mechanism includes the position sensor body, composition detector body, viscosity detector body and position sensor body's output all with the input electric connection of analysis appearance body.

Further, in the utility model, the bottom of the analyzer body is fixedly connected with the connecting mechanism, the connecting mechanism comprises a fixed block, the bottom of the fixed block is fixedly connected with the second connecting block, the top of the component detector body is fixedly connected with the third connecting block, the top of the third connecting block can extend to the inner cavity of the second connecting block and is movably connected with the inner cavity of the second connecting block, the front surface of the third connecting block is provided with the second threaded hole, the front surface of the second connecting block is provided with the first threaded hole, the front surface of the first threaded hole is provided with the first bolt body, and one end of the first bolt body extends to the inner cavities of the first threaded hole and the second threaded hole and is in threaded connection with the inner cavities of the first threaded hole and the second threaded hole.

Further, in the utility model, the bottom of the component detector body is fixedly connected with a fourth connecting block, the top of the viscosity detector body is fixedly connected with a fifth connecting block, the top of the fifth connecting block can extend to the inner cavity of the fourth connecting block and is movably connected with the inner cavity of the fourth connecting block, a fourth threaded hole is formed in the front surface of the fifth connecting block, a third threaded hole is formed in the front surface of the fourth connecting block, a second bolt body is arranged in the front surface of the third threaded hole, and one end of the second bolt body extends to the inner cavities of the third threaded hole and the fourth threaded hole and is in threaded connection with the inner cavities of the third threaded hole and the fourth threaded hole.

Further, in the utility model, the bottom of the viscosity detector body is fixedly connected with a sixth connecting block, the top of the position sensor body is fixedly connected with a seventh connecting block, the top of the seventh connecting block extends to the inner cavity of the sixth connecting block and is movably connected with the inner cavity of the sixth connecting block, a sixth threaded hole is formed in the front face of the seventh connecting block, a third bolt body is formed in the front face of the sixth connecting block, and due to the fact that the third bolt body is arranged in the front face of the third bolt body, one end of the third bolt body extends to the inner cavities of the fifth threaded hole and the sixth threaded hole and is in threaded connection with the inner cavities of the fifth threaded hole and the sixth threaded hole.

Further, in the utility model, the lifting mechanism comprises a protection box, the back of the inner cavity of the protection box is fixedly connected with a motor, an output shaft of the motor is in transmission connection with a gear, the right side of the gear is meshed with a rack, the lower end of the right side of the rack is fixedly connected with a first connecting block, one end of the first connecting block penetrates through the outer part of the protection box, sliding grooves are formed in the front and the back of the inner cavity of the protection box, sliding blocks are fixedly connected with the front and the back of the rack, and one side, far away from the rack, of the sliding blocks extends into the inner cavity of the sliding grooves and is in sliding connection with the inner cavity of the sliding grooves.

Further, in the utility model, a clamping block is fixedly connected to the left side of the analyzer body, a first limiting hole is formed in the top of the clamping block, a second limiting hole is formed in the top of the first connecting block, an inserting block is arranged at the top of the clamping block, and the lower end of the inserting block extends into the inner cavities of the first limiting hole and the second limiting hole and is movably connected with the inner cavities of the first limiting hole and the second limiting hole.

The utility model has the following beneficial effects:

The supporting table and the supporting block are used for supporting and fixing the lifting mechanism, stability of the lifting mechanism during operation is improved, the lifting mechanism is used for driving the sensor mechanism to move up and down, lifting operation of the sensor mechanism is achieved, the component detector body is used for detecting components of oil so as to analyze element content in the oil, the viscosity detector body is used for detecting viscosity of the oil so as to primarily identify phenomena such as aging, pollution and mixing of the oil, the position sensor body is used for controlling the position of the sensor mechanism when the sensor mechanism is inserted into an oil container for detection, the position sensor body is prevented from touching the bottom of the oil detection container, the container is damaged, and the analyzer body is used for reading data detected by the component detector body and the viscosity detector body.

Drawings

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

FIG. 2 is a schematic view of the structure of the sensor mechanism of the present utility model;

FIG. 3 is a schematic view of the elevating mechanism of the present utility model;

Fig. 4 is a schematic perspective view of a latch according to the present utility model.

In the figure:

1. A support table; 2. a support block; 3. a lifting mechanism; 4. a sensor mechanism; 5. a clamping block; 6. a first limiting hole; 7. a second limiting hole; 8. inserting blocks; 301. a protective case; 302. a motor; 303. a gear; 304. a rack; 305. a first connection block; 306. a chute; 307. a slide block; 40. an analyzer body; 41. a component detection mechanism; 42. a viscosity detection mechanism; 43. a position sensing mechanism; 44. a connecting mechanism; 410. a component detector body; 411. a third connecting block; 412. a fourth connecting block; 413. a second threaded hole; 414. a third threaded hole; 420. a viscosity detector body; 421. a fifth connecting block; 422. a fourth threaded hole; 423. a second bolt body; 424. a sixth connecting block; 430. a position sensor body; 431. a seventh connection block; 432. a sixth threaded hole; 433. a fifth threaded hole; 434. a third bolt body; 440. a fixed block; 441. a second connection block; 442. a first threaded hole; 443. a first bolt body.

Detailed Description

For a better understanding of the technical content of the present utility model, specific examples are set forth below, along with the accompanying drawings. Aspects of the utility model are described in this disclosure with reference to the drawings, in which are shown a number of illustrative embodiments. The embodiments of the present disclosure need not be defined to include all aspects of the present utility model. It should be understood that the various concepts and embodiments described above, as well as those described in more detail below, may be implemented in any of a number of ways, as the disclosed concepts and embodiments are not limited to any implementation. Additionally, some aspects of the disclosure may be used alone or in any suitable combination with other aspects of the disclosure.

Example 1

As shown in fig. 1-4, in a first embodiment of the present utility model, a three-in-one novel sensor is provided, and the three-in-one novel sensor includes a supporting table 1, a supporting block 2 is fixedly connected to the top of the supporting table 1, a lifting mechanism 3 is disposed at the top of the supporting block 2, a clamping block 5 is disposed on the right side of the lifting mechanism 3, a sensor mechanism 4 is disposed on the right side of the clamping block 5, the sensor mechanism 4 includes an analyzer body 40, a component detecting mechanism 41 is disposed at the bottom of the analyzer body 40, a viscosity detecting mechanism 42 is disposed at the bottom of the component detecting mechanism 41, a position sensing mechanism 43 is disposed at the bottom of the viscosity detecting mechanism 42, the component detecting mechanism 41 includes a component detector body 410, the viscosity detecting mechanism 42 includes a viscosity detector body 420, the position sensing mechanism 43 includes a position sensor body 430, and the output ends of the component detector body 410, the viscosity detector body 420 and the position sensor body 430 are all electrically connected with the input end of the analyzer body 40.

The bottom fixedly connected with coupling mechanism 44 of analysis appearance body 40, coupling mechanism 44 includes fixed block 440, the bottom fixedly connected with second connecting block 441 of fixed block 440, the top fixedly connected with third connecting block 411 of composition detector body 410, the top of third connecting block 411 can extend to the inner chamber of second connecting block 441 and with the inner chamber swing joint of second connecting block 441, second screw hole 413 has been seted up in the front of third connecting block 411, first screw hole 442 has been seted up in the front of second connecting block 441, the front of first screw hole 442 is provided with first bolt body 443, the inner chamber of first screw hole 442 and second screw hole 413 is extended to the one end of first bolt body 443 and with the inner chamber threaded connection of first screw hole 442 and second screw hole 413.

The bottom fixedly connected with fourth connecting block 412 of component detector body 410, the top fixedly connected with fifth connecting block 421 of viscosity detector body 420, the top of fifth connecting block 421 can extend to the inner chamber of fourth connecting block 412 and with the inner chamber swing joint of fourth connecting block 412, fourth screw hole 422 has been seted up in the front of fifth connecting block 421, third screw hole 414 has been seted up in the front of fourth connecting block 412, the front of third screw hole 414 is provided with second bolt body 423, the one end of second bolt body 423 extends to in the inner chamber of third screw hole 414 and fourth screw hole 422 and with the inner chamber threaded connection of third screw hole 414 and fourth screw hole 422.

The bottom fixedly connected with sixth connecting block 424 of viscosity detector body 420, the top fixedly connected with seventh connecting block 431 of position sensor body 430, the top of seventh connecting block 431 extends to the inner chamber of sixth connecting block 424 and with the inner chamber swing joint of sixth connecting block 424, sixth screw hole 432 has been seted up in the front of seventh connecting block 431, third bolt body 434 has been seted up in the front of sixth connecting block 424, the front of third bolt body 434 sets up because third bolt body 434, the one end of third bolt body 434 extends to the inner chamber of fifth screw hole 433 and sixth screw hole 432 and with the inner chamber threaded connection of fifth screw hole 433 and sixth screw hole 432.

As shown in fig. 2, the third connection block 411 can extend into the second connection block 441 and be movably connected with the inner cavity of the second connection block 441, and under the cooperation of the second threaded hole 413, the first threaded hole 442 and the first bolt body 443, the fixing or unlocking effect of the fixing block 440 and the component detector body 410 is achieved, the disassembly and the assembly operation of the fixing block 440 and the component detector body 410 are facilitated, the fifth connection block 421 can extend into the fourth connection block 412 and be movably connected with the inner cavity of the fourth connection block 412, and under the cooperation of the fourth threaded hole 422, the third threaded hole 414 and the second bolt body 423, the fixing or unlocking effect of the fourth connection block 412 and the fifth connection block 421 is achieved, the disassembly and the assembly operation of the fourth connection block 412 and the fifth connection block 421 is facilitated, the seventh connection block 431 can extend into the sixth connection block 424 and be movably connected with the inner cavity of the sixth connection block 424, and under the cooperation of the sixth screw hole 432, the fifth screw hole 433 and the third screw body 434, the effect of fixing or unlocking the seventh connection block 431 and the sixth connection block 424 is achieved, the operations of dismounting and mounting the seventh connection block 431 and the sixth connection block 424 are facilitated, the fixed component detector body 410 detects the components of the oil, so that the element content in the oil is analyzed, the fixed viscosity detector body 420 detects the viscosity of the oil, the phenomena of aging, pollution, mixing and the like of the oil can be primarily identified, the fixed position sensor body 430 controls the position of the sensor mechanism 4 when the sensor mechanism 4 is inserted into the oil container for detection, the position sensor body 430 is prevented from touching the bottom of the oil detection container, thereby causing damage to the container.

Example 2

Referring to fig. 3, this embodiment is based on the previous embodiment, which is a second embodiment of the present utility model.

In this embodiment, elevating system 3 includes protection box 301, the back fixedly connected with motor 302 of protection box 301 inner chamber, the output shaft transmission of motor 302 is connected with gear 303, the right side meshing of gear 303 has rack 304, the lower extreme fixedly connected with first connecting block 305 on rack 304 right side and the one end of first connecting block 305 run through to the outside of protection box 301, spout 306 has all been seted up to the front and the back of protection box 301 inner chamber, the front and the back of rack 304 all fixedly connected with slider 307, one side that rack 304 was kept away from to slider 307 extends to in the inner chamber of spout 306 and with the inner chamber sliding connection of spout 306.

As shown in fig. 3, the output shaft of the motor 302 can drive the gear 303 to rotate, the gear 303 further drives the rack 304 to move up and down, the rack 304 synchronously drives the first connecting block 305 to move up and down, lifting operation of the first connecting block 305 is achieved, the sliding block 307 can move along a certain track in the inner cavity of the sliding groove 306, the movement track of the sliding block 307 can be limited, the situation that the movement track of the sliding block 307 shifts in position is prevented, and meanwhile, stability of lifting movement of the rack 304 is improved.

Example 3

Referring to fig. 4, a third embodiment of the present utility model is based on the above two embodiments.

In this embodiment, the left side fixedly connected with fixture block 5 of analysis appearance body 40, first spacing hole 6 has been seted up at the top of fixture block 5, and second spacing hole 7 has been seted up at the top of first connecting block 305, and the top of fixture block 5 is provided with inserted block 8, and the lower extreme of inserted block 8 extends to in the inner chamber of first spacing hole 6 and second spacing hole 7 and with the inner chamber swing joint of first spacing hole 6 and second spacing hole 7.

As shown in fig. 4, the first connecting block 305 can be inserted into the inner cavity of the fixture block 5, and the insert block 8 can be inserted into the inner cavities of the first limiting hole 6 and the second limiting hole 7, so that the first connecting block 305 and the analyzer body 40 can complete the fixing or unlocking effect under the cooperation of the first limiting hole 6, the second limiting hole 7 and the insert block 8, and the disassembly and the assembly operations of the analyzer body 40 are facilitated.

In use, the third connection block 411 is inserted into the cavity of the second connection block 441, one end of the first bolt body 443 is screwed into the cavities of the first and second screw holes 442 and 413 through the engagement of the first bolt body 443, the fifth connection block 421 is inserted into the cavity of the fourth connection block 412, one end of the second bolt body 423 is screwed into the cavities of the third and fourth screw holes 414 and 422 through the engagement of the fourth screw holes 422, 414 and 423, the viscosity detector body 420 is fixed to the bottom of the fourth connection block 412, the seventh connection block 431 is inserted into the cavity of the sixth connection block 424, the engagement of the sixth and fifth screw holes 432 and 433 and 434, one end of the third bolt body 434 is screwed into the inner cavities of the sixth screw hole 432 and the fifth screw hole 433, so that the position sensor body 430 can be fixed at the bottom of the sixth connecting block 424, the output shaft of the motor 302 rotates clockwise to drive the sensor mechanism 4 to move downwards, the sensor mechanism 4 can be inserted into an oil container, the fixed position sensor body 430 controls the position of the sensor mechanism 4 when the sensor mechanism 4 is inserted into the oil container for detection, the position sensor body 430 is prevented from touching the bottom of the oil detection container, the container is damaged, the fixed component detector body 410 detects the oil component, the element content in the oil is analyzed, the fixed viscosity detector body 420 detects the viscosity of the oil, the phenomena of aging, pollution, mixing and the like of the oil can be primarily identified, finally, the data are read through the analyzer body 40, so that the detection of the viscosity, the temperature or the components of the oil liquid is realized without different sensors, the steps are simple, and the detection efficiency of the oil liquid is greatly improved.

Standard parts used in the file of the application can be purchased from market, and can be customized according to the description of the specification and the drawings, the specific connection modes of all parts adopt conventional means such as mature bolts, rivets, welding and the like in the prior art, the machinery, the parts and the equipment adopt conventional models in the prior art, the control mode is controlled automatically by a controller, a control circuit of the controller can be realized by simple programming of a person skilled in the art, the application belongs to common general knowledge in the art, and the application is mainly used for protecting mechanical devices, so the application does not explain the control mode and circuit connection in detail.

While the utility model has been described with reference to preferred embodiments, it is not intended to be limiting. Those skilled in the art will appreciate that various modifications and adaptations can be made without departing from the spirit and scope of the present utility model. Accordingly, the scope of the utility model is defined by the appended claims.

Claims (6)

1. The utility model provides a novel sensor of trinity, includes brace table (1), its characterized in that: the utility model provides a supporting bench, the top fixedly connected with supporting bench (1), the top of supporting bench (2) is provided with elevating system (3), the right side of elevating system (3) is provided with fixture block (5), the right side of fixture block (5) is provided with sensor mechanism (4), sensor mechanism (4) are including analyzer body (40), the bottom of analyzer body (40) is provided with composition detection mechanism (41), the bottom of composition detection mechanism (41) is provided with viscosity detection mechanism (42), the bottom of viscosity detection mechanism (42) is provided with position sensing mechanism (43), composition detection mechanism (41) are including composition detector body (410), viscosity detection mechanism (42) are including viscosity detector body (420), position sensing mechanism (43) are including position sensor body (430), composition detector body (410), viscosity detector body (420) and the output of position sensor body (430) all with the input electric connection of analyzer body (40).

2. The three-in-one novel sensor as claimed in claim 1, wherein: the bottom fixedly connected with coupling mechanism (44) of analysis appearance body (40), coupling mechanism (44) are including fixed block (440), the bottom fixedly connected with second connecting block (441) of fixed block (440), the top fixedly connected with third connecting block (411) of composition detector body (410), the top of third connecting block (411) can extend to the inner chamber of second connecting block (441) and with the inner chamber swing joint of second connecting block (441), second screw hole (413) have been seted up in the front of third connecting block (411), first screw hole (442) have been seted up in the front of second connecting block (441), the front of first screw hole (442) is provided with first bolt body (443), the one end of first bolt body (443) extends to the inner chamber of first screw hole (442) and second screw hole (413) and with the inner chamber threaded connection of first screw hole (442) and second screw hole (413).

3. The three-in-one novel sensor as claimed in claim 1, wherein: the bottom fixedly connected with fourth connecting block (412) of ingredient detector body (410), the top fixedly connected with fifth connecting block (421) of viscosity detector body (420), the top of fifth connecting block (421) can extend to the inner chamber of fourth connecting block (412) and with the inner chamber swing joint of fourth connecting block (412), fourth screw hole (422) have been seted up in the front of fifth connecting block (421), third screw hole (414) have been seted up in the front of fourth connecting block (412), the front of third screw hole (414) is provided with second bolt body (423), the one end of second bolt body (423) extends to in the inner chamber of third screw hole (414) and fourth screw hole (422) and with the inner chamber threaded connection of third screw hole (414) and fourth screw hole (422).

4. The three-in-one novel sensor as claimed in claim 1, wherein: the bottom fixedly connected with sixth connecting block (424) of viscosity detector body (420), the top fixedly connected with seventh connecting block (431) of position sensor body (430), the top of seventh connecting block (431) extend to the inner chamber of sixth connecting block (424) and with the inner chamber swing joint of sixth connecting block (424), sixth screw hole (432) have been seted up in the front of seventh connecting block (431), third bolt body (434) have been seted up in the front of sixth connecting block (424), the front of third bolt body (434) sets up because third bolt body (434), the one end of third bolt body (434) extends to the inner chamber of fifth screw hole (433) and sixth screw hole (432) and with the inner chamber threaded connection of fifth screw hole (433) and sixth screw hole (432).

5. The three-in-one novel sensor as claimed in claim 1, wherein: elevating system (3) are including protection box (301), the back fixedly connected with motor (302) of protection box (301) inner chamber, the output shaft transmission of motor (302) is connected with gear (303), the right side meshing of gear (303) has rack (304), the lower extreme fixedly connected with first connecting block (305) on rack (304) right side and the one end of first connecting block (305) run through to the outside of protection box (301), spout (306) have all been seted up at the front and the back of protection box (301) inner chamber, the front and the equal fixedly connected with slider (307) of back of rack (304), one side that rack (304) were kept away from to slider (307) extends to in the inner chamber of spout (306) and with the inner chamber sliding connection of spout (306).

6. The three-in-one novel sensor as claimed in claim 5, wherein: the left side fixedly connected with fixture block (5) of analysis appearance body (40), first spacing hole (6) have been seted up at the top of fixture block (5), second spacing hole (7) have been seted up at the top of first connecting block (305), the top of fixture block (5) is provided with inserted block (8), the lower extreme of inserted block (8) extends to in the inner chamber of first spacing hole (6) and second spacing hole (7) and with the inner chamber swing joint of first spacing hole (6) and second spacing hole (7).