CN219039235U - Signal data detector for TSI system - Google Patents

Abstract

The utility model discloses a signal data detector for a TSI system, and relates to the technical field of TSI systems. The detector comprises a detector body, wherein a transparent cover is arranged on the upper side of the detector body, a splice plate is fixed at the position of the lower side of the detector body corresponding to an assembling port, and a locking plate is arranged in the blocking port; a protective cylinder is fixed on the front side of the transparent cover, and a pushing ring plate is sleeved on the rear part of the surface side of the protective cylinder; the left and right parts of the lower side of the front end and the rear end of the transparent cover are respectively fixed with a plugboard; the front side of the circular plate is fixed with a plug rod. According to the utility model, through the matched assembly of the assembling plate and the locking plate, the stable connection between the detector body and the mounting plate is realized, the stable installation of the detector body is ensured, the plugging work between the plugging rod and the plugging plate is realized, the quick assembly and disassembly of the transparent cover are realized, the transparent cover is quickly replaced, the ring plate is pushed to move on the surface side of the protective cylinder, the storage protection of the corrugated detection line head is realized, and the damage of the corrugated detection line head is avoided.

Description

Signal data detector for TSI system

Technical Field

The utility model belongs to the technical field related to TSI systems, and particularly relates to a signal data detector for a TSI system.

Background

The TSI system is a permanent monitoring system integrating protection and detection functions and is mainly used for an essential protection system of a large machine, the TSI system can reliably monitor and store some important parameters in the starting and running processes of a machine set and can also provide corresponding data for fault diagnosis, so before the TSI system engineering, in order to ensure the stability of signals of the TSI system, the TSI system is generally subjected to signal data detection in advance, and therefore, a corresponding signal data detector is used, but the TSI system still has the following defects in actual use:

1. when the signal data detector is arranged on large-scale mechanical equipment, the effects of easy disassembly and stability cannot be well combined, so that the service efficiency of the signal data detector can be affected to a certain extent;

2. in order to prevent collision of the signal data detector, a protection structure is arranged on the surface side of the signal data detector, and the protection structure adopts an integrated structure, so that the outer surface of the protection structure cannot be quickly disassembled after being damaged, and the replacement efficiency is reduced;

3. when the signal data detector is used, the detection line head is used for signal detection, so that the detector is not used, and the detection line head is not stored and protected, so that the detection line head is collided, damage is caused, and the detection work of the detector is affected.

Therefore, the signal data detector for the conventional TSI system cannot meet the requirements in practical use, so that there is a strong need for an improved technology in the market to solve the above-mentioned problems.

Disclosure of Invention

The utility model aims to provide a signal data detector for a TSI system, which is characterized in that the connection between a detector body and a mounting plate is stable through the matching assembly of a splicing plate and a locking plate, the mounting of the detector body is stable, the splicing operation between a splicing rod and a splicing plate is realized, the quick assembly and disassembly of a transparent cover are realized, the transparent cover is quickly replaced, the movement of a ring plate on the surface side of a protection barrel is pushed, the storage protection of corrugated detection line heads is realized, and the damage of the corrugated detection line heads is avoided.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to a signal data detector for a TSI system, which comprises a detector body, wherein a transparent cover is arranged on the upper side of the detector body, a mounting plate is arranged on the lower side of the detector body, a blocking opening is formed in the middle of the lower side of the mounting plate, an assembling opening is formed in the inner end surface of the blocking opening, a splice plate is fixed at the position, corresponding to the assembling opening, of the lower side of the detector body, and a locking plate is arranged in the blocking opening;

the front side of the transparent cover is fixed with a protection cylinder, the middle part of the front side of the detector body is provided with a wire holder, the corrugated detection wire head spliced by the wire holder is positioned in the protection cylinder, and the rear part of the surface side of the protection cylinder is sleeved with a pushing ring plate;

the front part of the upper side of the transparent cover is provided with an operation opening, the position of the operation opening is provided with an operation plate, the rear part of the upper side of the operation plate is fixed with a U-shaped plate, and the left side and the right side of the transparent cover at the rear side of the U-shaped plate are both fixed with limiting plates;

the left and right parts of the lower side of the front end and the rear end of the transparent cover are respectively fixed with a plugboard, and the upper end of the mounting plate is provided with a plugboard at the position corresponding to the plugboard;

wherein, the round hole has all been seted up to the relative lateral wall of two grafting mouthfuls of front and back, and the regulation strip hole has all been seted up to the inner end of round hole, and square mouth has all been seted up to the mounting panel downside that is located two grafting mouthfuls of left and right sides below, and square mouthful inboard all is provided with the movable plate, and the position all is fixed with the slider about the movable plate upside, and the other end of slider all is fixed with the plectrum, and the front side of plectrum all is fixed with the plug rod.

Further, four grooves are uniformly distributed on the surface side of the splice plate in an annular mode, four arc-shaped openings are uniformly distributed on the upper side of the splice plate in an annular mode, and the arc-shaped openings are communicated with the corresponding grooves in a clockwise mode.

Further, clamping rods are fixed on the side walls of the arc-shaped openings opposite to the grooves, and the height of each clamping rod is equal to half of the height of each arc-shaped opening.

Further, the upside of the locking plate is fixed with a transfer cylinder in the splicing opening, the positions of the inner side walls of the upper parts of the transfer cylinder corresponding to the grooves are respectively fixed with a pull plate, the side walls of the pull plates are respectively provided with a clamping hole, and the side walls of the locking plate in the transfer cylinder are respectively fixed with an extrusion spring connected with the splice plate.

Further, four movable strip openings are uniformly distributed on the surface side of the protection cylinder, and movable rods are fixed between the front side and the rear side of the inner part of each movable strip opening.

Further, the side walls of the pushing ring plates corresponding to the movable strip openings are respectively fixed with a movable block sleeved on the surface side of the movable rod, the front side walls of the movable blocks in the protection cylinder are respectively fixed with a pushing plate, and the front sides of the pushing plates are connected with the surface side of the corrugated detection line head.

Further, the side walls of the movable blocks are provided with movable holes sleeved on the surface side of the movable rod, and the front sides of the movable blocks are fixedly provided with reset springs sleeved on the surface side of the movable rod.

Further, strip-shaped openings are formed between the inner part of the adjusting strip hole and the square opening, insertion holes are formed in the side wall of the plug board at positions corresponding to the round holes, round plates are arranged in the inner parts of the adjacent adjusting strip holes, and the insertion rods penetrate through the round holes and are arranged in the inner positions of the corresponding insertion holes.

Further, the side walls of the circular plates opposite to the circular holes are respectively fixed with an assembling spring, and the other ends of the assembling springs are connected with the inner end surfaces of the adjusting strip holes.

Further, limiting rods are fixed on the upper and lower portions of the front side of the limiting plate, pushing springs sleeved on the surface side of the limiting rods are fixed on the front side of the limiting plate, and limiting holes are formed in the side walls of the U-shaped plates at positions corresponding to the limiting rods.

The utility model has the following beneficial effects:

1. the utility model aligns the position of the pulling plate with the groove and moves the locking plate towards the direction of the splicing plate, thereby moving the pulling plate to the position of the arc-shaped opening, rotating the locking plate at the moment, rotating the pulling plate to the position of the clamping rod, loosening the locking plate, further pushing the locking plate by the extrusion spring, thereby directly clamping the clamping hole on the side wall of the pulling plate on the clamping rod, preventing the pulling plate from randomly deflecting at the position inside the arc-shaped opening, and assembling the locking plate and the splicing plate together, otherwise, rapidly separating the locking plate from the splicing plate, thereby realizing the work of quickly disassembling and fixing the detector body through the mounting plate, ensuring the stable connection between the detector body and the mounting plate and ensuring the stable installation of the detector body.

2. The utility model is provided with the plug board and the plug rod, and the movable board can move in the square opening by moving the movable board in the square opening, so that the movable board can drive the circular plate to move in or out of the adjusting strip hole by the sliding block, the circular plate can drive the plug rod to move in or out of the jack, the plug board can be limited in the plugging opening or the plug board can be taken out in the plugging opening at any time, and the transparent cover can be quickly disassembled and assembled, so that the transparent cover can be quickly replaced.

3. According to the utility model, the push ring plate moves on the surface side of the protective cylinder, so that the push plate can be driven by the movable block to move in the protective cylinder, the push plate can directly push the corrugated detection line head to move out in the protective cylinder, and meanwhile, when the push ring plate is loosened, the push ring plate can be pushed to an initial position by the reset spring, so that the corrugated detection line head can be pulled back and directly retracted into the protective cylinder, thereby realizing that the corrugated detection line head can be protected when not used, and effectively avoiding the damage of the corrugated detection line head.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic top view of an overall structure;

FIG. 2 is a schematic view of the overall structure from below;

FIG. 3 is a block diagram of a transparent cover;

FIG. 4 is a schematic bottom view of the detector body;

FIG. 5 is a block diagram of the locking plate;

FIG. 6 is an assembly block diagram of a mounting plate and a moving plate;

FIG. 7 is a block diagram of a mobile plate;

FIG. 8 is a block diagram of a splice plate;

FIG. 9 is a block diagram of a push ring plate;

FIG. 10 is a block diagram of a mounting plate;

fig. 11 is a structural view of the operation panel.

In the drawings, the list of components represented by the various numbers is as follows:

1. a transparent cover; 101. a protective cylinder; 1011. a movable strip opening; 1012. a movable rod; 102. a limiting plate; 1021. a limit rod; 1022. pushing and extruding a spring; 103. an operation port; 104. a plug board; 1041. a jack; 2. a detector body; 201. splice plates; 2011. an arc-shaped opening; 2012. a groove; 2013. a clamping rod; 202. a corrugated detection wire head; 203. a wire holder; 3. a mounting plate; 301. a square mouth; 302. a blocking opening; 303. an assembling port; 304. adjusting the strip hole; 305. an interface; 306. a round hole; 307. a strip-shaped opening; 4. an operation panel; 401. a U-shaped plate; 402. a limiting hole; 5. pushing the ring plate; 501. a movable block; 502. a movable hole; 503. a push plate; 504. a return spring; 6. a moving plate; 601. a slide block; 602. a circular plate; 603. inserting a connecting rod; 604. assembling a spring; 7. a locking plate; 701. a transfer cylinder; 702. extruding a spring; 703. pulling a plate; 704. and (5) clamping the hole.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1 to 11, the utility model discloses a signal data detector for a TSI system, which comprises a detector body 2, wherein a transparent cover 1 is arranged on the upper side of the detector body 2, a mounting plate 3 is arranged on the lower side of the detector body 2, a blocking opening 302 is arranged in the middle of the lower side of the mounting plate 3, an assembling opening 303 is arranged on the inner end surface of the blocking opening 302, an assembling plate 201 is fixed at the position of the lower side of the detector body 2 corresponding to the assembling opening 303, a locking plate 7 is arranged in the blocking opening 302, and when the detector body 2 is connected with the mounting plate 3, the assembling plate 201 on the lower side of the detector body 2 can be put into the inner position of the assembling opening 303 on the side wall of the mounting plate 3, and the mounting plate 3 and the assembling plate 201 are assembled together through the locking plate 7, so that the mounting plate 3 and the detector body 2 are assembled together;

the front side of the transparent cover 1 is fixed with a protection cylinder 101, the middle part of the front side of the detector body 2 is provided with a wire holder 203, a corrugated detection wire head 202 spliced by the wire holder 203 is positioned in the inner position of the protection cylinder 101, and the rear part of the surface side of the protection cylinder 101 is sleeved with a pushing ring plate 5; when the TSI system needs to be subjected to signal data detection, the pushing ring plate 5 is moved in a direction away from the transparent cover 1, so that the pushing ring plate 5 drives the corrugated detection wire head 202 to move out of the inside of the protective barrel 101, and at the moment, a signal wire on the TSI system can be spliced at the position of the corrugated detection wire head 202, and the detector body 2 is operated to perform signal detection processing on the TSI system;

wherein, the front part of the upper side of the transparent cover 1 is provided with an operation opening 103, the position of the operation opening 103 is provided with an operation plate 4, the rear part of the upper side of the operation plate 4 is fixed with a U-shaped plate 401, the left side and the right side of the transparent cover 1 at the rear side of the U-shaped plate 401 are both fixed with a limiting plate 102, in order to operate the detector body 2 in the transparent cover 1, the operation plate 4 can be moved in the direction of the upper side of the transparent cover 1 away from the protection cylinder 101, thereby the operation plate 4 directly exposes the position of the operation opening 103, and at the moment, the operation treatment can be performed on the detector body 2 in the transparent cover 1;

plug boards 104 are fixed at the left and right parts of the lower sides of the front end and the rear end of the transparent cover 1, and plug interfaces 305 are arranged at the positions of the upper end of the mounting plate 3 corresponding to the plug boards 104; the opposite side walls of the two plug ports 305 which are consistent in front and back directions are provided with round holes 306, the inner end parts of the round holes 306 are provided with adjusting strip holes 304, the lower sides of the mounting plates 3 below the two plug ports 305 which are consistent in left and right directions are provided with square ports 301, the inner sides of the square ports 301 are provided with movable plates 6, the left and right parts of the upper sides of the movable plates 6 are respectively fixed with a sliding block 601, the other ends of the sliding blocks 601 are respectively fixed with a circular plate 602, and the front sides of the circular plates 602 are respectively fixed with a plug rod 603;

through the use of the arrangement of the structure, when the transparent cover 1 needs to be dismounted at the upper side of the mounting plate 3, the movable plate 6 can be moved in the direction away from the plug-in port 305 in the square port 301, so that the movable plate 6 can directly drive the circular plate 602 to move in the direction away from the plug-in port 305 through the sliding block 601, and the circular plate 602 further drives the plug-in rod 603 to be pulled out from the jack 1041, so that the plug-in rod 603 does not limit the plug-in plate 104 in the plug-in port 305, and at the moment, the transparent cover 1 can be directly moved upwards, so that the detector body 2 is exposed in the transparent cover 1, and meanwhile, the corrugated detection wire head 202 is pulled out from the position of the wire holder 203, so that the transparent cover 1 and the mounting plate 3 are dismounted.

As shown in fig. 2, 4, 5, 6 and 8, four grooves 2012 are uniformly distributed on the surface side of the splice plate 201 in an annular shape, four arc openings 2011 are uniformly distributed on the upper side of the splice plate 201 in an annular shape, the arc openings 2011 are communicated with the corresponding grooves 2012 in a clockwise direction, clamping rods 2013 are fixed on the side walls of the arc openings 2011 opposite to the grooves 2012, the height of the clamping rods 2013 is equal to half of the height of the arc openings 2011, a switching cylinder 701 positioned in the splicing opening 303 is fixed on the upper side of the locking plate 7, a pull plate 703 is fixed on the position of the inner side wall of the upper part of the switching cylinder 701 corresponding to the grooves 2012, clamping holes 704 are formed in the side walls of the pull plate 703, the locking plate 7 is positioned on the side wall of the inner part of the switching cylinder 701, an extrusion spring 702 connected with the splice plate 201 is fixed on the side wall of the locking plate 7, when the locking plate 7 and the splice plate 201 are required to be assembled together, the positions of the locking plate 703 can be aligned with the grooves, the locking plate 7 can be moved towards the direction of the splice plate 201, and accordingly the positions of the clamping plates 2013 can be moved to the positions of the arc openings 2011, and the clamping springs can be compressed, and the clamping plates can be directly compressed and the positions of the clamping plates 702 can not be pushed by the extrusion position of the clamping plate 703 on the side walls 2013, and the side walls can be directly compressed by the clamping plate 703, and the extrusion position of the clamping springs can be compressed and the position of the clamping plate 703.

As shown in fig. 3, 4 and 9, four movable strip openings 1011 are uniformly distributed on the surface side of the protection cylinder 101, a movable rod 1012 is fixed between the front side and the rear side of the inside of the movable strip openings 1011, movable blocks 501 sleeved on the surface side of the movable rod 1012 are fixed on the side walls of the movable strip openings 1011 corresponding to the push ring plate 5, push plates 503 are fixed on the front side walls of the inside of the protection cylinder 101, the front side of the push plates 503 are connected with the surface side of the ripple detection thread end 202, movable holes 502 sleeved on the surface side of the movable blocks 501 are formed on the side walls of the movable blocks 501, return springs 504 sleeved on the surface side of the movable rod 1012 are fixed on the front side of the movable blocks 501, and when the surface side of the protection cylinder 101 is pushed to move away from the transparent cover 1, the push ring plate 5 drives the movable blocks 501 to move inside the movable strip openings 1011, meanwhile the movable blocks 501 slide on the surface side of the movable rod 1012 through the movable holes 502, and the movable blocks 501 compress reset springs 504, so that the movable blocks 202 drive the ripple detection thread end 202 to move out of the inside of the protection cylinder 101.

As shown in fig. 3, 6, 7, 10 and 11, a bar-shaped opening 307 is formed between the interior of the adjusting bar hole 304 and the square opening 301, insertion holes 1041 are formed on the side wall of the plug board 104 at positions corresponding to the round holes 306, round boards 602 are disposed inside the adjacent adjusting bar hole 304, the insertion rods 603 pass through the round holes 306 and are disposed at the interior positions of the corresponding insertion holes 1041, the side walls of the round boards 602 opposite to the round holes 306 are respectively fixed with an assembly spring 604, the other ends of the assembly springs 604 are connected with the inner end surfaces of the adjusting bar holes 304, when the insertion rods 603 are required to be moved out of the inside of the insertion holes 1041, the moving board 6 is pushed to drive the sliding blocks 601 to slide inside the bar-shaped openings 307, and drive the round boards 602 to move inside the adjusting bar holes 304, and then the round boards 602 are subjected to extrusion treatment on the assembly springs 604, meanwhile, the inserting rod 603 is directly driven to move out of the jack 1041, otherwise, when the moving plate 6 is loosened, the assembling spring 604 can directly push the circular plate 602 to move towards the inserting plate 104, and the inserting rod 603 is inserted into the jack 1041, so that the inserting plate 104 is limited in the inserting port 305, limiting rods 1021 are fixed on the upper and lower portions of the front side of the limiting plate 102, limiting holes 402 are formed in the front side of the limiting plate 102 at positions corresponding to the limiting rods 1021 in a sleeved mode on the side wall of the limiting plate 102, the U-shaped plate 401 can drive the operating plate 4 to move through moving the U-shaped plate 401, and after the operating plate 4 moves away from the position of the operating port 103, the U-shaped plate 401 can slide on the surface side of the limiting rods 1021 through the limiting holes 402, and meanwhile the U-shaped plate 401 can perform extrusion treatment on the limiting rods 1022.

The foregoing is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, and any modification, equivalent replacement, and improvement of some of the technical features described in the foregoing embodiments are all within the scope of the present utility model.

Claims (10)

1. Signal data detector for TSI system, comprising a detector body (2), characterized in that: the detector comprises a detector body (2), and is characterized in that a transparent cover (1) is arranged on the upper side of the detector body (2), a mounting plate (3) is arranged on the lower side of the detector body (2), a blocking opening (302) is formed in the middle of the lower side of the mounting plate (3), an assembling opening (303) is formed in the inner end surface of the blocking opening (302), a splice plate (201) is fixed at the position, corresponding to the assembling opening (303), of the lower side of the detector body (2), and a locking plate (7) is arranged in the blocking opening (302);

the front side of the transparent cover (1) is fixedly provided with a protection cylinder (101), the middle part of the front side of the detector body (2) is provided with a wire holder (203), a corrugated detection wire head (202) inserted by the wire holder (203) is positioned at the inner position of the protection cylinder (101), and the rear part of the surface side of the protection cylinder (101) is sleeved with a pushing annular plate (5);

an operation port (103) is formed in the front portion of the upper side of the transparent cover (1), an operation plate (4) is arranged at the position of the operation port (103), a U-shaped plate (401) is fixed at the rear portion of the upper side of the operation plate (4), and limiting plates (102) are fixed on the left side and the right side of the transparent cover (1) at the rear side of the U-shaped plate (401);

plug boards (104) are fixed at the left and right parts of the lower sides of the front end and the rear end of the transparent cover (1), and plug interfaces (305) are arranged at positions of the upper end of the mounting plate (3) corresponding to the plug boards (104);

wherein round holes (306) are formed in opposite side walls of the two plug ports (305) which are consistent in the front-rear direction, adjusting strip holes (304) are formed in inner end portions of the round holes (306), square ports (301) are formed in the lower sides of the mounting plates (3) which are located below the two plug ports (305) which are consistent in the left-right direction, moving plates (6) are arranged on the inner sides of the square ports (301), sliding blocks (601) are fixed on the left-right portions of the upper sides of the moving plates (6), circular plates (602) are fixed at the other ends of the sliding blocks (601), and inserting rods (603) are fixed on the front sides of the circular plates (602).

2. A signal data detector for a TSI system according to claim 1, wherein: four grooves (2012) are formed in the surface side of the splice plate (201) in an annular uniformly distributed mode, four arc-shaped openings (2011) are formed in the upper side of the splice plate (201) in an annular uniformly distributed mode, and the arc-shaped openings (2011) are communicated with the corresponding grooves (2012) in a clockwise mode.

3. A signal data detector for a TSI system according to claim 2, wherein: clamping rods (2013) are fixed on the side walls of the arc-shaped openings (2011) opposite to the grooves (2012), and the height of each clamping rod (2013) is equal to half of the height of each arc-shaped opening (2011).

4. A signal data detector for a TSI system according to claim 3, characterized in that: the upper side of locking plate (7) is fixed with and is in transfer section of thick bamboo (701) of assembling mouthful (303) inside, the inside wall at transfer section of thick bamboo (701) upper portion corresponds the position department of recess (2012) all is fixed with arm-tie (703), clamping hole (704) have all been seted up on the lateral wall of arm-tie (703), locking plate (7) are in be fixed with on the lateral wall of transfer section of thick bamboo (701) inside with extrusion spring (702) that splice plate (201) meets.

5. A signal data detector for a TSI system according to claim 1, wherein: four movable strip openings (1011) are uniformly distributed on the surface side of the protection cylinder (101), and movable rods (1012) are fixed between the front side and the rear side of the inside of the movable strip openings (1011).

6. A signal data detector for a TSI system according to claim 5, wherein: the movable blocks (501) sleeved on the surface sides of the movable rods (1012) are fixed on the side walls of the pushing ring plates (5) corresponding to the movable strip openings (1011), pushing plates (503) are fixed on the front side walls of the movable blocks (501) inside the protection cylinder (101), and the front sides of the pushing plates (503) are connected with the surface sides of the corrugated detection wire heads (202).

7. The signal data detector for TSI system of claim 6, wherein: the side walls of the movable blocks (501) are respectively provided with a movable hole (502) sleeved on the surface side of the movable rod (1012), and the front sides of the movable blocks (501) are respectively fixedly provided with a reset spring (504) sleeved on the surface side of the movable rod (1012).

8. A signal data detector for a TSI system according to claim 1, wherein: strip mouth (307) have all been seted up between the inside of regulation strip hole (304) and square mouth (301), jack (1041) have all been seted up to the position department that corresponds on the lateral wall of plugboard (104) round hole (306), plectane (602) are arranged in near the inside of regulation strip hole (304), grafting pole (603) pass round hole (306) and are arranged in the inside position of corresponding jack (1041).

9. A signal data detector for a TSI system according to claim 1, wherein: and the side walls of the circular plate (602) opposite to the circular holes (306) are respectively fixedly provided with an assembling spring (604), and the other ends of the assembling springs (604) are connected with the inner end surfaces of the adjusting strip holes (304).

10. A signal data detector for a TSI system according to claim 1, wherein: limiting rods (1021) are fixed on the upper and lower portions of the front side of the limiting plate (102), pushing springs (1022) sleeved on the surface side of the limiting rods (1021) are fixed on the front side of the limiting plate (102), and limiting holes (402) are formed in the side wall of the U-shaped plate (401) at positions corresponding to the limiting rods (1021).

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