CN219084122U - Mounting structure of high-frequency CT sensor - Google Patents

Abstract

The application discloses mounting structure of high frequency CT sensor relates to high frequency CT sensor installation technical field, including two grip blocks that are arc structure, one of them one end of two grip blocks is rotated through hinge structure and is connected. This application sets up through the cooperation between structures such as grip block, the pivot, the slide bar, slide bar and mount pad, the user passes through the grip block centre gripping back accessible mounting panel with high frequency CT sensor and fixes, user accessible rotation axis carries out angle modulation to high frequency CT sensor vertical direction, carry out horizontal direction angle modulation to high frequency CT sensor through rotatory slide bar, height through sliding slide bar regulation high frequency CT sensor, make high frequency CT sensor still can counterpoint high frequency CT sensor through the fine adjustment after fixed, the unable fine adjustment of current high frequency CT sensor fixing device after fixed has been avoided as far as possible, when fix a position inaccurately, need dismantle again and install after the location, inconvenient user carries out the problem of use.

Description

Mounting structure of high-frequency CT sensor

Technical Field

The application relates to the technical field of high-frequency CT sensor installation, in particular to an installation structure of a high-frequency CT sensor.

Background

The high-frequency CT sensor is a detection device, can sense the measured 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.

As shown in fig. 1 of the accompanying drawings, the conventional high-frequency CT sensor is generally directly clamped on the fixing seat, then is fixed by a bolt pair on the fixing seat, cannot be micro-adjusted after being fixed, and needs to be installed after being re-detached and positioned when being positioned inaccurately during fixing, so that the use of a user is inconvenient.

Disclosure of Invention

The present utility model aims to solve or at least alleviate the problems of the prior art.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a mounting structure of high frequency CT sensor, includes two grip blocks that are arc structure, two the one end of grip block is rotated through hinge structure and is connected, two equal fixedly connected with second connecting plate on the other end of grip block, two equal fixedly connected with otic placode in top of second connecting plate, two be equipped with the pivot between the otic placode, the both ends of pivot run through two the otic placode and with the otic placode rotates to be connected, the pivot is located be equipped with limit structure on the one end in the otic placode outside, fixedly connected with slide bar on the intermediate section of pivot, the slide bar is kept away from the one end cover of pivot is equipped with the slide tube, the slide tube with slide bar sliding connection, the slide tube is kept away from the one end cover of slide bar is equipped with the connecting seat, the connecting seat with the slide tube rotates to be connected, one side fixedly connected with mounting panel, wear to be equipped with a plurality of screws that are used for the fixed action on the mounting panel.

Optionally, the hinge structure includes two fixed connection the first connecting plate on the grip block tip, two be equipped with the hinge between the first connecting plate, two pass through between the first connecting plate the hinge rotates and connects.

Through adopting above technical scheme, during the use, at first, rotate two grip blocks, make two grip blocks open in opposite directions, then put into the clearance inside between two grip blocks with the high frequency CT sensor that will install, and simultaneously reverse rotation two grip blocks carry out the centre gripping to high frequency CT sensor, after the centre gripping is accomplished, the user runs through the otic placode through second connecting plate fixed connection on two grip blocks with the pivot, and fix through the limit structure in the otic placode outside, after the fixed, the user aligns the mounting panel and need carry out the position of installing, then pass the mounting panel with the screw and with external arrangement spiro union, fix the mounting panel, can accomplish the installation to high frequency CT sensor, when the deviation appears in high frequency CT sensor mounted position, can loosen limit structure and rotate the pivot, drive the vertical angle of adjustment high frequency CT sensor through the pivot, then rotate the slide bar and drive the slide bar and adjust the horizontal angle of high frequency CT sensor in the connecting seat inner chamber, also can follow the slide bar and adjust the height of high frequency CT sensor upwards or downwards, through angle and high accuracy fine setting sensor need not be carried out the direct after the fixed position is realized to the high frequency CT sensor, the problem is avoided when the accurate positioning is difficult to carry out in the fixed position is fixed to the user.

Optionally, two the equal fixedly connected with rectangle frame in middle of first connecting plate, set up the detection hole with high frequency CT sensor detection end size looks adaptation on the rectangle frame.

Through adopting above technical scheme, set up two first connecting plates and hinge, make between two grip blocks through first connecting plate and hinge rotation connection each other, make things convenient for the user reverse rotation two grip blocks open the grip block, place high frequency CT sensor and carry out the centre gripping fixedly through the grip block between two grip blocks.

Optionally, a wiring channel for connecting the high-frequency CT sensor with external equipment is reserved between the two second connection plates.

Through adopting above technical scheme, make the user carry out the centre gripping back through the grip block, the detection end of high frequency CT sensor can spill through the detection hole of seting up on the rectangle frame, avoid receiving to block at the detection end of centre gripping in-process high frequency CT sensor, influence the problem of the use of detector.

Optionally, the limit structure includes two cover locate epaxial spacing rings, the internal thread has been seted up to spacing ring inside, the spacing ring passes through the internal thread with pivot looks spiro union.

Through adopting above technical scheme, after the user wears to locate two otic placodes with the pivot inside, the user can establish the spacing ring cover on the pivot is located the one end in the otic placode outside to carry out spacingly to the pivot through the spiro union mode, thereby realize stabilizing the centre gripping to high frequency CT sensor, avoid the pivot to drop from the otic placode inner chamber as far as possible.

Optionally, the slide bar is located one section in the slide tube inner chamber is prismatic structure, the slide tube with the junction of slide bar is equipped with the spacing bolt, the spacing bolt runs through the slide tube and with the slide tube looks spiro union, the spacing bolt is located one end in the slide tube inner chamber with slide bar surface looks butt.

Through adopting above technical scheme, be arranged the slide bar and be set up to prismatic structure with the one section that the slide bar is arranged in the slide tube inner chamber, when making the slide bar can be in the slide tube mutual slip, prevent that the slide bar from producing relative rotation with the slide tube, after the slide bar is slided and is adjusted to suitable position to the user, can be to the inside spiral shell of slide tube spacing bolt, extrude the slide bar through spacing bolt, increase the frictional force between slide bar and the slide tube inner wall to make slide tube and slide bar relatively fixed.

Optionally, the slip pipe top runs through the connecting seat, the slip pipe is located on the one end at connecting seat top is fixedly connected with twister, the anti-skidding line has been seted up to twister week side.

Through adopting above technical scheme, set up to twist the hand, convenience of customers rotates to twist the hand and drives the slide tube and rotate to drive high frequency CT sensor and rotate, carry out horizontal direction's angle adjustment work to high frequency CT sensor, offer anti-skidding line on twisting the hand, can increase the frictional force between twisting hand and the user's finger, convenience of customers uses.

In summary, the beneficial effects of the application are as follows:

this application sets up through the cooperation between structures such as grip block, the pivot, the slide bar, slide bar and mount pad, the user passes through the grip block centre gripping back accessible mounting panel with high frequency CT sensor and fixes, after fixing, user accessible rotation axis carries out angle modulation to high frequency CT sensor vertical direction, the accessible rotation slide bar carries out horizontal direction angle modulation to high frequency CT sensor, also the height of high frequency CT sensor is adjusted to the accessible slip slide bar, make high frequency CT sensor still can counterpoint high frequency CT sensor through the fine adjustment after fixing, the problem that current high frequency CT sensor fixing device can't carry out the fine adjustment after fixing has been avoided as far as possible, need dismantle the location again after installing when fixing inaccurately, inconvenient user uses.

Drawings

FIG. 1 is a schematic diagram of a prior art sensor mounting structure;

FIG. 2 is a schematic overall perspective view of the present application;

FIG. 3 is a schematic view of the connection structure of the slide bar, slide tube, connection base and mounting plate of the present application;

fig. 4 is a schematic view of a connection structure of two clamping plates in the present application.

Reference numerals illustrate: 1. a clamping plate; 2. a first connection plate; 3. a hinge; 4. a rectangular frame; 5. a second connecting plate; 6. ear plates; 7. a rotating shaft; 8. a limiting ring; 9. a slide bar; 10. a fixing ring; 11. a slide tube; 12. a limit bolt; 13. a connecting seat; 14. screwing the hand; 15. a mounting plate; 16. and (5) a screw.

Detailed Description

The present application is described in further detail below in conjunction with figures 2-4.

Referring to fig. 2 to 4, the mounting structure of the high-frequency CT sensor includes two clamping plates 1 having an arc structure, wherein one ends of the two clamping plates 1 are rotatably connected through a hinge structure. The two clamping plates 1 can be oppositely and rotatably sleeved on the outer surface of the high-frequency CT sensor to clamp and fix the high-frequency CT sensor.

The other ends of the two clamping plates 1 are fixedly connected with second connecting plates 5, and the tops of the two second connecting plates 5 are fixedly connected with lug plates 6. A rotating shaft 7 is arranged between the two ear plates 6, and two ends of the rotating shaft 7 penetrate through the two ear plates 6 and are rotationally connected with the ear plates 6. One end of the rotating shaft 7, which is positioned outside the ear plate 6, is provided with a limiting structure. When a user sets two clamping plates 1 on the periphery of the high-frequency CT sensor to clamp the high-frequency CT sensor, the rotating shaft 7 penetrates through the two ear plates 6, and then the ear plates 6 are limited through the limiting structure, so that the two second connecting plates 5 are limited, and the high-frequency CT sensor is stably clamped.

The middle section of the rotating shaft 7 is sleeved with a fixed ring 10, the inner wall of the fixed ring 10 is fixedly connected with the rotating shaft 7, the outer surface of the fixed ring 10 is fixedly connected with a sliding rod 9, one end, far away from the rotating shaft 7, of the sliding rod 9 is sleeved with a sliding tube 11, and the sliding tube 11 is in sliding connection with the sliding rod 9. When the user installs, the height of the high-frequency CT sensor can be adjusted by sliding the slide tube 11 and the slide rod 9 in opposite directions.

One end of the slide tube 11 far away from the slide bar 9 is sleeved with a connecting seat 13, the connecting seat 13 is rotationally connected with the slide tube 11, after the installation is completed, a user can rotate the slide tube 11, and the high-frequency CT sensor clamped between the two clamping plates 1 is driven to rotate in the horizontal direction, so that the high-frequency CT sensor is adjusted in the horizontal direction.

One side of the connecting seat 13 is fixedly connected with a mounting plate 15, and a plurality of screws 16 for fixing are arranged on the mounting plate 15 in a penetrating manner. The user is enabled to fix the entire mounting structure by means of the screws 16 on the connection seat 13.

During the use, at first, rotate two grip blocks 1, make two grip blocks 1 open in the opposite direction, then put into the clearance inside between two grip blocks 1 with the high frequency CT sensor that will install, and simultaneously reverse rotation two grip blocks 1 carry out the centre gripping to high frequency CT sensor, after the centre gripping is accomplished, the user runs through the otic placode 6 of 5 fixed connection of second connecting plate on two grip blocks 1 with pivot 7, and fix through the limit structure in the otic placode 6 outside, after the fixing, the user aligns mounting panel 15 and need carry out the position of installing, then pass mounting panel 15 with screw 16 and with external device spiro union, fix mounting panel 15, can accomplish the installation to high frequency CT sensor, when the deviation appears in high frequency CT sensor mounted position, can loosen limit structure and rotate the pivot, drive the vertical angle of grip block 1 through the pivot and rotate the vertical angle of adjusting high frequency CT sensor, then rotate slide bar 9 and drive slide tube 11 and adjust the horizontal angle of high frequency CT sensor in connecting seat 13 inner chamber, also can pass through the slide bar 11 high frequency CT sensor's high angle that the slide bar 9 is upwards or down, the accurate positioning is carried out to the high frequency CT sensor through the high frequency adjustment and high frequency CT sensor is carried out to the time of need not fixed to the fixed position, the accurate problem of the accurate positioning is avoided when the fixed user is difficult to carry out in the fixed position when the fixed position is fixed to the conventional positioning is carried out to the high frequency CT sensor, the accuracy is required to be fixed.

Referring to fig. 2 and 4, the hinge structure includes first connection plates 2 fixedly connected to ends of two clamping plates 1, a hinge 3 is provided between the two first connection plates 2, and the two first connection plates 2 are rotatably connected through the hinge 3. Two first connecting plates 2 and a hinge 3 are arranged, the two clamping plates 1 are connected through the first connecting plates 2 and the hinge 3 in a mutually rotating manner, a user can conveniently reversely rotate the two clamping plates 1 to open the clamping plates 1, and a high-frequency CT sensor is placed between the two clamping plates 1 and clamped and fixed through the clamping plates 1.

Referring to fig. 2, the middle sections of the two first connecting plates 2 are fixedly connected with a rectangular frame 4, and detection holes matched with the detection ends of the high-frequency CT sensors in size are formed in the rectangular frame 4. After the user clamps through the clamping plate 1, the detection end of the high-frequency CT sensor can leak through the detection hole formed in the rectangular frame 4, so that the problem that the use of the detector is affected due to the blocking of the detection end of the high-frequency CT sensor in the clamping process is avoided.

Referring to fig. 2, a connection path for a user to connect the high-frequency CT sensor with external equipment is left between the two second connection plates 5. A wiring channel is reserved between the two second connecting plates 5, so that a user can pass a wire on external equipment through the clamping plate 1 through the wiring channel and be connected with a high-frequency CT sensor clamped inside the clamping plate 1.

Referring to fig. 3, the limiting structure comprises two limiting rings 8 sleeved on the rotating shaft 7, wherein internal threads are formed in the limiting rings 8, and the limiting rings 8 are in threaded connection with the rotating shaft 7 through the internal threads. After the user wears the rotating shaft 7 inside the two ear plates 6, the user can sleeve the limiting ring 8 at one end of the rotating shaft 7, which is positioned outside the ear plates 6, and limit the rotating shaft 7 in a threaded manner, so that the high-frequency CT sensor is stably clamped, and the rotating shaft 7 is prevented from falling off from the inner cavity of the ear plates 6 as much as possible.

Referring to fig. 2 and 3, a section of the sliding rod 9 in the inner cavity of the sliding tube 11 is in a prismatic structure, a limit bolt 12 is arranged at the joint of the sliding tube 11 and the sliding rod 9, the limit bolt 12 penetrates through the sliding tube 11 and is in threaded connection with the sliding tube 11, and one end of the limit bolt 12 in the inner cavity of the sliding tube 11 is abutted against the outer surface of the sliding rod 9. The section of the sliding rod 9 in the inner cavity of the sliding tube 11 is set to be of a prismatic structure, so that the sliding rod 9 can slide relative to the sliding tube 11 while the sliding rod 9 can slide relative to the sliding tube 11, after a user adjusts the sliding rod 9 to a proper position in a sliding manner, the limiting bolt 12 can be screwed into the sliding tube 11, the sliding rod 9 is extruded through the limiting bolt 12, the friction between the sliding rod 9 and the inner wall of the sliding tube 11 is increased, and the sliding tube 11 and the sliding rod 9 are fixed relative to each other.

Referring to fig. 4, the top end of the sliding tube 11 penetrates through the connecting seat 13, a wrench 14 is fixedly connected to one end of the sliding tube 11, which is located at the top of the connecting seat 13, and anti-slip patterns are formed on the circumferential side of the wrench 14. The setting of twisting the hand 14 facilitates the user to rotate the twisting the hand 14 and drives the slide tube 11 to rotate, thereby drives the high-frequency CT sensor to rotate, carries out the angle adjustment work of horizontal direction to the high-frequency CT sensor, sets up anti-skidding line on twisting the hand 14, can increase the frictional force between twisting the hand 14 and the user's finger, and convenience of customers uses.

The implementation principle of the application is as follows: during the use, at first, rotate two grip blocks 1, make two grip blocks 1 open in the opposite direction, then put into the clearance inside between two grip blocks 1 with the high frequency CT sensor that will install, and simultaneously reverse rotation two grip blocks 1 carry out the centre gripping to high frequency CT sensor, after the centre gripping is accomplished, the user runs through the otic placode 6 of 5 fixed connection of second connecting plate on two grip blocks 1 with pivot 7, and fix through the limit structure in the otic placode 6 outside, after the fixing, the user aligns mounting panel 15 and need carry out the position of installing, then pass mounting panel 15 with screw 16 and with external device spiro union, fix mounting panel 15, can accomplish the installation to high frequency CT sensor, when the deviation appears in high frequency CT sensor mounted position, can loosen limit structure and rotate the pivot, drive the vertical angle of grip block 1 through the pivot and rotate the vertical angle of adjusting high frequency CT sensor, then rotate slide bar 9 and drive slide tube 11 and adjust the horizontal angle of high frequency CT sensor in connecting seat 13 inner chamber, also can pass through the slide bar 11 high frequency CT sensor's high angle that the slide bar 9 is upwards or down, the accurate positioning is carried out to the high frequency CT sensor through the high frequency adjustment and high frequency CT sensor is carried out to the time of need not fixed to the fixed position, the accurate problem of the accurate positioning is avoided when the fixed user is difficult to carry out in the fixed position when the fixed position is fixed to the conventional positioning is carried out to the high frequency CT sensor, the accuracy is required to be fixed.

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

Claims (7)

1. The utility model provides a mounting structure of high frequency CT sensor, includes two grip blocks (1) that are arc structure, its characterized in that, two wherein one end of grip blocks (1) is rotated through hinge structure and is connected, two equal fixedly connected with second connecting plate (5) on the other end of grip blocks (1), two equal fixedly connected with otic placode (6) in top of second connecting plate (5), two be equipped with pivot (7) between otic placode (6), the both ends of pivot (7) run through two otic placode (6) and with otic placode (6) rotate and are connected, pivot (7) are located be equipped with limit structure on the one end in the outside of otic placode (6), fixedly connected with slide bar (9) on the intermediate section of pivot (7), slide bar (9) are kept away from one end cover of pivot (7) is equipped with slide tube (11), slide tube (11) with slide bar (9) sliding connection, slide tube (11) are kept away from one end cover of slide bar (9) is equipped with connecting seat (13), connection screw (13) are equipped with, wherein be equipped with one side of connecting plate (15) is connected with one side (15) and is connected.

2. The mounting structure of a high-frequency CT sensor according to claim 1, wherein: the hinge structure comprises first connecting plates (2) fixedly connected to the end parts of the clamping plates (1), a hinge (3) is arranged between the two first connecting plates (2), and the two first connecting plates (2) are rotationally connected through the hinge (3).

3. The mounting structure of a high-frequency CT sensor according to claim 2, wherein: two equal fixedly connected with rectangle frame (4) of first connecting plate (2) interlude, set up on rectangle frame (4) with high frequency CT sensor detection end size looks adaptation's detection hole.

4. The mounting structure of a high-frequency CT sensor according to claim 1, wherein: a wiring channel for connecting the high-frequency CT sensor with external equipment by a user is reserved between the two second connecting plates (5).

5. The mounting structure of a high-frequency CT sensor according to claim 1, wherein: the limiting structure comprises two limiting rings (8) sleeved on the rotating shaft (7), internal threads are formed in the limiting rings (8), and the limiting rings (8) are in threaded connection with the rotating shaft (7) through the internal threads.

6. The mounting structure of a high-frequency CT sensor as recited in claim 5, wherein: the sliding rod (9) is located one section in the inner cavity of the sliding tube (11) is of a prismatic structure, a limit bolt (12) is arranged at the joint of the sliding tube (11) and the sliding rod (9), the limit bolt (12) penetrates through the sliding tube (11) and is in threaded connection with the sliding tube (11), and one end of the limit bolt (12) located in the inner cavity of the sliding tube (11) is in butt joint with the outer surface of the sliding rod (9).

7. The mounting structure of a high-frequency CT sensor according to claim 1, wherein: the top end of the sliding tube (11) penetrates through the connecting seat (13), a screwing hand (14) is fixedly connected to one end of the sliding tube (11) located at the top of the connecting seat (13), and anti-skidding lines are formed in the peripheral side of the screwing hand (14).

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