CN220170226U - Settlement monitoring device of high formwork - Google Patents

Abstract

The utility model belongs to the technical field of engineering deformation monitoring, and particularly relates to a settlement monitoring device for a high formwork, which comprises a monitoring system and a fixing assembly, wherein the monitoring system is arranged on the fixing assembly, and the fixing assembly is arranged on a main frame body of the high formwork; the monitoring system comprises a mounting assembly, a horizontal monitoring device and a sedimentation monitoring device, wherein the horizontal monitoring device is connected with the sedimentation monitoring device and is arranged on the mounting assembly; the fixing component comprises a mounting transverse pipe and a mounting vertical pipe, and the mounting transverse pipe is connected with the mounting vertical pipe and is fixed in a T shape; fastening structure, fastening structure will install horizontal pipe and installation standpipe and fix on high formwork main frame body, can audio-visual monitoring high formwork main frame body's inclination through setting up horizontal monitoring device to warn in reaching certain scope, and cooperate with subsidence monitoring device, through the motion of correcting the structure, make high formwork main frame body continue to detect its subsidence data in the scope of acceptable slope.

Description

Settlement monitoring device of high formwork

Technical Field

The utility model belongs to the technical field of engineering deformation monitoring, and particularly relates to a settlement monitoring device for a high formwork.

Background

With the development of construction technology, the high formwork is widely applied to the construction of cast-in-place concrete structures. In the construction of cast-in-place concrete structures, engineering accidents of template collapse often occur, and the risk of high formwork collapse is far greater than that of a conventional template, and the template collapse engineering accidents occupy a higher proportion. The main reasons of the collapse safety accidents of the high formwork are various, such as overlarge load bearing of the high formwork, overlarge deformation of the high formwork, settlement of the upright foundation of the high formwork support frame and the like.

The utility model discloses a current publication number is CN209131649U China utility model patent, and it discloses a high formwork template subsides monitoring devices, including the template, the monitoring hole has been seted up to the lower extreme of template, the inside in monitoring hole is equipped with first casing, the inside of first casing is equipped with chucking mechanism, the below of first casing is equipped with wire rope, wire rope's lower extreme fixedly connected with second casing, the preceding lateral wall of second casing is equipped with the displacement piece, the lower extreme fixedly connected with bracing piece of displacement piece, the lower extreme fixedly connected with base of bracing piece.

Through the description, the structure is found to be too simple, and the function is single, wherein the settlement data of the high formwork can be detected, but the inclination angle of the main frame body of the high formwork cannot be detected, and the whole settlement data during inclination cannot be further accurately detected when the main frame body of the high formwork is inclined due to the fact that the base is relatively fixed.

Disclosure of Invention

The utility model aims at solving the technical problems and provides a settlement monitoring device for a high formwork, which achieves the effect of simultaneously monitoring the inclination and the settlement degree of the high formwork.

In view of the above, the utility model provides a settlement monitoring device for a high formwork, comprising a monitoring system and a fixing component, wherein the monitoring system is arranged on the fixing component, and the fixing component is arranged on a main frame body of the high formwork; the monitoring system comprises a mounting assembly, a horizontal monitoring device and a sedimentation monitoring device, wherein the horizontal monitoring device is connected with the sedimentation monitoring device and is arranged on the mounting assembly; the fixing component comprises a mounting transverse pipe and a mounting vertical pipe, and the mounting transverse pipe is connected with the mounting vertical pipe and is fixed in a T shape; fastening structure, fastening structure will install horizontal pipe and installation standpipe and fix on high formwork main frame body, and fixed subassembly plays the effect of supporting monitoring system.

In this technical scheme, fixed subassembly's mounted position can set up as required, and the mounted subassembly is used for fixing level monitoring device and subsides monitoring device, and wherein the installation violently manage and install the standpipe and be T font structural connection setting to guarantee the stability of whole device, fastening structure adopts the device that has fastening ability among the prior art, and it is both can cooperate the use also can exclusive use with subsides monitoring device to need to say level monitoring device.

Further, the mounting assembly comprises a fixed plate, and the fixed plate is mounted on the fixed assembly; the support column is connected with the fixed plate, and support feet are arranged at the included angle between the support column and the connecting plate and are circumferentially arranged at the column wall of the support column; the support plate is arranged on the support column; wherein be provided with the storage tank in the backup pad, horizontal monitoring device installs in the storage tank to subside monitoring device and horizontal monitoring device and be connected and fix the backup pad between the two.

Further, the level monitoring device comprises a first connecting part which can be arranged in the accommodating groove; the signal transmitter is arranged on the first connecting part and is connected with the early warning system; the horizontal accommodating part is fixed with the first connecting part and is of a hollow structure; the rotating notch is arranged on the side wall of the horizontal accommodating part; the detection notch is arranged on the end face of the horizontal accommodating part; a rotating rod, the rotating pipe is arranged in the horizontal accommodating part; the rotary rod is also provided with an indication structure which is arranged in the detection notch; the gravity structure is connected with the end part of the rotary rod and is arranged in the rotary notch, and the gravity structure can sense the inclination degree of the high-count die frame body and drive the rotary rod to display the inclination angle of the rotary rod on the horizontal accommodating part.

Further, the sedimentation monitoring device comprises an adjusting structure and a correcting structure, wherein the adjusting structure comprises a second connecting part, and the second connecting part is connected with the first connecting part; the adjusting hanging scaffold is hollow and is fixed relative to the second connecting part; the adjusting part is arranged on the adjusting hanging scaffold; the steel wire is arranged in the adjusting hanging scaffold and is wound on the adjusting part; wherein the correcting structure is connected with the adjusting structure through steel wires.

Further, the adjusting part comprises a rotating column, the rotating column is arranged in the adjusting hanging scaffold, and the steel wire is wound on the rotating column; the side wall of the end part of the rotating column is circumferentially provided with first convex teeth; the rotary groove is arranged on the end face of the adjusting hanging scaffold; the second convex teeth are arranged on the rotary groove; the limiting structure is arranged in the rotary groove and matched with the rotary groove, the limiting structure and the rotary groove can drive the rotary column to rotate, and the rotary column can be limited to be fixed relative to the adjusting hanging scaffold.

Further, the limiting structure comprises a positioning column which is hollow and is used for accommodating the rotating column; the fixed disc is arranged on the positioning column and is clamped in the rotary groove; the third convex teeth are arranged on the inner wall of the positioning column and are matched with the first convex teeth; the fourth convex teeth are arranged on the side wall of the positioning column and are matched with the second convex teeth; and the rotary convex disc is arranged on the end face of the rotary part.

Further, the correcting structure comprises a containing box which is connected with the steel wire; compression ports are symmetrically arranged on the side wall of the accommodating box; the compression mechanism is arranged in the accommodating part; the measuring rod is arranged on the compression mechanism; the movable roller is arranged at the end part of the measuring rod; wherein the first protrusion is provided on the lever wall at the position where the measuring lever contacts the compression mechanism.

Further, the compression mechanism comprises compression grooves which are symmetrically arranged on the inner wall of the accommodating box; the compression rail is arranged on the compression groove; an elastic element mounted in the compression groove; the baffle is arranged at the end part of the elastic element; the fixed pipe is arranged on the baffle; the second bulge is arranged on the wall of the fixed pipe and is matched with the first bulge, so that the measuring rod is fully stressed when the elastic element is compressed.

Drawings

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

FIG. 2 is a schematic view of a mounting assembly and a securing assembly of the present utility model;

FIG. 3 is a schematic view of a level monitoring device of the present utility model;

FIG. 4 is a schematic view of the gravitational structure of the present utility model;

FIG. 5 is a schematic illustration of the adjustment structure of the present utility model;

FIG. 6 is a schematic view of a limiting structure of the present utility model;

FIG. 7 is a schematic diagram of the corrective structure of the present utility model;

FIG. 8 is an enlarged view of a portion of the orthotic structure of the present utility model;

FIG. 9 is a cross-sectional view of a corrective structure of the present utility model;

the label in the figure is: 100. a monitoring system; 110. a fixing assembly; 120. a mounting assembly; 130. a level monitoring device; 140. a sedimentation monitoring device; 150. installing a transverse pipe; 160. installing a vertical pipe; 170. a fastening structure; 180. a fixing plate; 190. a support column; 200. supporting feet; 210. a support plate; 220. a receiving groove; 230. a first connection portion; 240. a signal transmitter; 250. a horizontal accommodating portion; 260. a rotating notch; 270. detecting a notch; 280. a rotating rod; 290. an indication structure; 300. a gravity structure; 310. an adjustment structure; 320. correcting the structure; 330. a second connecting portion; 340. adjusting a hanging scaffold; 350. an adjusting section; 360. a steel wire; 370. a spin column; 380. a first lobe; 390. a rotary groove; 400. a second lobe; 410. a limiting structure; 420. positioning columns; 430. a third lobe; 440. fourth convex teeth; 450. rotating the convex disc; 460. a housing case; 470. compressing the mouth; 480. a compression mechanism; 490. a measuring rod; 500. moving the roller; 510. a first protrusion; 520. a compression tank; 530. compressing the track; 540. an elastic element; 550. a baffle; 560. a fixed tube; 570. and a second protrusion.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly described below with reference to the drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments. All other embodiments, which are obtained by a person skilled in the art based on the embodiments of the present utility model, fall within the scope of protection of the present utility model.

In the description of the present utility model, it is to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments in accordance with the present utility model. For ease of description, the dimensions of the various features shown in the drawings are not drawn to actual scale. Techniques, methods, and apparatus known to one of ordinary skill in the relevant art may not be discussed in detail, but should be considered part of the specification where appropriate. In all examples shown and discussed herein, any specific values should be construed as merely illustrative, and not a limitation. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further discussion thereof is necessary in subsequent figures.

Referring to fig. 1-9, the utility model provides a settlement monitoring device for a high formwork, which comprises a monitoring system 100 and a fixing assembly 110, wherein the monitoring system 100 is arranged on the fixing assembly 110, and the fixing assembly 110 is arranged on a main frame of the high formwork; the monitoring system 100 comprises a mounting assembly 120, a horizontal monitoring device 130 and a sedimentation monitoring device 140, wherein the horizontal monitoring device 130 is connected with the sedimentation monitoring device 140 and is arranged on the mounting assembly 120; the fixing assembly 110 comprises a transverse installation pipe 150 and a vertical installation pipe 160, and the transverse installation pipe 150 is connected with the vertical installation pipe 160 and is fixed in a T shape; the fastening structure 170, the fastening structure 170 fixes the installation cross tube 150 and the installation standpipe 160 on the main frame body of the high formwork, and the fixing assembly 110 plays a role of supporting the monitoring system 100.

The installation position of the fixing assembly 110 can be set according to the requirement, the installation assembly 120 is used for fixing the horizontal monitoring device 130 and the sedimentation monitoring device 140, wherein the installation cross tube 150 and the installation vertical tube 160 are connected and arranged in a T-shaped structure, so as to ensure the stability of the whole device, and the fastening structure 170 adopts a device with fastening capability in the prior art, and it is noted that the horizontal monitoring device 130 and the sedimentation monitoring device 140 can be used in combination or independently.

In a preferred embodiment of the utility model: the mounting assembly 120 includes a fixing plate 180, the fixing plate 180 being mounted on the fixing assembly 110; the support column 190, the support column 190 is connected with the fixed plate 180, and a support leg 200 is installed at an included angle between the support column 190 and the connecting plate, and the support leg 200 is circumferentially arranged at a column wall of the support column 190; a support plate 210, the support plate 210 being mounted on the support column 190; wherein the supporting plate 210 is provided with a receiving groove 220, the level monitoring device 130 is installed in the receiving groove 220, and the sedimentation monitoring device 140 is connected with the level monitoring device 130 to fix the supporting plate 210 therebetween.

The four sets of corresponding direction settings are set up to supporting legs 200 circumference, offset the effort that monitoring system 100 during operation produced to guarantee the overall stability of support column 190 and backup pad 210, horizontal monitoring device 130 and subsidence monitoring device 140 set up from the looks down, make the same straight line setting of two, guarantee the accuracy of measured data, wherein horizontal monitoring device 130 and subsidence monitoring device 140 are fixed through threaded connection's mode.

In a preferred embodiment of the utility model: the level monitoring device 130 includes a first connection portion 230, and the first connection portion 230 is disposed in the accommodating groove 220; the signal emitter 240, the signal emitter 240 is installed on the first connection part 230 and connected with the early warning system; the horizontal accommodating part 250, the horizontal accommodating part 250 is fixed with the first connecting part 230, and the inside of the horizontal accommodating part 250 is in a hollow structure; a rotation notch 260, the rotation notch 260 being provided on a side wall of the horizontal accommodating portion 250; a detection notch 270, which is provided on an end surface of the horizontal accommodating portion 250; a rotating rod 280, the rotating tube being installed in the horizontal receiving portion 250; wherein the rotating rod 280 is further provided with an indication structure 290, and the indication structure 290 is arranged in the detection notch 270; the gravity structure 300 is connected with the end of the rotating rod 280 and is arranged in the rotating notch 260, and the gravity structure 300 can sense the inclination degree of the high-support die frame body and drive the rotating rod 280 to display the inclination angle of the rotating rod 280 on the horizontal accommodating part 250.

The signal transmitting device is connected with the early warning system, and adopts the gravity principle, when the high formwork main frame body inclines, the gravity structure 300 keeps level with the ground all the time, so that the rotating rod 280 is driven to conduct angle deviation in the horizontal accommodating part 250, at the moment, the indicating structure 290 moves along with the rotating pipe in the detecting notch 270, the inclination angle of the indicating structure is displayed on the horizontal accommodating part 250, and graduation marks can be arranged on the surface of the horizontal accommodating part 250 close to the indicating structure 290, so that specific inclination data can be determined.

In a preferred embodiment of the utility model: the sedimentation monitoring device comprises an adjusting structure 310 and a correcting structure 320, wherein the adjusting structure 310 comprises a second connecting part 330, and the second connecting part 330 is connected with the first connecting part 230; the adjusting hanging scaffold 340, wherein the adjusting hanging scaffold 340 is in a hollow structure and is relatively fixed with the second connecting part 330; an adjusting part 350 provided on the adjusting hanging scaffold 340; the steel wire 360, the steel wire 360 is set up in adjusting the hanging scaffold 340, and twine on the adjusting part 350; wherein the orthotic structure 320 is connected to the adjustment structure 310 by wires 360.

The first connection part 230 and the second part are connected through internal and external threads, a plurality of steel wires 360 can be accommodated in the adjusting hanging scaffold 340, the retraction of the steel wires 360 is controlled by the adjusting part 350, wherein the correcting structure 320 is connected with the adjusting structure 310 through the steel wires 360, and the ground of the correcting structure 320 is kept in a vertical arrangement state through the control of the adjusting part 350, so that the accurate detection of sedimentation data when the high formwork main frame body is sedimented is ensured.

In a preferred embodiment of the utility model: the adjusting part 350 comprises a rotating column 370, the rotating column 370 is arranged in the adjusting hanging scaffold 340, and the steel wire 360 is wound on the rotating column 370; the side wall of the end part of the rotating column 370 is circumferentially provided with a first convex tooth 380; a rotating groove 390, wherein the rotating groove 390 is arranged on the end surface of the adjusting hanging scaffold 340; a second tooth 400, the second tooth 400 being disposed on the rotating groove 390; the limiting structure 410 is installed in the rotating groove 390 and is matched with the rotating groove 390, and the limiting structure 410 and the rotating groove 390 can drive the rotating column 370 to rotate and can limit the fixing of the rotating column 370 relative to the adjusting hanging scaffold 340.

The rotary column 370 is mounted at the center of the adjustable hanging scaffold 340 to ensure that the maximum distance of the steel wire 360 can be accommodated, so that the settlement monitoring device 140 can be applied to the main frames of the high formwork with different heights, wherein the limiting structure 410 can be extended and retracted in the rotary groove 390 to control the distance of the correcting structure 320 relative to the ground.

In a preferred embodiment of the utility model: the limiting structure 410 includes a positioning post 420, and the positioning post 420 has a hollow shape for accommodating the rotating post 370; the fixed disk is arranged on the positioning column 420 and is clamped in the rotary groove 390; the third convex tooth 430, the third convex tooth 430 is disposed on the inner wall of the positioning column 420 and cooperates with the first convex tooth 380; four convex teeth, the fourth convex tooth 440 is arranged on the side wall of the positioning column 420 and is matched with the second convex tooth 400; the rotating cam 450, the rotating cam 450 is disposed on the rotating portion end face.

The positioning column 420 is matched with the first convex tooth 380 through the third convex tooth 430, so that the positioning column 420 and the first convex tooth are coaxially rotated, the rotating groove 390 plays a role in limiting the rotation of the positioning column 420, the positioning column is matched with the second convex tooth 400 through the fourth convex tooth 440, when the steel wire 360 is retracted and released, the fourth convex tooth 440 drives the positioning column 420 and the rotating column 370 to simultaneously rotate through grabbing the rotating convex disc 450, the steel wire 360 is stretched and retracted, and when the positioning column is fixed, the fourth convex tooth 440 is clamped on the second convex tooth 400, the first, second, third and fourth convex tooth installation densities are not limited further, the greater the density is, and therefore the fine adjustment distance is more accurate when the steel wire 360 is stretched.

In a preferred embodiment of the utility model: the correcting structure 320 comprises a containing box 460, and the containing box 460 is connected with the steel wire 360; compression ports 470, the compression ports 470 being symmetrically disposed on the side walls of the receiving case 460; the compression mechanism 480, the compression mechanism 480 is installed in the accommodating interior; a measuring rod 490, the measuring rod 490 being mounted on the compression mechanism 480; a moving roller 500, the moving roller 500 being mounted at an end of the measuring rod 490; wherein a first protrusion 510 is provided on a lever wall where the lever 490 contacts the compression mechanism 480.

When the main frame body of the high formwork is inclined, the detection system of the correction structure 320 moves a certain distance relative to the ground, so that the detection system is always kept in a vertical state with the ground through fine adjustment of the correction structure 320, the compression ports 470 are symmetrically arranged on the side wall of the accommodating box 460 and work together with the compression mechanism 480, the measuring rod 490 can display the subsidence data of the main frame body of the high formwork relative to the ground on the accommodating box 460, the measuring rod 490 presses the compression mechanism 480 when correction is needed, and at the moment, the compression mechanism 480 pushes the measuring rod 490 to enable the movable roller 500 at the end part of the measuring rod 490 to move, and the measuring rod 490 is adjusted to be in a vertical state with the ground.

In a preferred embodiment of the utility model: the compression mechanism 480 comprises a compression groove 520, and the compression groove 520 is symmetrically arranged on the inner wall of the accommodating box 460; a compression rail 530, the compression rail 530 being disposed on the compression groove 520; an elastic member 540, the elastic member 540 being installed in the compression groove 520; a shutter 550, the shutter 550 being disposed at an end position of the elastic member 540; a fixing tube 560, the fixing tube 560 being disposed on the baffle 550; the second protrusion 570 is arranged on the wall of the fixed pipe 560 and is matched with the first protrusion 510, so that the measuring rod 490 is fully stressed when compressing the elastic element 540.

The baffle 550 is disposed in the compression groove 520, wherein the fixed tube 560 moves in the compression rail 530, the fixed tube 560 cooperates with the measuring rod 490, when the measuring rod 490 tilts, the first protrusion 510 on the measuring rod 490 cooperates with the second protrusion 570, so that friction force between the measuring rod 490 and the fixed tube 560 is increased, and it should be noted that the accommodating box 460 can move up and down on the measuring rod 490 when the measuring rod 490 is parallel to the fixed tube 560.

In a preferred embodiment of the utility model: the application method of the settlement monitoring device of the high formwork comprises the following steps of;

(a) Mounting the fixing assembly 110 on the main frame of the high formwork;

(b) Securing the level monitoring device 130 and the sedimentation monitoring device 140 to the mounting assembly 120;

(c) The extension length of the steel wire 360 in the adjusting hanging scaffold 340 to the ground is adjusted by rotating the convex disc 450, and the rotating column 370 is fixed relative to the adjusting hanging scaffold 340 when the adjustment is completed;

(d) The angle of the measuring pole 490 within the compression mechanism 480 is adjusted and the measuring pole 490 is positioned vertically relative to the ground.

The embodiments of the present utility model have been described above with reference to the accompanying drawings, in which the embodiments of the present utility model and features of the embodiments may be combined with each other without conflict, the present utility model is not limited to the above-described embodiments, which are merely illustrative, not restrictive, of the present utility model, and many forms may be made by those of ordinary skill in the art without departing from the spirit of the present utility model and the scope of the claims, which are protected by the present utility model.

Claims (5)

1. The settlement monitoring device for the high formwork is characterized by comprising a monitoring system (100) and a fixing assembly (110), wherein the monitoring system (100) is arranged on the fixing assembly (110), and the fixing assembly (110) is arranged on a main frame body of the high formwork;

the monitoring system (100) comprises a mounting assembly (120), a horizontal monitoring device (130) and a sedimentation monitoring device (140), wherein the horizontal monitoring device (130) is connected with the sedimentation monitoring device (140) and is arranged on the mounting assembly (120);

the fixing assembly (110) comprises a transverse installation pipe (150) and a vertical installation pipe (160), and the transverse installation pipe (150) is connected with the vertical installation pipe (160) and is fixed in a T-shaped mode; the fastening structure (170), the fastening structure (170) fixes the installation transverse pipe (150) and the installation vertical pipe (160) on the main frame body of the high formwork, and the fixing component (110) plays a role in supporting the monitoring system (100);

the sedimentation monitoring device (140) comprises an adjusting structure (310) and a correcting structure (320), wherein the adjusting structure (310) comprises a second connecting part (330), and the second connecting part (330) is connected with the first connecting part (230); the adjusting hanging scaffold (340) is of a hollow structure inside the adjusting hanging scaffold (340) and is relatively fixed with the second connecting part (330); an adjusting part (350), wherein the adjusting part (350) is arranged on the adjusting hanging scaffold (340); the steel wire (360), the said steel wire (360) is set up in adjusting the hanging scaffold (340), and twine on the adjusting part (350);

wherein the correcting structure (320) is connected with the adjusting structure (310) through a steel wire (360).

2. A settlement monitoring device for a high formwork according to claim 1, wherein the adjustment part (350) comprises a rotary column (370), the rotary column (370) is arranged in an adjustment hanging scaffold (340), and the steel wire (360) is wound on the rotary column (370); a first convex tooth (380) is circumferentially arranged on the side wall of the end part of the rotary column (370);

a rotary groove (390), wherein the rotary groove (390) is arranged on the end surface of the adjusting hanging scaffold (340);

a second lobe (400), the second lobe (400) being disposed on the rotating trough (390);

the limiting structure (410) is arranged in the rotary groove (390) and is matched with the rotary groove (390), the limiting structure and the rotary groove can drive the rotary column (370) to rotate, and the rotary column (370) can be limited to be fixed relative to the adjusting hanging scaffold (340).

3. A settlement monitoring device for high formwork according to claim 2, wherein the restraining structure (410) comprises a positioning post (420), the positioning post (420) being hollow in shape for accommodating a rotating post (370);

the fixed disc is arranged on the positioning column (420) and is clamped in the rotary groove (390);

a third tooth (430), the third tooth (430) being disposed on an inner wall of the positioning post (420) and being mated with the first tooth (380);

the fourth convex teeth (440) are arranged on the side walls of the positioning columns (420) and are matched with the second convex teeth (400);

and a rotary lug (450), wherein the rotary lug (450) is arranged on the end face of the rotary part.

4. A settlement monitoring device for high formwork according to claim 3, wherein the correcting structure (320) comprises a housing box (460), the housing box (460) being connected with a steel wire (360);

the compression ports (470) are symmetrically arranged on the side wall of the accommodating box (460);

a compression mechanism (480), the compression mechanism (480) being mounted within the housing;

a measuring rod (490), the measuring rod (490) being arranged on the compression mechanism (480);

a moving roller (500), the moving roller (500) being mounted at the end of the measuring rod (490);

wherein a first protrusion (510) is provided on a rod wall of a position where the measuring rod (490) contacts the compression mechanism (480).

5. The high formwork settlement monitoring device as claimed in claim 4, wherein the compression mechanism (480) comprises a compression groove (520), and the compression groove (520) is symmetrically arranged on the inner wall of the accommodating box (460);

a compression rail (530), the compression rail (530) being disposed on the compression groove (520);

-an elastic element (540), said elastic element (540) being mounted within the compression groove (520);

a baffle (550), the baffle (550) being arranged at an end position of the elastic element (540);

a fixed tube (560), the fixed tube (560) being disposed on the baffle (550);

and the second bulge (570) is arranged on the pipe wall of the fixed pipe (560) and is matched with the first bulge (510), so that the measuring rod (490) is fully stressed when the elastic element (540) is compressed.