CN212931406U

CN212931406U - Novel combined inclinometer

Info

Publication number: CN212931406U
Application number: CN202022057370.2U
Authority: CN
Inventors: 赵泽鹏; 许远华; 陈木森
Original assignee: Guangzhou Xingyu Engineering Technology Co ltd
Current assignee: Guangzhou Xingyu Engineering Technology Co ltd
Priority date: 2020-09-18
Filing date: 2020-09-18
Publication date: 2021-04-09
Anticipated expiration: 2030-09-18

Abstract

The utility model discloses a novel combination formula inclinometer, it includes control box and deviational survey probe, the deviational survey probe includes measuring stick one, measuring stick two, measuring stick three and tip probe, be equipped with between measuring stick one and the measuring stick two and dismantle connection structure one, measuring stick two with be equipped with between the measuring stick three and dismantle connection structure two, measuring stick one and measuring stick two all are equipped with wheel components, wheel components all is equipped with two autocleavage structures and adjustable structure. The utility model discloses a through setting up can dismantle connection structure one and can dismantle connection structure two, can constitute the deviational survey probe of different length according to the demand, be convenient for carry on the position measurement of the different degree of depth, improve the suitability, reduce cost, can constitute the wheel components of different length according to the demand through setting up adjustable structure for the deviational survey probe can use in the deviational survey pipe of different footpaths; the automatic decomposition of remote operation is realized by setting up the automatic structure that splits, makes things convenient for taking out of deviational survey probe.

Description

Novel combined inclinometer

Technical Field

The utility model relates to a building engineering or geological survey's technical field, concretely relates to novel combination formula inclinometer.

Background

The inclinometer is an instrument for measuring the apex angle and the azimuth angle of engineering structures such as a drilling hole, a foundation pit, a foundation, a wall body, a dam slope and the like, and is generally required to perform dynamic monitoring work on inclination deformation or lateral deformation in order to master the dynamic state of the inclination deformation in time and ensure the engineering safety, so that the inclinometer is required to be used, and prediction is made according to data obtained by the inclinometer and construction is guided. When the inclinometer is used, an inclinometer pipe needs to be embedded, and the basic principle of the inclinometer is as follows: the inclination measuring probe extends into the bottom of the inclination measuring pipe, the traction cable pulls the inclination measuring probe to move from bottom to top, and the traction cable traction length and the vertical height variation of the inclination measuring probe in the fixed section are measured at fixed points, so that the inclination angle is obtained.

The inclinometer is expensive, in actual measurement, the inclinometer probe is inserted into an inclinometer pipe of a drill hole to be measured for measurement, and in order to ensure the movement stability during measurement, a roller assembly is arranged outside the inclinometer probe, so that the measurement is convenient; or the inclination measuring pipe is deformed and broken due to the movement of the soil layer, so that the roller component of the measuring head of the inclinometer is clamped in the inclination measuring pipe and cannot be taken out; after the existing inclination measuring probe encounters similar engineering conditions, the inclination measuring probe is taken out in a mode of forcibly plugging in or pulling out, the operation is complex, the damage of the inclination measuring probe is caused, and the use of the inclination measuring probe is caused; most of the existing measuring probes are of an integrated structure, the inclination measuring probes with different lengths can not be formed according to different measuring requirements, the existing measuring probes can not be used for measuring surveying positions with different depths, the application range is low, the applicability is low, when the measuring probes have faults, the whole inclination measuring probes can be replaced, the normal use of the inclination measuring probes can be ensured, and the maintenance cost is high; roller components are mostly fixed specification on current deviational survey probe, can't carry out the adjustment of roller components length for the deviational survey probe can only be used for the deviational survey pipe of a kind of straight to use, carries out the use of the deviational survey pipe of multiple different diameters as needs, needs the roller components of the different distances of customization, surveys with high costsly, and the suitability is low, can not satisfy surveying personnel's demand.

SUMMERY OF THE UTILITY MODEL

The utility model provides a novel combination formula inclinometer to present technical insufficiency.

The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is:

the utility model provides a novel combination formula inclinometer, novel combination formula inclinometer includes control box and deviational survey probe, be equipped with the cable between control box and the deviational survey probe, the deviational survey probe includes measuring stick one, measuring stick two, measuring stick three and tip probe, measuring stick one with two one ends of measuring stick are connected, measuring stick three with the other end of measuring stick two is connected, be equipped with between measuring stick one and the measuring stick two and can dismantle connection structure one, measuring stick two with be equipped with between the measuring stick three and can dismantle connection structure two, the tip probe sets up three tail ends of measuring stick, measuring stick one and measuring stick two all are equipped with wheel components, wheel components all is equipped with two automatic splitting structure and adjustable structure.

The improved structure comprises a measuring rod, a detachable connecting structure I, a measuring rod II, a connecting plug, a groove II, a groove III, a fastening component I, a plurality of fastening holes I and a magnetic attraction component I, wherein the connecting plug is arranged at the head end of the measuring rod I, the groove I is arranged at the tail end of the measuring rod II, the groove II is arranged at the head end of the measuring rod II, the magnetic attraction component I is composed of two magnets I, the two magnets I are respectively arranged in the groove II at the head end of the measuring rod I and the groove II at the head end of the measuring rod II, the detachable connecting structure II is composed of a fastening component II, a plurality of fastening holes II and a magnetic attraction component II, the fastening component II is arranged at the tail end of the measuring rod II, the fastening holes II are arranged at the head end of the measuring rod III, and the magnetic attraction component II is composed of two magnets II, the two magnets are arranged in the second groove and the third groove at the tail end of the second measuring rod in a dividing mode.

The improved structure comprises a first buckle component, a second buckle component and a third buckle component, wherein the first buckle component is composed of a plurality of first buckles, the first buckles are all provided with inclined planes, the head ends of the second measuring rod and the third measuring rod are also provided with grooves, the inclined planes are inverted at the top ends of the grooves, the second buckle component is composed of a plurality of second buckles, and the second buckles are all provided with inclined planes.

In a further improvement, the plurality of first fastening holes are arranged on the outer side of the head end of the second measuring rod in an annular array mode, and the plurality of second fastening holes are arranged on the outer side of the head end of the third measuring rod in an annular array mode.

The roller assembly is further improved, the roller assembly comprises two movable connecting blocks, two support plates, two rollers, two roller supports and two support discs, the adjustable structure is arranged between the two movable connecting blocks, the two support plates are respectively arranged on the movable connecting blocks, the two automatic splitting structures are respectively arranged between the support plates and the support discs, the two roller supports are respectively arranged on the support discs, and the two rollers are arranged on the roller supports.

The improved movable connecting block is characterized in that the movable connecting blocks are arranged oppositely in a mirror image mode, the movable connecting blocks are provided with two adjusting grooves, the adjustable structure comprises two connecting plates and two fixed rotating shafts, the two ends of each connecting plate are inserted into the adjusting grooves of the movable connecting blocks respectively, the movable connecting blocks are provided with a plurality of adjusting through holes and two connecting plates are provided with spring ejecting blocks, and the adjustable structure is used for adjusting the distance between the two movable connecting blocks.

The improved automatic splitting structure comprises two automatic splitting structures and a support plate, wherein each automatic splitting structure comprises a connecting groove, a connecting lug, an automatic splitting assembly and an ejection spring, the connecting groove is formed in the support plate, the connecting lug is arranged on the support plate, the connecting groove is provided with a fourth groove, the ejection spring is arranged on the fourth groove, the connecting lug is provided with a placing cavity, and the automatic splitting assembly is arranged in the placing cavity.

The improved structure comprises a support plate, a support plate and a connecting groove, wherein the side wall of the connecting groove is provided with a first fixing groove, the support plate is provided with a positioning hole, the support plate is provided with a positioning lug, the automatic separation assembly comprises an electromagnet, a power supply, two springs I and two ejector blocks I, the power supply is connected with the electromagnet, the two springs I are arranged on the upper surface and the lower surface of the electromagnet in a mirror image mode, and the two ejector blocks I are arranged on the springs I respectively.

The connecting lug is provided with two through holes II for ejecting the first jacking blocks, and the first jacking blocks are both provided with steel sheets.

In a further improvement, the bracket plates are all provided with thin steel wires.

The utility model has the advantages that: the utility model discloses a set up and can dismantle the connection structure one and can dismantle the connection structure two and make measuring stick one, measuring stick two, realize the detachable construction between the measuring stick three, and can make up the deviational survey probe of different length according to the demand free combination, be convenient for survey the measurement that the position goes on to the difference in depth, improve the application range of novel combination formula deviational survey appearance, improve the suitability, reduce and survey the cost, and the action of quick installation or dismantlement is convenient for to the connection structure one and can dismantle the connection structure two, reduce the operation step, improve the availability factor, when one of them section measuring stick breaks down, only need change trouble one section can, greatly reduce maintenance and survey the cost; the adjustable structure is arranged for adjusting the distance between the two movable connecting blocks, so that roller assemblies with different lengths are formed according to requirements, the novel combined inclinometer can be used in inclinometers with different diameters, the roller assemblies with various specifications are not required to be customized, and the applicability is improved; be used for when wheel components appear blocking, realize the automatic decomposition of remote operation through setting up the auto-fission structure to make wheel components have sufficient activity space, make things convenient for taking out of novel combination formula inclinometer, just the auto-fission structure reuse many times improves the convenience. The utility model discloses an each subassembly is dismantlement and erection joint structure fast, and convenient subsequent survey transport satisfies survey personnel's demand.

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

Drawings

Fig. 1 is a schematic view of the overall structure of the novel combined inclinometer of the embodiment;

FIG. 2 is a schematic cross-sectional view of the inclinometer probe of the present embodiment;

FIG. 3 is an enlarged view of A in the present embodiment;

FIG. 4 is an enlarged view of B of the present embodiment;

FIG. 5 is a schematic top view of the roller assembly of the present embodiment;

FIG. 6 is a schematic cross-sectional view of the scroll wheel assembly of the present embodiment;

FIG. 7 is an enlarged view of C of the present embodiment;

FIG. 8 is a schematic sectional view of the movable connecting block of the present embodiment;

fig. 9 is a schematic cross-sectional view of the connection plate of the present embodiment.

In the figure: 1. the novel combined inclinometer comprises a novel combined inclinometer, 2, a control box, 3, an inclinometer probe, 4, a cable, 5, a first measuring rod, 6, a second measuring rod, 7, a third measuring rod, 8, an end probe, 9, a first detachable connecting structure, 10, a second detachable connecting structure, 11, a roller component, 12, an automatic splitting structure, 13, an adjustable structure, 50, a connecting plug, 51, a first groove, 60, a second groove, 70, a third groove, 90, a first buckle component, 91, a first buckle hole, 92, a first magnetic absorption component, 100, a second buckle component, 101, a second buckle hole, 102, a second magnetic absorption component, 110, a movable connecting block, 111, a support plate, 112, a roller, 113, a roller support, 114, a support plate, 1100, a through hole, 1101, an adjusting groove, 1102, an adjusting through hole, 130, a spring-bearing top block, 120, a connecting groove, 121, a connecting bump, 122, an automatic disengaging component, 123 and an ejection spring, 1200. the fourth groove is 1210, the placing cavity is 1210, the 1201 is the first fixing groove, the 1140, the positioning hole is 1110, the positioning bump is 1220, the electromagnet is 1221, the power supply is 1222, the first spring is 1223, and the first top block is.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

The embodiment, refer to fig. 1-9 of the drawings, a novel combined inclinometer 1 comprises a control box 2 and an inclinometer probe 3, wherein a cable 4 is arranged between the control box 2 and the inclinometer probe 3, the inclinometer probe 3 comprises a first measuring rod 5, a second measuring rod 6, a third measuring rod 7 and an end probe 8, the first measuring rod 5 is connected with one end of the second measuring rod 6, the third measuring rod 7 is connected with the other end of the second measuring rod 6, a first detachable connecting structure 9 is arranged between the first measuring rod 5 and the second measuring rod 6, a second detachable connecting structure 10 is arranged between the second measuring rod 6 and the third measuring rod 7, the end probe 8 is arranged at the tail end of the third measuring rod 7, the first measuring rod 5 and the second measuring rod 6 are both provided with roller assemblies 11, and the roller assemblies 11 are both provided with two automatic splitting structures 12 and an adjustable structure 13.

The head end of the first measuring rod 5 is provided with a connecting plug 50, the connecting plug 50 is used for connecting a cable 4, so that an electrical connection is formed between the control box 2 and the inclinometer probe 3, the tail end of the first measuring rod 5 is provided with a first groove 51, the head end and the tail end of the second measuring rod 6 are provided with a second groove 60, the head end of the third measuring rod 7 is provided with a third groove 70, the first detachable connecting structure 9 comprises a first buckle component 90, a plurality of first buckle holes 91 and a first magnetic attraction component 92, the first buckle component 90 is arranged at the tail end of the first measuring rod 5, the plurality of first buckle holes 91 are arranged at the head end of the second measuring rod 6, the first magnetic attraction component 92 is composed of two first magnets, the two first magnets are respectively arranged in the first groove 51 and the second groove 60 at the head end of the second measuring rod 6, and the first magnetic attraction component 92 is convenient for the quick alignment installation between the first measuring rod 5 and the second measuring, the detachable connecting structure II 10 comprises a buckle component II 100, a plurality of buckle holes II 101 and a magnetic attraction component II 102, the buckle component II 100 is arranged at the tail end of the measuring rod II 6, the buckle holes II 101 are arranged at the head end of the measuring rod III 7, the magnetic attraction component II 102 is composed of two magnets II, the two magnets II are respectively arranged in a groove II 60 and a groove III 70 at the tail end of the measuring rod II 6, the magnetic attraction component II 102 facilitates the rapid contraposition installation between the measuring rod II 6 and the measuring rod III 7, the detachable connecting structure I9 and the detachable connecting structure II 10 enable the measuring rod I5, the measuring rod II 6 and the measuring rod III 7 to be freely combined, and can form the inclinometer probes 3 with different lengths according to requirements, thereby facilitating the measurement of survey positions with different depths and improving the application range of the novel combined inclinometer 1, the applicability is improved, the first detachable connecting structure 9 and the second detachable connecting structure 10 are convenient to mount or dismount quickly, operation steps are reduced, and the use efficiency is improved.

The first buckle component 90 is composed of a plurality of first buckles, the plurality of first buckles are all provided with inclined planes, the head end of the second measuring rod 6 and the head end of the third measuring rod 7 are both provided with a groove, the top ends of the grooves are both inverted with a first inclined plane, the groove is convenient for providing a moving space for the first buckle hook and the second buckle hook, the second buckle component 100 is composed of a plurality of second buckle hooks, the second buckle hooks are respectively provided with a second inclined plane, the inclined planes, the first inclined planes and the second inclined planes are all convenient for providing a guiding function, thereby facilitating the installation, when needing to be disassembled, the unbuckled disassembly can be realized only by pushing the first buckle hook and the second buckle hook into the central shaft through the first buckle hole and the second buckle hole respectively, therefore, the disassembly actions among the first measuring rod 5, the second measuring rod 6 and the third measuring rod 7 are realized, and the inclination measuring sensor assemblies are arranged in the first measuring rod 5, the second measuring rod 6 and the third measuring rod 7.

The first plurality of buckle holes are arranged on the outer side of the head end of the second measuring rod 6 in an annular array mode, and the second plurality of buckle holes are arranged on the outer side of the head end of the third measuring rod 7 in an annular array mode.

The roller assemblies 11 each include two movable connection blocks 110, two support plates 111, two rollers 112, two roller supports 113, and two support plates 114, the adjustable structure 13 is disposed between the two movable connection blocks 110, the two support plates 111 are disposed on the movable connection blocks 110, the two automatic splitting structures 12 are disposed between the support plates 111 and the support plates 114, the two roller supports 113 are disposed on the support plates 114, and the two rollers 112 are disposed on the roller supports 113.

The two movable connecting blocks 110 are arranged oppositely in a mirror image manner, the two movable connecting blocks 110 are both provided with two adjusting grooves 1101, the adjustable structure 13 comprises two connecting plates, a fixed rotating shaft is arranged between the two connecting plates, the fixed rotating shaft is used for fixing the roller assemblies 11 on a measuring rod I5 respectively, two ends of the connecting plates are respectively inserted into the adjusting grooves 1101 of the movable connecting blocks 110, so that the two movable connecting plates 110 can be mutually adjusted to be close to or oppositely adjusted to be stretched, the movable connecting blocks 110 are also provided with a plurality of adjusting through holes 1102, the two connecting plates are both provided with spring jacking blocks 130, a distance is reserved between each adjusting through hole 1102 and each adjusting through hole 1102, the adjustable structure 13 is used for adjusting the distance between the two movable connecting blocks 110, thereby forming the roller assemblies 13 with different lengths according to requirements, and enabling the novel combined inclinometer 1 to be used in drilled holes with different diameters, the applicability is improved.

The two automatic splitting structures 12 each include a connecting groove 120, a connecting projection 121, an automatic disengaging component 122, and an ejection spring 123, the connecting groove 120 is disposed on the support plate 114, the connecting projection 121 is disposed on the support plate 111, the connecting groove 120 and the connecting projection 121 are cooperatively connected to each other, so as to achieve the combined connection between the support plate 111 and the support plate 114, the connecting groove 120 is provided with a groove four 1200, the ejection spring 123 is disposed on the groove four 1200, when splitting is required, the ejection spring 123 is used for providing a thrust force, so as to achieve automatic separation of the connecting groove 120 and the connecting projection 121, the connecting projection 121 is provided with a placing cavity 1210, the automatic disengaging component 121 is disposed in the placing cavity 1210, and the automatic splitting structures 12 are used for achieving splitting when the novel combined inclinometer 1 is jammed, thereby providing space and facilitating the taking out of the novel combined inclinometer 1.

The side walls of the connecting grooves 120 are provided with first fixing grooves 1201, the support plates 114 are provided with positioning holes 1140, the support plates 111 are provided with positioning lugs 1110, the positioning holes 1140 are used for being matched and connected with the positioning lugs 1110 to achieve positioning, the automatic disengaging assembly 122 comprises an electromagnet 1220, a power supply 1221, two first springs 1222 and two first ejector blocks 1223, the power supply 1221 is connected with the electromagnet 1220, the two first springs 1222 are arranged on the upper surface and the lower surface of the electromagnet in a mirror image mode, the two first ejector blocks 1223 are respectively arranged on the first springs 1222, the electromagnet 1220 is provided with a remote control module, the electromagnet 1220 is used for providing magnetic attraction, when the splitting operation is required, the electromagnet 1220 is controlled by the remote control module to start, the electromagnet provides attraction to enable the two steel sheets to approach each other, the first ejector block 1223 retracts, the ejection spring 123 acts to disengage the support plates 111 from the support plates 114, realizing automatic separation operation; the connecting convex block 121 is provided with two through holes for ejecting the first jacking blocks to realize the fixation of the support plate 111 when the support plate is separated from the support plate 114, the first jacking blocks 1223 are provided with steel sheets, the support plate 114 is provided with thin steel wires, the end parts of the thin steel wires are respectively fixed on the two movable connecting blocks 110, and the thin steel wires are used for hanging the split support plate 114 on the movable connecting blocks 110 to prevent the support plate from falling off and losing.

The utility model discloses a set up and can dismantle the connection structure one and can dismantle the connection structure two and make measuring stick one, measuring stick two, realize the detachable construction between the measuring stick three, and can make up the deviational survey probe of different length according to the demand free combination, be convenient for survey the measurement that the position goes on to the difference in depth, improve the application range of novel combination formula deviational survey appearance, improve the suitability, reduce and survey the cost, and the action of quick installation or dismantlement is convenient for to the connection structure one and can dismantle the connection structure two, reduce the operation step, improve the availability factor, when one of them section measuring stick breaks down, only need change trouble one section can, greatly reduce maintenance and survey the cost; the adjustable structure is arranged for adjusting the distance between the two movable connecting blocks, so that roller assemblies with different lengths are formed according to requirements, the novel combined inclinometer can be used in inclinometers with different diameters, the roller assemblies with various specifications are not required to be customized, and the applicability is improved; be used for when wheel components appear blocking, realize the automatic decomposition of remote operation through setting up the auto-fission structure to make wheel components have sufficient activity space, make things convenient for taking out of novel combination formula inclinometer, just the auto-fission structure reuse many times improves the convenience. The utility model discloses an each subassembly is dismantlement and erection joint structure fast, and convenient subsequent survey transport satisfies survey personnel's demand.

The utility model discloses be not limited to above-mentioned embodiment, adopt and the utility model discloses the same or approximate structure or device of above-mentioned embodiment, and the other that obtain is used for novel combination formula inclinometer, all is in the utility model discloses an within the protection scope.

Claims

1. The utility model provides a novel combination formula inclinometer which characterized in that: the novel combined inclinometer comprises a control box and an inclinometry probe, wherein a cable is arranged between the control box and the inclinometry probe, the inclinometry probe comprises a first measuring rod, a second measuring rod, a third measuring rod and a tip probe, the first measuring rod is connected with one end of the second measuring rod, the third measuring rod is connected with the other end of the second measuring rod, a first detachable connecting structure is arranged between the first measuring rod and the second measuring rod, the second measuring rod is connected with a second detachable connecting structure between the third measuring rod, the tip probe is arranged at the three tail ends of the second measuring rod, the first measuring rod and the second measuring rod are respectively provided with a roller assembly, and the roller assembly is respectively provided with two automatic splitting structures and an adjustable structure.

2. The novel combined inclinometer according to claim 1, characterized in that: the head end of the measuring rod is provided with a connecting plug, the tail end of the measuring rod is provided with a first groove, the head end and the tail end of the measuring rod are both provided with a second groove, the three head ends of the measuring rod are provided with a third groove, the detachable connecting structure I comprises a first buckle component, a plurality of first buckle holes and a first magnetic attraction component, the first buckle component is arranged at the tail end of the measuring rod, the plurality of first buckle holes are arranged at the head end of the measuring rod, the first magnetic attraction component is composed of two magnets, the two magnets are respectively arranged in the first groove and the second groove at the head end of the measuring rod, the detachable connecting structure II comprises a second buckle component, a plurality of second buckle holes and a second magnetic attraction component, the second buckle component is arranged at the tail end of the measuring rod, the plurality of second buckle holes are arranged at the three head end of the measuring rod, the second magnetic attraction component is composed of two magnets, the two magnets are arranged in the second groove and the third groove at the tail end of the second measuring rod in a dividing mode.

3. The novel combined inclinometer according to claim 2, characterized in that: the first buckle component is composed of a plurality of buckles and hooks, the buckles and the hooks are all provided with inclined planes, the head end of the second measuring rod and the head end of the third measuring rod are also provided with grooves, the inclined planes are inverted at the top ends of the grooves, the second buckle component is composed of a plurality of buckles and hooks, and the buckles and the hooks are all provided with inclined planes.

4. A novel combined inclinometer according to claim 3, characterized in that: the first buckling holes are arranged on the outer side of the head end of the second measuring rod in an annular array mode, and the second buckling holes are arranged on the outer side of the head end of the third measuring rod in an annular array mode.

5. The novel combined inclinometer according to claim 4, characterized in that: the roller assembly comprises two movable connecting blocks, two support plates, two rollers, two roller supports and two support plates, the adjustable structure is arranged between the two movable connecting blocks, the two support plates are arranged on the movable connecting blocks respectively, the two automatic splitting structures are arranged between the support plates and the support plates respectively, the two roller supports are arranged on the support plates respectively, and the two rollers are arranged on the roller supports.

6. The novel combined inclinometer of claim 5, characterized in that: two the swing joint piece mirror image sets up relatively, two the swing joint piece all is equipped with two adjustment tanks, adjustable structure includes two connecting plates, two be equipped with fixed rotating shaft between the connecting plate, insert respectively at the both ends of connecting plate in the adjustment tank of swing joint piece, the swing joint piece all still is equipped with a plurality of adjusting through-holes, two the connecting plate all is equipped with takes the spring kicking block, adjustable structure is used for adjusting the interval between two swing joint pieces.

7. The novel combined inclinometer of claim 6, characterized in that: the automatic splitting structure comprises a connecting groove, a connecting lug, an automatic splitting assembly and an ejection spring, the connecting groove is formed in the support plate, the connecting lug is arranged on the support plate, the connecting groove is provided with a groove IV, the ejection spring is arranged on the groove IV, the connecting lug is provided with a placing cavity, and the automatic splitting assembly is arranged in the placing cavity.

8. The novel combined inclinometer of claim 7, characterized in that: the side wall of the connecting groove is also provided with a first fixing groove, the support plate is also provided with a positioning hole, the support plate is also provided with a positioning lug, the automatic separation assembly comprises an electromagnet, a power supply, a first two springs and a first two ejecting blocks, the power supply is connected with the electromagnet, the first two springs are arranged on the upper surface and the lower surface of the electromagnet in a mirror image mode, and the first two ejecting blocks are arranged on the first spring respectively.

9. The novel combined inclinometer of claim 8, characterized in that: the connecting lug is provided with two through holes II for ejecting the first jacking blocks, and the first jacking blocks are both provided with steel sheets.

10. The novel combined inclinometer of claim 9, characterized in that: the support plates are all provided with thin steel wires.