CN217738306U - Assembly structure of building slope detection device host and casing - Google Patents

Abstract

The utility model relates to the technical field of geological survey, in particular to an assembly structure of a main machine and a shell of a building slope detection device, which comprises a main machine and a shell; the rear end of the main machine is provided with an insertion section, and the front end of the shell is provided with an installation section and an installation cavity for the insertion connection of the insertion section; two or more clamping rods are uniformly arranged on the outer peripheral wall of the connecting section along the contour direction, the clamping rods are arranged along the length direction of the connecting section, the outer ends of the clamping rods can be vertically and rotatably hinged to the connecting section, and a spring thrust mechanism is arranged between the clamping rods and the mounting section so that the inner ends of the clamping rods have the tendency of deviating from the connecting section to rotate; clamping grooves are respectively formed in the inner peripheral wall of the mounting cavity of the mounting section corresponding to the far ends of the clamping rods; the utility model has the advantages of structural design is more reasonable, can make things convenient for the dismouting operation more, and the protection equipment component that can be better avoids wearing and tearing destruction in dismouting operation process.

Description

Assembly structure of building slope detection device host and casing

Technical Field

The utility model relates to a geology reconnaissance technical field especially relates to an assembly structure of building slope detection device host computer and casing.

Background

In a building site or its periphery, an artificial side slope formed by excavation or filling construction of buildings and municipal works and a natural side slope having an influence on the safety or stability of the building.

Chinese patent (CN 201921819578.4) discloses a monitoring device, belonging to the field of monitoring systems. The monitoring device includes: the host front assembly comprises a monitoring part positioned at the front end and an assembling part positioned at the rear end, and the assembling part is provided with an insertion groove; the rear shell assembly is provided with an assembly part containing cavity, and a hollow convex part is formed on the inner peripheral wall of the assembly part containing cavity; the assembling portion is detachably mounted in the assembling portion containing cavity, and the hollow protruding portion and the inserting groove form inserting fit. The monitoring device needs to disassemble the front part and the rear part during the use process so as to check the front assembly of the host machine. However, in the above-mentioned patent structure, the assembly portion arranged at the rear end of the main unit front component and the assembly portion accommodating cavity arranged on the rear shell component are assembled between the main unit front component and the rear shell component, and the assembly portion accommodating cavity is connected with the assembly portion accommodating cavity in a matching manner through the hollow protruding portion arranged on the inner peripheral wall of the assembly portion accommodating cavity and the insertion groove arranged on the assembly portion. The above structure has the following disadvantages: 1 after repeated disassembly and assembly, the bulge part and the insertion groove are worn and broken, so that the problem of incapability of assembling or unreliable assembling is easily caused; 2, the assembly mode is inconvenient for completing the disassembly and assembly between the front component and the rear shell component of the host; so that the disassembly and assembly efficiency is low.

Therefore, how to provide a structural design is more reasonable, can make things convenient for the dismouting operation more, and the assembly structure of building slope detection device host computer and casing that protection equipment component that can be better avoids wearing and tearing destruction in the dismouting operation process has become the technical problem that technical staff in the field awaited solution.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned defect of prior art, the utility model aims to solve the technical problem that how to provide a structural design is more reasonable, can make things convenient for the dismouting operation more, protection equipment component that can be better in the dismouting operation process avoids the assembly structure of wearing and tearing destruction building slope detection device host computer and casing.

In order to achieve the purpose, the utility model provides an assembly structure of a host and a shell of a building slope detection device, which comprises the host and the shell; the rear end of the host is provided with an insertion section, and the front end of the shell is provided with an installation section and an installation cavity for the insertion connection of the insertion section; the clamping device is characterized in that two or more clamping rods are uniformly arranged on the outer peripheral wall of the connecting section along the contour direction, the clamping rods are arranged along the length direction of the connecting section, the outer ends of the clamping rods can be vertically and rotatably hinged on the connecting section, and a spring thrust mechanism is arranged between the clamping rods and the mounting section to enable the inner ends of the clamping rods to have a tendency of deviating from the rotating direction of the connecting section; clamping grooves are respectively formed in the inner peripheral wall of the installation cavity of the installation section, corresponding to the far ends of the clamping rods, so that the far ends of the clamping rods can be clamped into the clamping grooves to limit the insertion section from falling off from the installation section; and a pushing-out mechanism is arranged on the mounting section and corresponds to the clamping groove, and the pushing-out mechanism is provided with a pushing-out end and can drive the inner end of the clamping rod to be separated from the clamping groove.

Thus, in the above assembly structure, the insertion section is inserted into the installation cavity of the installation section; after the installation intracavity is installed in the grafting section insertion, the joint pole is under spring thrust mechanism's effect for joint pole inner has the tendency that deviates from the linkage segment pivoted, and the card that the joint pole distal end can correspond separately is gone into to the draw-in groove in, and the restriction insertion section deviates from and accomplishes the installation from the installation cavity that the installation section has. When need examine host computer and casing split and to the host computer, the end of supporting that the mechanism that supports that sets up has can drive the joint pole and rotate to make joint pole the inner card slot that breaks away from, thereby can make things convenient for more to open host computer and casing split. When needing to assemble host computer and casing, will insert the installation intracavity that the section has into the installation section, the installation cavity can make the joint pole inwards draw in, only accomplishes the joint and connects after cooperating in the draw-in groove to joint pole inner. Compared with the existing structure, the assembling structure can better protect the equipment members from being damaged by abrasion in the process of disassembly and assembly operation, and can be better suitable for the assembly connection between the equipment members needing to be disassembled and assembled repeatedly (the assembly connection between the main machine and the shell of the building slope detection device in the technology). And whole structural design is simpler, and the design is more reasonable, can make things convenient for manufacturing and make things convenient for the dismouting of operation completion host computer and casing.

As optimization, on the connecting section periphery wall and along the profile direction even be equipped with two or more than two mounting grooves, the length direction of mounting groove is arranged along connecting section length direction, and joint pole outer end articulates in the mounting groove.

Like this, through setting up the mounting groove, set up the joint pole in the mounting groove for the joint pole can hold in the mounting groove when drawing in, and can also make whole structure compacter.

Furthermore, the clamping rods are two which are uniformly distributed along the profile direction of the connecting section.

Furthermore, the section of the clamping groove is designed in a triangular structure.

Furthermore, the spring thrust mechanism comprises a spiral spring arranged between the bottom surface of the mounting groove and the clamping rod, and two ends of the spiral spring are respectively connected to the bottom surface of the mounting groove and the clamping rod.

As optimization, the ejecting mechanism comprises a mounting hole which is arranged on the mounting section and penetrates through the wall thickness of the mounting section; the inner end of the support rod can abut against the clamping rod and push the clamping rod to rotate, so that the inner end of the clamping rod is separated from the clamping groove.

Like this, it is simpler to support out the mechanism design, through setting up a mounting hole that communicates with the draw-in groove, slidable sets up and supports out the pole in the mounting hole, supports out the pole the inner can the butt on the joint pole, drives the joint pole and rotates, and the joint pole is overcome the resistance rotation of spring thrust mechanism and is broken away from the draw-in groove for the restriction to between host computer and the casing has been removed, thereby can insert the section with the host computer and take out from the casing installation section, and whole structural design is simple, and the dismouting is accomplished in convenient operation.

As optimization, a horizontally arranged placing hole is arranged on the inner peripheral wall of the mounting hole, a locking rod is arranged in the placing hole, and the inner end of the locking rod is connected with the bottom surface of the placing hole through a thrust spiral spring; the outer end of the pushing-out rod is provided with a locking hole, and after the pushing-out rod slides inwards along the mounting hole, the front end of the locking rod can be correspondingly inserted into the locking hole to limit the position of the pushing-out rod; the mounting section is also provided with a tension structure which is provided with a tension end connected with the inner end of the locking rod and can drive the locking rod to move inwards against the pushing force of the pushing force spiral spring so as to enable the front end of the locking rod to be separated from the locking hole.

Therefore, by arranging the arrangement hole and arranging the locking rod in the arrangement hole, after the ejecting rod slides inwards along the installation hole, the front end of the locking rod can be correspondingly inserted into the locking hole to limit the position of the ejecting rod; the support rod pushes the limiting rod to rotate to a position separated from the clamping groove, the position of the support rod is locked, the position of the support rod is also locked, and the support rod is in an open state and is convenient to disassemble. And the pulling force structure who sets up can drive the locking lever and overcome the thrust of thrust coil spring and inwards move to make the locking lever front end break away from the locking hole, can conveniently accomplish the assembly this moment.

In design, the tension structure can be a sliding block arranged on the mounting section, and the mounting section is provided with a sliding chute and matched with the sliding block; the slide block is provided with a tension rod in a connecting way, and the far end of the tension rod passes through the bottom surface of the placing hole and is connected with the inner end of the locking rod through a pull rope. The manual operation slider slides in the spout, and the pull rod and the stay cord that link to each other through with the slider drive the locking lever and overcome thrust coil spring's thrust inward movement in settling the hole for the distal end of locking lever breaks away from the locking hole, thereby makes and to operate the outside slip of pole along the mounting hole of propping.

As optimization, a push-out block is arranged on the mounting section and corresponds to the inner peripheral wall of the mounting cavity, the push-out block is in slidable connection with a connecting chute arranged on the inner peripheral wall of the mounting cavity, and a push-out helical spring is arranged between the end part of the connecting chute and the push-out block; and when the insertion section is inserted into the installation cavity, the end part of the insertion section can be abutted against the side surface of the push-out block and overcomes the pushing force of the push-out spiral spring to drive the push-out block to slide inwards.

Like this, the thrust of inserting the section can be given all the time to the piece of releasing of design for after the installation, more stable, and still make things convenient for the dismouting.

As optimization, the inserting section and the mounting section are both designed to be cylindrical structures, and the mounting cavity is a cylindrical cavity.

Like this, the structural design of grafting section and installation section is more reasonable, and convenient processing more to and conveniently accomplish the assembly.

To sum up, the utility model discloses it is more reasonable that the structure has structural design, can make things convenient for the dismouting of operation completion host computer and casing more to can be better protect both, at the dismouting in-process, reduce the wearing and tearing between the component, protection equipment component that can be better in dismouting operation process avoids wearing and tearing to destroy.

Drawings

Fig. 1 is a schematic view of an assembly structure of a host and a housing of a building slope detection device according to an embodiment of the present invention.

Fig. 2 is a partially enlarged schematic view of a position a in fig. 1.

Fig. 3 is a partially enlarged schematic view of a position B in fig. 1.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples, and it should be noted that, in the description of the present invention, the terms "upper", "lower", "left", "right", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, which are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular manner, and therefore, should not be construed as limiting the present invention. The terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1 to 3, an assembly structure of a main machine and a shell of a building slope detection device comprises a main machine 1 and a shell 2; the rear end of the main machine is provided with an insertion section 3, and the front end of the shell is provided with an installation section 4 and an installation cavity 5 for the insertion connection of the insertion section; two or more clamping rods 6 are uniformly arranged on the outer peripheral wall of the connecting section along the contour direction, the clamping rods are arranged along the length direction of the connecting section, the outer ends of the clamping rods can be vertically rotated and hinged on the connecting section, and a spring thrust mechanism is arranged between the clamping rods and the mounting section so that the inner ends of the clamping rods have the tendency of deviating from the rotating direction of the connecting section; clamping grooves 7 are respectively formed in the inner peripheral wall of the mounting cavity on the mounting section and correspond to the far ends of the clamping rods, so that the far ends of the clamping rods can be clamped into the clamping grooves to limit the plug-in section from falling out of the mounting section; and a pushing-out mechanism is arranged on the mounting section and corresponds to the clamping groove, and the pushing-out mechanism is provided with a pushing-out end and can drive the inner end of the clamping rod to be separated from the clamping groove.

Thus, in the above-mentioned assembling structure, the insertion section is inserted and installed in the installation cavity of the installation section; after the installation intracavity is installed in the grafting section insertion, the joint pole is under spring thrust mechanism's effect for joint pole inner has the tendency that deviates from the linkage segment pivoted, and the card that the joint pole distal end can correspond separately is gone into to the draw-in groove in, and the restriction insertion section deviates from and accomplishes the installation from the installation cavity that the installation section has. When need examine host computer and casing split and to the host computer, the end of supporting that the mechanism that supports that sets up had can drive the joint pole and rotate to make joint pole inner break away from the draw-in groove, thereby can make things convenient for more to open host computer and casing split. When needing to assemble host computer and casing, will insert the section and insert the installation intracavity that the installation section has, the installation cavity can make the joint pole inwards draw in, only accomplishes the joint and connects to the joint pole inner after cooperating in the draw-in groove. Compared with the existing structure, the assembly structure can better protect the equipment components from being damaged by abrasion in the disassembly and assembly operation process, and can be better suitable for the assembly connection between the equipment components needing to be repeatedly disassembled and assembled (the assembly connection between the main machine and the shell of the building slope detection device in the technology). And whole structural design is simpler, and the design is more reasonable, can make things convenient for manufacturing and convenient operation to accomplish the dismouting of host computer and casing.

In the specific embodiment, two or more than two mounting grooves 8 are uniformly formed in the peripheral wall of the connecting section along the contour direction, the length direction of the mounting grooves is arranged along the length direction of the connecting section, and the outer ends of the clamping rods are hinged in the mounting grooves.

Like this, through setting up the mounting groove, set up the joint pole in the mounting groove for when the joint pole draws in, can hold in the mounting groove, and can also make overall structure compacter.

Specifically, the two clamping rods 6 are uniformly distributed along the profile direction of the connecting section.

Specifically, the cross section of the clamping groove is designed to be a triangular structure.

Specifically, the spring thrust mechanism comprises a spiral spring 9 arranged between the bottom surface of the mounting groove and the clamping rod, and two ends of the spiral spring are respectively connected to the bottom surface of the mounting groove and the clamping rod.

In the present embodiment, the pushing-out mechanism includes a mounting hole 10 disposed on the mounting section and penetrating the wall thickness of the mounting section; the supporting rod 11 is slidably arranged in the mounting hole, the inner end of the supporting rod can be abutted to the clamping rod and can push the clamping rod to rotate, and the inner end of the clamping rod is separated from the clamping groove.

Like this, it is simpler to support out the mechanism design, through setting up a mounting hole with the draw-in groove intercommunication, slidable sets up and supports out the pole in the mounting hole, support out the pole the inner can the butt on the joint pole, drive the joint pole and rotate, the joint pole overcomes the resistance rotation of spring thrust mechanism and breaks away from the draw-in groove, make and has removed the restriction between host computer and the casing, thereby can insert the section with the host computer and take out from the casing installation section, whole structural design is simple, the dismouting is accomplished in convenient operation.

In the specific embodiment, a horizontally arranged placing hole 12 is arranged on the inner peripheral wall of the mounting hole, a locking rod 13 is arranged in the placing hole, and the inner end of the locking rod is connected with the bottom surface of the placing hole through a thrust spiral spring 14; the outer end of the support rod is provided with a locking hole 15, and after the support rod slides inwards along the mounting hole, the front end of the locking rod can be correspondingly inserted into the locking hole to limit the position of the support rod; the mounting section is also provided with a tension structure which is provided with a tension end connected with the inner end of the locking rod and can drive the locking rod to move inwards against the pushing force of the pushing force spiral spring so as to enable the front end of the locking rod to be separated from the locking hole.

Therefore, by arranging the arrangement hole and arranging the locking rod in the arrangement hole, after the ejecting rod slides inwards along the installation hole, the front end of the locking rod can be correspondingly inserted into the locking hole to limit the position of the ejecting rod; the support rod pushes the limiting rod to rotate to a position separated from the clamping groove, the position of the support rod is locked, and the position of the support rod is also locked, so that the support rod is in an open state and is convenient to disassemble. And the tension structure that sets up can drive the locking lever and overcome the thrust of thrust coil spring and inwards move to make the locking lever front end break away from the locking hole, can conveniently accomplish the assembly this moment.

When in design, the tension structure can be a sliding block arranged on the installation section, and the installation section is provided with a sliding chute and matched with the sliding block; the slide block is connected with a tension rod, and the far end of the tension rod passes through the bottom surface of the placing hole and is connected with the inner end of the locking rod through a pull rope. The manual operation slider slides in the spout, and the pull rod and the stay cord that link to each other through with the slider drive the locking lever and overcome thrust coil spring's thrust inward movement in settling the hole for the distal end of locking lever breaks away from the locking hole, thereby makes and to operate the outside slip of pole along the mounting hole of propping. (structures such as sliders are not shown).

In the specific embodiment, a push-out block 16 is arranged on the mounting section and corresponding to the inner peripheral wall of the mounting cavity, the push-out block is in slidable connection with a connecting chute arranged on the inner peripheral wall of the mounting cavity, and a push-out helical spring 17 is arranged between the end part of the connecting chute and the push-out block; and when the insertion section is inserted into the installation cavity, the end part of the insertion section can be abutted against the side surface of the push-out block and overcomes the pushing force of the push-out spiral spring to drive the push-out block to slide inwards.

Like this, the thrust of inserting the section can be given all the time to the piece of releasing of design for after the installation, more stable, and still make things convenient for the dismouting.

In the specific embodiment, the inserting section and the mounting section are both designed to be cylindrical structures, and the mounting cavity is a cylindrical cavity.

Like this, the structural design of grafting section and installation section is more reasonable, and convenient processing more to and conveniently accomplish the assembly.

To sum up, the utility model discloses it is more reasonable that the structure has structural design, can make things convenient for the dismouting of operation completion host computer and casing more to can be better protect both, at the dismouting in-process, reduce the wearing and tearing between the component, protection equipment component that can be better in dismouting operation process avoids wearing and tearing to destroy.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the teachings of the present invention without undue experimentation. Therefore, the technical solutions that can be obtained by logical analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention by those skilled in the art should be within the scope of protection defined by the claims.

Claims (6)

1. An assembly structure of a host and a shell of a building slope detection device comprises the host and the shell; the rear end of the host is provided with an insertion section, and the front end of the shell is provided with an installation section and an installation cavity for the insertion connection of the insertion section; the clamping device is characterized in that two or more clamping rods are uniformly arranged on the outer peripheral wall of the connecting section along the contour direction, the clamping rods are arranged along the length direction of the connecting section, the outer ends of the clamping rods can be vertically and rotatably hinged on the connecting section, and a spring thrust mechanism is arranged between the clamping rods and the mounting section to enable the inner ends of the clamping rods to have a tendency of deviating from the rotating direction of the connecting section; clamping grooves are respectively formed in the inner peripheral wall of the installation cavity of the installation section, corresponding to the far ends of the clamping rods, so that the far ends of the clamping rods can be clamped into the clamping grooves to limit the insertion section from falling off from the installation section; and a pushing-out mechanism is arranged on the mounting section and corresponds to the clamping groove, and the pushing-out mechanism is provided with a pushing-out end and can drive the inner end of the clamping rod to be separated from the clamping groove.

2. The assembling structure of the main body and the housing of the building slope detecting device according to claim 1, wherein: the connecting section periphery wall is provided with two or more mounting grooves along the contour direction, the length direction of the mounting grooves is arranged along the length direction of the connecting section, and the outer end of the clamping rod is hinged in the mounting grooves.

3. The assembling structure of the main body and the housing of the building slope detecting device according to claim 1, wherein: the pushing-out mechanism comprises a mounting hole which is arranged on the mounting section and penetrates through the wall thickness of the mounting section; the inner end of the support rod can abut against the clamping rod and push the clamping rod to rotate, so that the inner end of the clamping rod is separated from the clamping groove.

4. The assembling structure of the main body and the housing of the building slope detecting device according to claim 3, wherein: a horizontally arranged placing hole is arranged on the inner peripheral wall of the mounting hole, a locking rod is arranged in the placing hole, and the inner end of the locking rod is connected with the bottom surface of the placing hole through a thrust spiral spring; the outer end of the pushing-out rod is provided with a locking hole, and after the pushing-out rod slides inwards along the mounting hole, the front end of the locking rod can be correspondingly inserted into the locking hole to limit the position of the pushing-out rod; the mounting section is also provided with a tension structure which is provided with a tension end connected with the inner end of the locking rod and can drive the locking rod to move inwards against the pushing force of the pushing force spiral spring so as to enable the front end of the locking rod to be separated from the locking hole.

5. The structure for assembling a main unit and a housing of a building slope detection device according to claim 1, wherein: a push-out block is arranged on the mounting section and corresponds to the inner peripheral wall of the mounting cavity, the push-out block is in slidable connection with a connecting chute arranged on the inner peripheral wall of the mounting cavity, and a push-out spiral spring is arranged between the end part of the connecting chute and the push-out block; and when the insertion section is inserted into the installation cavity, the end part of the insertion section can be abutted against the side surface of the push-out block and overcomes the pushing force of the push-out spiral spring to drive the push-out block to slide inwards.

6. The assembling structure of the main body and the housing of the building slope detecting device according to claim 1, wherein: the inserting section and the mounting section are both designed to be cylindrical structures, and the mounting cavity is a cylindrical cavity.

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