CN213150921U - Quick assembly disassembly structure of artifical monitoring positioning device battery and basic station that vibrates - Google Patents

Abstract

The utility model provides a quick assembly disassembly structure of artifical monitoring positioner battery and basic station that vibrates, the preceding terminal surface of battery is equipped with three first fast-assembling buckle, the rear end face of basic station is equipped with three second fast-assembling buckle, it is first when, second fast-assembling buckle corresponds each other, after the joint, the restriction battery removes towards the upside of basic station rear end face, it is first when the second, second fast-assembling buckle corresponds each other, after the joint, the restriction battery removes towards the left side of basic station rear end face, it is first when the third, second fast-assembling buckle corresponds each other, after the joint, the restriction battery removes towards the downside of basic station rear end face, locking structure establishes on battery and basic station, it is corresponding with three second fast-assembling buckle one-to-one respectively to work as three first buckle, after the joint, locking structure can restrict the battery and remove towards the right side of basic station rear end face. Not only battery and basic station are components of a whole that can function independently structure, when charging, dismantle the battery and charge, when the battery resets the installation again moreover, do not need the tower to build installing support or mounting platform.

Description

Quick assembly disassembly structure of artifical monitoring positioning device battery and basic station that vibrates

Technical Field

The utility model relates to a quick assembly disassembly structure of artifical monitoring positioner battery and basic station that vibrates.

Background

The manual vibration monitoring and positioning device is a manual vibration rod body positioning system based on a UWB technology in the construction of a vibration type hydropower station dam. The dam body construction of the dam of the hydropower station is that multiple storehouses face are sequentially poured and mixed with soil, a pouring mode that a manual vibrating rod is vibrated is adopted, and the vibrating position and track of the vibrating rod on the storehouses face need to be monitored at high-precision positions. And 6-8 UWB positioning base stations with batteries are required to be arranged around each construction bin surface to serve as the basic requirement of a spare bin, and the base stations scan positioning labels on the rod bodies to accurately position the vibrating rods.

In the traditional manual vibration monitoring and positioning device, a battery and a base station are manufactured into a whole, and when the battery is in short of electricity, the whole manual vibration monitoring and positioning device needs to be removed from a pouring site and is carried to a designated charging room for charging. Firstly, the time for charging and returning to the installation at the lower dam is at least 18 hours, and the transportation cost is long; secondly, due to the integral design of the battery and the base station of the manual vibration monitoring and positioning device, the manual vibration monitoring and positioning device is heavy in weight and large in size, in order to achieve the purpose of higher conveying efficiency, one conveying and maintenance worker needs to carry two pieces of equipment at a time, one conveying and maintenance worker carries one back of the equipment, one conveying and maintenance worker carries one hand, the other hand is used for climbing, and the climbing warehouse brings great safety risk; thirdly, if the transportation is carried in the above way, one transportation maintenance personnel carries two transportation at one time, 6-8 manual vibration monitoring and positioning devices are needed to calculate according to a single warehouse surface, and therefore 4 persons are needed for the warehouse preparation personnel of the single warehouse surface. It is conceivable that a plurality of deck surfaces require more transport maintenance personnel without increasing the number of times of transport, or waste a long transport time even with increasing the number of times of transport. The bin preparation efficiency is seriously influenced; thirdly, after the battery charges and accomplishes, resets whole artifical monitoring positioner that vibrates to the original position, because battery and base station are global design, resets the original position and need the tower to build installing support or mounting platform, wastes time and energy.

Disclosure of Invention

The utility model aims to provide a: to above-mentioned prior art not enough, provide one kind not only can be with battery and basic station quick detach, the components of a whole that can function independently structure of fast-assembling, when charging, only need dismantle the battery, the transport returns the charging chamber and charges, for carrying whole artifical monitoring and positioning device that vibrates, the volume of transport battery is littleer, weight is lighter, the transport is safer, efficiency is higher, and after battery charging accomplished, because the volume of battery is littleer, weight is lighter, reset the battery and need not need the tower to build installing support or mounting platform's quick assembly disassembly structure on the basic station again.

The utility model discloses a technical scheme be, a quick assembly disassembly structure of artifical vibration monitoring positioning device battery and basic station, quick assembly disassembly structure includes first fast-assembling buckle, second fast-assembling buckle and locking structure, the preceding terminal surface of battery is provided with three first fast-assembling buckle, and first fast-assembling buckle is located the upside part of terminal surface before the battery, the first fast-assembling buckle of second is located the right side part of terminal surface before the battery, and the first fast-assembling buckle of third is located the downside part of terminal surface before the battery, the rear end face of basic station is provided with three second fast-assembling buckle, and first second fast-assembling buckle is located the upside part of base station rear end face, and second fast-assembling buckle is located the left side part of base station rear end face, and third second fast-assembling buckle is located the downside part of base station rear end face, when first fast-assembling buckle and first second fast-assembling buckle correspond each other, After clamping, the battery is limited to move towards the upper side of the rear end surface of the base station, when the second first quick-assembly buckle and the second quick-assembly buckle correspond to each other and are clamped, the battery is limited to move towards the left side of the rear end surface of the base station,

after the third first quick-assembly buckle and the third second quick-assembly buckle are mutually corresponding and clamped, the battery is limited to move towards the lower side of the rear end face of the base station, the locking structure is arranged on the battery and the base station, and after the three first quick-assembly buckles on the front end face of the battery and the three second quick-assembly buckles on the rear end face of the base station are all in one-to-one correspondence and clamped, the locking structure limits the battery to move towards the right side of the rear end face of the base station.

The first fast-assembling buckle is arranged in an article shape, and the second fast-assembling buckle is arranged in an article shape.

The fast-assembling buckle mainly comprises a first buckle plate, a first bayonet piece and a first buckle mounting hole, wherein the first bayonet piece is square and is stamped on the first buckle plate, the first bayonet piece is parallel to the first buckle plate, four sides of the first bayonet piece are composed of a connecting side and three opening sides, the connecting side is connected with the outer side surface of the first buckle plate in an integrated forming mode, an insertion hole is formed between the three opening sides and the outer side surface of the first buckle plate respectively, so that the first fast-assembling buckle is in an h shape, the first buckle plate is provided with three first buckle mounting holes, and the center connecting line of the first buckle mounting holes is parallel to the connecting side of the first bayonet piece.

Furthermore, a first reinforcing groove in a shape like the Chinese character 'wang' is punched on the inner side face of the first bayonet piece, four bayonet piece reinforcing ribs are arranged in the first reinforcing groove, and the four bayonet piece reinforcing ribs are arranged in a shape like the Chinese character 'wang'.

Furthermore, the parts of the first buckle plate, which are positioned on two sides of the first fast-assembling buckle, are respectively and correspondingly provided with a strip-shaped second reinforcing groove, a buckle reinforcing rib is arranged in the second reinforcing groove, and the second reinforcing groove is perpendicular to the central connecting lines of the three first buckle mounting holes.

The second fast-assembling buckle mainly comprises a second buckle plate, a second bayonet piece and a second buckle mounting hole, wherein the second bayonet piece is square and is stamped on the second buckle plate, the second bayonet piece is parallel to the second buckle plate, four sides of the second bayonet piece are composed of a connecting side and three opening sides, the connecting side is connected with the outer side surface of the second buckle plate in an integrated forming mode, an insertion hole is formed between each of the three opening sides and the outer side surface of the second buckle plate, so that the second fast-assembling buckle is in an h shape, the second buckle plate is provided with three second buckle mounting holes, and the center connecting line of the second buckle mounting holes is parallel to the connecting side of the second bayonet piece.

Furthermore, a third reinforcing groove in a shape like the Chinese character 'wang' is punched on the inner side face of the second bayonet piece, four bayonet piece reinforcing ribs are arranged in the third reinforcing groove, and the four bayonet piece reinforcing ribs are arranged like the Chinese character 'wang'.

Furthermore, the parts of the second snap-in plate, which are located on two sides of the second quick-assembly buckle, are respectively and correspondingly provided with a strip-shaped fourth reinforcing groove, a buckle reinforcing rib is arranged in the fourth reinforcing groove, and the fourth reinforcing groove is perpendicular to the central connecting lines of the three second buckle mounting holes.

Furthermore, the locking structure is a self-locking bolt lock and a bolt seat, the self-locking bolt lock is arranged on the left end face of the battery, the bolt seat is arranged on the end face of the base station, a bolt hole is formed in the bolt seat, when three first quick-assembly buckles on the front end face of the battery are respectively in one-to-one correspondence with three second quick-assembly buckles on the rear end face of the base station and are clamped, a movable part of the self-locking bolt lock extends out from the front end face of the battery and is arranged in the bolt hole of the bolt seat to lock the movable part of the self-locking bolt lock, and therefore the battery is limited by the locking structure to move towards the right side of the rear end face of the base station.

The utility model has the advantages that: the utility model discloses not only can be with the components of a whole that can function independently structure of battery and basic station quick detach, fast-assembling, when charging, only need dismantle the battery, the transport returns the charge chamber and charges, for carrying whole artifical monitoring and positioning device that vibrates, the volume of transport battery is littleer, weight is lighter, the transport is safer, efficiency is higher, after battery charging accomplishes in addition, because the volume of battery is littleer, weight is lighter, need not need the tower to build installing support or mounting platform on resetting the basic station with the battery again.

Drawings

The present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic view of the installation of the present invention.

Fig. 2 is a schematic view of the battery of fig. 1.

Fig. 3 is a schematic diagram of the base station of fig. 1.

Fig. 4 is a perspective view of the first quick-fit buckle in fig. 1 or 2.

FIG. 5 is a front view of the first snap fastener of FIG. 4.

FIG. 6 is a top view of the first snap fastener of FIG. 4.

FIG. 7 is a side view of the first snap fastener of FIG. 4.

Fig. 8 is a perspective view of the second quick release buckle of fig. 1 or 3.

FIG. 9 is a front view of the second snap fastener of FIG. 8.

FIG. 10 is a top view of the second snap fastener of FIG. 8.

FIG. 11 is a side view of the second snap fastener of FIG. 8.

FIG. 12 is an assembly view of a first quick load buckle and a second quick load buckle.

Fig. 13 is a top view of fig. 12.

Fig. 14 is a side view of fig. 12.

Fig. 15 is an enlarged view at a in fig. 14.

Fig. 16 is a cross-sectional view of the guide block.

Fig. 17 is a plan view of the guide groove.

Fig. 18 is a sectional view of the guide block in cooperation with the guide groove of the first stage.

FIG. 19 is a sectional view of the guide block in cooperation with the guide groove of the second stage.

The reference numbers in the figures mean: 1-a first quick-mounting buckle; 101-a first snap plate; 102-a first bayonet piece; 103-a first snap mounting hole; 104-a first fast-assembling buckle; 105-a second first quick-mounting buckle; 106-a third first quick-mounting buckle; 107-bayonet piece reinforcing ribs; 108-fastener reinforcing ribs; 2-second fast-assembling buckle; 201-a second snap plate; 202-a second bayonet tab; 203-second snap mounting hole; 204-a first second quick-assembling buckle; 205-a second quick mount buckle; 206-a third second quick-mounting buckle; 207-bayonet piece reinforcing ribs; 208-buckling reinforcing ribs; 3-a locking structure; 301-self-locking bolt lock; 3011 — a movable part; 302-bolt seat; 3021-bolt hole; 4- "T" type guide block; 5, a guide groove; 501-a first section of guide groove; 502-second stage guide groove. 6-a battery; 7-base station.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

In this application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the present application and its embodiments, and are not used to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in this application will be understood by those of ordinary skill in the art as appropriate.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "sleeved" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

It should also be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Example 1

Referring to fig. 1 to 15: the utility model relates to a quick assembly disassembly structure of artifical monitoring positioner battery and basic station that vibrates, quick assembly disassembly structure includes first fast-assembling buckle 1, second fast-assembling buckle 2 and locking structure 3.

The front end surface of the battery 6 is provided with three first quick-assembly fasteners 1 (for example, welded, screwed, etc.), a first quick-assembly fastener 104 is located on the upper portion of the front end surface of the battery 6, a second first quick-assembly fastener 105 is located on the right portion of the front end surface of the battery 6 (see fig. 2), and a third first quick-assembly fastener 106 is located on the lower portion of the front end surface of the battery 6.

The rear end face of the base station 7 is provided with three second quick fasteners 2 (for example, welded, screwed, etc.), a first second quick fastener 204 is located on the upper portion of the rear end face of the base station 7, a second quick fastener 205 is located on the left portion of the rear end face of the base station 7 (see fig. 3), and a third second quick fastener 206 is located on the lower portion of the rear end face of the base station 7.

After the first quick-assembly buckle 104 and the first second quick-assembly buckle 204 are corresponding to each other and clamped, the battery 6 is restricted from moving towards the upper side of the rear end surface of the base station 7.

After the second first snap fastener 105 and the second snap fastener 205 are engaged with each other, the battery 6 is restricted from moving toward the left side of the rear end surface of the base station 7.

After the third first snap fastener 106 and the third second snap fastener 206 are corresponding to each other and engaged with each other, the battery 6 is restricted from moving toward the lower side of the rear end surface of the base station 7.

The locking structure 3 is arranged on the battery 6 and the base station 7, when three first quick-assembly buckles 1 on the front end face of the battery 6 are respectively in one-to-one correspondence and clamped with three second quick-assembly buckles 2 on the rear end face of the base station 7, the locking structure 3 can limit the battery 6 to move towards the right side of the rear end face of the base station 7.

In this embodiment, three first quick-mounting buckles 1 are arranged in a shape like the Chinese character 'pin', and three second quick-mounting buckles 2 are arranged in a shape like the Chinese character 'pin'. The battery 6 and the base station 7 are more firmly acted with each other, and the stress is more uniform and stable.

The first fast-assembling buckle 1 mainly comprises a first buckle plate 101, a first bayonet piece 102 and a first buckle mounting hole 103, wherein the first buckle plate 101 is stamped (the stamping direction is stamping from the inner side surface (referring to the side surface opposite to the first bayonet piece 102 and the first buckle plate 101) of the first bayonet piece 102 to the outer side surface (referring to the side surface opposite to the first bayonet piece 102 and the first buckle plate 101) of the first buckle plate 101) to form a square (rectangular or square) first bayonet piece 102, the first bayonet piece 102 is parallel to the first buckle plate 101, four sides of the first bayonet piece 102 comprise a connecting side and three opening sides, one connecting side is connected with the outer side surface of the first buckle plate 101 in an integrated forming manner, and an insertion hole is respectively formed between the three opening sides and the outer side surface of the first buckle plate 101, so that the first buckle 1 is in an "h" shape, the first buckle plate 101 is provided with three first buckle mounting holes 103, and a central connecting line of the three first buckle mounting holes 103 is parallel to a connecting side edge of the first bayonet piece 102. A plurality of threaded holes which correspond to the first buckle mounting holes 103 and are matched with the first buckle mounting holes 103 are formed in the front end face of the battery 6, and the battery is fixed by penetrating the first buckle mounting holes 103 through bolts or screws and being screwed into the threaded holes in the front end face of the battery 6. The thicknesses of the first buckling plate 101 and the first bayonet piece 102 are 0.48-0.53 mm (e.g., 0.48mm, 0.50mm, 0.53 mm).

Further, a first reinforcing groove in a shape like the Chinese character 'wang' is punched on the inner side surface of the first bayonet piece 102, four bayonet piece reinforcing ribs 107 are arranged in the first reinforcing groove, and the four bayonet piece reinforcing ribs 107 are arranged in a shape like the Chinese character 'wang'. To increase the strength of the first bayonet tab 102. Wherein the groove depth of the first strengthening groove plus the thickness of the first bayonet tab 102 is less than 3 mm.

Further, the portions of the first snap-in plate 101 located at the two sides of the first quick-assembly snap 1 are respectively and correspondingly provided with a strip-shaped second reinforcing groove, a snap reinforcing rib 108 is arranged in the second reinforcing groove, and the second reinforcing groove is perpendicular to the central connecting lines of the three first snap mounting holes 103. To increase the strength of the first latch plate 101. The groove depth of the second reinforcing groove and the thickness of the first buckle plate 101 are less than 3 mm. The diameter of the first snap mounting hole 103 is 5 mm.

The strength of the first bayonet piece 102 and the first snap plate 101 is enhanced, so that the strength of the whole first quick buckle 1 is increased.

The second fast-assembling buckle 2 mainly comprises a second buckle plate 201, a second bayonet piece 202 and a second buckle mounting hole 203, wherein the second buckle plate 201 is punched (the punching direction is that the second bayonet piece 202 is punched from the inner side surface (referring to the side surface opposite to the second bayonet piece 202 and the second buckle plate 201) of the second bayonet piece 202 to the outer side surface (referring to the side surface opposite to the second bayonet piece 202 and the second buckle plate 201) of the second buckle plate 201), the second bayonet piece 202 is square, the second bayonet piece 202 and the second buckle plate 201 are parallel to each other, four sides of the second bayonet piece 202 are composed of a connecting side edge and three opening side edges, one connecting side edge is connected with the outer side surface of the second buckle plate 201 in an integrally formed manner, and three opening side edges are respectively connected with the outer side surface of the second buckle plate 201 to form an insertion hole, so that the second buckle 2 is h-shaped, the second buckle plate 201 is provided with three second buckle mounting holes 203, and a central connecting line of the three second buckle mounting holes 203 is parallel to a connecting side edge of the second bayonet piece 202. The rear end face of the base station 7 is provided with a plurality of threaded holes which correspond to and match with the second buckle mounting holes 203, and the threaded holes penetrate through the second buckle mounting holes 203 through bolts or screws and are screwed into the threaded holes in the rear end face of the base station 7 to realize fixation. The thicknesses of the second fastening plate 201 and the second bayonet piece 202 are both 0.48-0.53 mm (e.g., 0.48mm, 0.50mm, 0.53 mm). The diameter of the second snap mounting hole 203 is 5 mm.

Further, a third reinforcing groove in a shape like a Chinese character 'wang' is punched on the inner side surface of the second bayonet piece 202, four bayonet piece reinforcing ribs 207 are arranged in the third reinforcing groove, and the four bayonet piece reinforcing ribs 207 are arranged in a shape like the Chinese character 'wang'. To increase the strength of said second bayonet tab 202. Wherein the groove depth of the third strengthening groove plus the thickness of the second bayonet tab 202 is less than 3 mm.

Further, the portions of the second snap plate 201 on both sides of the second quick mount buckle 2 are respectively and correspondingly provided with a strip-shaped fourth reinforcing groove, a buckle reinforcing rib 208 is arranged in the fourth reinforcing groove, and the fourth reinforcing groove is perpendicular to the central connecting lines of the three second buckle mounting holes 230. To enhance the strength of the second latch plate 201. The depth of the fourth reinforcing groove and the thickness of the second latch plate 201 are less than 3 mm.

The strength of the second bayonet piece 202 and the second snap plate 201 is enhanced, so that the strength of the whole second quick assembling buckle 2 is increased.

Further, the locking structure 3 is a self-locking latch lock 301 (the self-locking latch lock 301 is a mature technology, has a self-locking function, and can enable a movable part 3011 of the self-locking latch lock 301 to be in an extending state or a retracting state, and can be self-locked) and a latch base 302. In this embodiment, the self-locking latch lock 301 is disposed (e.g., welded) on the left end surface of the battery 6, the base station 7 is disposed (e.g., welded) with the latch base 302 on the end surface, and the latch base 302 is provided with a latch hole 3021. After the three first quick-assembly fasteners 1 on the front end surface of the battery 6 are respectively in one-to-one correspondence with and fastened to the three second quick-assembly fasteners 2 on the rear end surface of the base station 7, the movable portion 3011 of the self-locking latch lock 301 extends out from the front end surface of the battery 6 and is placed in the latch hole 3021 of the latch base 302, and the movable portion 3011 of the self-locking latch lock 301 is locked, so that the locking structure 3 restricts the battery 6 from moving to the right side of the rear end surface of the base station 7.

This embodiment not only can be with battery 6 and basic station 7 quick detach, the components of a whole that can function independently structure of fast-assembling, when charging, only need dismantle battery 6, the transport returns the charging chamber and charges, for carrying whole artifical vibration monitoring positioner, the volume of transport battery 6 is littleer, weight is lighter, the transport is safer, efficiency is higher, moreover after battery 6 charges and accomplishes, because the volume of battery 6 is littleer, weight is lighter, reset battery 6 and need not establish installing support or mounting platform on the basic station 7 with the tower again.

Example 2

Referring to fig. 16 to 19: the other structure of the present embodiment 2 is the same as that of the embodiment 1, except that: the quick dismounting structure also comprises a T-shaped guide block 4 and a guide groove 5,

the front end face of the battery is welded with a T-shaped guide block. The T-shaped guide block 4 is located at the left portion of the front end surface of the battery,

the rear end face of the base station is provided with a strip-shaped guide groove 5, the guide groove 5 is positioned at the middle part and the right part of the rear end face of the base station,

the guide groove 5 is composed of two sections, a first section of guide groove 501 is located at the right side part of the rear end face of the base station, and a second section of guide groove 502 is located at the middle part of the rear end face of the base station, or the middle part and the right side part. And the guide groove 5 is vertical to the central connecting line of the first second quick-assembly buckle and the third second quick-assembly buckle.

The cross section of the first section of guide groove 501 is shaped like a U, the width of the notch of the first section of guide groove 501 is equal to the maximum width of the T-shaped guide block 4, and the cross section of the second section of guide groove 502 is shaped like a T and is matched with the T-shaped guide block 4.

When the battery quick-mounting buckle is used, the T-shaped guide block 4 of the battery is inserted into the first section of guide groove 501 (vertically towards the direction of the rear end face of the base station) (namely, the maximum outer contour of the T-shaped guide block 4 is matched with the first section of guide groove 501, the T-shaped guide block 4 is sleeved in the first section of guide groove 501, three end faces of the T-shaped guide block 4 are attached to the inner wall surface of the first section of guide groove 501, the rest end face faces the connecting part between the first section of guide groove 501 and the second section of guide groove 502, at the moment, the three first quick-mounting buckles and the three second quick-mounting buckles are not contacted or overlapped with each other), then the battery is moved (towards the direction of the second quick-mounting buckle), the T-shaped guide block 4 of the battery is moved into the second section of guide groove 502, so that the T-shaped guide block 4 is matched with the T-shaped guide groove, and continuously moving the battery, and realizing the quick correspondence and quick clamping of the three first quick-assembly buckles and the three second quick-assembly buckles under the common guide of the T-shaped guide block 4 and the T-shaped guide groove. The three first quick-assembly buckles and the three second quick-assembly buckles are prevented from being quickly corresponding and clamped by virtue of experience of carrying maintenance personnel in the installation process.

The technical solutions of the above embodiments are only used for illustrating the present invention, and not for limiting the same. Although the present invention has been described in detail with reference to the technical solutions of the foregoing embodiments, those skilled in the art should understand that: the technical scheme can be modified, or part of technical characteristics can be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the present invention in its essence.

Claims (9)

1. The utility model provides a quick assembly disassembly structure of artifical monitoring positioner battery and basic station that vibrates which characterized in that:

the quick disassembly and assembly structure comprises a first quick assembling buckle, a second quick assembling buckle and a locking structure,

the front end surface of the battery is provided with three first quick-assembly buckles, the first quick-assembly buckle is positioned at the upper side part of the front end surface of the battery, the second first quick-assembly buckle is positioned at the right side part of the front end surface of the battery, the third first quick-assembly buckle is positioned at the lower side part of the front end surface of the battery,

the rear end face of the base station is provided with three second quick-assembly buckles, the first second quick-assembly buckle is positioned at the upper side part of the rear end face of the base station, the second quick-assembly buckle is positioned at the left side part of the rear end face of the base station, the third second quick-assembly buckle is positioned at the lower side part of the rear end face of the base station,

when the first quick-assembly buckle and the first second quick-assembly buckle are mutually corresponding and clamped, the battery is limited to move towards the upper side of the rear end surface of the base station,

when the second first quick-assembly buckle and the second quick-assembly buckle are mutually corresponding and clamped, the battery is limited to move towards the left side of the rear end surface of the base station,

when the third first quick-assembly buckle and the third second quick-assembly buckle are mutually corresponding and clamped, the battery is limited to move towards the lower side of the rear end surface of the base station,

the locking structure is arranged on the battery and the base station, when the three first quick-assembly buckles on the front end face of the battery are in one-to-one correspondence and clamping connection with the three second quick-assembly buckles on the rear end face of the base station, the locking structure can limit the battery to move towards the right side of the rear end face of the base station.

2. The structure of claim 1, wherein the battery and the base station are assembled and disassembled quickly, and the structure comprises:

the first fast-assembling buckle is arranged in an article shape, and the second fast-assembling buckle is arranged in an article shape.

3. The structure of claim 1, wherein the battery and the base station are assembled and disassembled quickly, and the structure comprises:

the first fast-assembling buckle mainly comprises a first buckle plate, a first bayonet piece and a first buckle mounting hole,

the first bayonet sheet which is square is punched on the first buckle plate,

the first bayonet piece is parallel to the first buckle plate,

four sides of the first bayonet piece are composed of a connecting side and three opening sides, one connecting side is connected with the outer side of the first buckle plate in an integrated forming mode, three opening sides form an insertion opening with the outer side of the first buckle plate respectively, so that the first fast-assembling buckle is in an h shape,

the first buckle plate is provided with three first buckle mounting holes, and the center connecting lines of the three first buckle mounting holes are parallel to the connecting side edges of the first bayonet pieces.

4. The structure of claim 3, wherein the battery and the base station are assembled and disassembled quickly, and the structure comprises:

the inner side surface of the first bayonet piece is stamped with a first reinforcing groove in a shape like the Chinese character 'wang', four bayonet piece reinforcing ribs are arranged in the first reinforcing groove, and the four bayonet piece reinforcing ribs are arranged like the Chinese character 'wang'.

5. The structure of claim 3, wherein the battery and the base station are assembled and disassembled quickly, and the structure comprises:

the parts of the first buckle plate, which are positioned on two sides of the first fast-assembling buckle, are respectively and correspondingly provided with a strip-shaped second reinforcing groove, the second reinforcing grooves are internally provided with buckle reinforcing ribs, and the second reinforcing grooves are mutually vertical to the central connecting lines of the three first buckle mounting holes.

6. The structure of claim 1, wherein the battery and the base station are assembled and disassembled quickly, and the structure comprises:

the second fast-assembling buckle mainly comprises a second buckle plate, a second bayonet sheet and a second buckle mounting hole,

the second bayonet sheet which is square is punched on the second buckle plate,

the second bayonet piece is parallel to the second buckle plate,

the four sides of the second bayonet piece are composed of a connecting side and three opening sides, one connecting side is connected with the outer side of the second buckle plate in an integrated forming mode, an insertion opening is formed between the three opening sides and the outer side of the second buckle plate respectively, so that the second fast-assembling buckle is in an h shape,

the second buckle plate is provided with three second buckle mounting holes, and the central connecting lines of the three second buckle mounting holes are parallel to the connecting side edges of the second bayonet pieces.

7. The structure of claim 6, wherein the battery and the base station are assembled and disassembled quickly, and the structure comprises:

the inner side surface of the second bayonet piece is stamped with a third reinforcing groove in a shape like the Chinese character 'wang', four bayonet piece reinforcing ribs are arranged in the third reinforcing groove, and the four bayonet piece reinforcing ribs are arranged like the Chinese character 'wang'.

8. The structure of claim 6, wherein the battery and the base station are assembled and disassembled quickly, and the structure comprises:

the parts of the second buckle plate, which are positioned on two sides of the second fast-assembling buckle, are correspondingly provided with a strip-shaped fourth reinforcing groove respectively, a buckle reinforcing rib is arranged in the fourth reinforcing groove, and the fourth reinforcing groove is perpendicular to the central connecting lines of the three second buckle mounting holes.

9. The structure for quickly assembling and disassembling a battery and a base station of a manual vibration monitoring and positioning device according to claim 1, 2, 3, 4, 5, 6, 7 or 8, characterized in that:

the locking structure comprises a self-locking bolt lock and a bolt seat, the self-locking bolt lock is arranged on the left end face of the battery, the bolt seat is arranged on the end face of the base station, a bolt hole is formed in the bolt seat, when three first quick-assembly buckles on the front end face of the battery are respectively in one-to-one correspondence with three second quick-assembly buckles on the rear end face of the base station and clamped, a movable part of the self-locking bolt lock extends out from the front end face of the battery and is placed in the bolt hole of the bolt seat to lock the movable part of the self-locking bolt lock, and therefore the battery is limited by the locking structure to move towards the right side of the rear end face of the base station.

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