CN113622719B - Easy-to-dismount inspection station - Google Patents

Abstract

The invention discloses an easy-to-disassemble inspection station, which comprises a tripod, wherein the tripod comprises: the triangular support units comprise two oblique beams and a second cross beam positioned below the oblique beams; the top end of the oblique beam is rotatably connected, each bottom end of the oblique beam is rotatably connected with the end of the second cross beam, the second cross beam comprises two transverse sub beams which are connected with each other, and the two transverse sub beams are rotatably connected. The invention solves the problem that the tripod can not be quickly disassembled and assembled.

Description

Easy-to-dismount inspection station

Technical Field

The invention relates to the field of traffic inspection facilities, in particular to an easily-detachable inspection station.

Background

The traffic inspection station is used for inspecting whether the articles of the passing vehicles have forbidden articles, the current traffic inspection station comprises a tripod at the top and supporting frames at two sides, and an inspection channel is arranged between the supporting frames. The tripod is difficult to disassemble and assemble quickly due to the fact that a plurality of positions of the tripod are connected through bolts and screws, so that the tripod can be used only in a fixed place after being built, is inconvenient to move and reassemble, and is inconvenient to put into use quickly.

Disclosure of Invention

Therefore, the embodiment of the invention provides an easy-to-disassemble inspection station, which effectively solves the problem that a tripod cannot be disassembled and assembled quickly.

The invention provides an easy-to-disassemble inspection station, which comprises a tripod, wherein the tripod comprises: the triangular support units comprise two oblique beams and a first cross beam positioned below the oblique beams; the top end of the oblique beam is rotatably connected with each other, the bottom end of the oblique beam is rotatably connected with the end of the first cross beam, the first cross beam comprises two transverse branch beams which are connected with each other, and the two transverse branch beams are rotatably connected with each other.

Compared with the prior art, the technical scheme has the following technical effects that: the two transverse sub-beams and the oblique beams are unfolded simultaneously, so that the two transverse sub-beams are collinear and are fixed, the triangular support units can be installed, and then the triangular support units are arranged in parallel to form a triangular support, so that the triangular support is more convenient and quicker to install; the two corresponding transverse sub-beams and the two inclined beams can be folded simultaneously, so that the transverse sub-beams and the inclined beams are folded to be in a parallel state, and therefore the transverse sub-beams are convenient to disassemble, convenient to store and transport and capable of being reused.

In one embodiment of the present invention, the first beam further comprises: divide beam coupling assembling, divide beam coupling assembling to include: each supporting frame body is sleeved at one end, facing to the other transverse sub-beam, of any one transverse sub-beam; the first buckle is used for connecting the two supporting frame bodies.

The technical effect that adopts this technical scheme can reach is: the support frame body can realize the separation of the first buckle and the transverse beam. On one hand, the end part of the transverse beam cannot be deformed or abraded due to long-time connection of the first buckle; on the other hand, when the transverse beam is folded and stored, the interference caused by the first buckle can be avoided, and the first buckle can be independently stored.

In one embodiment of the present invention, the split beam connection assembly further comprises: and the first rotating piece is connected with the two supporting frame bodies and is positioned on the upper side or the lower side of the supporting frame bodies.

The technical effect that adopts this technical scheme can reach is: after the first buckle is loosened, the first rotating piece can continue to keep the connection of the two supporting frame bodies, the transverse sub-beams can rotate in the vertical direction to realize folding, and the two transverse sub-beams are stacked between the two oblique beams in parallel; when the first buckle is connected, the first rotating piece can block one end, connected with the two transverse sub beams, from inclining downwards, and therefore the connecting strength of the two transverse sub beams is improved.

In one embodiment of the present invention, the triangular support unit further comprises: and each reinforcing beam is connected with the inclined beam and the transverse sub-beam on any side of the triangular support unit, and the reinforcing beam is rotatably connected with the inclined beam.

The technical effect that adopts this technical scheme can reach is: on the basis of the first buckle, the transverse sub-beams can be further fixed by the reinforcing beam, so that the stability of the triangular support unit is improved; when the triangular support unit needs to be folded and stored, two ends of the reinforcing beam can rotate, and at least one end of the reinforcing beam can slide simultaneously, so that the reinforcing beam is synchronously folded in the process of folding the inclined beam and the transverse sub-beams, and the disassembly efficiency is improved.

In one embodiment of the invention, the transverse section beam is provided with a sliding groove, and the end part of the reinforcing beam can slide in the sliding groove and is fixed at any position of the sliding groove through a fastener.

The technical effect that adopts this technical scheme can reach is: one end of the reinforcing beam, which is connected with the transverse sub-beam, can slide in the sliding groove. For example, during the folding process of the oblique beam and the transverse split beam, one end of the reinforcing beam connected with the oblique beam rotates, one end of the reinforcing beam connected with the sliding groove slides to one side of the sliding groove close to the other transverse split beam, so that the angle formed by the reinforcing beam and the transverse split beam gradually decreases, and the folding and the storage are completed when the reinforcing beam and the transverse split beam are almost parallel.

In one embodiment of the invention, the first cross member further comprises an end fixture comprising opposite tripod fixing sides and tripod assembling sides, the end fixture being provided with a stringer mounting groove and a cross member mounting groove at the tripod assembling sides.

The technical effect that adopts this technical scheme can reach is: the oblique beam and the first cross beam are respectively fixed in different grooves and are not directly connected with the oblique beam and the first cross beam in a rotating mode, so that the oblique beam and the first cross beam can be conveniently rotated to be in a parallel state, and the oblique beam and the first cross beam are convenient to store and transport; and the oblique beam and the first cross beam are connected to other devices through the end fixing pieces, so that the triangular support frame can be assembled firstly and then fixed to other devices.

In one embodiment of the invention, the oblique beam is rotatably connected to the oblique beam mounting groove; and/or the transverse sub-beam is inserted in the beam mounting groove and fixed with the beam mounting groove and the transverse sub-beam through a bolt.

The technical effect that adopts this technical scheme can reach is: the inclined beam can rotate in the vertical direction along the inclined beam mounting groove to realize assembly or storage; the transverse sub-beams are inserted into the cross beam mounting grooves in an inserted mode, the transverse sub-beams are prevented from moving along the direction perpendicular to the transverse sub-beams, and the bolts prevent the transverse sub-beams from being separated from the cross beam mounting grooves.

In one embodiment of the present invention, the triangular support unit further includes: and the end positioning part is connected with the end fixing part, is positioned on the tripod assembling side and extends towards the tripod fixing side, and the end positioning part is used for installing the tripod supporting unit on other rod pieces.

The technical effect that adopts this technical scheme can reach is: the end positioning piece can detachably connect the end of the triangular support unit with other rod pieces, for example, a vertical beam is connected, so that the end of the triangular support unit is supported.

In one embodiment of the present invention, the tripod further comprises: a top beam detachably connected to the top of each triangular support unit, the top beam comprising a plurality of top beam units which are collinear and detachably connected; and/or a side beam which can detach the same side end of each triangular support unit and comprises a plurality of collinear and detachably connected side beam units.

The technical effect that adopts this technical scheme can reach is: the top beam and the side beam can fix each triangular support unit in a vertical state, so that the triangular support units are prevented from inclining to the front side and the rear side; the top beam and the side beams can be disassembled into a plurality of shorter rod-shaped structures, so that the transportation is facilitated.

The invention also provides an easily-detachable inspection station, which comprises two side supporting frames; each side support frame comprises a plurality of vertical beams, and the vertical beams are detachably connected with the end parts of the triangular support units.

The technical effect that adopts this technical scheme can reach is: the side supporting frame is used for supporting the tripod and forming a passing channel below the tripod; the easily detachable inspection station has the advantages of being convenient to detach, assemble and transport.

In summary, the above embodiments of the present application may have one or more of the following advantages or benefits: i) The end parts of the inclined beam and the transverse sub beam of the tripod can rotate downwards to be folded, so that the inclined beam and the transverse sub beam are in a parallel state, and the storage and the transportation are facilitated; ii) one end of the reinforcing beam can slide on the transverse beam, so that the reinforcing beam is close to the inclined beam and the transverse beam along with the folding of the inclined beam and the transverse beam, and the storage is convenient; and ii) the top beam is detachably connected with the triangular support units, so that the assembly of the tripod is convenient, and the top beam and the side beam are also independent rod pieces after being disassembled and are stacked with other rod pieces, so that the transportation is convenient.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a tripod according to a first embodiment of the present invention.

Fig. 2 is a schematic structural diagram of the triangular support unit in fig. 1.

Fig. 3 is an enlarged view of the region I in fig. 2.

Fig. 4 is an exploded view of the split beam connection assembly of fig. 3.

Fig. 5 is a schematic view of the connection of the reinforcing beam, the oblique beam and the transverse sub-beam in fig. 2.

Fig. 6 is an enlarged view of region II in fig. 2.

Fig. 7 is a schematic view of the connection of the end fixing member with the oblique beam and the transverse sub-beam in fig. 2.

Fig. 8 is an enlarged view of the region III in fig. 1.

Fig. 9 is an enlarged view of the area IV in fig. 1.

Fig. 10 is a schematic view illustrating the connection of the cap to the triangular support unit of fig. 1.

Fig. 11 is a schematic view of the connection of adjacent header units.

Fig. 12 is another schematic illustration of the connection of adjacent header units.

Fig. 13 is a schematic structural view of a detachable inspection station according to a second embodiment of the present invention.

Fig. 14 is an enlarged view of the region V in fig. 13.

Description of reference numerals:

100 is a tripod; 101 is a triangular supporting unit; 110 is an oblique beam; 120 is a first beam; 121 is a transverse beam; 121a is a sliding groove; 121b is an extension piece; 122 is a split beam connecting component; 122a is a supporting frame body; 122b is a first buckle; 122c is a first rotating member; 123 is an end fixing piece; 123a is an oblique beam mounting groove; 123b is a beam mounting groove; 123c is an extension piece fitting groove; 124 is an end positioning piece; 125 is a light component; 130 is a stiffening beam; 131 is a warning board; 140 is a top beam; 141 is a top beam unit; 142 is a rotary connecting piece; 143 is a top beam fixing frame; 144 is a fixing sheet; 145 is a fifth buckle; 150 is a side beam; 151 is a side beam unit; 152 is a first side rail mount; 153 is a second side rail mount; 153a is a third fastener; 154 is a third side rail mount; 154a is a fourth fastener; 160 is a vertical beam connecting plate; 161 is a second buckle; 170 is a vertical beam mounting position; 180 is a taper pin; 190 is a hook lock component; 191 is a hook line; 192 is a fixing ring; and 193 a fixed ring mounting plate.

200 is an easy disassembly inspection station; 210 are side brackets; 211 is a vertical beam; 212 is a second beam; 220 is a ceiling.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the 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 invention.

[ first embodiment ] A

Referring to fig. 1, a tripod 100 according to a first embodiment of the present invention includes: a plurality of triangular supporting units 101, wherein each triangular supporting unit 101 comprises two inclined beams 110 and a first cross beam 120 positioned below the inclined beams 110. Wherein, the sub-beams of the two inclined beams 110 are connected with one end of the first cross beam 120 to form a stable triangular structure.

In this embodiment, referring to fig. 2, on one hand, the top ends of the two oblique beams 110 are rotatably connected with each other, for example, the top end of any one oblique beam 110 is installed in the top end of the other oblique beam 110 and connected by a shaft passing through the side surface, so that the two oblique beams can rotate with each other; of course, the two inclined beams 110 can also be rotatably connected to other components. On the other hand, the bottom of every sloping 110 all rotates with the tip of first crossbeam 120 to be connected, first crossbeam 120 includes two horizontal minute roof beams 121 of interconnect, two also for rotating between the horizontal minute roof beam 121 and connect for two sloping 110 can be drawn close folding each other, and two horizontal minute roof beams 121 also can draw close each other simultaneously, realize accomodating of triangular support unit 101, the transportation of being convenient for.

In a specific embodiment, referring to fig. 3-4, the end faces of the two transverse sub-beams 121 coincide with each other, making them collinear. Wherein, the first beam 120 further includes, for example: and the sub-beam connecting assembly 122 is positioned between the two transverse sub-beams 121 and is used for detachably connecting the two transverse sub-beams 121.

Preferably, the split beam connection assembly 122 includes, for example: two supporting frame bodies 122a, each supporting frame body 122a is sleeved at one end of any one transverse sub-beam 121 facing to the other transverse sub-beam 121; the first buckle 122b connects the two support frames 122a. For example, the support frame 122a is provided with at least one lateral sub-beam mounting surface, for example, on the front side or the rear side of the lateral sub-beam 121, at which the connection of the support frame 122a to the lateral sub-beam 121 is achieved by screws or pins.

Furthermore, the supporting frame 122a is provided with, for example, two mounting plates for the transverse split beams 121, which are respectively located at the front side and the rear side of the transverse split beams 121, and a frame connecting plate is provided between the two mounting plates for the transverse split beams 121, which is located at the upper side or the lower side of the transverse split beams 121, that is, the supporting frame 122a is a U-shaped structure, so that the supporting frame can be fixed by being sleeved on the transverse split beams 121 after the two transverse split beams 121 are mutually mounted.

Still further, the first buckle 122b includes a hook and a locking member, the locking member can be fastened to the hook, wherein the hook and the locking member are located on the same side of the two supporting frames 122a and are located on different supporting frames 122a. For example, the front and rear sides of the two supporting frames 122a can be connected with a first buckle 122b, and the first buckle 122b is connected with the supporting frame 122a through a screw.

Preferably, the split-beam connecting assembly 122 further includes, for example: the first rotating member 122c is connected to the two supporting frame bodies 122a and is located on the upper side or the lower side of the supporting frame bodies 122a. For example, the opening of the supporting frame 122a faces upward, and the first rotating member 122c is located below the supporting frame 122a, so as to connect the frame connecting plates of the two supporting frames 122a.

Further, the first rotating member 122c is, for example, a hinge. After the first buckles 122b on both sides of the supporting frame 122a are opened, the two transverse split beams 121 are turned downward by the first rotating member 122c to be folded.

In a specific embodiment, with reference to fig. 2 and 5, the triangular supporting unit 101 further includes: and at least two reinforcing beams 130, wherein each reinforcing beam 130 connects the inclined beam 110 and the transverse sub-beam 121 on either side of the triangular support unit 101. The end of the stiffening beam 130 connected to the transverse split beam 121 is inclined to one side of the split beam connecting assembly 122, so that an included angle between the stiffening beam 130 and one side of the transverse split beam 121 far away from the split beam connecting assembly 122 is an acute angle, and a supporting effect of the stiffening beam 130 on the inclined beam 110 is realized.

Preferably, the connection of the end of the reinforcement beam 130 to the oblique beam 110 or the transverse sub-beam 121 may be a rotational connection or a sliding connection. For example, the end of the reinforcement beam 130 connected to the oblique beam 110 is rotatably connected; the transverse split beam 121 is provided with a sliding groove 121a, and one end of the reinforcing beam 130 connected with the transverse split beam 121 slides in the sliding groove 121a and can be fixed at any position of the sliding groove 121a by a fastener, such as a hand screw. It is apparent that when the inclined beam 110 and the transverse section beam 121 are folded close to each other, the end of the reinforcing beam 130 connected to the transverse section beam 121 slides toward the end of the section beam connecting assembly 122, thereby achieving the folding of the reinforcing beam 130.

Further, the reinforcing beam 130 includes, for example, two reinforcing plates, which are located at front and rear sides of the inclined beam 110 and the lateral sub-beam 121. The two reinforcing plates are fixed on the front side and the rear side of the inclined beam 110 through locking screws, for example, so as to realize rotary connection; the two reinforcing plates are fixed in the sliding groove 121a by, for example, hand screws, and are slidably connected and manually adjusted.

Preferably, as shown in fig. 2, a warning sign 131, such as a height limit sign, may be attached to the front side of the reinforcing beam 130.

Preferably, as shown in fig. 3, the tripod 100 further includes, for example: and a light assembly 125 connected to the first beam 120. For example, the light assembly 125 is located at a middle position of the first beam 120, and is connected to the at least one sliding groove 121a by a thumb screw, so as to achieve the effect of quick assembly and disassembly. The light assembly 125 may be used for supplementary lighting or as a traffic light.

In a specific embodiment, referring to fig. 6-7, the first beam 120 further comprises, for example, an end fixture 123, the end fixture 123 comprising opposite tripod fixing sides and tripod assembling sides, wherein the end fixture 123 fixes the triangular support unit 101 to other rods on the tripod fixing sides, and the end fixture 123 connects the oblique beam 110 and the transverse sub-beam 121 on the tripod assembling sides.

Preferably, the end fixture 123 is provided with an inclined beam mounting groove 123a and a beam mounting groove 123b at the tripod assembling side, and the inclined beam mounting groove 123a is positioned above the beam mounting groove 123b. Wherein, end fixing piece 123 includes two relative tripod curb plates, form sloping beam mounting groove 123a and crossbeam mounting groove 123b between two tripod curb plates.

Further, the inclined beam 110 is rotatably connected to the inclined beam mounting groove 123a, for example, after the inclined beam 110 is mounted in the inclined beam mounting groove 123a, the inclined beam 110 can be rotatably connected to the two tripod side plates by locking screws.

Still further, the transverse sub-beam 121 is inserted into the cross beam mounting groove 123b, for example, an extending piece 121b facing the end fixing piece 123 is disposed at an end of the transverse sub-beam 121, an extending piece matching groove 123c is disposed at a side of the cross beam mounting groove 123b opposite to the transverse sub-beam 121, and after the transverse sub-beam 121 is mounted in the cross beam mounting groove 123b, the extending piece 121b is connected with the extending piece matching groove 123c, so that the transverse sub-beam 121 is fixed in the up-down direction and the front-back direction. The transverse section beam 121 may be connected to the beam mounting groove 123b by a pin, for example, the bottom surfaces of the end fixing member 123 and the transverse section beam 121 are provided with openings, and the pin is inserted into the openings, thereby preventing the transverse section beam 121 from being separated from the beam mounting groove 123b.

Preferably, the triangular support unit 101 further includes, for example: and an end positioning member 124 connected with the end fixing member 123, located at the tripod assembling side, and extending towards the tripod fixing side, for mounting the triangular supporting unit 101 to other rod members. For example, the end positioning member 124 has a U-shaped structure, and includes a positioning member connecting plate located between the end of the oblique beam 110 and the end of the transverse sub-beam 121, and positioning member side plates connected to the positioning member connecting plate and located at both sides of the end fixing member 123, and the positioning member side plates extend toward the tripod fixing side.

Further, the triangular support unit 101 further includes, for example: the vertical beam connecting plate 160 is located at the tripod fixing side and is located at the same plane as the positioning piece side plate, that is, the positioning piece connecting plate of the end positioning piece 124 extends towards the vertical beam connecting plate 160. Wherein, erect roof beam connecting plate 160 and be equipped with the buckle mounting hole and be used for passing second buckle 161, make second buckle 161 with it is fixed to erect the roof beam, erect roof beam connecting plate 160 and can dismantle with tip setting element 124 and be connected, realize erect roof beam and triangular supports unit 101's quick assembly disassembly. For example, the side rail 150 connection plate may be connected to the keeper connection plate by a second snap 161.

Preferably, referring to fig. 1, 8 and 9, the tripod 100 further includes, for example, a side beam 150 detachably connecting the same-side end of each of the tripod units 101, i.e., one side beam 150 on each of the left and right sides of the tripod 100. Wherein each side beam 150 includes a plurality of collinear and detachably connected side beam units 151, and each side beam unit 151 connects two adjacent triangular support units 101.

Further, the side member 150 further includes: a first side rail fixing member 152, a second side rail fixing member 153, and a third side rail fixing member 154, wherein one first side rail fixing member 152 is connected to each of both end portions of each side rail unit 151; the second side beam fixing member 153 is positioned at the left side of the first side beam fixing member 152 and connected to the vertical beam; the third side beam fixing member 154 is provided at the right side of the first side beam fixing member 152 to be opposite to the second side beam fixing member 153, and is connected to the vertical beam at the bottom of the end fixing member 123. The first side rail fixing member 152, the second side rail fixing member 153 and the third side rail fixing member 154 surround to form a vertical rail mounting position 170.

For example, the first side member fixing members 152 are U-shaped, cover the end surfaces of the side members 150, and are fastened to the left and right sides of the side members 150; the second side beam fixing member 153 has the same structure as the vertical beam connecting plate 160, and the third snap 153a is provided to pass through the third snap 153a, so that the third snap 153a is fixed to the vertical beam, wherein the third snap 153a connects the first side beam fixing member 152 to the vertical beam; the third side beam fixing part 154 is an L-shaped plate, and the structure of the third side beam fixing part 154 connecting one side of the vertical beam is the same as the second side beam fixing part 153, and a fourth buckle 154a can be installed, the fourth buckle 154a is used for connecting the first side beam fixing part 152 and the vertical beam, and the third side beam fixing part 154 faces the upper side of the end fixing part 123 and is connected with the transverse split beam 121 through the bolt.

Preferably, the tripod 100 further comprises a plurality of tapered pins 180, for example, located within the vertical beam mounting locations 170 for further connecting the tripod 100 and the vertical beams. For example, the tapered pin 180 is provided on the side of the end fixing member 123 facing the vertical beam mounting position 170, and on the side of the first side beam fixing member 152 facing the vertical beam mounting position 170, so as to improve the connection strength between the vertical beam and the tripod 100 while achieving quick installation.

Preferably, with reference to fig. 1 and 10, the tripod 100 further comprises, for example: and a top beam 140 detachably connected to the top of each triangular supporting unit 101. For example, each triangular support unit 101 is provided with a rotary connector 142 at the top of the triangular support unit 101, which is rotatably connected with the top of the two inclined beams 110, wherein the rotary connector 142 is connected with the inclined beams 110 by means of locking screws, for example.

Further, the top beam 140, for example, further includes: and a cap fixing frame 143 provided to be fitted and fixed to left and right side surfaces and a bottom surface of the cap 140. For example, the left and right sides of the roof rail fixing frame 143 are connected to the roof rail 140 by bolts, and the bottom surface of the roof rail fixing frame 143 is connected to the rotating connector 142 by, for example, tapered pins 180 (not shown).

Preferably, referring to fig. 11-12, the header 140 includes, for example, a plurality of collinear and removably attached header units 141. For example, the adjacent top beam units 141 may be connected by a fixing plate 144, that is, an end of one of the top beam units 141 is provided with a slot, an end of the other top beam unit 141 connected thereto is provided with a hole matched with the slot, the fixing plate 144 connects the slot and the hole by a screw, and the adjustment of the connection position can be realized by the slot.

Further, a hinge can be arranged between the adjacent top beam units 141, so that the adjacent top beam units 141 can be folded and stored after being detached simultaneously, transportation is facilitated, the fixing pieces 144 can be installed after being unfolded directly during secondary installation, the aligning time is saved, and the installation efficiency is improved.

Of course, adjacent header units 141 may be connected by a snap fit. For example, a top beam fixing frame 143 is also disposed between the adjacent top beam units 141, one top beam fixing frame 143 is disposed at an end of each top beam unit 141, and the two top beam fixing frames 143 are connected between the adjacent top beam units 141 through a fifth buckle 145, so as to achieve quick assembly and disassembly.

Preferably, referring to fig. 1 and 8, the tripod 100 further comprises, for example; a latch assembly 190 comprising: a hook wire 191, a securing ring 192, and a securing ring mounting plate 193. Wherein, the fixing ring mounting plate 193 is located above the vertical beam mounting position 170 and is obliquely connected with the end fixing member 123, the fixing ring 192 is connected above the fixing ring mounting plate 193, and two ends of the hook line 191 are hooked on the fixing ring 192. Wherein the hook and lock assembly 190 is used to secure a ceiling from blowing off. Of course, the hook line 191 may also be located above the inclined beam 110 and hook on the foremost and rearmost first cross beams 120.

[ second embodiment ]

Referring to fig. 13-14, a frangible inspection station 200 is provided in a second embodiment of the invention, comprising two side supports 210 and the tripod 100 provided in the first embodiment. Wherein, each side support frame 210 comprises a plurality of vertical beams 211 and a second beam 212, the vertical beams 211 are detachably connected with the end of the triangular support unit 101, and the second beam 212 is vertically connected with the vertical beams 211.

Specifically, the top end of the vertical beam 211 is fixed in the vertical beam mounting position 170, and is connected with the end fixing member 123 through the taper pin 180 and the second buckle 161; the vertical beam 211 is connected to the side member 150 by a tapered pin 180, a third catch 153a, and a fourth catch 154 a.

Preferably, the frangible inspection station 200 further comprises: and a ceiling 220 covering the upper part of the tripod 100. The position of the ceiling 220 corresponding to the fixing ring 192 is provided with an opening, so that the fixing ring 192 can pass through the ceiling 220, and the hook line 191 and the fixing ring 192 are fixed above the ceiling 220, thereby achieving the effect of pressing the ceiling 220.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (8)

1. An accessible inspection station comprising a tripod, wherein the tripod comprises:

the triangular support units comprise two oblique beams and a first cross beam positioned below the oblique beams;

the top ends of the two oblique beams are mutually rotatably connected, the bottom end of each oblique beam is rotatably connected with the end part of the first cross beam, the first cross beam comprises two transverse sub-beams which are mutually connected, and the two transverse sub-beams are rotatably connected;

the first cross beam further comprises an end fixing piece, the end fixing piece comprises a tripod fixing side and a tripod assembling side which are opposite, and the end fixing piece is provided with an oblique beam mounting groove and a cross beam mounting groove on the tripod assembling side;

the inclined beam is rotatably connected to the inclined beam mounting groove; and/or the transverse sub-beam is inserted into the beam mounting groove, the beam mounting groove and the transverse sub-beam are fixed through a bolt, the bottom surfaces of the end fixing piece and the transverse sub-beam are provided with openings, and the bolt is installed in the openings;

the tip of horizontal minute roof beam is equipped with the extension piece towards the tip mounting, and the crossbeam mounting groove is interior to be equipped with extension piece cooperation groove with the relative one side of horizontal minute roof beam, and after horizontal minute roof beam was packed into the crossbeam mounting groove, extension piece and extension piece cooperation groove were connected.

2. The frangible inspection station of claim 1, wherein the first beam further comprises:

divide beam coupling assembling, divide beam coupling assembling to include:

each supporting frame body is sleeved at one end, facing to the other transverse sub-beam, of any one transverse sub-beam;

the first buckle is used for connecting the two supporting frame bodies.

3. The frangible checkpoint of claim 2, wherein the split beam connection assembly further comprises:

and the first rotating piece is connected with the two supporting frame bodies and is positioned on the upper side or the lower side of the supporting frame bodies.

4. The easy detachable inspection station of claim 1, wherein the triangular support unit further comprises:

and each reinforcing beam is connected with the inclined beam and the transverse sub-beam on any side of the triangular support unit, and the reinforcing beam is rotatably connected with the inclined beam.

5. The easy-to-dismount inspection station according to claim 4, wherein the transverse split beam is provided with a sliding groove, the end of the reinforcing beam can slide in the sliding groove, and the reinforcing beam is fixed at any position of the sliding groove through a fastener.

6. The frangible inspection station of claim 1, wherein the delta-support unit further comprises:

and the end positioning part is connected with the end fixing part, is positioned on the tripod assembling side and extends towards the tripod fixing side, and the end positioning part is used for installing the tripod supporting unit on other rod pieces.

7. The frangible inspection station of any of claims 1-6, further comprising:

the top beam is detachably connected with the top of each triangular support unit and comprises a plurality of collinear and detachably connected top beam units;

and/or a side beam which can detach the same side end of each triangular support unit and comprises a plurality of collinear and detachably connected side beam units.

8. The frangible inspection station of any of claims 1 to 6, comprising two side support frames;

each side support frame includes a plurality of perpendicular roof beams, perpendicular roof beam can dismantle the connection triangle supporting unit tip.

Images