阅读说明：本技术 一种易拆检查站 (Easy-to-dismount inspection station ) 是由 程归兵 于 2021-07-30 设计创作，主要内容包括：本发明公开了一种易拆检查站,包括：相对的两个侧支撑架,每个所述侧支撑架包括：交错连接的横梁和竖梁,以及连接所述横梁底部的底梁；三角架,通过卡扣与所述竖梁连接,位于所述两个侧支撑架顶部；其中,横梁、竖梁和底梁之间均设有销连接和/或卡扣连接。本发明解决了所述易拆检查站无法快速拆装的问题。(The invention discloses an easy-to-disassemble inspection station, which comprises: two opposing side support brackets, each of said side support brackets comprising: the cross beams and the vertical beams are connected in a staggered manner, and the bottom beams are connected with the bottoms of the cross beams; the triangular support is connected with the vertical beam through a buckle and is positioned at the top parts of the two side supporting frames; wherein, pin connection and/or buckle connection are arranged among the cross beam, the vertical beam and the bottom beam. The invention solves the problem that the easily-detachable inspection station cannot be quickly assembled and disassembled.)

1. An easy disconnect checkpoint comprising:

two opposing side support brackets, each of said side support brackets comprising: the cross beams and the vertical beams are connected in a staggered manner, and the bottom beams are connected with the bottoms of the cross beams;

the triangular support is connected with the vertical beam through a buckle and is positioned at the top parts of the two side supporting frames;

the crossbeam, erect the roof beam and the foundation beam is all can dismantle the connection between each other.

2. The easy-to-disassemble inspection station of claim 1, wherein the cross beam is inserted into the vertical beam and fixed by a buckle.

3. The frangible inspection station of claim 1, further comprising: the counterweight block is positioned at the bottom of the vertical beam, and the vertical beam is inserted in the counterweight block.

4. The easy disassembly inspection station of claim 3, wherein the bottom beam is inserted into one side of the weight block and fixed with a bolt by a screw.

5. The frangible inspection station of claim 1, wherein each of the side support frames comprises: the top of the electric control cabinet is connected with the vertical beam in an inserting mode, and the bottom of the electric control cabinet is connected with one end of the bottom beam in an inserting mode.

6. The frangible inspection station of claim 1, wherein the tripod comprises: a plurality of triangular supports and longitudinal supports;

the longitudinal supporting piece is positioned at the top of the triangular supporting pieces and is detachably connected with the triangular supporting pieces.

7. The frangible inspection station of claim 6, wherein the plurality of triangular supports comprise:

and the reinforcing piece is arranged between the two side edges and the bottom edge of the triangular supporting piece.

8. The frangible inspection station of claim 7, wherein the bottom edge comprises: the support beams are connected through a buckle.

9. The easy detachable inspection station of claim 8, wherein the support beam is provided with a sliding slot, and the reinforcement is attachable to any position of the sliding slot by bolts.

10. The easy disconnect checkpoint of claim 7 wherein there is a snap fit connection between the side edges of the triangular supports and the bottom edge and also between the side edges of the triangular supports and the plurality of longitudinal supports.

Technical Field

The invention relates to the field of traffic inspection, 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, at present, the traffic inspection station is of a non-detachable structure, is inconvenient to maintain, can only be used in a fixed place after being built, and cannot be moved, so that the traffic inspection station is not beneficial to recycling of materials. And the traditional traffic inspection station is slow to build, needs to consume a large amount of time, and is inconvenient to be 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 the easy-to-disassemble inspection station cannot be quickly disassembled and assembled.

The invention provides an easy-to-disassemble inspection station, which comprises: two opposing side support brackets, each of said side support brackets comprising: the cross beams and the vertical beams are connected in a staggered manner, and the bottom beams are connected with the bottoms of the cross beams; the triangular support is connected with the vertical beam through a buckle and is positioned at the top parts of the two side supporting frames; the crossbeam, erect the roof beam and the foundation beam is all can dismantle the connection between each other.

Compared with the prior art, the technical scheme has the following technical effects that: crossbeam, perpendicular roof beam, floorbar and tripod can be installed fast and dismantle, are convenient for maintain alone or change each subassembly in easy dismouting inspection station, also are convenient for the removal in easy dismouting inspection station.

In one embodiment of the invention, the cross beam is inserted into the vertical beam and fixed by a buckle.

The technical effect that adopts this technical scheme can reach is: the buckle connection is convenient for the crossbeam with erect the dismouting of roof beam.

In one embodiment of the present invention, the frangible inspection station further comprises: the counterweight block is positioned at the bottom of the vertical beam, and the vertical beam is inserted in the counterweight block.

The technical effect that adopts this technical scheme can reach is: the balancing weight can make it is more stable to erect the roof beam, and erect the roof beam with the assembly piece can quick assembly disassembly.

In an embodiment of the invention, the bottom beam is inserted into one side of the counterweight block and is fixed with a bolt through a screw.

The technical effect that adopts this technical scheme can reach is: the floorbar with the balancing weight can quick assembly disassembly.

In one embodiment of the invention, each of the side brackets comprises: the top of the electric control cabinet is connected with the vertical beam in an inserting mode, and the bottom of the electric control cabinet is connected with one end of the bottom beam in an inserting mode.

The technical effect that adopts this technical scheme can reach is: the electric control cabinet can be quickly assembled and disassembled with the bottom beam and the vertical beam.

In one embodiment of the present invention, the tripod comprises: a plurality of triangular supports and longitudinal supports; the longitudinal supporting piece is positioned at the top of the triangular supporting pieces and is detachably connected with the triangular supporting pieces.

The technical effect that adopts this technical scheme can reach is: the tripod is used for improving the stability of the side support frame, and the tripod and the side support frame can be quickly disassembled and assembled.

In one embodiment of the present invention, the plurality of triangular supports includes: and the reinforcing piece is arranged between the two side edges and the bottom edge of the triangular supporting piece.

The technical effect that adopts this technical scheme can reach is: the reinforcing member is used for improving the strength of the triangular supporting member.

In one embodiment of the present invention, the bottom side includes: the support beams are connected through a buckle.

In one embodiment of the invention, the support beam is provided with a sliding groove, and the reinforcing member can be connected to any position of the sliding groove by a bolt.

The technical effect that adopts this technical scheme can reach is: when the reinforcing piece is connected to one side of the sliding groove close to the center of the bottom edge, the folding of the side edge and the bottom edge can be realized.

In one embodiment of the present invention, the side edges of the triangular supports are connected to the bottom edge by a snap connection, and the side edges of the triangular supports are connected to the plurality of longitudinal supports by a snap connection.

The technical effect that adopts this technical scheme can reach is: the triangular supporting pieces are convenient to disassemble and assemble.

In summary, the above embodiments of the present application may have one or more of the following advantages or benefits: the easily-disassembled inspection station adopts a splicing structure, and the triangular support, the cross beam, the vertical beam and the bottom beam are fixed through pins, buckles and/or screws, so that the easily-disassembled inspection station has the advantages of quick disassembly and assembly, is convenient for maintaining or replacing any one component independently, is convenient for folding, boxing and transferring of the easily-disassembled inspection station, and is also convenient for recycling equipment and building materials; the tripod can realize the folding of the side edge and the bottom edge, thereby being convenient for transportation.

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 detachable inspection station 100 according to an embodiment of the present invention.

Fig. 2 is a schematic structural view of the bottom beam 113 in fig. 1.

Fig. 3 is a schematic structural diagram of the weight block 130 in fig. 1.

Fig. 4 is a schematic structural view of the vertical beam 112 in fig. 1.

Fig. 5 is a schematic structural diagram of the weighting element 112 d.

Fig. 6 is a schematic view showing the connection between the receiving case 160 and the bottom beam 113 in fig. 1.

Fig. 7 is a schematic view of the connection between the vertical beam 112 and the horizontal beam 111 in fig. 1.

Fig. 8 is a schematic structural diagram of the region I in fig. 7.

Fig. 9 is a schematic structural view of the beam fixing member 111a in fig. 1.

Fig. 10 is a schematic structural view of the tripod 120 in fig. 1.

Fig. 11 is a schematic structural view of region II in fig. 10.

Fig. 12 is a schematic view of the connection between the longitudinal support member 122 and the side edge 123 of fig. 10.

Fig. 13 is a schematic view showing the coupling of the hook lock 122b and the triangular support of fig. 10.

Fig. 14 is a schematic view showing the connection between the support beam 124a and the reinforcing member 125 in fig. 1.

Fig. 15 is a schematic view of the connection between the electric control cabinet 140 and the vertical beam 112 and the bottom beam 113 in fig. 1.

Fig. 16 is an exploded view of fig. 15.

Description of reference numerals:

100 is an easy-to-disassemble inspection station; 110 is a side support frame; 111 is a cross beam; 111a is a beam fixing piece; 111b is an end support; 112 is a vertical beam; 112a beam pin hole; 112b are tripod pin holes; 112c is a first snap mounting plate; 112d are weighting pieces; 112e is a second snap mounting plate; 112f is a vertical beam top plate; 113 is a bottom beam; 113a is a pin hole; 114 is an inspection channel; 120 is a tripod; 121 is a triangular supporting piece; 122 is a longitudinal support; 122a is a longitudinal support bar; 122b is a hook lock; 123 is a side edge; 124 is the bottom edge; 124a is a support beam; 125 is a reinforcing member; 126 is a bottom corner connecting piece; 127 is a top connector; 127a is a side limiting plate; 130 is a balancing weight; 131 is a mounting cavity; 132 is a vertical beam mounting groove; 133 is a turning plate; 134 is a fixing frame; 135 is a vertical beam positioning hole; 136 is a wiring fixing piece; 140 is an electric control cabinet; 141 is a railing; 142 is a vertical beam connecting plate; 150 is a lighting device; 160 is a storage box; 170 is a ceiling; 180 is a thermodetector; 190 is a camera.

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.

Referring to fig. 1, a detachable inspection station 100 according to an embodiment of the present invention includes side brackets 110 disposed opposite to each other and a tripod 120 disposed on the side brackets 110, and an inspection passage 114 is formed between the side brackets 110 for passing a vehicle and inspecting. Wherein, every side support frame 110 is including the floorbar 113 that is located the bottom, connects a plurality of perpendicular roof beams 112 of the vertical setting in floorbar 113 top to and with the crossbeam 111 that sets up of a plurality of levels of perpendicular roof beam 112 cross-connect, be the detachable connection between crossbeam 111, perpendicular roof beam 112 and the floorbar 113, thereby realize quick installation and the dismantlement of readily removable checkpoint 100, make readily removable checkpoint 100 can reuse.

In one embodiment, the quick disconnect inspection station 100 further comprises a weight 130, wherein a weight 130 is disposed at the bottom of each vertical beam 112 for supporting the vertical beam 112 to prevent the vertical beam 112 from being supported unstably and inclined; opposite side surfaces of the weight 130 are engaged with the bottom beams 113, so that the bottom beams 113 are positioned on the same straight line, and the side support frame 110 is more stable.

Preferably, referring to fig. 2 to 3, a mounting cavity 131 is formed inside the counterweight block 130, two sides of the counterweight block 130 corresponding to the bottom beams 113 protrude toward the mounting cavity 131 to form a fixing frame 134 matching with the cross section of the bottom beams 113, and the bottom beams 113 at two sides of the counterweight block 130 respectively extend into the fixing frame 134 to be fixed.

Specifically, the counterweight block 130 includes a bottom panel, two first side panels and two second side panels, the first side panels and the second side panels are detachably connected to the bottom panel, the two first side panels are oppositely disposed and connected to the bottom beam, and the two second side panels are located between the two first side panels.

Further, fixed frame 134 is located first side panel, the bottom panel is equipped with the notch that holds fixed frame 134, first side panel with the bottom panel concatenation back, the location and the installation of fixed frame 134 are realized to the notch.

Still further, each first side panel and the adjacent second side panel are spliced with each other. For example, both sides of the first side panel are provided with side panel connecting grooves, both sides of the second side panel are provided with side panel protruding parts, and the side panel connecting grooves are matched with the side panel connecting parts, so that the first side panel and the second side panel are stably connected and can be quickly disassembled and assembled. Of course, the positions of the side plate protruding pieces and the corresponding side plate connecting grooves can be interchanged.

Preferably, the end of the bottom beam 113 is provided with a pin hole 113a, and the fixing frame 134 is provided with a fixing hole matching the pin hole 113 a. When the bottom beam 113 is inserted into the fixing frame 134, the pin hole 113a is aligned with the fixing hole and engaged by a pin, thereby preventing the bottom beam 113 from being separated from the fixing frame 134.

For example, the fixing hole is located above the fixing frame 134, and the latch is, for example, a spring pin inserted into the fixing hole and extending into the pin hole 113a, and a hole pin located in the pin hole 133a and engaged with the spring pin.

Preferably, the weight block 130 further includes a wire fixing member 136, for example. The routing fixing piece 136 is clamped in the end portion of the bottom beam 113, a plurality of through holes for fixing the routing fixing piece 136 are formed in the end portion of the bottom beam 113, and threaded holes matched with the through holes are formed in the circumferential direction of the routing fixing piece 136, so that the routing fixing piece 136 is connected with the bottom beam 113. Wherein, walk to be equipped with in the wiring mounting and walk the line hole, walk the line hole for example for circular via hole, make it can gather together to walk the downthehole circuit of line, avoids the circuit winding to lead to the maintenance difficulty.

Preferably, the weight block 130 is provided with, for example, a vertical beam mounting groove 132, and the vertical beam mounting groove 132 is opened at the bottom panel and faces the mounting cavity 131. Correspondingly, the top surface of the counterweight block 130 is provided with a vertical beam positioning hole 135, the vertical beam positioning hole 135 corresponds to the vertical beam installation groove 132 in the vertical direction, and the bottom end of the vertical beam 112 passes through the vertical beam positioning hole 135 to enter the installation cavity 131 and is inserted into the vertical beam installation groove 132.

Further, with reference to fig. 5, the weight increasing member 112d matched with the bottom end of the vertical beam 112 may be further sleeved on the outer side of the bottom end of the vertical beam 112, and the weight increasing member 112d is relatively fixed to the vertical beam positioning hole 135 and the vertical beam mounting groove 132, so as to improve the connection strength between the vertical beam 112 and the counterweight block 130 and the stability of the vertical beam 112.

The weight-increasing member 112d and the vertical beam 112 may be fixed by a latch or a buckle, which is not limited herein. The bottom end of the vertical beam 112 is provided with a wire passing opening, and the weight increasing piece 112d is provided with an opening matched with the wire passing opening, so that the inner cavity of the vertical beam 112 is communicated with the installation cavity 131 of the counterweight block 130, and a line in the vertical beam 122 can be communicated to the bottom beam 113 through the counterweight block 130.

Preferably, the top of the counterweight block 130 can be further provided with a turning plate 133, the distance between the turning plate 133 and the two sides of the vertical beam positioning hole 135 is that the turning plate 133 is arranged on each side of the vertical beam positioning hole 135, each turning plate is connected with any one of the first side panels of the counterweight block 130, for example, the turning plate 133 can be turned to two sides to expose the installation cavity 131, so that an operator can conveniently stretch hands into the installation cavity 131 to adjust the bolt for connecting the bottom beam 113 and the fixing frame 134, and the bottom beam 113 and the counterweight block 130 can be disassembled and maintained at any time.

Preferably, referring to fig. 1 and 6, the knock-down checkpoint 100 further includes a storage box 160 for storing tools for disassembly, assembly, or commissioning, for example. The receiving box 160 may be located on either side of the weight 130, or on both sides of the weight 130.

Wherein, the receiving box 160 can be sleeved on the bottom beam 113. Specifically, the bottom surface and any two opposite side surfaces of the storage box 160 may be provided with bottom beam mounting grooves, and the bottom beams 113 pass through the bottom beam mounting grooves, so that the storage box 160 is fixed along the direction perpendicular to the bottom beams 113. The storage box 160 can slide on the bottom beam 113, so that the storage box can be conveniently moved to a specified position when being maintained at the easy-disassembly inspection station 100; moreover, the storage box can be lifted upwards and separated from the bottom beam 113, so that the installation is convenient.

Further, the storage box 160 includes, for example: the storage cover plate 161 covers the storage box 162 and is hinged to any one side surface of the storage box 162, so that the storage cover plate 161 can be opened. The storage cover 161 is connected to the storage case 1612 by, for example, a spring pin, on the side away from the connection with the storage case 162, thereby preventing tools inside the storage case 160 from falling out when the storage case is moved.

Preferably, and referring to fig. 4-9, the vertical beams 112 are flanked, for example, by a plurality of cross beam pin holes 112 a. For example, at any height of the vertical beam 112, a cross beam pin hole 112a may be respectively disposed on two opposite sides of the vertical beam 112, and the cross beam 111 on each side of the vertical beam 112 may be matched with the cross beam pin hole 112a through a taper pin, so as to achieve fixing of the cross beam 111 in the vertical direction, and the cross beam 111 may directly take out the taper pin along the direction perpendicular to the vertical beam 112, thereby facilitating disassembly.

Further, the demountable inspection station 100 further includes a cross beam fixing member 111a disposed between the cross beam 111 and the vertical beam 112. The cross beam fixing part 111a is of a U-shaped structure and is provided with two connecting arms, the connecting arms extend out along the direction away from the vertical beam 112 and are clamped at two sides of the end part of the cross beam 111, and one side, facing the vertical beam 112, of the cross beam fixing part 111a is connected with the taper pin, so that the cross beam fixing part and the taper pin are fixed on the vertical beam 112 together.

Still further, the connecting arms of the beam fixing parts 111a located at the two sides of the beam 111 are folded along the direction perpendicular to the beam 111, and the two sides of the connecting arms far away from the beam 111 are fixed with the vertical beam 112 through buckles, so that the stability of the beam 111 is improved. After the connecting arm is fixed with the vertical beam 112 through a buckle, the connecting arm can clamp the cross beam 111, the width of the cross beam 111 is smaller than that of the vertical beam 112, and the width of the end part of the cross beam 111 can be increased by arranging the cross beam fixing part 111a, so that the buckle can be conveniently arranged to connect the cross beam 111 with the vertical beam 112; in addition, because the cross beam 111 is thin, the strength of the end part of the cross beam is easy to reduce due to punching, and after the cross beam fixing piece 111a is arranged, the cross beam and the buckle can be relatively fixed without punching on the cross beam 111, so that the strength of the cross beam 111 is improved.

Preferably, both sides of the cross beam fixing piece 111a are provided with, for example, a threaded hole for connecting a snap, and the cross beam fixing piece 111a is connected with the vertical beam 112 through the snap; the side of the vertical beam 112 facing the buckle is provided with a first buckle mounting plate 112c for connecting the buckle, and the vertical beam 112 is connected to the first buckle mounting plate 112c, for example, by a screw hole and a screw. When dismantling crossbeam 111 and perpendicular roof beam 112, only need open the buckle can separate crossbeam 111 and perpendicular roof beam 112, need not to dismantle the screw, consequently dismantle more in a flexible way.

Further, first buckle mounting panel 112c level sets up, and a buckle is connected respectively at the both ends of first buckle mounting panel 112c and is used for the fixed crossbeam 111 that corresponds one side for erect the both sides of roof beam 112 and all can be fixed with crossbeam 111 through first buckle mounting panel 112c, and erect the crossbeam 111 of roof beam 112 both sides and be at same height. Obviously, the vertical beams 112 are circumferentially provided with a total of four buckles to realize connection with the cross beams 111 on two sides, so that the disassembly is convenient, and meanwhile, the connection strength of the vertical beams 112 and the cross beams 111 is improved.

Preferably, referring to fig. 10 and 1, the frangible inspection station 100 further comprises, for example, a tripod 120, connected to the vertical beam 112 by a snap fit, on top of the two side brackets 110. For example, the tripod 120 includes a plurality of triangular supports 121, and the plurality of triangular supports 121 are disposed in the passing direction of the inspection passage 114 and are parallel to each other.

Further, both ends of each triangular support 121 are respectively fixed to one vertical beam 112, so that the vertical beams 112 at both sides of the triangular support 121 can be more stable.

In a specific embodiment, referring to fig. 4, 10 and 11, the top of the vertical beam 112 is connected to the cross beam 111 by a cross beam fixing member 111a and a snap, wherein one side of the top of the vertical beam 112 is a first snap mounting plate 112c, and the other side opposite to the first snap mounting plate 112c is provided with a second snap mounting plate 112 e.

Preferably, the first snap mounting plate 112c is a square mounting plate and is located on one side of the vertical beam 112 away from the triangular support 121; the second snap mounting plate 112e is an L-shaped mounting piece, that is, the second snap mounting plate 112e is provided with a mounting flap, and the second snap mounting plate 112e is located on one side of the vertical beam 112 facing the triangular support 121 and is supported below the end of the triangular support 121 through the mounting flap. Wherein the catch connected to the second catch mounting plate 112e is located below the mounting flap.

Preferably, the vertical beam 112 is further provided with a tripod pin hole 112b on the side adjacent to the cross beam pin hole 112 a. For example, a tripod pin hole 112b is located on the side of the vertical beam 112 facing the second snap mounting plate 112e and above the mounting flap for connecting the triangular support 121.

Accordingly, the tripod 120 further includes a bottom corner connector 126, for example, and the bottom corner connector 126 is interposed between the triangular support 121 and the vertical beam 112. For example, the side 123 of the triangular supporting member 121 is fixed to the upper end of the bottom corner connecting member 126, and the bottom 124 of the triangular supporting member 121 is fixed to the lower end of the bottom corner connecting member 126. Wherein, the upper ends of the side edge 123 and the bottom corner connecting piece 126 are hinged, so that the included angle between the side edge 123 and the bottom side 124 can be adjusted; the bottom edge 124 is horizontally disposed and inserted into the lower end of the bottom corner connector 126 and supported by the mounting flap of the second snap mounting plate 112 e.

Further, one side of the bottom corner connector 126 facing the vertical beam 112 is connected with the tripod pin hole 112b on the vertical beam 112 through a taper pin, so that the triangular support member 121 and the vertical beam 112 are fixed, and the triangular support frame 121 can be inserted and pulled in the direction perpendicular to the vertical beam 112, thereby facilitating the assembly and disassembly of the triangular support member 121 and the vertical beam 112.

Still further, a gap is formed between the side edge 123 and one end of the bottom corner connecting piece 126, which is connected with the bottom edge 124 and the bottom corner connecting piece 126, and is used for installing a buckle. The bottom corner connectors 126 are further fixed to the vertical beams 112 by the snap fasteners, thereby further enhancing the connection strength of the triangular supports 121 and the vertical beams 112.

The buckles on the two sides of the bottom corner connector 126 are connected to the vertical beam 112 through the first buckle mounting plate 112c, for example, and are not described herein again.

Preferably, in conjunction with fig. 10 and 12, the tripod 120 is provided with at least one longitudinal support 122 at the top. For example, the longitudinal support 122 includes a longitudinal support bar 122a, and the longitudinal support bar 122a is disposed along the passing direction of the inspection passage 114 and connects the two side edges 123 of each triangular support 121.

Further, the triangular supporting member 121 further includes a top connecting member 127, and the top connecting member 127 is disposed below the longitudinal supporting rod 122 a. Wherein, one side of the top connecting piece 127 far away from the longitudinal supporting rod 122a is provided with a side edge mounting cavity, two side edges 123 of the triangular supporting piece 121 are inserted into the side edge mounting cavity and are hinged with the top connecting piece 127, so that the two side edges 123 can be opened or closed towards the side supporting frames 110, and the width adjustment of the inspection channel 114 between the two side supporting frames 110 can be realized by adjusting the opening degree of the side edges 123.

Wherein, top connecting piece 127 is equipped with side limiting plate 127a towards the both ends of two side support frames 110, and side limiting plate 127a sets up along vertical direction, and at the open in-process of two sides 123, side limiting plate 127a can play limiting displacement, prevents that two sides 123 from opening the stability variation that leads to tripod 120 to the horizontality.

Preferably, the longitudinal support 122 is fixed with the top link 127 by a U-shaped fixing frame. The U-shaped fixing frame is clamped at two sides of the longitudinal support member 122 and fixed with the side surface of the longitudinal support member 122 through a bolt, the bolt can be located at any side of the longitudinal support member 122 and also can be located at two sides of the longitudinal support member 122, and the bolt is provided with a pull ring, so that the U-shaped fixing frame is convenient to detach.

Further, the U-shaped fixing frame is connected to the top connection member 127 by a taper pin (not shown).

Still further, the end of the longitudinal support 122 is provided with a wire passing hole for passing and fixing the wire of the tripod 120, preventing the wire from being entangled for maintenance. The structure of the wire through hole is the same as that of the wire fixing member 136, and the description thereof is omitted.

Preferably, referring to fig. 13, the longitudinal supporting members 122 may also be provided on both side edges 123 of the triangular supporting member 121. For example, the longitudinal supporting member 122 includes a hook lock 122b, the side edges 123 of the same side of the plurality of triangular supporting members 121 are provided with the hook lock supporting members in the same line, and the hook lock 122b passes through or is mounted on the hook lock supporting member of each side edge 123.

Further, both ends of the hook lock 122b extend downward and hook on the bottom edge 124 of the triangular support 121. For example, both ends of the hook lock 122b are located at front and rear sides of the tripod 120 in the passing direction of the inspection passage 114, that is, the bottom side 124 of the triangular support 121 hooked at the front and rear sides, thereby improving the stability of the interconnection of the plurality of triangular supports 121.

Still further, referring to fig. 11, the ends of the plurality of triangular supports 121 may also be connected by a hook lock 122 b. For example, the top of the bottom corner connector 126 is provided with a vertical beam top plate 112f, and the vertical beam top plate 112f is inserted or hinged on one side of the bottom corner connector 126 facing the vertical beam 112 and covers the vertical beam 112. Wherein, be equipped with on the perpendicular roof beam roof plate 112f and collude the ring, two triangle support piece 121 of tripod 120 front and back tip are connected with hook lock 122b through colluding the ring on the perpendicular roof beam roof plate 112f to further improve the stability of a plurality of triangle support piece 121 interconnect.

Preferably, with continued reference to fig. 10, the triangular support 121 is further provided with a reinforcement 125, for example. For example, at least one reinforcing member 125 may be disposed between the bottom side 124 and any one of the side edges 123 of each triangular supporting member 121, and an end of the reinforcing member 125 connected to the bottom side 124 is inclined toward the center of the bottom side 124, so as to improve the connection strength between the side edge 123 on the side where the reinforcing member 125 is located and the bottom side 124, and improve the overall stability of the tripod 120.

The reinforcement 125 may further include a traffic warning board 125a, such as a height limiting sign.

Preferably, referring to fig. 14, the bottom edge 124 includes two support beams 124a, and the two support beams 124a are connected by a snap-fit connection. For example, two supporting beams 124a are symmetrically distributed on two sides of the triangular supporting member 121, and at least two fasteners are disposed between the two supporting beams 124a and fixed to two opposite surfaces of the supporting beams 124 a.

Further, the support beam 124a is provided with a sliding groove 124b for connecting the reinforcing member 125. In which the reinforcing member 125 may be fixed to any position of the sliding groove 124b by bolts, thereby varying the inclination degree of the reinforcing member 125. The two support beams 124a are disconnected, and one end of the reinforcing member 125 facing the support beam 124a is connected to the position of the sliding groove 124b close to the center of the bottom edge 124, so that the support beam 124a and the side edge 123 can be folded, and at the moment, the two side edges 123 are folded, so that the triangular support member 121 can be folded, and the transportation is facilitated.

Preferably, the tripod 120 further comprises, for example: and an illumination device 150 connected to the bottom side 124 of the at least one triangular support 121. When the detection time is poor illumination such as night or cloudy day, the illumination device 150 can illuminate the inspection channel 114, so as to better detect the vehicles coming and going.

With reference to fig. 1 and 11, the quick disconnect inspection station 100 is provided with a canopy 170, the canopy 170 covering the tripod 120 and extending downwardly on the outside of the two side supports away from the inspection passage 114, covering the top of the vertical beams 112. Wherein the top of the vertical beam 112 is beveled and the vertical beam top plate 112f is also beveled to mate with the ceiling 170.

With reference to fig. 1, 15, and 16, each side bracket 110 further includes, for example: an electrical control cabinet 140 is located at one end of the side support frames 110, wherein the electrical control cabinets 140 of both side support frames 110 are located on the same side, e.g., on the exit side of the examination channel 114.

Preferably, the top of the electric control cabinet 140 is plugged with the vertical beam 112. For example, the top of the electric control cabinet 140 is provided with a vertical beam connecting plate 142, and the vertical beam connecting plate 142 is connected with the electric control cabinet 140 through a plurality of screws. Wherein, erect roof beam connecting plate 142 and be equipped with a plurality of bar slots for example, the bottom of erecting roof beam 112 be equipped with a plurality of with bar slot complex bar to stable connection is on automatically controlled cabinet 140, and the realization can be dismantled.

Furthermore, the bottom of the vertical beam 112 can be sleeved with a weight increasing member 112d, and the weight increasing member 112d and the vertical beam 112 are fixed on the vertical beam connecting plate 142 together, so that the stability of the vertical beam 112 is improved. Wherein, a plurality of the strip-shaped slots on the vertical beam connecting plate 142 can also be matched with the weighting pieces 112 d.

Preferably, the cross beam 111 further comprises an end support 111b, for example, and the end support 111b is located on a side of the cross beam 111 facing the electric control cabinet 140. The vertical beam 112 above the electric control cabinet 140 is provided with a plurality of strip-shaped holes, for example, and the strip-shaped holes are located on the side surface of the vertical beam 112 and are inserted into the end supporting piece 111 b; the side of the end support 111b remote from the vertical beam 112 is for example snap-in connected with the cross beam 111.

Preferably, the bottom of the electric control cabinet 140 is inserted into one end of the bottom beam 113, and the connection mode of the electric control cabinet 140 and the bottom beam 113 is the same as the connection mode of the counterweight 130 and the bottom beam 113, which is not described herein again.

Preferably, the knock-out stand 100 further includes a temperature detector 180, for example, attached to at least one of the cross members 111, such as by screws or pins, or mounting brackets are provided on the cross members 111 to mount the temperature detector 180. Wherein the temperature gauge 180 is used to measure the temperature in the incoming and outgoing vehicles.

Preferably, the frangible inspection station 100 also includes, for example, a camera 190 attached to the longitudinal support 122 of the at least one tripod 120 for monitoring and recording incoming and outgoing vehicles.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but 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.