CN113700346A - Easy-to-dismount inspection station - Google Patents

Abstract

The invention discloses an easy-to-disassemble inspection station, which comprises: two side support frames that relative setting, side support frame includes: the second cross beam and the vertical beam are arranged in a crossed manner and detachably connected, and the bottom beam is detachably connected with the bottom of the vertical beam; a plurality of tripods, perpendicular and can dismantle the connection side support frame, and locate two side support frame top, the tripod includes: the first crossbeam is connected with the sloping that can dismantle. The invention solves the problems that the easily-detachable inspection station cannot be quickly assembled and disassembled and is inconvenient to transport.

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, at present, the traffic inspection station is of a non-detachable structure, the installation method of the traffic inspection station is complex, a large number of bolts and other fasteners which are difficult to disassemble and assemble are needed, and the traffic inspection station can only be used in a fixed place after being built and cannot be moved.

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 side support frames that relative setting, side support frame includes: the second cross beam and the vertical beam are arranged in a crossed manner and detachably connected, and the bottom beam is detachably connected with the bottom of the vertical beam; a plurality of tripods, perpendicular and can dismantle the connection side support frame, and locate two side support frame top, the tripod includes: the first crossbeam is connected with the sloping that can dismantle.

Compared with the prior art, the technical scheme has the following technical effects that: the side supporting frame and the tripod can be quickly mounted and dismounted, so that temporary building and position replacement are facilitated, and maintenance or replacement of any beam is facilitated; the second crossbeam with erect the roof beam and can improve the intensity of collateral branch strut, the tripod can fix two collateral branch strut avoids the inclination of collateral branch strut.

In an embodiment of the invention, the demountable inspection station further includes a counterweight block disposed at a connection position of the bottom beam and the vertical beam.

Compared with the prior art, the technical scheme has the following technical effects that: the counterweight block enables the center of gravity of the vertical beam to move downwards, so that the stability of the vertical beam is improved; and the balancing weight enables the bottom beams connected with the two sides of the balancing weight to keep collinear, so that relative inclination is not easy to cause.

In one embodiment of the invention, the knock box further includes a header attached to the top of the tripod.

Compared with the prior art, the technical scheme has the following technical effects that: the top beam can be used to fix a plurality of the tripods, preventing the tripods from inclining to the front and rear sides.

In one embodiment of the present invention, the method for installing the easy disassembly inspection station comprises: transversely inserting the bottom beam into a bottom beam opening on the side surface of the balancing weight and then fixing the bottom beam; longitudinally inserting the vertical beam into the vertical beam opening on the top surface of the balancing weight and then fixing the vertical beam; inserting the second cross beam between the adjacent vertical beams and fixing to complete the side supporting frame; the two inclined beams and the two horizontal sub beams of the tripod are rotationally unfolded outwards, and the two horizontal sub beams are fixed as the first cross beam; securing a plurality of said tripods atop two of said side brackets; and connecting the tops of a plurality of tripods by using the top beam.

Compared with the prior art, the technical scheme has the following technical effects that: the bottom beams are spliced quickly and stably through the balancing weights, and a plurality of bottom beams can be ensured to be in a collinear state; the vertical beams are inserted into the counterweight blocks in an inserted mode, so that the center of gravity can be lowered, the vertical beams are more stable, the adjacent vertical beams are positioned, and the second cross beam is convenient to mount; the second cross beam can prevent the vertical beam from inclining, and the strength of the side supporting frame is improved; the inclined beams of the tripod are connected in advance in a rotating manner, and the first cross beam can be installed after the inclined beams are unfolded, so that the tripod is convenient to install and store, the assembly efficiency is improved, and the transportation is convenient; the top beam can enable the plurality of tripods to be in a parallel state, and the tripods are prevented from inclining; the tripod can fix the side support frame and prevent the side support frame from inclining.

In one embodiment of the invention, the frangible inspection station further comprises; the locking block is positioned in the counterweight block and connected with the bottom beam; the bottom beam transversely inserts the bottom beam opening of balancing weight side after-fixing, include: the inner side of the balancing weight is provided with the locking block which is arranged at one end of the bottom beam extending into the balancing weight, and the locking block and the bottom beam are fixed through a bolt.

Compared with the prior art, the technical scheme has the following technical effects that: the bottom beam opening is used for positioning the bottom beam, so that the alignment of the bottom beam is facilitated; the locking block is used for fixing the bottom beam inside the balancing weight to prevent the bottom beam from being separated from the balancing weight; the fixing mode of the bolt is convenient for installation and disassembly.

In one embodiment of the present invention, the frangible inspection station further comprises: the weighting base is sleeved at the bottom end of the vertical beam body; with the vertical roof beam is vertically inserted the vertical roof beam opening after-fixing of balancing weight top surface includes: the bottom end of the vertical beam is sleeved with the weighting base and fixed, and the bottom end of the vertical beam and the weighting base are inserted into the opening of the vertical beam and inserted into the vertical beam positioning groove at the bottom of the balancing weight.

Compared with the prior art, the technical scheme has the following technical effects that: the vertical beam opening is used for positioning the vertical beam, and on the basis that the counterweight block is connected with the bottom beam, the vertical beam opening can determine the distance between the adjacent quantities, so that the second cross beam is convenient to mount; the weighting base is used for further lowering the gravity center of the vertical beam, so that the stability of the vertical beam is improved.

In one embodiment of the present invention, the bottom end of the vertical beam is sleeved with a weighted base and fixed, including: the bottom end of the vertical beam is sleeved with the weighting base, a first pin shaft penetrates through the vertical beam and the weighting base, and the first pin shaft is fixed through a hand-screwed screw.

Compared with the prior art, the technical scheme has the following technical effects that: the weighting base is connected with the vertical beam through the first pin shaft and the hand-screwed screw, so that the weighting base can be manually installed without tools, and the installation efficiency is improved.

In an embodiment of the present invention, the inserting and fixing the second cross beam between the adjacent vertical beams includes: and each end of the second cross beam is sleeved with a fixed frame, the fixed frame faces one end of the vertical beam and is inserted into the vertical beam through a second pin shaft, and two sides of the fixed frame are connected with the vertical beam through first buckles.

Compared with the prior art, the technical scheme has the following technical effects that: the second cross beam is positioned and quickly installed through the second pin shaft, so that the second cross beam is prevented from moving along the direction vertical to the second cross beam; the first buckle can further fix the second cross beam, so that the second cross beam is prevented from being separated along the length direction of the second cross beam, and the buckle is fixed in a manner of being convenient for quick assembly and disassembly.

In one embodiment of the present invention, the fixing of the two horizontal split beams as a single first cross beam includes: and unfolding the two horizontal beam sections to a collinear state, and closing a second buckle at one end of each of the two horizontal beam sections, which is opposite to the horizontal beam section.

Compared with the prior art, the technical scheme has the following technical effects that: the second crossbeam divide into two first crossbeam is convenient for accomodate and transport, the carriage passes through the second buckle is connected two of being convenient for the dismouting of horizontal minute roof beam.

In one embodiment of the present invention, the fixing a plurality of the tripods to the tops of two of the side brackets further comprises: and inserting the first cross beam into the end fixing piece at the bottom end of the oblique beam, and connecting the side surface or the bottom surface of the first cross beam with the end fixing piece through a fourth pin shaft.

Compared with the prior art, the technical scheme has the following technical effects that: the end fixing piece is connected with the first cross beam in an inserting mode, so that the end fixing piece is in a vertical state, the end fixing piece is matched with the side face of the vertical beam conveniently, and the stability of the tripod is improved.

In one embodiment of the invention, said fixing a plurality of said tripods on top of two said side brackets comprises: and inserting the end fixing piece at the bottom end of the oblique beam into the top of the vertical beam through a third pin shaft, and closing a third buckle between the end fixing piece and the vertical beam.

Compared with the prior art, the technical scheme has the following technical effects that: the third pin shaft realizes the fixation of the tripod along the direction vertical to the first cross beam, the third buckle can prevent the tripod from inclining or separating from the vertical beam, and the third pin shaft and the third buckle can both realize quick installation.

In one embodiment of the present invention, the connecting the tops of a plurality of the tripods with the top beam includes: and assembling a plurality of top beam units into the top beam through a fourth buckle and/or a hinge, connecting the top of the tripod with the fixing plate through a fastener, and installing the fixing plate on the top beam through a fifth pin shaft.

Compared with the prior art, the technical scheme has the following technical effects that: the top beam unit is composed of a plurality of top beam units, so that the top beam is convenient to store and transport, the top beam unit can be quickly installed through unfolding through the hinge connection, and the fourth buckle can realize quick fixation of the top beam unit; the fifth pin shaft can also quickly fix the top beam and the tripod.

In summary, the above embodiments of the present application may have one or more of the following advantages or benefits: i) the side supporting frames are connected with the second cross beams and the vertical beams through the first buckles and the second pin shafts, so that the dismounting efficiency of the second cross beams and the number of the side supporting frames can be improved; ii) the counterweight block can position the vertical beam and the bottom beam, and can be quickly disassembled and assembled, and the weighting base can further lower the gravity center of the vertical beam so as to be more stable; iii) the oblique beams and the horizontal split beams of the tripod can be unfolded or folded, thereby facilitating installation and transportation; iv) the end part of the tripod is connected with the vertical beam through the third buckle and the third pin shaft on the end part fixing piece, so that the rapid installation is realized; v) the back timber divide into a plurality ofly the back timber unit, the transportation of being convenient for, the back timber unit passes through fourth buckle and/or hinged joint to can expand and fix, improve the installation effectiveness.

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 an easy-to-disassemble inspection station according to an embodiment of the present invention.

Fig. 2 is a schematic view of the connection between the weight block and the vertical beam and the bottom beam in fig. 1.

Fig. 3 is an exploded view of fig. 2.

Fig. 4 is a schematic structural view of the vertical beam of fig. 3.

Fig. 5 is a schematic view of the connection between the second cross member and the vertical member in fig. 1.

Fig. 6 is a schematic structural view of the fixing frame in fig. 5.

Fig. 7 is a schematic structural view of the first cross member in fig. 1.

Fig. 8 is a schematic structural view of the reinforcing beam in fig. 1.

Fig. 9 is a schematic view of the connection of the first cross member and the oblique member in fig. 1.

Fig. 10 is a schematic view of the end fixing member shown in fig. 9 from another perspective.

Fig. 11 is a schematic view illustrating the connection of the cap to the stringer in fig. 1.

Fig. 12 is a schematic view of the construction of the cap of fig. 1.

Figure 13 is another schematic view of the top beam of figure 1.

Fig. 14 is a flowchart of an installation method of a detachable inspection station according to a second embodiment of the present invention.

Description of reference numerals:

100 is an easy-to-disassemble inspection station; 101 is a side supporting frame; 102 is a tripod; 110 is a second beam; 111 is a fixing frame; 112 is a second pin; 113 is a first buckle; 120 is a vertical beam; 121 is a weighting base; 122 is a locking port; 123 is a screw bracket; 124 is a hand screw; 125 is a first pin; 126 is a first snap mounting plate; 130 is a bottom beam; 140 is an oblique beam; 141 is a sloping beam rotating member; 142 is an end fixing piece; 143 is a third pin; 144 is a circumferential fixing member; 145 is a third buckle; 150 is a first beam; 151 is a horizontal beam; 151a is a sliding groove; 152 is a hinge; 153 is a second fastener; 154 is a fourth pin; 155 is a supporting frame; 160 is a top beam; 161 is a top beam unit; 162 is a fixing plate; 163 is a fourth fastener; 164 is a fifth pin; 165 is a bar; 170 is a balancing weight; 171 is a vertical beam opening; 172 is a sill opening; 173 is a vertical beam positioning groove; 174 is a bottom beam positioning groove; 175 is a locking block; 180 are stiffening beams.

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 method for manufacturing a semiconductor device

Referring to fig. 1, a demountable inspection station 100 according to an embodiment of the present invention includes: the side support frame comprises two side support frames 101 which are oppositely arranged and a plurality of tripods 102 which are arranged above the side support frames 101, wherein the tripods 102 are vertical and can be detachably connected with the side support frames 101. Wherein, side support frame 101 includes: a second cross beam 110 and a vertical beam 120 which are vertically arranged and detachably connected, and a bottom beam 130 detachably connected to the bottom of the vertical beam 120; the tripod 102 includes: a tilt beam 140 and a first cross beam 150 detachably connected.

In this embodiment, the side support 101 and the tripod 102 can be installed quickly by being detachably connected, and can be transported conveniently, so that the detachable inspection station 100 can be replaced and put into use quickly.

Specifically, referring to fig. 2-3, the frangible inspection station 100 further includes, for example, a counterweight 170 disposed at the junction of the bottom beam 130 and the vertical beam 120. For example, the top of the weight block 170 is provided with a vertical beam opening 171 for inserting the vertical beam 120; the opposite sides are provided with sill openings 172 for receiving the sill 130.

Further, a vertical beam positioning slot 173 corresponding to the vertical beam opening 171 is arranged at the center of the bottom plate of the counterweight block 170 and is used for fixing the bottom end of the vertical beam 120; the bottom plate of the counterweight 170 is provided with bottom beam positioning slots 174 corresponding to the two sides of the bottom beam 130, and the bottom beam positioning slots are communicated with the bottom beam opening 172 and used for fixing the end part of the bottom beam 130.

In one embodiment, the weight 170 further includes a locking block 175, for example, which is disposed at the end of the bottom beam 130 and located in the bottom beam positioning slot 174. The width and/or height of the locking block 175 is greater than the corresponding size of the sill opening 172 so that the locking block 175 does not slide out of the weight 170 from the sill opening 172. Wherein, the locking block 175 is fixed with the end of the bottom beam 130 through a bolt, for example, thereby realizing manual installation and improving efficiency.

In one embodiment, referring to fig. 4, the vertical beam 120 further includes a weight base 121, which is sleeved on the bottom end of the vertical beam 120 and inserted into the vertical beam positioning slot 173 together with the bottom end of the vertical beam 120. The weighting base 121 is provided with a locking opening 122, for example, a pin hole is provided at a position corresponding to the vertical beam 120, and the first pin 125 passes through the pin hole of the vertical beam 120; the locking opening 122 is provided with a screw bracket 123, one side of the screw bracket 123 facing the weighting base 121 of the locking opening 122 is provided with at least one convex part, and the convex part is inserted into a corresponding groove of the weighting base 121; the screw bracket 123 is provided with a hand screw 124 coaxially disposed with the first pin 125, and the first pin 125 can be pressed by rotating the hand screw 124, thereby realizing quick installation of the vertical beam 120 and the weighting base 121.

Preferably, with continued reference to FIG. 3, the panels of the weight 170 are, for example, spliced. For example, the two sides of the counterweight block 170 corresponding to the two side panels of the bottom beam 130 are provided with side panel grooves, the adjacent side panels are provided with side panel protrusions matched with the side panel grooves, and the side panel protrusions are inserted into the side panel grooves, so that the counterweight block 170 is assembled. The structure of a plurality of the panels facilitates the storage and transportation of the weight 170.

In a specific embodiment, referring to fig. 5 to 6, the end of the second cross member 110 is sleeved with a fixing frame 111, and the fixing frame 111 is connected between the second cross member 110 and the vertical member 120. Wherein, fixed frame 111 is U type structure, has two linking arms, the linking arm stretches out along the direction of keeping away from perpendicular roof beam 120 to the both sides of second crossbeam 110 tip are located to the card, and fixed frame 111 is connected with second round pin axle 112 towards one side of perpendicular roof beam 120, pegs graft through second round pin axle 112 and on perpendicular roof beam 120, realize location and rapid Assembly. The second pin 112 is, for example, a taper pin.

Further, the fixing frame 111 is located on two sides of the second beam 110, the connecting arm is folded along the direction perpendicular to the second beam 110, and the two sides of the connecting arm away from the second beam 110 are fixed with the vertical beam 120 through the first buckle 113, so that the stability of the second beam 110 is improved, and the second beam 110 is prevented from being separated from the vertical beam 120 along the length direction of the second beam.

Wherein, two sides of the fixing frame 111 are provided with threaded holes for connecting buckles, for example; the vertical beam 120 is provided at a side thereof with a first snap mounting plate 126 for connecting the first snap 113. The vertical beams 120 are attached to the first snap mount plate 126, such as by threaded holes and screws. When the second cross beam 110 and the vertical beam 120 are disassembled, the second cross beam 110 and the vertical beam 120 can be separated only by opening the first buckle 113, and the first buckle 113 is not required to be disassembled by disassembling screws, so the disassembly is more flexible and faster.

In one particular embodiment, referring to FIG. 7, the first beam 150 includes two horizontal sub-beams 151 that are co-linear and connected to each other. The first cross beam 150 further includes a support frame 155, for example, and one end of each of the two horizontal cross beams 151 opposite to each other is connected to one support frame 155. For example, the support frame 155 covers the side and bottom surfaces of the end portion of the horizontal split beam 151 and is connected to the horizontal split beam 151 by screws; the bottom surfaces of the two support frames 155 are connected by a hinge 152 so that the two horizontal split beams 151 can be rotatably folded.

Wherein, for example, a second buckle 153 is further arranged between the two support frames 155, and when the two horizontal split beams 151 rotate to a collinear state, the two horizontal split beams 151 can be quickly fixed by the second buckle 153.

On the basis, referring to fig. 11, the tripod 102 further includes a sloping beam rotating part 141, which is located on the top of the sloping beam 140 and rotatably connects the top ends of the two sloping beams 140, so that the two sloping beams 140 can be folded close to each other. Therefore, the inclined beam 140 and the horizontal split beam 151 are folded in parallel, and are easily stored and transported, so that the installation place of the knock-down inspection station 100 can be easily changed and reused.

Referring to fig. 8, tripod 102 further includes, for example: and a reinforcing beam 180 connecting the inclined beam 140 and the horizontal split beam 151 on the same side of the tripod 102. For example, the horizontal sub-beams 151 are provided with sliding grooves 151a, the bottom ends of the reinforcement beams 180 slide in the sliding grooves 151a, and the top ends of the triangular brackets 102 are rotatably connected to the inclined beams 140, so that the reinforcement beams 180 can rotate with the folding of the inclined beams 140 and the horizontal sub-beams 151. When the tripod 102 is secured, the bottom end of the reinforcement beam 180 can be tightened by the thumb screw 124 to facilitate installation.

In a particular embodiment, referring to fig. 9-10, tripod 102 further comprises, for example: and an end fixing member 142 rotatably coupled to a bottom end of the inclined beam 140. The end fixing member 142 is provided with a first beam mounting groove for inserting an end of the first beam 150. The first beam 150 may also be connected to the end fixing member 142 through a fourth pin 154, and the fourth pin 154 is a latch, for example.

Preferably, the side of the end fixing member 142 facing the vertical beam 120 is provided with a third pin 143 for inserting into the vertical beam 120, and the third pin 143 is, for example, a taper pin.

Further, the end fixing member 142 further includes, for example, a circumferential fixing member 144 and a third catch 145. Wherein, the circumferential fixing member 144 surrounds the end fixing member 142, is disposed between the inclined beam 140 and the first cross beam 150, and extends toward the vertical beam 120; a third catch 145 connects the vertical beam 120 and the circumferential fixture 144.

Preferably, referring to fig. 1 and 11, the frangible inspection station 100 further includes, for example, a header 160 connecting the tops of the plurality of tripods 102. The top beam 160 includes a fixed plate 162 and a top beam body, wherein the fixed plate 162 is, for example, a U-shaped structure, is sleeved on the top beam body, and is connected to the inclined beam rotating element 141 at the top of the tripod 102.

Furthermore, two sides of the fixing plate 162 are connected with the top beam body through a fifth pin 164, for example, so as to be assembled quickly; the bottom of the fixed plate 162 is connected to the sloped beam rotation member 141 by, for example, a screw.

Preferably, referring to fig. 12-13, header 160 includes, for example, a plurality of combined header units 161. For example, a plurality of top beam units 161 may be assembled into the top beam 160 by the fourth fastener 163 and/or the hinge 152, and the connection manner of the adjacent top beam units 161 is the same as that of the two horizontal sub-beams 151, and thus, the description thereof is omitted.

Of course, the header 160 may also be fixed by means of the bars 165, and fixed to the side or bottom surface of the adjacent header unit 161 by screws.

[ second embodiment ]

Referring to fig. 14, a method for installing an easy-disassembly inspection station 100 according to a second embodiment of the present invention includes:

s1: transversely inserting the bottom beam 130 into the bottom beam opening 172 on the side of the counterweight block 170 and fixing;

s2: the vertical beam 120 is longitudinally inserted into the vertical beam opening 171 on the top surface of the counterweight block 170 and then fixed;

s3: inserting and fixing the second cross beam 110 between the adjacent vertical beams 120 to complete the side supporting frame 101;

s4: two oblique beams 140 and two horizontal split beams 151 of the tripod 102 are rotated and unfolded outwards, and the two horizontal split beams 151 are fixed into a single first cross beam 150;

s5: fixing a plurality of tripods 102 on the top of the two side support frames 101;

s6: the top of the plurality of tripods 102 is connected with a top beam 160.

In reference to fig. 2-3, in step S1, the horizontally inserting the bottom beam 130 into the bottom beam opening 172 on the side of the counterweight block 170 and then fixing the bottom beam includes: the locking block 175 is mounted to an end of the sill 130 extending into the counterweight 170 inside the counterweight 170, and the locking block 175 and the sill 130 are secured by a latch.

Specifically, the end of the bottom beam 130 passes through any bottom beam opening 172 of the counterweight block 170 and is embedded in a bottom beam positioning groove 174 on the bottom plate of the counterweight block 170; in the counterweight block 170, the U-shaped opening of the locking block 175 is arranged from the upper part of the end part of the bottom beam 130 and is reversely buckled on the bottom beam 130; the latch passes through the locking block 175 and the bottom beam 130 from above the end of the bottom beam 130 and is locked inside the bottom beam 130 by a nut, preventing the latch from being disengaged.

The counterweight block 170 is formed by splicing a plurality of panels, and the panels can be spliced into the counterweight block 170 and then the bottom beam 130 is installed; or the bottom beam 130 may be mounted to the bottom plate of the weight block 170, and then the remaining panels of the weight block 170 may be assembled.

After step S1 is completed, a tool box may be mounted on the bottom beam 130, for example, by bridging a bottom beam fitting notch at the bottom of the tool box on the bottom beam 130.

Referring to fig. 3 to 4, in step S2, the vertical beam 120 is vertically inserted into the vertical beam opening 171 on the top surface of the counterweight block 170 and then fixed, for example, the vertical beam opening includes: the bottom end of the vertical beam 120 is sleeved with the weighting base 121 and fixed, and the bottom end of the vertical beam 120 and the weighting base 121 are inserted into the vertical beam opening 171 and inserted into the vertical beam positioning groove 173 at the bottom of the counterweight block 170.

Specifically, the bottom end cover of erecting roof beam 120 is established and is aggravated base 121 and fixed including: the side surface of the weighting base 121 with the locking opening 122 is corresponding to the side surface of the vertical beam 120 with the pin hole, and then the weighting base 121 is sleeved with the vertical beam 120, so that the bottom surface of the weighting base 121 is flush with the bottom surface of the vertical beam 120, and at the moment, the locking opening 122 is matched with the pin hole.

Further, the bottom end of the vertical beam 120 is sleeved with the weighting base 121 and further fixed to include: a first pin 125 is inserted through the vertical beam 120 and the weighted base 121, and the first pin 125 is fixed by a hand screw 124. The hand-screwed screw 124 is installed on the weighting base 121 through the screw bracket 123, specifically, the opening of the screw bracket 123 faces the weighting base 121, and the protrusion pieces on the screw protrusion pieces are inserted into the grooves on two sides of the locking opening 122 to fix the screw bracket 123; the thumb screw 124 is turned into a matching threaded hole in the screw bracket 123, and the thumb screw 124 is continuously turned until the end of the thumb screw 124 abuts the first pin 125, thereby locking the vertical beam 120 and the weighted base 121.

Wherein, after the vertical beam 120 and the weighting base 121 are sleeved, the vertical beam opening 171 can be inserted into the vertical beam positioning groove 173, and then the turning plate located at the top of the counterweight block 170 and located at two sides of the vertical beam opening 171 is opened, so that a hand can be inserted into the counterweight block 170 to install the hand-screwed screw 124 and the first pin 125, which is not described herein again.

It should be noted that, referring to fig. 5 to 6, in step S3, the inserting and fixing the second cross beam 110 between the adjacent vertical beams 120 includes: each end of the second cross beam 110 is sleeved with a fixing frame 111, one end of the fixing frame 111 facing the vertical beam 120 is inserted into the vertical beam 120 through a second pin 112, and two sides of the fixing frame 111 are connected with the vertical beam 120 through a first buckle 113.

Specifically, the hook of the first buckle 113 is fixed to the vertical beam 120 through a screw, the snap ring of the first buckle 113 is fixed to the side surface of the fixing frame 111 through a screw, the bent end of the fixing frame 111 is clamped to the left side and the right side of the vertical beam 120, the second pin shaft 112 is inserted into a hole corresponding to the vertical beam 120 to achieve positioning of the second cross beam 110, and finally the hook and the snap ring are fastened to achieve fixing of the second cross beam 110 and the vertical beam 120.

When the second cross beam 110 and the vertical beam 120 need to be detached, the hook and the snap ring do not need to be taken down, and the second cross beam 110 and the vertical beam 120 can be separated only by opening the connection between the buckle and the snap ring; when the second cross beam 110 and the vertical beam 120 are installed again, the second pin shaft 112 only needs to be inserted and connected, and then the clamping hook and the clamping ring are buckled.

Of course, the positions of the buckle and the snap ring can be exchanged, and are not described herein again.

Referring to fig. 7 to 9, in step S4, the rotating and spreading of the two oblique beams 140 and the two horizontal split beams 151 of the tripod 102 to the outside includes: the two oblique beams 140 are unfolded towards two sides through the oblique beam rotating piece 141 at the top of the oblique beams; two horizontal split beams 151 are unfolded towards two sides through a hinge 152 between the two; one end of the reinforcing beam 180 is fixed on the oblique beam 140 through a locking screw to realize rotary connection; the other end of the reinforcing beam 180 is coupled to the sliding groove 151a of the horizontal split beam 151 by the hand screw 124, but is not locked.

Further, in step S4, the fixing the two horizontal beams 151 to the single first beam 150 includes: the two horizontal beams 151 are unfolded to be in a collinear state, and the second buckles 153 at the opposite ends of the two horizontal beams 151 are combined. Specifically, the supporting frames 155 are sleeved at the opposite ends of the horizontal split beams 151, one supporting frame 155 is sleeved at each end of each horizontal split beam 151, the hooks and the snap rings of the second fasteners 153 are fixed on different supporting frames 155, and the snap rings are connected with the corresponding supporting frames 155 and the corresponding horizontal split beams 151 through screws; when the two horizontal beams 151 are collinear, the snap ring and the hook of the second buckle 153 are fastened. When the two horizontal split beams 151 need to be disassembled again, the second buckle 153 only needs to be opened or locked, and the second buckle 153 does not need to be taken down or reinstalled.

Still further, the fixing of the two horizontal beams 151 to the single first cross beam 150, for example, further includes: the first beam 150 is inserted into the end fixing member 142, and is connected to the end fixing member 142 at a side surface or a bottom surface of the first beam 150 by a fourth pin 154. Specifically, the end fixing member 142 is rotated relative to the end of the oblique beam 140, so that the mounting slot of the first beam 150 on the end fixing member 142 is fastened to the end of the first beam 150, and the extending member of the first beam 150 is inserted into the mating hole in the mounting slot of the first beam 150; at the bottom of the end fixing piece 142, the end fixing piece 142 and the first beam 150 are inserted and connected through a fourth pin shaft 154, so that the installation strength is improved; finally, the locking reinforcement beam 180 is connected to the thumb screw 124 of the sliding groove 151 a.

It should be noted that, referring to fig. 9-10, in step S5, the fixing of the plurality of tripods 102 on the top of the two side brackets 101 includes, for example: the end fixing piece 142 at the bottom end of the inclined beam 140 is inserted into the top of the vertical beam 120 through the third pin 143, and the third buckle 145 between the upper end fixing piece 142 and the vertical beam 120 is closed.

Specifically, a circumferential fixing member 144 is provided between the end of the oblique beam 140 and the first cross beam 150, surrounds both sides of the end fixing member 142 and a side facing the first cross beam 150, and is screwed with the circumferential fixing member 144 and the end fixing member 142; the hook and the snap ring of the third buckle 145 are respectively connected with the top end of the vertical beam 120 and the side surface of the circumferential fixing piece 144; after the top end of the vertical beam 120 extends into the end fixing member 142 and is far away from one side of the first cross beam 150, the third pin 143 is inserted into the vertical beam 120, and the third buckle 145 is buckled. The vertical beam 120 and the tripod 102 are disassembled again without removing the third latch 145.

It should be noted that, referring to fig. 11 to 14, in step S6, the top of a plurality of tripods 102 is connected by the top beam 160, which includes: a plurality of top beam units 161 are assembled into a top beam 160 through a fourth buckle 163 and/or a hinge 152, a fixing plate 162 is mounted on the top beam 160 through a fifth pin 164, and the top of the tripod 102 and the fixing plate 162 are connected through a fastener.

Specifically, the assembling of the plurality of top beam units 161 into the top beam 160 through the fourth fastener 163 and/or the hinge 152 includes: any one side surface between the adjacent top beam units 161 is provided with a hinge 152 through a screw, the rest at least one side surface is provided with a strip 165, the strip 165 is connected with the two top beam units 161 through a screw or a hand-screwed screw 124, and only the strip 165 needs to be disassembled and assembled during secondary disassembly and assembly. Or, the fourth fastener 163 is installed between the adjacent top beam units 161 in the same installation manner as that of the adjacent horizontal beam 151, which is not described herein again, and only the fourth fastener 163 needs to be opened or closed during the second disassembly and assembly.

Preferably, the fixed plate 162 has a U-shaped structure, such as a bent beam rotating member 141 coupled to the top of the tripod 102 by a screw.

Specifically, the fixing plate 162 is mounted on the top beam 160 through a fifth pin 164, and includes, for example: the top beam 160 is embedded in the U-shaped structure of the fixing plate 162, and the fixing plate 162 and the top beam 160 are connected at both sides of the fixing plate 162 by a fifth pin 164. When the first hinge pin 164 is removed, the top beam 160 and the fixing plate 162 are separated from each other, and the fixing plate 162 is not required to be removed from the sloped beam rotation member 141, thereby improving the removal efficiency.

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.

Claims (12)

1. An easy disconnect checkpoint comprising:

two side support frames that relative setting, side support frame includes: the second cross beam and the vertical beam are arranged in a crossed manner and detachably connected, and the bottom beam is detachably connected with the bottom of the vertical beam;

a plurality of tripods, perpendicular and can dismantle the connection side support frame, and locate two side support frame top, the tripod includes: the first crossbeam is connected with the sloping that can dismantle.

2. The easy disassembly inspection station of claim 1, further comprising a counterweight disposed at the junction of the bottom beam and the vertical beam.

3. The easy disconnect checkpoint of claim 2 further comprising a header connecting a top of the tripod.

4. The frangible inspection station of claim 3, wherein the method of installing the frangible inspection station comprises:

transversely inserting the bottom beam into a bottom beam opening on the side surface of the balancing weight and then fixing the bottom beam;

longitudinally inserting the vertical beam into the vertical beam opening on the top surface of the balancing weight and then fixing the vertical beam;

inserting the second cross beam between the adjacent vertical beams and fixing to complete the side supporting frame;

the two inclined beams and the two horizontal sub beams of the tripod are rotationally unfolded outwards, and the two horizontal sub beams are fixed as the first cross beam;

securing a plurality of said tripods atop two of said side brackets;

and connecting the tops of a plurality of tripods by using the top beam.

5. The frangible inspection station of claim 4, further comprising; the locking block is positioned in the counterweight block and connected with the bottom beam;

the bottom beam transversely inserts the bottom beam opening of balancing weight side after-fixing, include:

the inner side of the balancing weight is provided with the locking block which is arranged at one end of the bottom beam extending into the balancing weight, and the locking block and the bottom beam are fixed through a bolt.

6. The frangible inspection station of claim 4, further comprising: the weighting base is sleeved at the bottom end of the vertical beam body;

with the vertical roof beam is vertically inserted the vertical roof beam opening after-fixing of balancing weight top surface includes:

the bottom end of the vertical beam is sleeved with the weighting base and fixed, and the bottom end of the vertical beam and the weighting base are inserted into the opening of the vertical beam and inserted into the vertical beam positioning groove at the bottom of the balancing weight.

7. The easy disassembly inspection station of claim 6, wherein the bottom end of the vertical beam is sleeved with a weighted base and fixed, comprising:

the bottom end of the vertical beam is sleeved with the weighting base, a first pin shaft penetrates through the vertical beam and the weighting base, and the first pin shaft is fixed through a hand-screwed screw.

8. The quick disconnect checkpoint of claim 4 wherein said inserting and securing a second cross beam between adjacent vertical beams comprises:

and each end of the second cross beam is sleeved with a fixed frame, the fixed frame faces one end of the vertical beam and is inserted into the vertical beam through a second pin shaft, and two sides of the fixed frame are connected with the vertical beam through first buckles.

9. The easy detachable inspection station of claim 4, wherein said securing two horizontal beams as a single first beam comprises:

and unfolding the two horizontal beam sections to a collinear state, and closing a second buckle at one end of each of the two horizontal beam sections, which is opposite to the horizontal beam section.

10. The easy detachable inspection station of claim 9, wherein said securing two horizontal beams as a single first beam further comprises:

and inserting the first cross beam into the end fixing piece at the bottom end of the oblique beam, and connecting the side surface or the bottom surface of the first cross beam with the end fixing piece through a fourth pin shaft.

11. The frangible inspection station of claim 4, wherein said securing a plurality of said tripods atop two of said side supports comprises:

and inserting the end fixing piece at the bottom end of the oblique beam into the top of the vertical beam through a third pin shaft, and closing a third buckle between the end fixing piece and the vertical beam.

12. The easy disconnect checkpoint of claim 4 wherein said connecting the tops of a plurality of said tripods with a header comprises:

and assembling a plurality of top beam units into the top beam through a fourth buckle and/or a hinge, connecting the top of the tripod with the fixing plate through a fastener, and installing the fixing plate on the top beam through a fifth pin shaft.

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