CN217700171U - Multipath flow distribution equipment and security inspection system - Google Patents

Abstract

The utility model discloses a multi-path shunting equipment, including the direction subassembly that is used for holding in the palm the sliding part of carrying article and is used for injecing the route of transporting article, the direction subassembly includes first guide part, first guide part flows out two at least second guide parts, first guide part and second guide part all with sliding part adaptation, be provided with switching component between second guide part and the first guide part, switching component is used for making the sliding part remove to the second guide part from first guide part, first guide part is used for injecing the normal motion route that holds in the palm the article of sliding part, the second guide part is used for injecing the motion route that the sliding part flowed article; the utility model also discloses a security check system, including detection device and multipath diverging device, detection device includes X-ray machine and conveyor, and conveyor and multipath diverging device adaptation have the reposition of redundant personnel route many, promote the beneficial effect of security check efficiency.

Description

Multipath flow distribution equipment and security inspection system

Technical Field

The utility model relates to a safety inspection equipment technical field, concretely relates to multi-path's splitter and safety inspection system.

Background

At present, in places such as stations, subway stations, airports, and the like, security inspection of articles, packages, baggage, and the like of passengers or passengers is required, and if suspicious articles exist in the packages or baggage, unpacking inspection thereof is required. In the past, packages or luggage which are possibly problematic are manually taken out of a conveying belt of a security inspection device and then subjected to reinspection; some sorting devices are currently present in the security check industry, which automatically sort out packages or baggage that may be problematic.

However, the existing sorting equipment only has a single diversion path when the suspicious articles are separated, and because the security check personnel need to spend a certain time when the suspicious articles are rechecked, if new suspicious articles arrive in the time period, a plurality of suspicious articles are easy to form accumulation at the end of the diversion path, thereby affecting the security check efficiency; therefore, the above problems need to be solved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a splitter of multipath, it has the single problem in article reposition of redundant personnel route to solve among the prior art splitter, has the reposition of redundant personnel route many, the efficient beneficial effect of reposition of redundant personnel.

The utility model aims at providing a security check system for solve because of the single problem that leads to the security check inefficiency in reposition of redundant personnel route.

The utility model discloses a following technical scheme realizes:

a multi-path flow distribution device comprises a sliding part for supporting articles and a guide assembly for limiting a path for transporting the articles, wherein the guide assembly comprises a first guide part, the first guide part is divided into at least two second guide parts, the first guide part and the second guide parts are matched with the sliding part, a switching assembly is arranged between the second guide parts and the first guide part and used for enabling the sliding part to move from the first guide part to the second guide part, the first guide part is used for limiting a movement path of the sliding part for normally supporting the articles, and the second guide part is used for limiting a movement path of the sliding part for flowing the articles.

In the technical scheme, the sliding part is used for supporting movement, the first guide part and the second guide part enable the sliding part to move on different transportation paths, transportation and sorting functions are achieved, and in order to solve the problem that the article shunting path is single in shunting equipment in the prior art, the guide assembly comprises the first guide part and the second guide part, the number of the second guide parts is at least two, and the second guide part is used for limiting the path of the sliding part flowing suspicious articles, so that the suspicious articles on the first guide part can be supported by the sliding part to move to the second guide part, and the number of the second guide parts is multiple, so that multiple continuous suspicious articles in a period of time can be enabled to be shunted to different second guide parts, rechecking can be carried out in different rechecking areas, and the suspicious articles can not be influenced mutually, and the problem of suspicious article stacking caused by the single shunting path is avoided, and safety inspection efficiency is improved.

Preferably, the conveying device further comprises a rack, two rotatable conveying chain modules are arranged on two sides of the rack, and the sliding part is connected between the two conveying chain modules.

The conveying chain module can drive the sliding part to move on a path defined by the first guide part or the second guide part, so that the transportation and sorting functions are realized; and the second guide part is provided with a plurality of second guide parts, so that a plurality of suspicious articles can be shunted to different second guide parts, thereby avoiding the accumulation of the suspicious articles.

Preferably, the first guide part includes a first rail, the second guide part includes a second rail, the first rail and the second rail are both adapted to the sliding part, the switching assembly is disposed at a connection of the second rail and the first rail, and the switching assembly is configured to move the sliding part from the first rail to the second rail.

Preferably, the track structure further comprises an intersection block, the first track and the second track are both annular tracks, the intersection block is connected into the first track, and the intersection block is used for enabling the second track to be intersected with the first track.

Preferably, the intersection block is configured with a main groove body communicated with the first rail and an auxiliary groove body communicated with the second rail, one end of the auxiliary groove body is connected with the second rail, and the other end of the auxiliary groove body is converged into the main groove body.

Preferably, the first rail and the second rail are respectively configured with a sliding groove along the extending direction, and the sliding part includes a sliding column matched with the sliding groove.

The sliding body and the sliding groove are matched with each other, so that the sliding part can move on the first track and the second track more stably.

Preferably, the sliding part comprises a roller and a sliding block, the roller is connected with the conveying chain module, the sliding block is sleeved on the roller, and the sliding column is constructed at the bottom of the sliding block.

After the roller is connected with the conveying chain module, the roller can rotate along with the rotation of the conveying chain module, the sliding block is sleeved on the roller, and the sliding column is constructed at the bottom of the sliding block, so that when the sliding block moves to the second rail from the first rail, the sliding block slides on the roller to realize rail replacement.

Preferably, the switching assembly comprises a bifurcation block, a switching rail and a pushing piece, the bifurcation block is communicated with the switching rail and is connected into the first rail, the bifurcation block is provided with a first groove body communicated with the first rail and a second groove body connected with the second rail, and the pushing piece is used for pushing the switching rail to be communicated with the first groove body or the second groove body.

Preferably, the push piece is electrically connected with the push piece.

A security inspection system comprises a detection device, wherein the detection device comprises an X-ray machine, a conveying device and the multi-path shunting equipment, and the conveying device is matched with the multi-path shunting equipment.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

the utility model provides a multi-path shunting equipment, the sliding part is used for holding in the palm and carries the motion, and first guide part and second guide part make the sliding part move on the transport route of difference, realize transportation and letter sorting function, there is the single problem in article reposition of redundant personnel route for solving among the prior art shunting equipment, the direction subassembly includes first guide part and second guide part, and the quantity of second guide part is two at least, and the second guide part is used for injecing the route of the suspicious article of sliding part class, consequently suspicious article on the first guide part can be held in the palm by the sliding part and is carried and move to the second guide part on, and the quantity of second guide part has a plurality ofly, consequently, can guarantee a plurality of continuous suspicious article in a period and can both be shunted to different second guide parts on, thereby carry out the reinspection in the reinspection region of difference, and do not influence each other, consequently, the suspicious article pile's problem that single reposition of redundant personnel route leads to has been avoided, thereby the safety inspection efficiency has been promoted.

The utility model provides a security check system, including the detection device and the multipath splitter of each other adaptation, still include foretell multipath splitter, article after detection device detects can flow to the reinspection region through the second guide part if for suspicious article, if a plurality of article are suspicious article in succession, then the setting of a plurality of second guide parts can be shunted suspicious article to different reinspection regions in proper order to avoid suspicious article's pile up, improve security check efficiency.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

fig. 1 is a schematic view of an internal structure of a multi-path flow dividing device according to an embodiment of the present invention;

fig. 2 is a schematic view of an internal structure of a multi-path flow dividing device according to an embodiment of the present invention; (bottom view angle)

FIG. 3 is a schematic view of the slider assembly according to an embodiment of the present invention;

FIG. 4 is a schematic side view of a slider according to an embodiment of the present invention;

fig. 5 is a schematic diagram of a security inspection system according to an embodiment of the present invention.

Reference numbers and corresponding part names in the figures: 100-rack, 110-work starting end, 120-work ending end, 200-conveying chain module, 300-guiding component, 310-first guiding part, 320-second guiding part, 330-sliding chute, 340-track A, 350-track B, 360-arc-shaped track, 410-roller shaft, 420-sliding block, 421-sliding column, 422-through hole, 500-switching component, 510-bifurcation block, 511-first groove body, 512-second groove body, 520-switching track, 530-pushing piece, 540-sliding table, 600-intersection block, 610-main groove body, 620-auxiliary groove body, 700-detection device, 710-X-ray machine, 720-conveying device.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more clearly understood, the following description is given for further details of the present invention with reference to the accompanying drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present invention, and are not intended to limit the present invention.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. However, it will be apparent to those of ordinary skill in the art that: it is not necessary to employ these specific details to practice the present invention. In other instances, well-known structures, circuits, materials, or methods have not been described in detail in order to avoid obscuring the present invention.

Throughout the specification, reference to "one embodiment," "an embodiment," "one example" or "an example" means: the particular features, structures, or characteristics described in connection with the embodiment or example are included in at least one embodiment of the invention. Thus, the appearances of the phrase "one embodiment," "an embodiment," "one example" or "an example" in various places throughout this specification are not necessarily all referring to the same embodiment or example. Furthermore, the particular features, structures, or characteristics may be combined in any suitable combination and/or sub-combination in one or more embodiments or examples. Further, those of ordinary skill in the art will appreciate that the illustrations provided herein are for illustrative purposes and are not necessarily drawn to scale. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In the description of the present invention, the terms "front", "back", "left", "right", "up", "down", "vertical", "horizontal", "high", "low", "inner", "outer", etc. indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the scope of the present invention.

Example 1

The utility model provides a multi-path shunting device, which comprises a frame 100, wherein the frame 100 is provided with a conveying chain module 200, a guide assembly 300 and a sliding part for supporting articles, and the sliding part is connected with the conveying chain module 200 and synchronously moves along with the rotation of the conveying chain module 200;

the frame 100 has a work starting end 110 for the entry of the article and a work terminating end 120 for the exit of the article;

the guide assembly 300 comprises a first guide part 310, at least two second guide parts 320 flow out of the first guide part 310, the first guide part 310 and the second guide part 320 are matched with the sliding part, a switching assembly 500 is arranged between the second guide part 320 and the first guide part 310, and the switching assembly 500 is used for enabling the sliding part to move from the first guide part 310 to the second guide part 320;

the first guide portion 310 extends from the operation start end 110 to the operation termination end 120, and the first guide portion 310 is used for defining a moving path of the sliding portion normally carrying the article, the second guide portion 320 also extends to the operation termination end 120, and the second guide portion 320 is used for defining a moving path of the sliding portion flow article.

As shown in fig. 1 and fig. 2, in this embodiment, the whole rack 100 includes two side frames, each side frame is provided with a transmission chain module 200, each transmission chain module 200 includes an annular transmission chain and two chain wheels, the transmission chain is mounted on the two chain wheels in a fitting manner, the chain wheels are fixed on the side frames, power transmission is realized between two opposite chain wheels in the two transmission chain modules 200 through a connecting rotating shaft, one of the chain wheels realizes power connection through connection of a motor and a reduction gearbox, so that the two transmission chain modules 200 keep synchronous rotation; and the slide is located between two conveyor chain modules 200, and the chain is extended from the operation starting end 110 to the operation terminating end 120 of the rack 100, so that the article entering from the operation starting end 110 can be carried by the slide, and the slide can carry the article to move by the movement of the conveyor chain modules 200, and the moving path of the slide is defined by the guide assembly 300.

In order to solve the problem of single article diversion path of the diversion device in the prior art, the guide assembly 300 includes a first guide part 310 and a second guide part 320, the number of the second guide parts 320 is at least two (two in this embodiment), and a switching assembly 500 is disposed between the second guide part 320 and the first guide part 310, that is, diversion between the second guide part 320 and the first guide part 310 is realized by the switching assembly 500; in this embodiment, the first guiding portion 310 is a straight line and extends from the operation starting end 110 to the operation terminating end 120, the extending direction of the second guiding portion 320 is deviated to the other side of the first guiding portion 310, but the whole extending route extends from the position of the switching assembly 500 to the operation terminating end 120, and when the normal or suspicious object is carried to the operation terminating end 120 by the conveying portion, the normal or suspicious object is separated from the rack 100. The second guiding portion 320 is used for defining the path of the suspicious object flowed by the sliding portion, so that the suspicious object on the first guiding portion 310 can be carried by the sliding portion and moved onto the second guiding portion 320, and the number of the second guiding portions 320 is two, so that two continuous suspicious objects in a period of time can be guaranteed to be flowed onto different second guiding portions 320; it should be noted that, because the number of the second guiding portions 320 is two, when the two second guiding portions 320 extend to the working cut-off end, the positions where the suspicious articles on the two second guiding portions 320 leave are different, and therefore the suspicious articles are located in different reinspection areas, so that the two suspicious articles are reinspected in different reinspection areas without affecting each other, and therefore the problem of suspicious article stacking caused by a single diversion path is avoided, and the security inspection efficiency is improved.

It should be noted that the distribution of the plurality of second guiding portions 320 may be sequentially biased to the same side of the first guiding portion 310, or alternatively biased to both sides of the first guiding portion 310.

Preferably, the first guide part 310 includes a first rail, the second guide part 320 includes a second rail, the first rail and the second rail are both adapted to the sliding part, the switching assembly 500 is disposed at a connection of the second rail and the first rail, and the switching assembly 500 is used for moving the sliding part from the first rail to the second rail.

As shown in fig. 1, in this embodiment, the first guiding portion 310 is a linear first rail, and one end of the first rail is located at the work starting end 110 of the frame 100, and is used for receiving the object onto the sliding portion of the first rail; the other end of the first rail extends to the work-terminating end 120 of the rack 100 enabling the slide to transport the item carried thereto and ultimately to disengage the item from the slide and thus from the rack 100. It should be noted that the first rail is configured with a sliding groove 330 along the extending direction thereof, and the sliding portion includes a sliding column 421, so that the sliding portion can move along the extending direction of the first rail by the matching of the sliding column 421 and the sliding groove 330, so that when an article does not need to be diverted, the sliding portion can carry the article to move from the work starting end 110 to the work ending end 120, and finally the article is separated from the rack 100, and a passenger or passengers can take the article.

As shown in fig. 1, in the present embodiment, the second guiding portion 320 is a second rail connected to the first rail through the switching assembly 500; the second track is deviated to the other side of the first track, the whole extending path extends from the position of the switching assembly 500 to the work termination end 120, and the second track extends to the rechecking area corresponding to the security personnel; therefore, the suspicious object carried by the sliding part can be transported to the position (the work termination end 120) by the sliding part, and finally the suspicious object is separated from the sliding part on the second rail, so that the suspicious object falls into a rechecking area after being separated from the rack 100, and the suspicious object is conveniently rechecked by security personnel. It should be noted that the second track is also configured with a sliding slot 330 along the extending direction thereof, through the adaptation of the sliding column 421 and the sliding slot 330, the sliding portion can move along the extending direction of the second track, when the article needs to be diverted, the suspicious article falls onto the sliding portion on the first track from the operation starting end 110 of the rack 100, and then when the sliding portion holding the article moves to the switching assembly 500, the sliding column 421 of the sliding portion is diverted into the sliding slot 330 on the second track by the switching assembly 500 and finally moves to the operation ending end 120 of the rack 100 along the extending direction of the second track, so as to fall into the reinspection area away from the rack 100, and facilitate the reinspection of the security personnel.

It should be noted that, in some other embodiments, the first guiding portion 310 and the second guiding portion 320 may also be a first sliding rail and a second sliding rail, respectively, and the sliding portion may be provided with a pulley adapted to the sliding rails, the pulley is located on the upper end surfaces of the two sliding rails when sliding, and the pulley is provided with a rim along the circumferential direction, so as to prevent derailment; one end of the second slide rail is arranged in the first slide rail, and a gap is arranged at the intersection of the two slide rails, so that intersection is realized; when the articles do not need to be shunted, the second slide rail is tightly attached to the inner wall of the first slide rail, and the wheel rim of the pulley is positioned between the two inner walls of the first slide rail, so that the pulley cannot move to the second slide rail; when the article is a suspicious article, the sliding part carries the article to the end, close to the second slide rail, of the pulley of the article, which is located in the first slide rail, the switching assembly 500 enables the second slide rail not to cling to the inner wall of the first slide rail any more, and the rim of the pulley is located between the first slide rail and the second slide rail, so that the pulley moves onto the second slide rail to realize the shunting of the sliding part; the above principle is similar to the "train change track principle" in the prior art, and therefore will not be described in detail here.

It should be noted that, the track structure further includes an intersection block 600, the first track and the second track are both annular tracks, and the intersection block 600 is connected into the first track; preferably, the junction block 600 is configured with a main groove body 610 communicating with the first rail and a sub groove body 620 communicating with the second rail, and one end of the sub groove body 620 is connected with the second rail and the other end is merged into the main groove body 610.

As shown in fig. 1 and fig. 2, in the present embodiment, two ends of the first rail are respectively located at the work starting end 110 and the work terminating end 120 of the rack 100, two arc rails 360 are installed at the two positions, the two arc rails 360 are oppositely arranged, and then a linear rail a340 is connected between the two arc rails 360 so that the first rail is integrally annular, similar to the overall profile of the conveyor chain, and the sliding groove 330 is also configured on the arc rails 360 and the linear rail, so that the sliding part can continue to move to the work starting end 110 along with the annular rail 360 after reaching the work terminating end 120; the second track is also provided with an arc-shaped track 360 at the working end 120, then the arc-shaped track 360 is connected with a linear track B350, the track B350 is finally intersected with the track A340, and the sliding groove 330 is also constructed on the track B350, so that the second track is annularly shaped, bypasses the working end 120 and is intersected with the first track; as shown in fig. 2, an intersection block 600 is disposed at an intersection of a track B350 and a track a340, a main trough 610 communicating with a first track (track a 340) and a sub trough 620 communicating with a second track (track B350) are configured on the intersection block 600, ends adjacent to the main trough 610 and the sub trough 620 are separated from each other, one end of the sub trough 620 is converged into the main trough 610, and both are in a "Y" shape, so that sliding portions on the two tracks (the first track and the second track) are finally converged onto the first track between the switching assembly 500 and the intersection block 600 through the intersection block 600, and thus, when a sliding portion normally supporting an article and a sliding portion for supporting a suspicious article are moved onto the work termination end 120 of the rack 100, the sliding portions can be restored onto the first track at the work initiation end 110 through a circular design of the tracks, and a next sorting task and a transportation task can be conveniently completed.

Preferably, the sliding part includes a roller 410 and a sliding block 420, the roller 410 is connected to the transmission chain module 200, the sliding block 420 is sleeved on the roller 410, and the sliding column 421 is configured at the bottom of the sliding block 420.

As shown in fig. 4, in the present embodiment, the sliding block 420 is configured with two through holes 422, the through holes 422 are adapted to the roller shafts 410, and the roller shafts 410 are correspondingly connected to the links of the chain, where one link specifically includes an inner link plate, an outer link plate, a connecting pin, and a roller, the inner link plate and the outer link plate are adapted to be connected by the connecting pin, the roller is sleeved on the connecting pin, the inner link plate and the outer link plate are each configured with two circular holes adapted to the connecting pin, and the connecting pin is a hollow structure, and each connecting pin is correspondingly connected to one roller shaft 410; therefore, the two ends of the roller shaft 410 are inserted into the connecting pins at the two sides of the roller shaft to realize the synchronous rotation of the roller shaft 410 and the transmission chain module 200, and the sliding block 420 is sleeved on the roller shaft 410, so that the sliding block 420 can synchronously move while the roller shaft 410 moves along with the transmission chain module 200 to realize the carrying of articles; the sliding column 421 is configured at the bottom of the sliding block 420, and through the matching between the sliding column 421 and the sliding slot 330, the sliding block 420 can slide smoothly on the first track and the second track, and meanwhile, when the tracks are changed, the sliding column 421 can drive the sliding block 420 to move in the length direction of the roller 410 as a whole.

Preferably, the switching assembly 500 includes a branching block 510, a switching rail 520 and a pushing member 530, the branching block 510 is communicated with the switching rail 520 and connected to the first rail, the branching block 510 is configured with a first slot 511 communicated with the first rail and a second slot 512 connected with the second rail, and the pushing member 530 is used for pushing the switching rail 520 to be communicated with the first slot 511 or the second slot 512.

As shown in fig. 1, in the present embodiment, the branch block 510 is located at a position where the second track starts to deflect, and the first slot 511 and the second slot 512 configured thereon communicate with the first track and the second track, respectively; in addition, the switching assembly 500 further includes a sliding table 540, the sliding table 540 is disposed on a horizontal rod disposed in the rack 100, the sliding table 540 is located below the switching rail 520, a sliding block adapted to the sliding table 540 is disposed at the bottom of the switching rail 520, a moving path of the sliding block is limited by the sliding table 540, so that the switching rail 520 can only be in a state of communicating with the first groove 511 or the second groove 512, and an extending end of the pushing member 530 is connected to the switching rail 520, thereby providing power for driving the switching rail 520 to translate.

It should be noted that, in the above embodiment, the pushing member 530 may be selected from a cylinder or an electric push rod in the prior art.

It should be noted that, in the above embodiment, as shown in fig. 1, the opening at the end of the switching rail 520 communicating with the first rail is large, and the distance of the opening can ensure that the sliding column 421 of the sliding block 420 can enter into the switching rail 520 from the first rail when the other end of the switching rail 520 communicates with any slot body (the first slot body 511 and the second slot body 512).

Preferably, a controller is further included, and the controller is electrically connected to the pushing member 530.

In this embodiment, the controller can regulate and control the start and stop of the pushing member 530, when the sliding block 420 carries the suspicious object to move to a position close to the switching rail 520, the controller can make the pushing member 530 work, and the pushing member 530 pushes the switching rail 520 to move and then communicate with the second groove 512, so that the sliding block 420 (one or more) carrying the suspicious object converges into the second track, thereby realizing the sorting of the suspicious object; if the article behind the suspicious article is a normal article, the controller controls the pushing member 530 to pull back the switching rail 520, so that the switching rail 520 is communicated with the first groove 511, and the sliding block 420 for supporting the normal article can be converged into the first track, thereby realizing normal transportation.

Example 2

A security inspection system comprises a detection device 700, wherein the detection device 700 comprises an X-ray machine 710 and a conveying device 720, and further comprises the multi-path flow dividing equipment, and the conveying device 720 is matched with the multi-path flow dividing equipment.

As shown in fig. 5, in the present embodiment, the conveyor 720 is a conveyor belt in the prior art, and is installed in the X-ray machine 710, and two ends of the conveyor are located outside the X-ray machine 710, and the conveying direction of the conveyor belt is along the entrance to the exit of the X-ray machine 710; articles needing security inspection can be conveyed into the X-ray machine 710 by the conveyor belt from the inlet of the X-ray machine 710 and then conveyed out from the outlet of the X-ray machine 710; the rack 100 of the multi-path diverting device is disposed adjacent to the conveyor belt, that is, the operation start end 110 of the rack 100 is disposed adjacent to the conveyor belt, and the slide block 420 on the first track is located at the operation start end 110 when waiting for the article to be separated from the conveyor belt, so that when the article falls onto the slide block 420, the X-ray machine 710 detects whether the article needs to be rechecked, and determines whether the article is conveyed along the first transportation track or the second transportation track according to whether the article needs to be rechecked; when a plurality of articles need to be rechecked, the articles are sequentially supported to different switching assemblies 500 through a plurality of sliding blocks 420, and each switching assembly 500 corresponds to one second track (shunting path), so that the problem of single shunting path is solved, and the efficiency of security inspection and article rechecking is improved.

It should be noted that the controller in embodiment 1 is further electrically connected to the X-ray machine 710 in this embodiment, so that the controller can regulate and control the pushing member 530 in the X-ray machine 710 and the multi-path diverting device, that is, when the X-ray machine 710 detects that baggage or an article that may have problems is conveyed onto the sliding block 420 of the multi-path diverting device, the article is on the sliding block 420, and the sliding block 420 slides into the second track through the pushing member 530 under the control of the controller, so that the article is shifted out of the normal transportation direction (the transportation direction of the first track), thereby shunting the article, and facilitating the retest of the article by a worker; meanwhile, due to the existence of the controller, when the sliding block 420 which is carrying the suspicious object to move exists on one second track, the subsequent suspicious object can only be shunted to the next idle second track, so that the problem that the suspicious object is accumulated on the same shunting path is avoided.

The utility model discloses what the key description in the above embodiment is different between each embodiment, and different optimization characteristics are as long as not contradictory between each embodiment, all can make up and form more preferred embodiment, consider that the literary composition is succinct, then no longer describe here.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A multi-path diverting device is characterized by comprising a sliding part for supporting articles and a guide assembly (300) for limiting the path of transported articles, wherein the guide assembly (300) comprises a first guide part (310), the first guide part flows out of at least two second guide parts (320), the first guide part (310) and the second guide part (320) are matched with the sliding part, a switching assembly (500) is arranged between the second guide part (320) and the first guide part (310), the switching assembly (500) is used for enabling the sliding part to move from the first guide part (310) to the second guide part (320), the first guide part (310) is used for limiting the moving path of the sliding part normally supporting the articles, and the second guide part (320) is used for limiting the moving path of the sliding part diverting articles.

2. A multi-path branching device as claimed in claim 1, further comprising a frame (100), wherein two rotatable conveyor chain modules (200) are provided on both sides of the frame (100), and the sliding part is connected between the two conveyor chain modules (200).

3. A multi-path shunting device as claimed in claim 2, wherein the first guide (310) comprises a first track, the second guide (320) comprises a second track, the first and second tracks each being adapted to the slide, the switch assembly (500) being provided at a junction of the second track and the first track, the switch assembly (500) being adapted to move the slide from the first track to the second track.

4. A multi-path branching device as claimed in claim 3, further comprising a junction block (600), wherein the first track and the second track are both circular tracks, the junction block (600) is connected into the first track, and the junction block (600) is used to enable the second track to be joined with the first track.

5. The multi-path flow dividing device as claimed in claim 4, wherein the junction block (600) is configured with a main channel body (610) communicating with the first rail and a sub channel body (620) communicating with the second rail, and one end of the sub channel body (620) is connected with the second rail and the other end is merged into the main channel body (610).

6. A multi-path diverting device according to claim 4, wherein the first and second rails are each configured with a slide groove (330) in the respective extension direction, and the sliding part comprises a slide column (421) fitted with the slide groove (330).

7. A multi-path diverting device according to claim 6, wherein the sliding part comprises a roller (410) and a sliding block (420), the roller (410) is connected with the conveying chain module (200), the sliding block (420) is sleeved on the roller (410), and the sliding column (421) is configured at the bottom of the sliding block (420).

8. The multi-path shunting device as claimed in claim 7, wherein the switching assembly (500) comprises a branching block (510), a switching rail (520), and a pushing member (530), the branching block (510) is in communication with the switching rail (520) and both are connected into the first rail, the branching block (510) is configured with a first slot (511) in communication with the first rail and a second slot (512) in communication with the second rail, and the pushing member (530) is used for pushing the switching rail (520) to communicate with the first slot (511) or the second slot (512).

9. A multi-path flow diversion apparatus as claimed in claim 8, further comprising a controller electrically connected to the urging member.

10. A security inspection system comprising a detection device (700), the detection device (700) comprising an X-ray machine (710) and a transport device (720), characterized by further comprising a multi-path splitting device according to any one of claims 1 to 8, the transport device (720) being adapted to the multi-path splitting device.

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