CN216971161U - Conveying equipment and detection system - Google Patents

Abstract

The present disclosure relates to a conveying apparatus and a detection system, the conveying apparatus including: the conveying line body assembly comprises a first conveying line body and a second conveying line body which are arranged at intervals, wherein one end, close to the second conveying line body, of the first conveying line body is hinged with a third conveying line body, the third conveying line body is provided with an avoiding position and an unfolding position, an included angle is formed between the third conveying line body and the first conveying line body at the avoiding position, so that an avoiding space is formed between the first conveying line body and the second conveying line body, and the first conveying line body is in butt joint with the second conveying line body through the third conveying line body at the unfolding position and is used for conveying materials among the first conveying line body, the third conveying line body and the second conveying line body; and the driving mechanism is in driving connection with the third conveying line body so as to drive the third conveying line body to switch between an avoiding position and an unfolding position, the requirement for large transition of bearing gaps between the conveying line bodies can be met, the working condition adaptability is good, and the device has the advantages of good controllability and high efficiency.

Description

Conveying equipment and detection system

Technical Field

The disclosure relates to the field of production and manufacturing conveying equipment, in particular to conveying equipment and a detection system.

Background

In the actual production manufacturing and conveying process, the automatic roller line body is widely applied, in the related technology, the roller line body is usually continuous and uninterrupted or is arranged in a way of abutting two sections of roller line bodies for normally conveying goods, and the working condition adaptability of the mode is low.

SUMMERY OF THE UTILITY MODEL

The purpose of the disclosure is to provide a conveying equipment and a detection system, the working condition adaptability of the conveying equipment is good, the conveying equipment can work stably, the controllability is good, and the efficiency is high.

In order to achieve the above object, the present disclosure provides a conveying apparatus including: the conveying line body assembly comprises a first conveying line body and a second conveying line body which are arranged at intervals, wherein one end, close to the second conveying line body, of the first conveying line body is hinged with a third conveying line body, the third conveying line body is provided with an avoiding position and an unfolding position, in the avoiding position, an included angle is formed between the third conveying line body and the first conveying line body, so that an avoiding space is formed between the first conveying line body and the second conveying line body, and in the unfolding position, the first conveying line body is in butt joint with the second conveying line body through the third conveying line body to be used for conveying materials among the first conveying line body, the third conveying line body and the second conveying line body; and the driving mechanism is in driving connection with the third conveying line body and is used for driving the third conveying line body to be switched between the avoiding position and the unfolding position.

Optionally, the conveying apparatus further includes a first frame and a second frame arranged at intervals, the number of the conveyor line body assemblies is one or more, one or more first conveyor line bodies are arranged on the first frame, and one or more second conveyor line bodies are arranged on the second frame; when the number of the conveyor line body assemblies is multiple, the number of the driving mechanisms is one, and the driving mechanisms are used for driving the third conveyor lines to synchronously rotate; or the number of the driving mechanisms corresponds to the number of the third conveyor line bodies, and each driving mechanism is used for driving the corresponding third conveyor line body to rotate independently.

Optionally, the number of the conveyor line body assemblies is two, and two first conveyor lines are arranged at intervals along a first direction, and the number of the driving mechanism is one and is disposed between the two first conveyor lines, so as to drive the two third conveyor lines to synchronously rotate around a pivot axis parallel to the first direction.

Optionally, the two third conveying line bodies are connected by a connecting piece, the driving mechanism is configured as a driving cylinder, a cylinder body of the driving cylinder is hinged to the first frame body, and a piston rod of the driving cylinder is hinged to the connecting piece so as to drive the two third conveying line bodies to synchronously rotate around the pivot axis through the telescopic motion of the driving cylinder.

Optionally, the connecting member includes a first plate and a second plate arranged in a T shape, the first plate extends along the first direction, two ends of the first plate are respectively and fixedly connected to the two third conveyor line bodies, and an opposite end of a connecting end of the second plate and the first plate is hinged to a piston rod of the driving cylinder.

Optionally, the third conveyor line body is pivotally connected to the first conveyor line body by a pivot shaft, a central axis of the pivot shaft being the pivot axis.

Optionally, a support frame is disposed between the first frame body and the second frame body, and the support frame is configured to support the third conveyor line body when the third conveyor line body is located at the deployed position.

Optionally, the first conveyor line body, the second conveyor line body and the third conveyor line body are each configured as a drum-type conveyor line body comprising a plurality of drums arranged in parallel and spaced apart to convey the material through the plurality of drums; or the first conveyor line body, the second conveyor line body and the third conveyor line body are all constructed into conveyor belt type conveyor line bodies, each conveyor belt type conveyor line body comprises a driving roller, a driven roller and a conveyor belt, and each conveyor belt is wound on the driving roller and the driven roller.

Optionally, the bottom of first support body with the second support body all is provided with a plurality of support piece, a plurality of support piece are used for adjusting the height of first support body or the second support body.

The second aspect of the present disclosure further provides a detection system, which includes a detection room, a lift gate disposed on the detection room, and the above conveying device, where a first conveying line body of the conveying device is located outside the detection room, a second conveying line body of the conveying device is located inside the detection room, and the avoidance space is used for the lift gate to pass through.

Through the technical scheme, the conveying equipment provided by the disclosure is hinged with the third conveying line body through one end, close to the second conveying line body, of the first conveying line body, and the third conveying line body is in driving connection with the driving mechanism, so that the third conveying line body can be driven to be switched between an avoiding position and an unfolding position, the requirement for large transition of bearing gaps between two sections of conveying line bodies can be met, and the working condition adaptability is good. Specifically, when the driving mechanism drives the third conveyor line body to be positioned at the unfolding position, the first conveyor line body is butted with the second conveyor line body through the third conveyor line body, thereby being capable of conveying materials among the first conveyor line body, the second conveyor line body and the third conveyor line body, when the driving mechanism drives the third conveyor line body to be positioned at the avoidance position, the third conveyor line body and the first conveyor line body form an included angle, so that a certain avoiding space can be formed between the first conveyor line body and the second conveyor line body, the avoidance space can be penetrated by a partition mechanism such as a rolling door or a lifting door, and the method can be applied to application scenes such as material conveying among various production workshops needing to be partitioned by the rolling door or the like or a detection room with the lifting door, the transition requirement of large bearing clearance between two sections of conveying line bodies is met, and the conveying line is good in controllability and high in efficiency. Therefore, the conveying equipment that this disclosure provided is good and can stable work under operating mode adaptability to have the advantage that the nature controlled is good, simple structure.

Additional features and advantages of the disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure without limiting the disclosure. In the drawings:

fig. 1 is a schematic view of the overall structure of a conveying apparatus provided in an exemplary embodiment of the present disclosure;

FIG. 2 is a schematic illustration of a conveyor apparatus provided in an exemplary embodiment of the present disclosure in an avoidance position;

FIG. 3 is a schematic structural view of a delivery device provided in an exemplary embodiment of the present disclosure in a deployed position;

fig. 4 is a front view of a transport apparatus provided in an exemplary embodiment of the present disclosure;

FIG. 5 is a top view of a transport apparatus provided in an exemplary embodiment of the present disclosure;

fig. 6 is a partially enlarged schematic view of a position a in fig. 1.

Description of the reference numerals

1-a conveyor line body assembly; 110-a first conveyor line body; 120-a second conveyor line body; 130-a third conveyor line body; 2-avoiding space; 3-a drive mechanism; 4-a first frame body; 5-a second frame body; 6-connecting piece; 610-a first plate body; 620-a second plate body; 7-a pivot axis; 8-a support frame; 9-a support; 10-a second via; 11-a connecting plate; a 12-Y type linker; 13-a first cylindrical pin; 14-a roller; 15-a fixed frame; 16-flanging.

Detailed Description

The following detailed description of specific embodiments of the present disclosure is provided in connection with the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present disclosure, are given by way of illustration and explanation only, not limitation.

In the present disclosure, unless otherwise specified, "inner and outer" refer to inner and outer relative to the contour of the component or structure itself. In addition, it should be noted that terms such as "first", "second", and the like are used for distinguishing one element from another, and have no order or importance. In addition, in the description with reference to the drawings, the same reference numerals in different drawings denote the same elements.

The inventor researches and discovers that in the related art, the conveying line bodies are usually continuously or uninterruptedly arranged or are arranged in a way of abutting two sections of roller line bodies for normally conveying goods, when the conveying line bodies meet application scenes such as material conveying between production workshops needing to be separated by a rolling door or a detection room with a lifting door, the bearing clearance between the two sections of conveying line bodies is required to be large, normal transportation of goods cannot be met at the moment, manual carrying is needed, time and labor are wasted, and the efficiency is low.

Based on this, according to the first aspect of the present disclosure, a conveying device is provided for a scene requiring a large receiving gap, such as material conveying between various production workshops which need to be separated by a rolling door or a detection room with a lifting door. Referring to fig. 1 to 6, the conveying apparatus includes a conveyor line body assembly 1 and a driving mechanism 3. The conveyor line body assembly 1 comprises a first conveyor line body 110 and a second conveyor line body 120 which are arranged at intervals, wherein one end, close to the second conveyor line body 120, of the first conveyor line body 110 is hinged with a third conveyor line body 130, the third conveyor line body 130 is provided with an avoiding position and an unfolding position, in the avoiding position, an included angle is formed between the third conveyor line body 130 and the first conveyor line body 110, so that an avoiding space 2 is formed between the first conveyor line body 110 and the second conveyor line body 120, and in the unfolding position, the first conveyor line body 110 is in butt joint with the second conveyor line body 120 through the third conveyor line body 130, so that materials are conveyed among the first conveyor line body 110, the third conveyor line body 130 and the second conveyor line body 120. And the driving mechanism 3 is in driving connection with the third conveyor line body 130 for driving the third conveyor line body 130 to switch between the avoidance position and the deployment position.

Through the technical scheme, namely the conveying equipment provided by the disclosure, the third conveying line body 130 is hinged to one end, close to the second conveying line body 120, of the first conveying line body 110, and the third conveying line body 130 is in driving connection with the driving mechanism 3, so that the third conveying line body 130 can be driven to be switched between the avoiding position and the unfolding position, the transition requirement of large bearing clearance between two sections of conveying line bodies can be met, and the working condition adaptability is good. Specifically, when the driving mechanism 3 drives the third conveyor line body 130 to be located at the unfolding position, the first conveyor line body 110 is in butt joint with the second conveyor line body 120 through the third conveyor line body 130, so that materials can be conveyed among the first conveyor line body 110, the second conveyor line body 120 and the third conveyor line body 130, when the driving mechanism 3 drives the third conveyor line body 130 to be located at the avoiding position, the third conveyor line body 130 forms an included angle with the first conveyor line body 110, so that a certain avoiding space 2 can be formed between the first conveyor line body 110 and the second conveyor line body 120, the avoiding space 2 can be penetrated by a partition mechanism such as a roller shutter door or a lifting door, and the present disclosure can be applied to application scenes such as material conveying between production workshops needing to be partitioned by the roller shutter door or application scenes such as a detection room with the lifting door, so as to meet the transition requirement of large bearing gap between two conveyor line bodies, good controllability and high efficiency. Consequently, the conveying equipment operating mode adaptability that this disclosure provided is good and work that can be stable to have that the nature controlled is good, simple structure's advantage.

In some embodiments, referring to fig. 1, the conveying apparatus further includes first and second frame bodies 4 and 5 arranged at intervals, the number of the conveyor line assemblies 1 may be one or more, specifically, the number of the conveyor line assemblies 1 may be set according to the on-site conveying requirement, so as to enable rapid conveying of materials, and the conveying efficiency is high, and the one or more first conveyor lines 110 are arranged on the first frame body 4, and the one or more second conveyor lines 120 are arranged on the second frame body 5, so as to further enhance the stability of the conveyor lines during operation. Wherein, fig. 1 exemplarily shows an embodiment that the first frame body 4 and the second frame body 5 are configured as a frame, and in addition, when the number of the conveyor line body assemblies 1 is multiple, the number of the driving mechanism 3 may be one, and the driving mechanism 3 is used for driving the multiple third conveyor line bodies 130 to synchronously rotate; alternatively, the number of the driving mechanisms 3 may also correspond to the number of the third conveyor line bodies 130, and each driving mechanism 3 is configured to drive the respective corresponding third conveyor line body 130 to rotate independently, and the disclosure is not limited in detail herein.

In some specific embodiments, referring to fig. 1 to 6, the number of the conveyor line body assemblies 1 is two, and two first conveyor line bodies 110 are arranged at intervals along the first direction, so as to ensure high conveying efficiency of the conveying apparatus. And the number of the driving mechanisms 3 is one and is arranged between the two first conveyor lines 110 to be able to drive the two third conveyor lines 130 to rotate synchronously about the pivot axis parallel to the first direction. The third conveyor line body 130 may be pivotally connected to the first conveyor line body 110 through the pivot shaft 7, so that the driving mechanism 3 drives the third conveyor line body 130 to rotate, the stability is good, the rotational friction is small, the wear is reduced, the service life is prolonged, and the central axis of the pivot shaft 7 is the pivot axis. In addition, the first direction may refer to a left-right direction of the drawing in fig. 5.

In addition, two third transfer line bodies 130 are connected through connecting piece 6, and actuating mechanism 3 can be constructed as the actuating cylinder, and the cylinder body of actuating cylinder articulates in first support body 4, and the piston rod of actuating cylinder articulates in connecting piece 6, like this, can drive two third transfer line bodies 130 around pivot axis synchronous rotation through the concertina movement of actuating cylinder to realize that third transfer line body 130 switches between dodging the position and the position of launching. Moreover, the conveying apparatus may further include a controller (not shown in the drawings), and the controller may be in signal connection with the driving mechanism 3 to control the driving mechanism 3 to complete the corresponding work instruction more accurately and efficiently. The controller may be configured as a PLC controller or a single chip microcomputer, for example, and may be connected to each of the driving mechanisms 3 in a wired or wireless manner, which is not specifically limited in this disclosure.

The connecting element 6 may be configured in any suitable manner according to the actual application requirement, for example, in some embodiments, as shown in fig. 1 to 6, the connecting element 6 may include a first plate 610 and a second plate 620 arranged in a T shape, the first plate 610 extends along a first direction, and both ends of the first plate 610 are respectively connected to the two third conveyor line bodies 130, and the opposite ends of the connecting ends of the second plate 620 and the first plate 610 are hinged to the piston rods of the driving cylinders, so that the stability is good and the installation is convenient for the operator. The connection of the driving cylinder with the connecting member 6 and the first frame body 4 may be configured in any suitable manner, for example, the piston rod of the driving cylinder may be hinged with the opposite end of the second plate body 620 to the connection end of the first plate body 610 through a Y-joint 12 screwed thereon by a first cylindrical pin 13. Moreover, the cylinder body of the driving cylinder may be fixedly connected to the base of the double-lug base by a bolt, the first frame body 4 is fixedly connected to the cylinder mounting seat constructed as a single-lug base by a bolt, and the double-lug base is hinged to the single-lug base by a second cylindrical pin, so as to realize the hinge connection of the cylinder body of the driving cylinder and the first frame body 4.

In order to better ensure the stability of the third conveyor line body 130 in the deployed state, in some embodiments, referring to fig. 1, a supporting frame 8 is disposed between the first frame body 4 and the second frame body 5, the supporting frame 8 is configured to support the third conveyor line body 130 when the third conveyor line body 130 is located in the deployed position, and the supporting frame 8 can provide a supporting force for the third conveyor line body 130, so as to ensure that the third conveyor line body 130 is stably supported on the supporting frame 8. Wherein, the support frame 8 is detachably connected to the second frame body 5 through a connecting assembly (not shown in the figure) to form the support frame 8 and the second frame body 5 into a whole, so as to facilitate the stability of the support frame 8 during placement and further ensure the stability of the third conveyor line 130 supported thereon. In addition, the connecting assembly may include a baffle and a bolt, the baffle has a first through hole, the support frame 8 and the second frame body 5 have a second through hole 10, the bolt sequentially passes through the first through hole and the second through hole 10, the head of the bolt abuts against the upper surface of the baffle, and one end of the bolt opposite to the head passes through the second through hole 10 and then is connected to the nut through a thread; alternatively, the end of the bolt opposite the head is screwed into a second through-hole 10 configured as a threaded hole. Furthermore, the support frame 8 may be configured in any suitable structure, such as a downwardly-opening U-shaped frame as shown in fig. 1, for providing a supporting force to the third conveyor line body 130 when the third conveyor line body is in the deployed position, and the disclosure is not limited thereto.

The conveyor line body may be configured in any suitable manner according to practical application requirements, for example, in some embodiments, referring to fig. 1 to 6, the first conveyor line body 110, the second conveyor line body 120 and the third conveyor line body 130 may each be configured as a drum-type conveyor line body including a plurality of drums 14 arranged in parallel and at intervals so as to be capable of conveying materials through the plurality of drums 14. In addition, this drum-type conveyor line body still includes two mounts 15 that parallel and interval set up, and a plurality of cylinders 14 set up between two mounts 15. The two fixing frames 15 of the first conveyor line body 110 are fixedly arranged on the first frame body 4, and the two fixing frames 15 of the second conveyor line body 120 are fixedly arranged on the second frame body 5. In addition, the two fixing frames 15 of the third conveyor line body 130 are respectively provided with a connecting plate 11 extending outwards, and the connecting plates 11 are pivotally connected with the corresponding fixing frames 15 on the first conveyor line body 110 through the pivot shafts 7, so that the third conveyor line body 130 can rotate relative to the first conveyor line body 110, and the stability is good. In addition, the connecting plate 11 of the third wire conveyor body 130 on the side close to the driving cylinder is further provided with an outwardly extending flange 16, and the flange 16 is fixedly connected with the first plate 610 to connect two adjacent third wire conveyor bodies 130 into a whole, and further drive the two third wire conveyor bodies 130 to synchronously rotate around the pivot axis through the driving cylinder between the two adjacent third wire conveyor bodies 130.

In other embodiments, the first, second and third conveyor bodies 110, 120 and 130 may also each be configured as a conveyor belt type conveyor body including a driving drum, a driven drum and a conveyor belt, and the conveyor belt is wound around the driving drum and the driven drum.

In some embodiments, referring to fig. 1 to 5, a plurality of supporting members 9 are disposed at the bottom ends of the first frame body 4 and the second frame body 5, and the supporting members 9 are used for adjusting the height of the first frame body 4 or the second frame body 5, so as to better ensure the coplanarity of the upper surfaces of the first frame body 4 and the second frame body 5, and thus when the third conveyor line body 130 is in the unfolded state, the stable material conveying among the first conveyor line body 110, the third conveyor line body 130, and the second conveyor line body 120 can be further ensured. In addition, the bottom end of the supporting frame 8 may also be provided with a supporting member 9 to further ensure that the third conveyor line body 130 is stably supported on the supporting frame 8. The support member 9 may be configured in any suitable manner, for example, may be configured as an anchor adjusting bolt disposed at the bottom end of the first frame body 4, the second frame body 5 and the support frame 8, and is used for adjusting the height of the first frame body 4, the second frame body 5 and the support frame 8, and the disclosure is not limited thereto.

According to the second aspect of the present disclosure, a detection system is further provided, the detection system includes a detection room, a lift gate disposed on the detection room, and the above conveying apparatus, the first conveying line body 110 of the conveying apparatus is located outside the detection room, the second conveying line body 120 of the conveying apparatus is located inside the detection room, and the avoidance space 2 is used for the lift gate to pass through. This detecting system operating mode adaptability is good and can stable work to control nature good, efficient, and have above-mentioned conveying equipment's all beneficial effects, this disclosure is no longer repeated here.

Based on the above embodiments, the present disclosure exemplarily describes the working process of the conveying apparatus when used in the detection chamber with the lifting door, specifically as follows: firstly, a first conveyor line body 110 is arranged outside a detection chamber, a second conveyor line body 120 is arranged inside the detection chamber, and then the first conveyor line body 110 and the second conveyor line body 120 are adjusted to be equal in height by adjusting a support piece 9 at the bottom end of a first frame body 4 and a second frame body 5, so that when a lifting door of the detection chamber is opened, a third conveyor line body 130 is driven to be at an unfolding position through a driving mechanism 3, namely, the first conveyor line body 110 is butted with the second conveyor line body 120 through the third conveyor line body 130, and the lower end face of the third conveyor line body 130 is supported on a support frame 8, so that materials to be detected can be stably conveyed among the first conveyor line body 110, the third conveyor line body 130 and the second conveyor line body 120; after the material to be detected enters the detection chamber, the conveying line body stops conveying, the third conveying line body 130 is driven by the driving mechanism 3 to be switched to the avoiding position from the unfolding position, namely the third conveying line body 130 and the first conveying line body 110 form an included angle, so that an avoiding space 2 for a lifting door to pass through can be formed between the first conveying line body 110 and the second conveying line body 120, the lifting door of the detection chamber can be normally closed to ensure that the detection chamber normally performs detection work, when the detection chamber completes the detection of the material, the lifting door of the detection chamber is opened, the conveying line body is restarted to continuously convey the material to be detected, the steps are repeated later, the subsequent material to be detected is detected, the controllability is good, and the efficiency is high.

The preferred embodiments of the present disclosure are described in detail with reference to the accompanying drawings, however, the present disclosure is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solution of the present disclosure within the technical idea of the present disclosure, and these simple modifications all belong to the protection scope of the present disclosure.

It should be noted that, in the foregoing embodiments, various features described in the above embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, various combinations that are possible in the present disclosure are not described again.

In addition, any combination of various embodiments of the present disclosure may be made, and the same should be considered as the disclosure of the present disclosure, as long as it does not depart from the spirit of the present disclosure.

Claims (10)

1. A conveyor apparatus, characterized in that the conveyor apparatus comprises:

the conveying line body assembly (1) comprises a first conveying line body (110) and a second conveying line body (120) which are arranged at intervals, one end of the first conveying line body (110) close to the second conveying line body (120) is hinged with a third conveying line body (130), wherein the third conveyor line body (130) has an avoidance position and a deployed position, in the avoidance position, the third conveyor line body (130) and the first conveyor line body (110) form an included angle, so as to form an avoidance space (2) between the first conveyor line body (110) and the second conveyor line body (120), in the deployed position, the first delivery wire body (110) is docked with the second delivery wire body (120) via the third delivery wire body (130), the conveying device comprises a first conveying line body (110), a third conveying line body (130) and a second conveying line body (120), wherein the first conveying line body, the third conveying line body and the second conveying line body are used for conveying materials; and

the driving mechanism (3) is in driving connection with the third conveying line body (130) and used for driving the third conveying line body (130) to switch between the avoiding position and the unfolding position.

2. The conveying apparatus according to claim 1, characterized in that it further comprises a first magazine (4) and a second magazine (5) arranged at intervals, the number of conveyor line assemblies (1) being one or more, one or more first conveyor lines (110) being provided on the first magazine (4), one or more second conveyor lines (120) being provided on the second magazine (5);

when the number of the conveyor line body assemblies (1) is multiple, the number of the driving mechanisms (3) is one, and the driving mechanisms (3) are used for driving the third conveyor line bodies (130) to synchronously rotate; or the number of the driving mechanisms (3) corresponds to the number of the third conveyor line bodies (130), and each driving mechanism (3) is used for driving the corresponding third conveyor line body (130) to rotate independently.

3. Conveying apparatus according to claim 2, characterized in that the number of conveyor line assemblies (1) is two and two of said first conveyor lines (110) are arranged spaced apart along a first direction, and said driving mechanism (3) is one and provided between two of said first conveyor lines (110) to drive two of said third conveyor lines (130) to rotate synchronously about a pivot axis parallel to said first direction.

4. Conveying apparatus according to claim 3, characterized in that two of said third wire conveyor bodies (130) are connected by means of a connecting element (6), said drive mechanism (3) being configured as a driving cylinder, the cylinder body of which is hinged to said first frame (4), the piston rod of which is hinged to said connecting element (6) so as to bring about the synchronous rotation of said two third wire conveyor bodies (130) about said pivot axis by the telescopic movement of said driving cylinder.

5. Conveying apparatus according to claim 4, characterized in that the connecting element (6) comprises a first plate body (610) and a second plate body (620) arranged in a T shape, the first plate body (610) extends along the first direction and is fixedly connected to two third conveying line bodies (130) at two ends respectively, and the opposite end of the second plate body (620) to the end connected to the first plate body (610) is hinged to the piston rod of the driving cylinder.

6. Conveying apparatus according to claim 3, characterized in that the third conveyor line body (130) is pivotally connected with the first conveyor line body (110) by means of a pivot shaft (7), the central axis of the pivot shaft (7) being the pivot axis.

7. Conveying apparatus according to claim 2, characterized in that a support frame (8) is provided between the first and second carriages (4, 5), said support frame (8) being intended to support the third conveyor line body (130) when the third conveyor line body (130) is in the deployed position.

8. The conveyor apparatus according to claim 1, characterized in that the first conveyor line body (110), the second conveyor line body (120) and the third conveyor line body (130) are each configured as a drum-type conveyor line body comprising a plurality of drums arranged in parallel and spaced apart to convey the material through the plurality of drums; alternatively, the first and second electrodes may be,

the first conveyor line body (110), the second conveyor line body (120) and the third conveyor line body (130) are all constructed into a conveyor belt type conveyor line body, the conveyor belt type conveyor line body comprises a driving roller, a driven roller and a conveyor belt, and the conveyor belt is wound on the driving roller and the driven roller.

9. The conveyor apparatus according to claim 2, characterized in that the bottom ends of the first rack (4) and the second rack (5) are each provided with a plurality of supports (9), the plurality of supports (9) being used for adjusting the height of the first rack (4) or the second rack (5).

10. An inspection system, characterized by comprising an inspection room, a lift gate arranged on the inspection room, and a conveying apparatus according to any one of claims 1 to 9, wherein a first conveyor line body (110) of the conveying apparatus is located outside the inspection room, a second conveyor line body (120) of the conveying apparatus is located inside the inspection room, and the avoidance space (2) is used for the lift gate to pass through.

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