TWM524316U - Food examination and transportation equipment - Google Patents

Description

Food testing and conveying equipment

The present invention relates to a food testing device, and more particularly to an improved conveying device for a food testing device.

Due to the compact life of modern society, in order to provide convenience for consumers to dine, such as: cup noodles or canned products have emerged, through such pre-processed ready-to-eat products, to satisfy consumers in a limited time Dining needs.

Products such as cup noodles or cans, after manufacturing and packaging processes, will undergo a testing procedure to detect the presence of impurities in the packaged product to ensure the quality of the entire batch of products, thereby enhancing the consumer's Satisfaction; the specific procedure of the detection procedure is achieved by the implementation of a radiation detection device for non-destructive detection of the packaged product, thereby checking whether the product is packaged with other debris, when detecting When there is a disqualification, the object can be removed from the batch to maintain the quality of the batch.

As shown in FIG. 4 and FIG. 5, a radiation detecting device 70 is mounted on the top of a cover 81 of a transport device 80. The inner wall of the cover 81 is covered with a radiation protection layer. The radiation detecting device 70 is composed of a touch screen and an X-ray device. The touch screen signal is connected to the X-ray device, so that the operator can drive the X-ray device to operate by using the touch screen. The inside of the cover 81 is provided with a conveyor belt 82 along the length direction. The conveyor belt 82 has an input section 821, a detection section 822 and an output section 823. The input section 821 and the output section 823 are respectively located in the detection section. The end portion of the second portion 822 is disposed obliquely with respect to the detecting portion 822. The detecting portion 822 corresponds in position to the radiation detecting device 70, and the package product to be tested is received by the radiation detecting device 70 at the detecting portion 822. The inner top surface of the cover 81 protrudes toward the conveyor belt 82 to form a plurality of extending portions 811. The plurality of extending portions 811 are spaced apart, and a lead curtain 812 is fixed on each extending portion 811; Input section 821 and output of conveyor belt 82 The oblique arrangement of the segment 823 will move the detection segment 822 up to prevent or reduce the radiation of the radiation detecting device 70 from directly exiting the cover 81. At the same time, the shielding curtain 812 is also disposed to shield the radiation. The radiation is prevented from leaking from the inside of the cover 81, thereby causing harm to the operator on site.

However, the prior art food detecting and conveying apparatus, since the angle of inclination of the input section 821 and the output section 823 of the conveyor belt 82 is excessively large, will easily cause the cup surface or the can to be dumped, thereby lengthening the length of the conveyor belt 82 to slow the inclination. Angle, however, as the length of the conveyor belt 82 increases, the overall length of the food detecting and conveying device also lengthens, thereby affecting the control of the space required to arrange the equipment on the production line, and, due to the manner in which the curtain 812 is disposed, When the conveyor belt 82 is operated to transfer the object to be tested 90, the object to be tested 90 is easily dumped by the obstruction of the curtain 812. As shown in FIG. 5, since the object to be tested 90 is detected by batch transportation, When an object to be tested 90 is dumped, it will cause blockage of the entire inspection transport line, resulting in a decrease in the efficiency of the inspection process.

The purpose of the present invention is to improve the prior art, detecting that the overall length of the conveying device is too long, occupying the space for arranging equipment on the production line, and the fact that the object to be tested is easily dumped during the conveying process, causing the detection line to be blocked, etc., by means of the creative technique. The implementation enables the length of the overall detecting device to be shortened and the phenomenon that the object to be tested is dumped.

In order to achieve the above-mentioned creative purposes, the technical means adopted by the present invention is to design a food detecting and conveying device having a first transport module, a radiation detecting module, a screening module and a second transport module; The first transport module has a first transfer body and a first transport device; the first transfer body is a hollow body, the interior of which is covered with a radiation protection layer, and has an input end and an output end Each of the input end portion and the output end portion is formed with an opening, and the input end portion and the output end portion are respectively located at two perpendicular to each other of the first transfer carrier body. a side wall, wherein the two opposite inner wall surfaces of the first transfer body are respectively provided with a guide bar, the guide bar is disposed along the input end portion and the output end portion; the first conveying device can be operated Provided inside the first transfer body and along a direction formed by the input end and the output end of the first transfer body; the radiation detection module has a detection and delivery device, and the radiation detection module side Shielding radiation The leakage end is mounted on the output end of the first conveying device, and the detecting conveying device has one end portion corresponding to the first conveying device located at the output end portion; the screening module has a screening conveying device, the screening module One side of the group capable of shielding the radiation leakage is installed on the other side of the radiation detecting module, and the signal is connected to the radiation detecting module, and one end of the screening conveying device corresponds in position to the other end of the detecting conveying device The second transport module has a second transfer body and a second transport device; the second transfer body is internally covered with a radiation protection layer, and has an input end and an output end, the input Each of the end portion and the output end portion is formed with an opening, and the input end portion and the output end portion are respectively located on two adjacent sides of the second transfer carrier body which are perpendicular to each other. The two opposite inner wall edges of the second transfer body are respectively provided with a guide bar, the guide bar is disposed along the input end portion and the output end portion, and the input end portion of the second transfer carrier body can be shielded Radiation leakage Mounted on the other side of the screening module; the second conveying device is operatively disposed inside the second transfer body and along the input end and the output end of the second transfer body It is provided that the second conveying device of the input end corresponds in position to the other end of the screening conveying device.

The food detecting and conveying device, wherein the screening module further has a casing and a blowing device; the casing is a hollow body, the interior of which is covered with a radiation shielding layer, and on opposite sides of the casing Forming an opening and communicating with the inside of the casing, the casing forming a side of the opening to shield the radiation leakage is mounted on the radiation detecting module, and the other side of the opening of the casing can shield the radiation leakage Mounted on the input end of the second transfer body, the screening conveyor is operatively disposed inside the housing and disposed along the opening direction of the housing; the air blowing device is installed inside the housing And being disposed perpendicular to the running direction of the screening conveying device, the blowing device signal is connected to the radiation detecting module, and the pipeline is connected to an external air supply source.

The food detecting and conveying device, wherein the radiation detecting module has a control device, a detecting device and a detecting driving component; the control device is connected to the detecting device and the blowing device of the screening module; the detecting device a hollow body, the interior of which is covered with a radiation protection layer, and an opening is formed at opposite sides of the detecting device and communicates with the inside of the detecting device, and the detecting conveying device is disposed along the opening direction of the detecting device. The detecting device forms an output end of the first transfer body capable of shielding the radiation leakage at one side of the opening, and the detecting device forms a mounting on the other side of the opening to shield the radiation leakage. At the side of the opening; the detection drive element is mounted on the detection device and is capable of driving the detection conveyor to operate.

The food detecting and conveying device, wherein the first transport module further has a first driving component, the first driving component is mounted on the first transfer body, and drives the first conveying device to operate; and the second The transport module further has a second drive component mounted to the second transfer body and driving the second transport device to operate.

The food detecting and conveying device further has a third transport module and a fourth transport module; the third transport module has a third transfer body, a third transport device and a third drive component The third transfer body is internally covered with a radiation protection layer, and has an input end portion and an output end portion, and the input end portion and the output end portion respectively form an opening, and the third transfer Inside the main body, the input end portion and the output end portion are respectively located on two adjacent side surfaces of the third transfer body which are perpendicular to each other, and two opposite side wall surfaces of the third transfer carrier body are respectively provided with a guide bar. a guide strip is disposed along the input end portion and the output end portion, and an output end portion of the third transfer carrier body is capable of shielding a radiation leakage device from an input end portion of the first transfer carrier body; The conveying device is disposed inside the third transfer body, and is disposed along a direction formed by the input end and the output end of the third transfer body, and the third conveying at the output end of the third transfer body The device corresponds to the first transfer body in position a first conveying device of the input end; the third driving component is mounted on the third transfer body and drives the third conveying device to operate; the fourth conveying module has a fourth transfer body and a fourth conveying And a fourth driving component; the fourth transfer body is internally covered with a radiation protection layer, and has an input end and an output end, wherein the input end and the output end each form an opening, and The input end portion and the output end portion are respectively located on two adjacent side surfaces of the fourth transfer carrier body which are perpendicular to each other, and the two opposite inner side edges of the fourth transfer carrier body are respectively opposite to each other a guide bar is disposed, the guide bar is disposed along the input end portion and the output end portion, and the input end portion of the fourth transfer carrier body can shield the radiation leakage device from being mounted on the second transfer carrier body An output end portion; the fourth conveying device is disposed inside the fourth transfer body, and is disposed along a direction formed by the input end portion and the output end portion of the fourth transfer body, and is located in the fourth transfer carrier body The fourth conveying device at the input end is in place The output terminal of the second transport means should a second portion of the transfer body; the fourth drive is attached to the fourth transfer body, and driven by an operation of the fourth transporting means.

The food detecting and conveying device, wherein the top of the first transfer body is provided with an opening, the opening is in communication with the inside of the first transfer body, and the first transfer body further has a top cover, the top cover Pivotly connected to the top of the first transfer body, and can close the opening or open to communicate with the inside of the first transfer body, and form shielding radiation between the top cover and the opening of the first transfer body a sealing connection of the outer leakage; an opening is formed at the top of the second transfer body, the opening is in communication with the interior of the second transfer body, and the second transfer body further has a top cover pivotally connected to the cover The second transfer body is at the top of the second transfer body, and can close the opening or open to communicate with the inside of the second transfer body. The top cover and the opening of the second transfer body form a shielding gap for radiation leakage. a sealing connection; the top of the third transfer body is provided with an opening, the opening is in communication with the interior of the third transfer body, and the third transfer body further has a top cover, the top cover is pivotally connected to the third Transfer the top of the body and be able to Closing the opening or opening to communicate with the inside of the third transfer body, and forming a sealed connection between the top cover and the opening of the third transfer body to shield the radiation leakage; the top of the fourth transfer body An opening is provided, the opening is in communication with the interior of the fourth transfer body, and the fourth transfer body further has a top cover pivotally connected to the top of the fourth transfer body and capable of closing the opening Or opening and communicating with the inside of the fourth transfer body, and forming a sealed connection between the top cover and the opening of the fourth transfer body to shield the radiation leakage.

The present invention has the advantages that the input end portion and the output end portion are respectively formed on the two adjacent side surfaces of the first transfer body of the first transport module and the second transfer body of the second transport module. Corresponding to the corresponding arrangement of the first conveying device and the second conveying device, when the object to be tested passes through the first conveying module, the radiation detecting module and the screening module can be sequentially entered at a right angle turning conveying path, and in the detection and After the screening process is completed, the second transport module is removed from the transport path at a right angle, thereby shortening the overall length of the food detecting and conveying device of the present creation, thereby controlling the space required for arranging the detecting device on the production line, and, due to the first The transport module and the second transport module can shield the radiation at a right angle to prevent the radiation from leaking directly, thereby replacing the arrangement of the inclined conveyor belt and the curtain, thereby improving the object to be tested during the conveying process. Causes detection of blockages on the transport line.

In addition, the present invention can select the first transport module and the second transport module only at the two ends of the radiation detecting module and the screening module depending on the margin of the production space on the production line, and when there is sufficient space in the field space, The third transport module can be further installed at the input end of the first transport module, and the fourth transport module is installed at the output end of the second transport module, so that the on-site installation of the food detecting and conveying device of the present invention is further improved. Flexible.

The technical means adopted by the present invention for achieving the intended purpose of creation are further explained below in conjunction with the drawings and the preferred embodiment of the present invention.

Referring to FIG. 1 and FIG. 2, the food detecting and conveying device of the present invention has a first transport module 10, a radiation detecting module 20, a screening module 30, a second transport module 40, and a The third transport module 50 and a fourth transport module 60.

As shown in FIG. 2 and FIG. 3 , the first transport module 10 has a first transfer body 11 , a first transport device 12 , and a first drive component 13 .

The first transfer body 11 is a hollow body, and is internally covered with a radiation protection layer, and has an input end portion 111, an output end portion 112, a top cover 110 and two guide bars (not shown).

The input end portion 111 and the output end portion 112 of the first transfer body 11 are respectively formed with an opening, and the input end portion 111 and the output end portion 112 are respectively located at the first end of the first transfer body 11 A transfer body 11 is perpendicular to the two adjacent sides.

A pair of guide bars (not shown) are respectively disposed on the opposite side wall surfaces of the inner edge of the first transfer body 11 , and the guide bar (not shown) is along the input end portion 111 and the output end portion 112 . The top of the first transfer body 11 is provided with an opening communicating with the inside of the first transfer body 11.

The top cover 110 is pivotally connected to the top of the first transfer body 11 and can close the opening or open to communicate with the inside of the first transfer body 11 , the top cover 110 and the first transfer body 11 A sealed connection is formed between the openings to shield the radiation from leaking.

The first conveying device 12 is operatively disposed inside the first transfer body 11 and disposed along a direction formed by the input end portion 111 and the output end portion 112 of the first transfer body 11 , specifically, the The first conveying device 12 is a right-angle turning conveying belt, and the first conveying device 12 is driven by the first driving element 13; the right-angle turning conveying belt is a prior art and will not be described herein.

The first driving component 13 is mounted on the first transfer body 11 and drives the first conveying device 12 to operate. Specifically, the first driving component 13 is a motor.

Referring to FIG. 1 to FIG. 3, the radiation detecting module 20 has a control device 21, a detecting device 22, a detecting and transporting device 23, and a detecting driving component 24; the radiation detecting module 20 can be shielded at one side. The radiation leakage is mounted to the output end 112 of the first conveyor 12.

The control device 21 is connected to the detecting device 22. Specifically, the control device 21 is a touch screen. The operator can control the detecting device 22 by the operation of the control device 21. The control device 21 is a control device. The prior art is not described here.

The detecting device 22 is a hollow body, and is internally covered with a radiation shielding layer, and an opening is formed at opposite sides of the detecting device 22 to communicate with the inside of the detecting device 22; the detecting device 22 forms one of the openings The output end portion 112 of the first transfer body 11 can be shielded from the side of the first transfer body 11 . Specifically, the detecting device 22 is internally provided with an X-ray device for detecting the object to be tested. The detecting device 22 It is a prior art and will not be described here.

The detecting and conveying device 23 is disposed along the opening direction of the detecting device 22, specifically, the detecting and conveying device 23 is a conveying belt; the one end portion of the detecting and conveying device 23 is correspondingly located at the position of the first transfer body The first delivery device 12 of the output end 112 of 11.

The detection drive element 24 is mounted on the detection device 22 and is capable of driving the detection delivery device 23 to operate.

As shown in FIG. 2 and FIG. 3 , the screening module 30 has a casing 31 , a screening and conveying device 32 , and an air blowing device 33 . The shielding module 30 is mounted on the side of the shielding module 30 for shielding radiation leakage. The other side of the radiation detecting module 20 is connected to the radiation detecting module 20.

The housing 31 is a hollow body, and is internally covered with a radiation shielding layer, and an opening is formed at opposite sides of the housing 31 and communicates with the inside of the housing 31; the housing 31 forms one of the openings The radiation detecting module 20 is mounted on the side of the radiation detecting module 20, and specifically, the side of the opening 31 of the casing 31 is formed to be shielded from the radiation leakage, and is mounted on the other side of the detecting device 22 to form an opening. .

The screening conveyor 32 is operatively disposed inside the casing 31 and disposed along the opening direction of the casing 31; one end of the screening conveyor 32 corresponds in position to the other end of the detecting conveyor 23, The screening conveyor 32 can be a conveyor belt or can be arranged by a plurality of conveyor rollers 32, which are further driven by a motor (not shown).

The air blowing device 33 is installed inside the casing 31 and is disposed perpendicular to the running direction of the screening conveyor 32. The air blowing device 33 is connected to the radiation detecting module 20, and the pipeline is connected to an external supply. The air source, specifically, the air blowing device 33 is connected to the control device 21, and the control device 21 can transmit a signal to the air blowing device 33, so that the air blowing device 33 can eject the airflow, thereby failing the airflow device. The object to be tested is blown off from the screening conveyor 32, and the unqualified object to be tested is collected in a storage cylinder (not shown).

As shown in FIG. 2 and FIG. 3 , the second transport module 40 has a second transfer body 41 , a second transport device 42 , and a second drive component 43 . The second transport device 42 is operable. The second driving component 43 is mounted on the second transfer body 41, and the second transporting device 41 is driven to drive the second conveying device 42 to operate. The components of the second transport module 40 are connected to the components. The relationship is the same as that of the first transport module 10, and will not be further described herein.

The input end portion 411 of the second transfer body 41 can be shielded from the radiation leakage and mounted on the other side of the screening module 30. Specifically, the input end portion 411 of the second transfer body 41 can shield the radiation. The drain is mounted at the other side of the opening of the housing 31, and the second conveyor 42 at the input end 411 corresponds in position to the other end of the screening conveyor 32.

Referring to FIG. 1 to FIG. 3 , the third transport module 50 has a third transfer body 51 , a third transport device 52 , and a third drive component 53 . The third transport device 52 can be operated. The third driving component 53 is mounted on the third transfer body 51 and drives the third conveying device 52 to operate. The components of the third transport module 50 are connected to the components. The relationship is the same as that of the first transport module 10, and will not be further described herein.

The output end portion 512 of the third transfer body 51 can shield the radiation end leakage from the input end portion 111 of the first transfer body 11 and is located at the output end portion 512 of the third transfer body 51. The three conveyors 52 correspond in position to the first conveyor 12 of the input end 111 of the first transfer body 11.

Referring to FIG. 1 to FIG. 3 , the fourth transport module 60 has a fourth transfer body 61 , a fourth transport device 62 and a fourth drive component 63 , wherein the fourth transport device 62 is operable. The fourth driving component 63 is mounted on the fourth transfer body 61, and the fourth transporting device 61 is mounted to drive the fourth transporting device 62 to operate. The components of the fourth transport module 60 are connected to the components. The relationship is the same as that of the first transport module 10, and will not be further described herein.

The input end portion 611 of the fourth transfer body 61 can shield the output end portion 412 of the second transfer body 41 from the radiation leakage, and is located at the input end portion 611 of the fourth transfer body 61. The fourth conveyor 62 corresponds in position to the second conveyor 42 of the output end 412 of the second transfer body 41.

In the implementation process of the present invention, the first transport module 10 can be installed at the radiation detecting module 20 according to the situation of the production line, and the second transport module 40 is installed at the screening module 30, at the production line site. If there is sufficient space, the third transport module 50 can be further installed at the input end 111 of the first transfer body 11 of the first transport module 10, and at the same time, the second transport module 40 The output end portion 412 of the second transfer body 41 mounts the fourth transport module 60, so that the arrangement of the present food inspection transport device when installed on the production line can be more flexible.

The guide bar (not shown) inside the first transfer body 11 is configured to guide the object to be tested to make a right-angle turn; and the top cover 110 of the first transfer body 11 is disposed. The top cover 110 can be opened after the operator stops the operation of the radiation detecting module 20 during the detection process, so that the object to be tested inside the first transfer body 11 is excluded. Obstruction situation.

The input end portion 111 and the output end portion 112 are respectively formed on the two adjacent side surfaces of the first transfer body 11 of the first transport module 10, and the second end of the second transport module 40. The input end portion 411 and the output end portion 412 are respectively formed on the two adjacent sides of the transfer body 41 which are perpendicular to each other, and the corresponding input end portion 111 and the output end portion 112 are bent at right angles with the first conveying device 12 The arrangement of the second conveying device 42 corresponding to the input end portion 411 and the output end portion 412 is turned at a right angle, so that the object to be tested can pass through the first conveying module 10 and can be turned at a right angle. And entering the radiation detecting module 20 and the screening module 30, and after the relevant process is completed, leaving the second transport module 40 by a right-angle turning transport path, thereby shortening the overall food detecting and conveying device of the present invention The length, thereby controlling the space required for arranging the detecting device on the production line, and because the first transport module 10 and the second transport module 40 are in a straight-angle turning transport path, the radiation can be shielded To prevent leakage of radiation directly, instead of providing the inclined conveyor to the curtain with the prior art, thereby improving the conveying test objects pouring process, resulting in clogging of the conveyor line detected phenomenon.

The above description is only a preferred embodiment of the present invention, and does not impose any form limitation on the present invention. Although the present invention has been disclosed above in the preferred embodiment, it is not intended to limit the present creation, and has any technical field. A person skilled in the art can make some modifications or modifications to equivalent embodiments by using the above-disclosed technical contents without departing from the technical scope of the present invention. The technical essence of the creation Any simple modification, equivalent change and modification of the above embodiments are still within the scope of the technical solution of the present invention.

10‧‧‧First delivery module
11‧‧‧First transfer body
111‧‧‧Input end
112‧‧‧output end
110‧‧‧Top cover
12‧‧‧First conveyor
13‧‧‧First drive element
20‧‧‧radiation detection module
21‧‧‧Control device
22‧‧‧Detection device
23‧‧‧Detection conveyor
24‧‧‧Detection drive components
30‧‧‧Screening module
31‧‧‧Shell
32‧‧‧Screening conveyor
33‧‧‧Blowing device
40‧‧‧Second transport module
41‧‧‧Second transfer body
411‧‧‧ input end
412‧‧‧output end
42‧‧‧Second conveyor
43‧‧‧Second drive element
50‧‧‧ Third transport module
51‧‧‧The third transfer body
511‧‧‧ input end
512‧‧‧output end
52‧‧‧ Third conveyor
53‧‧‧ Third drive component
60‧‧‧fourth transport module
61‧‧‧fourth transfer body
611‧‧‧ input end
612‧‧‧output end
62‧‧‧4th conveyor
63‧‧‧Fourth drive element
70‧‧‧radiation detection device
80‧‧‧Transportation device
81‧‧‧ Cover
811‧‧‧Extension
812‧‧‧shade curtain
82‧‧‧ conveyor belt
821‧‧‧ input section
822‧‧‧detection section
823‧‧‧Output segment
90‧‧‧Articles to be tested

Figure 1 is a front view of the creation. Figure 2 is a top view of the creation. Figure 3 is a schematic top view of the food delivery of the present invention. Figure 4 is a partial front elevational view of a prior art food inspection device. Figure 5 is a side elevational view of prior art food delivery.

11‧‧‧Transfer the ontology

111‧‧‧Input end

112‧‧‧output end

12‧‧‧First conveyor

13‧‧‧First drive element

22‧‧‧Detection device

23‧‧‧Detection conveyor

31‧‧‧Shell

32‧‧‧Screening conveyor

33‧‧‧Blowing device

41‧‧‧Transfer the ontology

411‧‧‧ input end

412‧‧‧output end

42‧‧‧Second conveyor

43‧‧‧Second drive element

51‧‧‧Transfer body

511‧‧‧ input end

512‧‧‧output end

52‧‧‧ Third conveyor

53‧‧‧ Third drive component

61‧‧‧Transfer the ontology

611‧‧‧ input end

612‧‧‧output end

62‧‧‧4th conveyor

63‧‧‧Fourth drive element

Claims (6)

A food detecting and conveying device, comprising: a first transport module, a radiation detecting module, a screening module and a second transport module; the first transport module has a first transfer body and a first a conveying device; the first transfer body is a hollow body, the inside of which is covered with a radiation protection layer, and has an input end portion and an output end portion, and the input end portion and the output end portion respectively form an opening, and The input end portion and the output end portion are respectively located on two adjacent side surfaces of the first transfer carrier body which are perpendicular to each other, and the opposite side wall surfaces of the first transfer carrier body edge are respectively a guide bar is disposed, the guide bar is disposed along the input end and the output end; the first conveying device is operatively disposed inside the first transfer body, and along the first The input end portion and the output end portion of the transfer body are disposed in a direction; the radiation detecting module has a detecting and conveying device, and the output of the first detecting device can be shielded at one side of the radiation detecting module End, the detection transport One end of the device corresponds to the first conveying device located at the output end; the screening module has a screening conveying device, and the radiation detecting module is shielded on one side of the screening module On the other side, and the signal is connected to the radiation detecting module, one end of the screening conveying device corresponds in position to the other end of the detecting conveying device; the second conveying module has a second transfer body and a first a second conveying device; the second transfer body is internally covered with a radiation protection layer, and has an input end portion and an output end portion, wherein the input end portion and the output end portion respectively form an opening, and the same is In the interior of the second transfer body, the input end portion and the output end portion are respectively located on two adjacent side surfaces of the second transfer carrier body which are perpendicular to each other, and two opposite inner side surfaces of the second transfer carrier body are respectively provided with a guide a strip, the strip is disposed along the input end and the output end, and the input end of the second transfer body is capable of shielding the radiation leakage from being mounted on the other side of the screening module; Two conveyors can operate Disposed in the second transfer body, and disposed along a direction formed by the input end and the output end of the second transfer body, the second conveying device of the input end correspondingly to the screening The other end of the conveyor. The food detecting and conveying device of claim 1, wherein the screening module further has a casing and a blowing device; the casing is a hollow body, the interior of which is covered with a radiation shielding layer, and the casing is Forming an opening at the opposite sides and communicating with the inside of the casing, the casing forming a side of the opening to shield the radiation leakage is mounted on the radiation detecting module, and the other side of the opening of the casing can The shielding radiation leakage device is installed at an input end of the second transfer body, and the screening conveying device is operatively disposed inside the casing and disposed along two opening directions of the casing; the air blowing device is installed on the The inside of the casing is disposed perpendicular to the running direction of the screening conveyor, the blowing device signal is connected to the radiation detecting module, and the pipeline is connected to an external air supply source. The food detecting and conveying device of claim 2, wherein the radiation detecting module has a control device, a detecting device and a detecting driving component; the control device is connected to the detecting device and the blowing device of the screening module The detecting device is a hollow body, the inside of which is covered with a radiation shielding layer, and an opening is formed at opposite sides of the detecting device and communicates with the inside of the detecting device, and the detecting conveying device is along the detecting device Provided in the opening direction, the detecting device forms an output end of the first transfer body capable of shielding the radiation leakage at one side of the opening, and the detecting device is formed on the other side of the opening to shield the radiation leakage The housing forms a side of the opening; the detection drive element is mounted on the detection device and is capable of driving the detection conveyor to operate. The food detecting and conveying device of any one of claims 1 to 3, wherein the first transport module further has a first driving component, the first driving component is mounted on the first transfer body, and drives the first A transport device is operated; and the second transport module further has a second drive component mounted to the second transfer body and driving the second transport device to operate. The food detecting and conveying device of claim 4, further comprising a third transport module and a fourth transport module; the third transport module has a third transfer body, a third transport device, and a a third driving element; the third transfer body is internally covered with a radiation protection layer, and has an input end portion and an output end portion, and the input end portion and the output end portion respectively form an opening, and the same In the third transfer body, the input end portion and the output end portion are respectively located on two adjacent side surfaces of the third transfer carrier body which are perpendicular to each other, and the two opposite inner side edges of the third transfer carrier body are respectively provided with one a guide bar, the guide bar is disposed along the input end portion and the output end portion, and the output end portion of the third transfer carrier body can shield the radiation leakage device from being mounted on the input end portion of the first transfer carrier body The third conveying device is disposed inside the third transfer body, and is disposed along a direction formed by the input end and the output end of the third transfer body, and is located at an output end of the third transfer body The third conveyor is in position corresponding to the a first conveying device that transfers the input end of the body; the third driving component is mounted on the third transfer body and drives the third conveying device to operate; the fourth conveying module has a fourth transfer body a fourth conveying device and a fourth driving component; the fourth transfer body is internally covered with a radiation shielding layer, and has an input end portion and an output end portion, and the input end portion and the output end portion are respectively Forming an opening, and communicating with the interior of the fourth transfer body, the input end portion and the output end portion are respectively located on two adjacent sides of the fourth transfer carrier body which are perpendicular to each other, and the fourth transfer carrier body edge Two opposite side wall surfaces are respectively provided with a guide bar, the guide strip is disposed along the input end portion and the output end portion, and the input end portion of the fourth transfer carrier body can shield the radiation leakage from the installation The output end of the second transfer body; the fourth conveying device is disposed inside the fourth transfer body, and is disposed along a direction formed by the input end and the output end of the fourth transfer body, and is located at the first Fourth of the input end of the four transfer body The conveying device corresponds in position to the second conveying device of the output end of the second transfer body; the fourth driving element is mounted on the fourth transfer body and drives the fourth conveying device to operate. The food detecting and conveying device of claim 5, wherein the top of the first transfer body is provided with an opening, the opening is in communication with the interior of the first transfer body, and the first transfer body further has a top cover The top cover is pivotally connected to the top of the first transfer body, and can close the opening or open to communicate with the inside of the first transfer body, between the top cover and the opening of the first transfer body Forming a sealed connection capable of shielding the radiation leakage; the top of the second transfer body is provided with an opening, the opening is in communication with the interior of the second transfer body, and the second transfer body further has a top cover, the top The cover is pivotally connected to the top of the second transfer body, and can close the opening or open to communicate with the inside of the second transfer body, and the shield can be shielded between the top cover and the opening of the second transfer body a sealing connection of the radiation leakage; the top of the third transfer body is provided with an opening, the opening is in communication with the interior of the third transfer body, and the third transfer body further has a top cover, the top cover is pivotally connected At the top of the third transfer body And sealing the opening or opening to communicate with the inside of the third transfer body, and forming a sealed connection between the top cover and the opening of the third transfer body to shield the radiation leakage; the fourth transfer body An opening is disposed at the top, the opening is in communication with the interior of the fourth transfer body, and the fourth transfer body further has a top cover pivotally connected to the top of the fourth transfer body and capable of being closed The opening or the opening is open to communicate with the inside of the fourth transfer body, and a sealing connection capable of shielding the radiation leakage is formed between the top cover and the opening of the fourth transfer body.