CN108372128A - A kind of detection sorting equipment using quantum coherent tomography - Google Patents

Abstract

The invention discloses a detection and sorting device using quantum coherence tomography, and mainly relates to the field of detection devices. It includes a quantum detection device, a transmission mechanism, a sorting mechanism and a computer terminal. The sorting mechanism includes a support frame, a fixed plate, a screw nut drive mechanism and a sorting device. The side baffles fixedly connected on both sides of the baffle, the quantum detection device includes a frame and a quantum detector, the quantum detector is facing the main conveyor belt; the quantum detector is connected to the computer terminal, and the computer terminal is connected to the sorting motor. The beneficial effect of the present invention is that: the use of quantum coherence tomography can detect the component information contained in the product to be tested, and feed it back to the computer terminal, and then control the sorting mechanism to sort and classify different products for transmission. This technology is more advanced and more applicable, and it is also applicable to different products with similar quality, which greatly reduces the man-hours required for packaging and sorting.

Description

A detection and sorting device using quantum coherence tomography

technical field

The invention relates to the field of detection devices, in particular to a detection and sorting device using quantum coherence tomography.

Background technique

When an enterprise packs products, products with different ingredients and different mixing ratios will be packed in similar boxes, and then transported and sorted on the conveyor belt. However, the existing detection and sorting devices only rely on pressure sensors to detect the weight for sorting, or mark different packages of the same kind of different products separately during the packaging process for subsequent sorting. When sorting by pressure sensor to detect weight, it is not suitable for different products with similar quality; adopting the method of marking and sorting undoubtedly adds a packaging process, which increases the cost input and the man-hour of packaging and sorting.

In quantum mechanics, quantum information is physical information about the state of a quantum system. A new way of computing, encoding, and transmitting information through various coherent properties of quantum systems. Quantum coherence tomography is a new three-dimensional tomography technology, based on the principle of low-coherence interference to obtain tomographic capabilities in the depth direction, through scanning can reconstruct a two-dimensional or three-dimensional image of the internal structure of the material, which can be in the coherent range , a method to obtain information about the ingredients contained in the product to be tested.

Contents of the invention

The object of the present invention is to provide a detection and sorting device using quantum coherence tomography, which can detect the component information contained in the product to be tested by using quantum coherence tomography, and feed it back to the computer terminal, and then control the sorting The organization sorts and classifies different products for delivery. This technology is more advanced and more applicable, and it is also applicable to different products with similar quality, which greatly reduces the man-hours required for packaging and sorting.

In order to achieve the above object, the present invention is achieved through the following technical solutions:

A detection and sorting device using quantum coherence tomography, including a quantum detection device, a transmission mechanism, a sorting mechanism and a computer terminal, the transmission mechanism includes a main conveyor belt and two auxiliary conveyor belts, and the main conveyor belt uses a main conveyor motor Driven, the auxiliary conveyor belt is driven by an auxiliary conveying motor; the sorting mechanism includes a support frame, a fixed plate, a screw nut drive mechanism and a sorting device, the fixed plate is fixed on the top of the support frame, and the lead screw The screw nut transmission mechanism is fixedly arranged on the fixed plate. The screw nut transmission mechanism is driven by the sorting motor to rotate the screw nut. The rotation of the screw screw drives the movement of the screw nut. The distance between the bottom surface of the sorting device and the top surface of the transmission mechanism is 0.5cm to 1cm, the sorting device includes a connecting vertical plate, a facing baffle plate, and side baffles fixedly connected to both sides of the facing baffle plate, the back side of the connecting vertical plate is connected to the wire nut, and the connecting vertical plate The front side of the plate is connected with the head-on baffle plate; a transition plate is provided between the end of the main conveyor belt and the beginning of the secondary conveyor belt, and the plane where the transition plate is located is flush with the plane of the main conveyor belt and the secondary conveyor belt; the quantum detection device includes a frame and A quantum detector, the quantum detector is arranged on the frame, and the quantum detector is facing the main conveyor belt; the quantum detector is connected to a computer terminal, and the computer terminal is connected to a sorting motor.

The two auxiliary conveyor belts are arranged symmetrically on both sides of the main conveyor belt.

There is no connection relationship between the sorting mechanism, the quantum detection device, and the transmission mechanism, the support frame is a height-adjustable frame, and the front side of the connection riser is detachably connected to the facing baffle plate.

A magnetic sheet is arranged on the front side of the connecting riser, and the magnetic sheet and the oncoming baffle plate are attracted to each other by magnetic force.

The computer terminal is also connected with the main conveying motor and the auxiliary conveying motor through data lines.

Compared with the prior art, the beneficial effects of the present invention are:

Products with different components and different mixing ratios are packed in similar packaging boxes, and then conveyed on the main conveyor belt. This device is equipped with a quantum detection device. to the computer terminal, and then control the sorting motor to sort and classify different products for transmission, and different products are sorted to different secondary conveyor belts for transmission. This technology is more advanced and more applicable, and it is also applicable to different products with similar quality, which greatly reduces the man-hours required for packaging and sorting.

Description of drawings

Accompanying drawing 1 is the concrete structure schematic diagram of the present invention.

Accompanying drawing 2 is the structure schematic diagram of quantum detection device in the present invention.

Accompanying drawing 3 is the structural block diagram of computer terminal control principle in the present invention.

Labels shown in the accompanying drawings:

1. Computer terminal; 2. Main conveyor belt; 3. Sub-conveyor belt; 4. Main transmission motor; 5. Sub-transmission motor; 6. Support frame; 7. Fixed plate; Motor; 10, connecting vertical plate; 11, head-on baffle; 12, side baffle; 13, excessive flat plate; 14, frame body; 15, quantum detector.

Detailed ways

Below in conjunction with specific embodiment, further illustrate the present invention. It should be understood that these examples are only used to illustrate the present invention and are not intended to limit the scope of the present invention. In addition, it should be understood that after reading the content taught by the present invention, those skilled in the art may make various changes or modifications to the present invention, and these equivalent forms also fall within the scope defined in the present application.

The present invention is a detection and sorting device using quantum coherence tomography. The main structure includes a quantum detection device, a transmission mechanism, a sorting mechanism and a computer terminal 1. The transmission mechanism includes a main conveyor belt 2 and two secondary conveyor belts. 3. The main conveyor belt 2 is driven by the main conveyor motor 4, and the secondary conveyor belt 3 is driven by the secondary conveyor motor 5. Products with different components and different mixing ratios are packed in similar packaging boxes, and then transmitted on the main conveyor belt 2, different The products are sorted and sorted for transmission, and different products are sorted to different auxiliary conveyor belts 3 for transmission. The sorting mechanism includes a support frame 6, a fixed plate 7, a screw nut transmission mechanism 8 and a sorting device, the fixed plate 7 is fixedly arranged on the top of the support frame 6, and the screw screw nut transmission mechanism 8 is fixedly arranged On the fixed plate 7, the screw nut transmission mechanism 8 is driven by the sorting motor 9 to rotate the screw nut, and the rotation of the lead screw drives the movement of the screw nut, and the distance between the bottom surface of the sorting device and the top surface of the transmission mechanism is 0.5cm ~1cm, so that there is no friction between the bottom surface of the sorting device and the top surface of the transmission mechanism, ensuring the service life of the main conveyor belt 2 and the auxiliary conveyor belt 3. The sorting device includes a connecting riser 10, a facing baffle plate 11, and side baffles 12 fixedly connected to both sides of the facing baffle plate 11. The movement of the connecting riser 10, the front side of the connecting riser 10 is connected with the facing baffle 11, the movement of the connecting riser 10 drives the movement of the facing baffle 11 and the side baffle 12; the end of the main conveyor belt 2 and the auxiliary Between the start ends of the conveyor belt 3, there is a transition plate 13. The plane where the transition plate 13 is located is flush with the plane of the main conveyor belt 2 and the plane of the auxiliary conveyor belt 3. The setting of the transition plate 13 ensures that the packaging boxes can be smoothly sorted from the main conveyor belt 2 to the On the corresponding secondary conveyor belt 3, avoid falling from the gap between the main conveyor belt 2 and the secondary conveyor belt 3; the quantum detection device includes a frame body 14 and a quantum detector 15, and the quantum detector 15 is arranged on the frame body 14 , and the quantum detector 15 is facing the main conveyor belt 2; the quantum detector 15 is connected to the computer terminal 1, and the computer terminal 1 is connected to the sorting motor 9. The quantum detector 15 uses quantum optical coherence tomography to detect product components, and feeds it back to the computer terminal 1, and then controls the sorting motor 9 to sort and classify different products. Different products are sorted to different Convey on the secondary conveyor belt 3. This technology is more advanced and more applicable, and it is also applicable to different products with similar quality, which greatly reduces the man-hours required for packaging and sorting.

The two auxiliary conveyor belts 3 are arranged symmetrically on both sides of the main conveyor belt 2 . Since the sorting mechanism sorts one of the packaging boxes onto the corresponding secondary conveyor belt 3, the first choice needs to be reset to the main conveyor belt 2, and then the next packaging box can be sorted. By symmetrically setting the two secondary conveyor belts 3 on the The two sides of the main conveyor belt 2 can ensure that the sorting device moves between the main conveyor belt 2 and the auxiliary conveyor belt 3 with the shortest stroke, which can improve the sorting efficiency, and different products can be completed only by controlling the rotation direction of the sorting motor 9 sorting.

There is no connection relationship between the sorting mechanism, the quantum detection device, and the transmission mechanism, which can ensure that one sorting mechanism can be used for different transmission mechanisms, making the device more practical and applicable. The support frame 6 is a height-adjustable support, and the height of the support frame 6 can be adjusted adaptively according to different transmission mechanisms. The size of the transmission mechanism and the packing box are selected to install and use head-on baffles 11 and side baffles 12 of different sizes.

A magnetic sheet is arranged on the front side of the connection riser 10 , and the magnetic sheet and the facing baffle plate 11 are attracted to each other by magnetic force. In this way, the detachable connection between the two is conveniently realized.

The computer terminal 1 is also connected with the main conveying motor 4 and the auxiliary conveying motor 5 through data lines. In this way, the computer terminal 1 can be used to control the motion states of the main conveying motor 4 and the auxiliary conveying motor 5 conveniently.

Instructions:

Products with different components and different mixing ratios are packaged in the same packaging box, and then conveyed on the main conveyor belt 2. The quantum detector 15 uses quantum optical coherence tomography to detect product components, and feeds it back to the computer terminal 1, the packaging box is sent to the sorting device, and the packaging box is sent to the front baffle plate 11 and the side baffle Between 12 and 12, the computer terminal 1 controls the sorting motor 9 to sort and classify the packaging boxes for transmission. Different products are sorted to different secondary conveyor belts 3 for transmission, and the packaging boxes are transmitted to the secondary conveyor belt 3 and then stay for 2 Seconds or so, after the auxiliary conveyor belt 3 transmits the packaging box, the packaging box has left between the front baffle plate 11 and the side baffle 12, and then the sorting device is reset on the main conveyor belt 2, and then the next packaging box can be processed. sorting.

Example:

The present invention is a detection and sorting device using quantum coherence tomography. The main structure includes a quantum detection device, a transmission mechanism, a sorting mechanism and a computer terminal 1. The transmission mechanism includes a main conveyor belt 2 and two secondary conveyor belts. 3. The main conveyor belt 2 is driven by the main conveyor motor 4, and the secondary conveyor belt 3 is driven by the secondary conveyor motor 5; device, the fixed plate 7 is fixed on the top of the support frame 6 by bolts, the screw nut transmission mechanism 8 is fixed on the fixed plate 7 by bolts, and the screw nut transmission mechanism 8 is driven by the sorting motor 9 The lead screw rotates, and the rotation of the lead screw drives the movement of the screw nut. The distance between the bottom surface of the sorting device and the top surface of the transmission mechanism is 0.5 cm to 1 cm, which is 1 cm in this embodiment. The sorting device includes connecting vertical plates 10, facing The baffle 11 and the side baffles 12 fixedly connected to both sides of the facing baffle 11, the back side of the connecting riser 10 is connected to the screw nut by bolts, and the front side of the connecting riser 10 is connected to the facing baffle 11; Between the end of the main conveyer belt 2 and the beginning of the auxiliary conveyer belt 3, a transition plate 13 is arranged, and the plane of the transition plate 13 is flush with the plane of the main conveyer belt 2 and the plane of the auxiliary conveyer belt 3; Detector 15, the quantum detector 15 is arranged on the frame body 14, and the quantum detector 15 is facing the main conveyor belt 2; the quantum detector 15 is connected with the computer terminal 1, and the computer terminal 1 is connected with the sorting The motor 9 is connected. The two auxiliary conveyor belts 3 are arranged symmetrically on both sides of the main conveyor belt 2 . There is no connection relationship between the sorting mechanism, the quantum detection device, and the transmission mechanism. The support frame 6 is a height-adjustable frame. A magnetic sheet is arranged on the front side of the connection riser 10 , and the magnetic sheet and the facing baffle plate 11 are attracted to each other by magnetic force. The computer terminal 1 is also connected with the main conveying motor 4 and the auxiliary conveying motor 5 through data lines.

Claims (5)

1. A detection and sorting device that adopts quantum coherence tomography, is characterized in that: comprises quantum detection device, transmission mechanism, sorting mechanism and computer terminal (1), and described transmission mechanism comprises main conveyer belt (2) and two A secondary conveyor belt (3), the main conveyor belt (2) is driven by a main conveyor motor (4), and the secondary conveyor belt (3) is driven by a secondary conveyor motor (5); the sorting mechanism includes a support frame (6) , the fixed plate (7), the screw nut transmission mechanism (8) and the sorting device, the fixed plate (7) is fixedly arranged on the top of the support frame (6), and the screw screw nut transmission mechanism (8) is fixed It is arranged on the fixed plate (7), the screw nut transmission mechanism (8) is driven by the sorting motor (9) to rotate the screw nut, the rotation of the screw drives the movement of the nut nut, the bottom surface of the sorting device is in contact with the conveyor The distance between the top surfaces of the mechanism is 0.5cm to 1cm, and the sorting device includes a connecting vertical plate (10), a facing baffle (11) and side baffles (12) fixedly connected to both sides of the facing baffle (11), The back side of the connecting riser (10) is connected to the screw nut, and the front side of the connecting riser (10) is connected to the front stop plate (11); the end of the main conveyor belt (2) and the beginning of the auxiliary conveyor belt (3) Between is provided with transition plate (13), and the plane of described transition plate (13) is flush with main conveyer belt (2) plane, secondary conveyer belt (3) plane; Described quantum detection device comprises frame body (14) and quantum detector (15), the quantum detector (15) is arranged on the frame (14), and the quantum detector (15) is facing the main conveyor belt (2); the quantum detector (15) is connected with the computer terminal ( 1) connection, the computer terminal (1) is connected with the sorting motor (9). 2. A detection and sorting device using quantum coherence tomography according to claim 1, characterized in that: the two secondary conveyor belts (3) are symmetrically arranged on both sides of the main conveyor belt (2). 3. a kind of detection and sorting device that adopts quantum coherence tomography according to claim 1, is characterized in that: there is no connection relationship between the sorting mechanism and the quantum detection device, the transmission mechanism, and the support frame ( 6) It is a height-adjustable bracket, and the front side of the connection riser (10) is detachably connected to the facing baffle plate (11). 4. A detection and sorting device using quantum coherence tomography according to claim 3, characterized in that: a magnetic sheet is arranged on the front side of the connecting vertical plate (10), and the magnetic sheet is connected to the facing stopper (11) ) are attracted to each other by magnetic force. 5. A detection and sorting device using quantum coherence tomography according to claim 1, characterized in that: said computer terminal (1) also communicates with the main transmission motor (4) and the auxiliary transmission motor (5) through data line connection.