CN112964717A

CN112964717A - Quality authentication device and method for checking and identifying

Info

Publication number: CN112964717A
Application number: CN202110311255.XA
Authority: CN
Inventors: 张其海; 石平; 周学兵; 董春雷; 张红梅; 陈晨; 黄华民
Original assignee: Anhui Zhongqing Inspection And Certification Service Co ltd
Current assignee: Anhui Zhongqing Inspection And Certification Service Co ltd
Priority date: 2021-03-24
Filing date: 2021-03-24
Publication date: 2021-06-15

Abstract

The invention discloses a quality authentication device and a method for checking and identifying, and relates to the technical field of commodity quality detection. The invention comprises a horizontally arranged support frame and a data analysis module arranged on one edge of the support frame; the inner side of the supporting frame is provided with a first belt conveying assembly; the first belt conveying component is provided with a data acquisition component; one side of the data acquisition component is provided with a material pushing component; one side of the pushing component is provided with a second belt conveying component corresponding to the first belt conveying component; the conveying direction of the second belt conveying assembly is perpendicular to the conveying direction of the first belt conveying assembly. The invention not only has reasonable structural design and convenient operation, but also effectively improves the quality authentication efficiency of commodities and has higher market application value.

Description

Quality authentication device and method for checking and identifying

Technical Field

The invention belongs to the technical field of commodity quality detection, and particularly relates to a quality authentication device and method for checking and identifying.

Background

In the quality management process, the product is inspected to determine the overall quality status of the product. Whether the commodity is qualified or not is usually observed according to the eyesight of workers during commodity quality certification, so that the efficiency is low, time and labor are wasted, and the development of enterprises is not facilitated. Therefore, a quality certification apparatus for verification and authentication and a method thereof are needed to solve the above problems.

Disclosure of Invention

The present invention is directed to a quality certification device and a method thereof for verifying and authenticating, and the purpose of the present invention is to solve the problems of the background art.

In order to solve the technical problems, the invention is realized by the following technical scheme:

a quality certification device for checking and identifying comprises a horizontally arranged support frame and a data analysis module arranged on one edge of the support frame; the inner side of the supporting frame is provided with a first belt conveying assembly; the first belt conveying assembly is provided with a data acquisition assembly; one side of the data acquisition assembly is provided with a material pushing assembly; one side of the pushing assembly is provided with a second belt conveying assembly corresponding to the first belt conveying assembly; the conveying direction of the second belt conveying assembly is perpendicular to the conveying direction of the first belt conveying assembly; the commodities are placed on the first belt conveying assembly side by side, the data acquisition assembly is used for acquiring information of the commodities and transmitting the acquired information data to the data analysis module, and after the data analysis module analyzes the received information data, the commodities with unqualified quality are pushed to the second belt conveying assembly through the material pushing assembly, so that the quality authentication and the distinguishing of the commodities are realized.

Further, the first belt conveying assembly comprises a first belt wheel and a second belt wheel which are arranged side by side; the first belt wheel and the second belt wheel are in transmission connection through a first conveying belt made of transparent materials; both ends of the wheel shaft of the first belt wheel and both ends of the wheel shaft of the second belt wheel are rotatably connected with a supporting block; a bearing rod is inserted on the supporting block in a sliding way; one end of the bearing rod is fixed on the inner side surface of the supporting frame; a tension spring is sleeved on the bearing rod; one end of the tension spring is connected to one surface of the support block, and the other end is connected to the other end of the carrier bar.

Further, the data acquisition assembly comprises an installation frame sleeved on the upper section of the first conveyor belt; a pair of driving shafts is symmetrically fixed on the outer surface of the mounting frame; the two driving shafts are respectively arranged on two opposite sides of the first conveyor belt, and one ends, away from each other, of the two driving shafts are rotatably connected with a first mounting block; the two first mounting blocks are respectively and vertically fixed on opposite edges of the supporting frame; the inner side of the mounting frame is rotatably provided with an outer gear ring; the outer toothed ring is sleeved on the upper section of the first conveying belt; the inner side of the outer gear ring is fixedly provided with a camera through a mounting structure; the shooting direction of the camera is arranged along the radial direction of the outer gear ring; at least one transmission gear is meshed on the outer gear ring; the transmission gear is rotatably arranged between the mounting frame and the outer gear ring.

Furthermore, the pushing assembly comprises a second mounting block vertically fixed on one edge of the supporting frame; a hydraulic cylinder is vertically fixed on one side surface of the second mounting block; a material pushing plate corresponding to the first conveying belt is fixed at the output end of the hydraulic cylinder; the material pushing plate is arranged above the first conveyor belt; the moving direction of the material pushing plate is parallel to the conveying direction of the second belt conveying assembly.

Further, the second belt conveying assembly comprises a pair of supporting plates which are vertically inserted in parallel on the other edge of the supporting frame; a pair of third belt wheels are arranged between the two supporting plates in a parallel rotating mode, and one third belt wheel is arranged on the inner side of the first conveying belt; and the two third belt wheels are in transmission connection through a second conveying belt.

Furthermore, a positioning component corresponding to the data acquisition component is arranged on the first belt conveying component; the positioning component is used for adjusting the inclination of the commodity, so that the data acquisition component can acquire information of the commodity conveniently.

Furthermore, the positioning component is arranged between the two first mounting blocks; the positioning assembly comprises a pair of driving gears which are respectively connected to the opposite inner side surfaces of the two first mounting blocks in a rotating manner; a pair of vertically arranged lifting racks is symmetrically meshed on the driving gear; the opposite outer sides of the two lifting racks are respectively provided with a guide block; the guide block is connected to the first mounting block in a sliding manner; a support rod is fixed on the guide block; one end of the supporting rod is connected with one surface of the lifting rack; the other end of the supporting rod is provided with a vertical section; the vertical sections of the two support rods positioned on the same side of the two driving gears are connected through a first adjusting rod and a second adjusting rod; the first adjusting rod and the second adjusting rod are arranged in parallel; the first adjusting rod is arranged above the first conveying belt, and the second adjusting rod is arranged on the inner side of the first conveying belt.

A quality certification method for verifying authentication, comprising the steps of:

the method comprises the following steps that firstly, a plurality of commodities are sequentially placed on a first conveyor belt, and after a commodity moves to the inner side of an outer toothed ring, information of the commodity in all directions is acquired by a camera through rotating the outer toothed ring or a mounting frame;

secondly, the camera transmits the acquired information data to a data analysis module, and the data analysis module compares the received information data with the information data of the qualified commodities; if the quality of the compared commodities is unqualified, pushing the unqualified commodities onto a second conveying belt through a material pushing plate; if the quality of the compared commodity is qualified, the qualified commodity is continuously conveyed on the first conveyor belt.

The invention has the following beneficial effects:

according to the invention, a plurality of commodities are placed on the first belt conveying assembly side by side, the data acquisition assembly is used for acquiring information of the commodities and transmitting the acquired information data to the data analysis module, and after the data analysis module analyzes the received information data, the commodities with unqualified quality are pushed to the second belt conveying assembly through the material pushing assembly, so that the quality certification and the differentiation of the commodities are realized.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of a quality certification apparatus for verification and authentication according to the present invention;

FIG. 2 is a top view of the structure of FIG. 1;

FIG. 3 is a schematic view of a first belt transport assembly of the present invention;

FIG. 4 is a schematic structural diagram of a data acquisition assembly of the present invention;

fig. 5 is a schematic structural diagram of the positioning assembly of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1-supporting frame, 2-first belt conveying component, 3-data acquisition component, 4-pushing component, 5-second belt conveying component, 6-positioning component, 201-first belt wheel, 202-second belt wheel, 203-first conveying belt, 204-supporting block, 205-bearing rod, 206-tensioning spring, 301-mounting frame, 302-driving shaft, 303-external gear ring, 304-mounting structure, 305-camera, 306-transmission gear, 401-hydraulic cylinder, 401-pushing plate, 501-supporting plate, 502-third belt wheel, 503-second conveying belt, 601-driving gear, 602-lifting rack, 603-guiding block, 604-supporting rod, 605-first adjusting rod, 606-second adjusting rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention is a quality certification device for testing and identifying, including a support frame 1 horizontally disposed and a data analysis module installed at one edge of the support frame 1; the inner side of the supporting frame 1 is provided with a first belt conveying component 2; the first belt conveying component 2 is provided with a data acquisition component 3; one side of the data acquisition component 3 is provided with a material pushing component 4; one side of the pushing component 4 is provided with a second belt conveying component 5 corresponding to the first belt conveying component 2; the conveying direction of the second belt conveying assembly 5 is arranged perpendicular to the conveying direction of the first belt conveying assembly 2; the data analysis module is electrically connected with the first belt conveying assembly 2, the data acquisition assembly 3, the material pushing assembly 4 and the second belt conveying assembly 5; the data analysis module adopts conventional elements in the field; a plurality of commodities are arranged on the first belt conveying component 2 side by side, the data acquisition component 3 is used for acquiring information of the commodities and transmitting the acquired information data to the data analysis module, and after the data analysis module analyzes the received information data, the commodities with unqualified quality are pushed to the second belt conveying component 5 through the material pushing component 4, so that the commodities are authenticated and distinguished.

As shown in fig. 3, the first belt conveying assembly 2 includes a first belt pulley 201 and a second belt pulley 202 arranged side by side; the first belt wheel 201 is in transmission connection with the second belt wheel 202 through a first transmission belt 203 made of transparent materials; two ends of the wheel shaft of the first belt wheel 201 and two ends of the wheel shaft of the second belt wheel 202 are rotatably connected with a supporting block 204; a first driving motor is fixed on the upper surface of the supporting block 204 at one end of the first belt wheel 201; a first gear is fixed on an output shaft of the first driving motor; a second gear is meshed with the first gear; the second gear is fixed on the axle of the first belt pulley 201; a bearing rod 205 is slidably inserted on the supporting block 204; one end of the bearing rod 205 is fixed on the inner side surface of the support frame 1; a tension spring 206 is sleeved on the bearing rod 205; one end of the tension spring 206 is connected to one surface of the support block 204, and the other end is connected to the other end of the carrier bar 205.

As shown in fig. 2 and 4, the data acquisition assembly 3 includes a mounting frame 301 sleeved on the upper section of the first conveyor belt 203; a pair of driving shafts 302 are symmetrically fixed on the outer surface of the mounting frame 301; the two driving shafts 302 are respectively arranged on two opposite sides of the first conveyor belt 203, and the ends of the two driving shafts 302 away from each other are rotatably connected with a first mounting block; one end of a driving shaft 302 is connected to a second driving motor; the second driving motor is fixed on a first mounting block; the two first mounting blocks are respectively and vertically fixed on opposite edges of the supporting frame 1; the inner side of the mounting frame 301 is rotatably provided with an outer gear ring 303; the outer gear ring 303 is sleeved on the upper section of the first conveyor belt 203; a camera 305 is fixedly arranged on the inner side of the outer gear ring 303 through a mounting structure 304; the mounting structure 304 includes a mounting bar and a pair of screws for attaching the mounting bar to the outer ring gear 303; camera 305 is a conventional high definition camera in the art; the shooting direction of the camera 305 is arranged in the radial direction of the outer ring gear 303; a pair of transmission gears 306 are symmetrically meshed on the outer gear ring 303; the transmission gear 306 is rotatably arranged between the mounting frame 301 and the outer gear ring 303; one end of a wheel shaft of the transmission gear 306 is connected to an output shaft of a third driving motor; the third driving motor is fixed to the mounting frame 301.

As shown in fig. 2, the pushing assembly 4 includes a second mounting block vertically fixed on one edge of the supporting frame 1; a hydraulic cylinder 401 is vertically fixed on one side surface of the second mounting block; a material pushing plate 401 corresponding to the first conveyor belt 203 is fixed at the output end of the hydraulic cylinder 401; the pusher plate 401 is disposed above the first conveyor belt 203; the direction of movement of the ejector plate 401 is arranged parallel to the conveying direction of the second belt conveying assembly 5.

As shown in fig. 2, the second belt conveying assembly 5 includes a pair of support plates 501 vertically inserted side by side on the other edge of the support frame 1; a pair of third belt wheels 502 are rotatably arranged between the two support plates 501 in parallel, and the third belt wheels 502 are arranged on the inner side of the first conveyor belt 203; the two third belt wheels 502 are in transmission connection through a second conveyor belt 503; one end of the wheel shaft of a third belt wheel 502 is fixed on the output shaft of a fourth driving motor; the fourth driving motor is fixed to a support plate 501.

As shown in fig. 2 and 5, the first belt conveying assembly 2 is provided with a positioning assembly 6 corresponding to the data acquisition assembly 3; the positioning component 6 is used for adjusting the inclination of the commodity, so that the data acquisition component 3 can conveniently acquire information of the commodity; the positioning component 6 is arranged between the two first mounting blocks; the positioning component 6 comprises a pair of driving gears 601 which are respectively connected to the opposite inner side surfaces of the two first mounting blocks in a rotating way; one end of a wheel shaft of the driving gear 601 is fixed on an output shaft of a fifth driving motor; the fifth driving motor is fixed on a first mounting block; a pair of vertically arranged lifting racks 602 is symmetrically meshed on the driving gear 601; the opposite outer sides of the two lifting racks 602 are both provided with a guide block 603; the guide block 603 is slidably connected to the first mounting block; a support rod 604 is fixed on the guide block 603; one end of the supporting rod 604 is connected to one surface of the lifting rack 602; the other end of the support rod 604 has a vertical section; the vertical sections of the two support rods 604 positioned on the same side of the two driving gears 601 are connected through a first adjusting rod 605 and a second adjusting rod 606; the first adjusting rod 605 and the second adjusting rod 606 are arranged in parallel; the first adjustment lever 605 is disposed above the first conveyor belt 203, and the second adjustment lever 606 is disposed inside the first conveyor belt 203. Because the first conveyor belt 203 limits the outer toothed ring 303, the outer toothed ring 303 cannot rotate 360 degrees, so that the camera 305 cannot realize right-to-face information acquisition on two faces of the commodity along the conveying direction of the first belt conveyor assembly 2, which may bring certain errors, and therefore, the positioning assembly 6 is added in the invention. After the commodity moves to a position between the first wave adjusting rods 605, the two lifting racks 602 meshed with the same driving gear 601 move in opposite directions by rotating the driving gear 601, so that the first adjusting rod 605 presses the first conveyor belt 203 downwards and the second adjusting rod 606 lifts the first conveyor belt 203 upwards, the commodity is inclined, the camera 305 is opposite to the surface of the commodity, and the information acquisition accuracy is guaranteed.

step one, sequentially placing a plurality of commodities on a first conveyor belt 203, and after a commodity moves to the inner side of an outer toothed ring 303, rotating the outer toothed ring 303 or an installation frame 301 to acquire information of the commodity in all directions by a camera 305;

step two, the camera 305 transmits the acquired information data to a data analysis module, and the data analysis module compares the received information data with the information data of the qualified commodities; if the quality of the compared commodity is unqualified, pushing the unqualified commodity onto the second conveyor belt 503 through the material pushing plate 401; if the quality of the compared good is acceptable, the acceptable good continues to be conveyed on the first conveyor belt 203.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. A quality certification device for checking and identifying comprises a support frame (1) which is horizontally arranged and a data analysis module which is arranged at one edge of the support frame (1); the method is characterized in that:

the inner side of the supporting frame (1) is provided with a first belt conveying component (2);

the first belt conveying component (2) is provided with a data acquisition component (3);

one side of the data acquisition assembly (3) is provided with a material pushing assembly (4); one side of the pushing assembly (4) is provided with a second belt conveying assembly (5) corresponding to the first belt conveying assembly (2); the conveying direction of the second belt conveying assembly (5) is perpendicular to the conveying direction of the first belt conveying assembly (2);

a plurality of commodities are arranged on the first belt conveying assembly (2) side by side, the data acquisition assembly (3) is used for acquiring information of the commodities and transmitting the acquired information data to the data analysis module, and after the data analysis module analyzes the received information data, the commodities with unqualified quality are pushed to the second belt conveying assembly (5) through the material pushing assembly (4), so that the commodities are authenticated and distinguished.

2. A quality certification device for verifying authentication according to claim 1, wherein the first belt transport assembly (2) comprises a first pulley (201) and a second pulley (202) arranged side by side; the first belt wheel (201) is in transmission connection with the second belt wheel (202) through a first transmission belt (203) made of transparent materials; two ends of a wheel shaft of the first belt wheel (201) and two ends of a wheel shaft of the second belt wheel (202) are rotatably connected with a supporting block (204); a bearing rod (205) is slidably inserted on the supporting block (204); one end of the bearing rod (205) is fixed on the inner side surface of the support frame (1); a tension spring (206) is sleeved on the bearing rod (205); one end of the tension spring (206) is connected to one surface of the support block (204), and the other end is connected to the other end of the load bar (205).

3. A quality certification device for verifying authentication according to claim 2, wherein the data acquisition assembly (3) comprises a mounting frame (301) fitted over an upper section of the first conveyor belt (203); a pair of driving shafts (302) are symmetrically fixed on the outer surface of the mounting frame (301); the two driving shafts (302) are respectively arranged on two opposite sides of the first conveyor belt (203), and the ends, away from each other, of the two driving shafts (302) are rotatably connected with a first mounting block; the two first mounting blocks are respectively and vertically fixed on opposite edges of the supporting frame (1); the inner side of the mounting frame (301) is rotatably provided with an outer gear ring (303); the outer gear ring (303) is sleeved on the upper section of the first conveyor belt (203); the inner side of the outer gear ring (303) is fixedly provided with a camera (305) through a mounting structure (304); the shooting direction of the camera (305) is arranged along the radial direction of the outer gear ring (303); at least one transmission gear (306) is meshed on the outer gear ring (303); the transmission gear (306) is rotatably arranged between the mounting frame (301) and the outer gear ring (303).

4. A quality certification device for verifying authentication according to claim 2 or 3, wherein the pusher assembly (4) comprises a second mounting block vertically fixed to one edge of the support frame (1); a hydraulic cylinder (401) is vertically fixed on one side surface of the second mounting block; a material pushing plate (401) corresponding to the first conveyor belt (203) is fixed at the output end of the hydraulic cylinder (401); the material pushing plate (401) is arranged above the first conveyor belt (203); the moving direction of the material pushing plate (401) is parallel to the conveying direction of the second belt conveying assembly (5).

5. A quality certification device for verification and identification according to claim 4, wherein the second belt transport unit (5) comprises a pair of support plates (501) vertically interpenetrated side by side on the other edge of the support frame (1); a pair of third belt wheels (502) are arranged between the two supporting plates (501) in a parallel rotating mode, and one third belt wheel (502) is arranged on the inner side of the first conveying belt (203); the two third belt wheels (502) are in transmission connection through a second conveying belt (503).

6. A quality certification device for verifying authentication according to claim 3 or 5, wherein the first belt transport assembly (2) is provided with a positioning assembly (6) corresponding to the data acquisition assembly (3); the positioning component (6) is used for adjusting the inclination of the commodity, so that the data acquisition component (3) can acquire information of the commodity conveniently.

7. A quality certification device for verifying authentication according to claim 6, wherein the positioning assembly (6) is disposed between two first mounting blocks; the positioning component (6) comprises a pair of driving gears (601) which are respectively connected to the opposite inner side surfaces of the two first mounting blocks in a rotating manner; a pair of vertically arranged lifting racks (602) is symmetrically meshed on the driving gear (601); the opposite outer sides of the two lifting racks (602) are respectively provided with a guide block (603); the guide block (603) is connected to the first mounting block in a sliding manner; a support rod (604) is fixed on the guide block (603); one end of the supporting rod (604) is connected with one surface of the lifting rack (602); the other end of the supporting rod (604) is provided with a vertical section; the vertical sections of the two support rods (604) positioned on the same side of the two driving gears (601) are connected through a first adjusting rod (605) and a second adjusting rod (606); the first adjusting rod (605) and the second adjusting rod (606) are arranged in parallel; the first adjusting rod (605) is arranged above the first conveyor belt (203), and the second adjusting rod (606) is arranged on the inner side of the first conveyor belt (203).

8. A quality certification method for verifying authentication, comprising the steps of:

the method comprises the following steps that firstly, a plurality of commodities are sequentially placed on a first conveyor belt (203), and after a commodity moves to the inner side of an outer toothed ring (303), information of the commodity in each direction is collected by a camera (305) through rotating the outer toothed ring (303) or a mounting frame (301);

step two, the camera (305) transmits the acquired information data to a data analysis module, and the data analysis module compares the received information data with the information data of the qualified commodities; if the quality of the compared commodity is unqualified, pushing the unqualified commodity onto a second conveyor belt (503) through a material pushing plate (401); if the quality of the compared commodity is qualified, the qualified commodity is continuously conveyed on the first conveyor belt (203).