CN115494127B - Product quality nondestructive test device - Google Patents

Abstract

The invention relates to the technical field of water content detection, in particular to a product quality nondestructive detection device which comprises a transmission separation structure, a first detection structure and a second detection structure, wherein the left side of the transmission separation structure is communicated with the first detection structure, one side of the transmission separation structure, which is far away from the first detection structure, is communicated with the second detection structure, the transmission separation structure comprises a storage box, a supporting vertical frame and a fixed bottom plate, the upper end of the fixed bottom plate is fixedly connected with the supporting vertical frame, the top of the inner end of the transmission separation structure is fixedly connected with the storage box, the transmission separation structure further comprises a transmission wheel, an auxiliary bearing plate, a first hinged frame, a transmission belt, a connection guide plate, a first conical frame, a second conical frame, a guide frame, a second hinged frame and a screening frame, the auxiliary bearing plate is fixedly connected to the lower end of the storage box, the center of the auxiliary bearing plate is rotatably connected with the transmission wheel, and the transmission wheel is communicated with the screening frame. Through the setting of transmission separation structure, realize screening type nondestructive test work.

Description

Product quality nondestructive test device

Technical Field

The invention relates to the technical field of water content detection, in particular to a nondestructive detection device for product quality.

Background

The nondestructive testing device is used for testing or analyzing the chemical or physical properties of a product under the condition of not damaging the structure and the performance of the product, so that the testing performance is improved, the purpose of dynamic monitoring is convenient to carry out, and the nondestructive testing device has higher requirements on the physical and chemical properties of the product to be tested.

According to the Chinese patent application with the publication number of CN111855478A, the disclosed equipment for detecting the quality of the mold sand comprises a box body, a main cavity with a rightward opening is arranged in the box body, a display screen is fixedly connected to the end face of the right side of the box body and used for displaying detection data, a mold sand moisture detection device is arranged on the right side of the main cavity, a mold sand quantitative measuring device is arranged on the left side of the box body and used for continuously and quantitatively measuring the mold sand, a mold sand transfer device is arranged between the mold sand quantitative measuring device and the mold sand moisture detection device, an aluminosilicate detection device is arranged on the lower side of the mold sand moisture detection device, and the mold sand moisture detection device is provided with a U-shaped cavity.

At present, when the nondestructive detection device for the quality of products on the market is used, the existing detection device mostly adopts the detection of a small amount of samples, and products to be detected are randomly sampled and adjusted to carry out the detection of fixed numerical values, so that the acquired data do not have commonality easily, and the true degree of the data is influenced.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a nondestructive testing device for product quality.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a product quality nondestructive test device, includes transmission isolating construction, first detection structure and second detection structure, transmission isolating construction's left side intercommunication has first detection structure, one side intercommunication that transmission isolating construction deviates from first detection structure has the second to detect the structure, and first detection structure is the same with the structure that the second detected the structure, transmission isolating construction includes storage box, support grudging post and PMKD, PMKD's upper end fixedly connected with supports the grudging post, transmission isolating construction's inner top fixedly connected with storage box, transmission isolating construction still includes transmission wheel, supplementary loading board, first articulated frame, transmission band, connection baffle, first toper frame, second toper frame, guide frame, second articulated frame and screening frame, supplementary loading board fixed connection is at the lower extreme of storage box, the center of supplementary loading board rotates and is connected with the transmission wheel, the transmission wheel is linked together with the screening frame, the lower extreme of screening frame articulates through second articulated frame has the guide frame, the lower extreme of screening frame is linked together with the guide frame, one side that the transmission wheel deviates from transmission band is close to one side of transmission band the transmission band, the transmission band is linked together through the articulated frame of second toper frame, the transmission band upper end of transmission band sets up with the first toper frame, the transmission band is connected with the two-way hinge of transmission band.

Specifically, the first detection structure comprises a first moisture detection component, a second moisture detection component and a third moisture detection component, the second moisture detection component is fixedly connected to the right side of the first moisture detection component, the third moisture detection component is fixedly connected to the right side of the second moisture detection component, and the first moisture detection component, the second moisture detection component and the third moisture detection component are identical in internal structure.

Specifically, the third moisture detection component includes bucket, protection bottom plate and contains water detection mechanism, the upper end fixedly connected with bucket of protection bottom plate, the rear end fixedly connected with of bucket contains water detection mechanism.

Specifically, moisture detection mechanism includes that insulating seat, terminal, protection baffle, first spy ring, second spy ring, bearing board, motor and circuit control module, the upper end fixedly connected with protection baffle of bearing board, the motor is installed at the center of bearing board, the upper end of motor is rotated and is connected with circuit control module, circuit control module's upper end is visited ring, second through terminal and first spy ring, second and is linked together respectively, insulating seat has been cup jointed to the upper end of terminal.

Specifically, the first conical frames are respectively communicated with the first moisture detection component and the third moisture detection component, the second conical frames are communicated with the second moisture detection component, the number of the first conical frames is four, the first conical frames are symmetrically arranged and symmetrically distributed about the second conical frames, two of the four first conical frames are communicated with the third moisture detection component, and the other two of the four first conical frames are communicated with the first moisture detection component.

Specifically, the lower extreme of screening frame is equipped with the filter-tank, and the filter-tank is linked together with the guide frame, and the guide frame is linked together through transmission band and first toper frame, one side that the screening frame deviates from the transmission wheel is close to second toper frame.

Specifically, the moisture detection mechanism includes power, wire and cylinder, the lower extreme of power is connected with the wire, the lower extreme of wire is connected with the cylinder.

Specifically, the cylinder is arranged at the bottom of the bearing plate, a plate body is arranged at the bottom of the cylinder, and the cylinder controls the opening and closing of a bottom groove body of the bearing plate through the plate body.

Specifically, the protective bottom plate is close to a first partition plate fixedly connected to the storage barrel, and a second partition plate is fixedly connected to the first partition plate.

The use method of the product quality nondestructive testing device comprises the following steps:

s1, firstly, combining a transmission separation structure, a first detection structure and a second detection structure, storing a product to be detected in a storage box, driving a transmission wheel to work, transmitting the product in the storage box by the rotation of the transmission wheel to reach the position of a screening frame, and arranging the screening frame in an inclined structure to slide the product;

s2, screening to a guide frame position, conveying to a second conical frame position through the screening frame, conducting products to a conveying belt position by the guide frame, conveying the screened products to a first conical frame position, conveying the products with larger particles to the second conical frame position through the screening frame, hinging the guide frame and the screening frame through a second hinging frame to realize angle adjustment and facilitate quick blanking work, communicating the first conical frame with a first moisture detection part, communicating the second conical frame with a second moisture detection part to realize nondestructive detection work, and conveying the products to the centers of a storage barrel and a protective bottom plate through the first conical frame and the second conical frame respectively;

s3, finally, drive the inside motor of moisture detection mechanism, drive the insulator bracket, the terminal, first visit the ring, the second visits the ring, circuit control module rotates, realize reciprocating adjustment work, circuit control module controls first visit the ring, the second visits the ring and carries out work, first visit the ring, the corresponding frequency of second visit ring transmission, through absorption monitoring, realize the detection of water content, after the detection finishes, through the power, the wire, make the cylinder stretch out and draw back, make the material body discharge through the bottom of bearing board, accomplish detection achievement.

The invention has the beneficial effects that:

according to the invention, through the arrangement of the transmission and separation structure, screening production work can be realized, the transmission wheel can rotate through driving to drive the internal products to be transmitted, then the products can be transmitted through the screening frame, meanwhile, the screening frame can carry out screening production work, the screened products reach the position of the guide frame and can be transmitted to the position of the transmission belt, and other products are transmitted to the position of the first conical frame through the screening frame, so that the segmented detection is realized, and the data acquisition work is better carried out.

According to the invention, the moisture detection is realized through the arrangement of the third moisture detection part, the circuit control module is respectively communicated with the first probe ring and the second probe ring through the wiring terminals, corresponding frequency is transmitted on the first probe ring and the second probe ring, corresponding data is acquired, the moisture content is detected, and the motor can drive the first probe ring and the second probe ring to rotate, so that the omnibearing detection work is realized, and the purpose of uniform moisture content detection is achieved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a front perspective view of a nondestructive inspection device of the present invention;

FIG. 2 is a schematic diagram of a left-side perspective structure of the nondestructive testing apparatus of the present invention;

FIG. 3 is a disassembled view of the nondestructive testing apparatus of the present invention;

FIG. 4 is a schematic front-end perspective view of a transport separation structure according to the present invention;

FIG. 5 is an exploded view of the transport separation arrangement of the present invention;

FIG. 6 is a schematic front-end perspective view of a first detection structure according to the present invention;

FIG. 7 is a front perspective view schematically illustrating a third moisture detecting member according to the present invention;

FIG. 8 is a schematic front view of the moisture detection mechanism of the present invention;

FIG. 9 is a schematic rear-end perspective view of the moisture detection mechanism of the present invention;

FIG. 10 is a front perspective view of a nondestructive inspection device according to a second embodiment of the present invention.

In the figure: 1-transmission separation structure, 2-first detection structure, 3-second detection structure, 4-storage box, 5-support vertical frame, 6-fixed bottom plate, 7-transmission wheel, 8-auxiliary bearing plate, 9-first hinged frame, 10-transmission belt, 11-connection guide plate, 12-first conical frame, 13-second conical frame, 14-guide frame, 15-second hinged frame, 16-screening frame, 17-first moisture detection part, 18-second moisture detection part, 19-third moisture detection part, 20-storage barrel, 21-protective bottom plate, 22-moisture detection mechanism, 23-insulating seat, 24-binding post, 25-protective partition plate, 26-first probe ring, 27-second probe ring, 28-supporting plate, 29-motor, 30-circuit control module, 31-power supply, 32-lead, 33-cylinder, 34-first partition plate, 35-second partition plate.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all 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 application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used. Moreover, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The invention is further described below with reference to the accompanying drawings.

Example 1

As shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, the nondestructive testing apparatus for product quality of the present invention comprises a transmission separation structure 1, a first testing structure 2 and a second testing structure 3, wherein one side of the transmission separation structure 1, which is away from the first testing structure 2, is communicated with the second testing structure 3, the first testing structure 2 and the second testing structure 3 have the same structure, the transmission separation structure 1 comprises a storage box 4, a supporting vertical frame 5 and a fixed bottom plate 6, the upper end of the fixed bottom plate 6 is fixedly connected with the supporting vertical frame 5, the top of the inner end of the transmission separation structure 1 is fixedly connected with the storage box 4, the transmission separation structure 1 further comprises a transmission wheel 7, an auxiliary bearing plate 8, a first hinge frame 9, a transmission belt 10, a connecting guide plate 11, a first conical frame 12, a second conical frame 13, a guide frame 14, a second hinge frame 15 and a screening frame 16, the auxiliary bearing plate 8 is fixedly connected to the lower end of the storage box 4, the center of the auxiliary bearing plate 8 is rotatably connected with a transmission wheel 7, the transmission wheel 7 is communicated with a screening frame 16, the lower end of the screening frame 16 is hinged with a guide frame 14 through a second hinged frame 15, the lower end of the screening frame 16 is communicated with the guide frame 14, one side of the screening frame 16, which is far away from the transmission wheel 7, is close to a second conical frame 13, one end of the guide frame 14, which is far away from the second conical frame 13, is communicated with a transmission belt 10, the front end of the transmission belt 10 is communicated with a first conical frame 12, the upper end of the second conical frame 13 is fixedly connected with a connecting guide plate 11, the auxiliary bearing plate 8 is hinged with the screening frame 16 through a first hinged frame 9, the first conical frame 12 and the second conical frame 13 perform double transmission work, the guide and discharge function of products is realized, the purpose of classification detection is better achieved, the transmission belt 10 adopts two-way transmission, the products are stored in the storage box 4, this product is similar to the sand body, can flow fast, and transmission wheel 7 rotates on supplementary loading board 8, through the central clearance that is close to screening frame 16, leads the row with the product to make the product arrive on screening frame 16, transmission wheel 7 is through rotating, can accelerate the speed of transmission, and transmission wheel 7 is equipped with the cell body with supplementary loading board 8 hookup location and is convenient for the product to transmit to transmission wheel 7.

The first detection structure 2 comprises a first moisture detection part 17, a second moisture detection part 18 and a third moisture detection part 19, the right side of the first moisture detection part 17 is fixedly connected with the second moisture detection part 18, the right side of the second moisture detection part 18 is fixedly connected with the third moisture detection part 19, the first moisture detection part 17, the second moisture detection part 18 and the third moisture detection part 19 are combined to divide products into three types, various detection purposes are achieved, the structures of the first moisture detection part 17, the second moisture detection part 18 and the third moisture detection part 19 are the same, the three types of components are all used for detecting moisture content, and the internal structures of the first moisture detection part 17, the second moisture detection part 18 and the third moisture detection part 19 are the same.

The third moisture detection component 19 comprises a storage barrel 20, a protective bottom plate 21 and a water content detection mechanism 22, the storage barrel 20 is fixedly connected to the upper end of the protective bottom plate 21, the water content detection mechanism 22 is fixedly connected to the rear end of the storage barrel 20, the storage barrel 20 and the protective bottom plate 21 are used for embedding the water content detection mechanism 22, and specific water content detection work is carried out through the water content detection mechanism 22.

The water content detection mechanism 22 comprises an insulation seat 23, a wiring terminal 24, a protection partition plate 25, a first probe ring 26, a second probe ring 27, a supporting plate 28, a motor 29 and a circuit control module 30, the upper end of the supporting plate 28 is fixedly connected with the protection partition plate 25, the center of the supporting plate 28 is provided with the motor 29, the upper end of the motor 29 is rotatably connected with the circuit control module 30, the upper end of the circuit control module 30 is respectively communicated with the first probe ring 26 and the second probe ring 27 through the wiring terminal 24, the insulation seat 23 is sleeved at the upper end of the wiring terminal 24, the insulation seat 23, the protection partition plate 25, the first probe ring 26, the second probe ring 27, the supporting plate 28, the motor 29 and the circuit control module 30 are combined, water content detection work is achieved, detection efficiency is improved, detection precision is improved, and the insulation seat 23, the wiring terminal 24, the protection partition plate 25, the first probe ring 26, the second probe ring 27, the supporting plate 28, the motor 29 and the circuit control module 30 are controlled, combination degree is improved, and water content detection work is facilitated.

The first conical frames 12 are respectively communicated with the first moisture detection part 17 and the third moisture detection part 19, the second conical frames 13 are communicated with the second moisture detection part 18, the number of the first conical frames 12 is four, the first conical frames 12 are symmetrically arranged and are symmetrically distributed about the second conical frames 13, two of the four first conical frames 12 are communicated with the third moisture detection part 19, and the other two of the four first conical frames 12 are communicated with the first moisture detection part 17.

The lower end of the screening frame 16 is provided with a filter tank which is communicated with the guide frame 14, the guide frame 14 is communicated with the first conical frame 12 through the transmission belt 10, and one side of the screening frame 16, which is far away from the transmission wheel 7, is close to the second conical frame 13.

The moisture detection mechanism 22 comprises a power supply 31, a lead 32 and a cylinder 33, wherein the lower end of the power supply 31 is connected with the lead 32, the lower end of the lead 32 is connected with the cylinder 33, the power supply 31, the lead 32 and the cylinder 33 are mutually combined and communicated, and the power supply 31 and the lead 32 supply power to the cylinder 33 to control the operation of the cylinder 33.

The cylinder 33 is arranged at the bottom of the bearing plate 28, a plate body is arranged at the bottom of the cylinder 33, the cylinder 33 controls the opening and closing of a bottom groove body of the bearing plate 28 through the plate body, the purpose of material guiding can be achieved through opening and closing control, and automatic production detection work is achieved.

The use method of the product quality nondestructive testing device comprises the following steps:

s1, firstly, combining a transmission separation structure 1, a first detection structure 2 and a second detection structure 3, storing a product to be detected in a storage box 4, then driving a transmission wheel 7 to work, and enabling the product in the storage box 4 to be transmitted to reach a screening frame 16 by rotating the transmission wheel 7, wherein the screening frame 16 is arranged in an inclined structure to slide the product;

s2, screening, conveying to a guide frame 14 position, conveying to a second conical frame 13 position through a screening frame 16, conveying products to a conveying belt 10 position by the guide frame 14, conveying the screened products to a first conical frame 12 position at the moment, conveying the products with larger particles to the second conical frame 13 position through the screening frame 16, hinging the guide frame 14 and the screening frame 16 through a second hinging frame 15 to realize angle adjustment, facilitating quick blanking work, communicating the first conical frame 12 with a first moisture detection part 17, communicating the second conical frame 13 with a second moisture detection part 18 to realize nondestructive detection work, and conveying the products to the centers of a storage barrel 20 and a protective bottom plate 21 through the first conical frame 12 and the second conical frame 13 respectively;

s3, finally, a motor 29 in the water-containing detection mechanism 22 is driven to drive the insulating base 23, the binding post 24, the first probe ring 26, the second probe ring 27 and the circuit control module 30 to rotate, reciprocating adjustment work is achieved, the circuit control module 30 controls the first probe ring 26 and the second probe ring 27 to work, the first probe ring 26 and the second probe ring 27 emit corresponding frequencies, water content detection is achieved through absorption monitoring, after detection is finished, the cylinder 33 is made to stretch and retract through the power supply 31 and the lead 32, the material body is discharged through the bottom of the bearing plate 28, and detection work is completed.

The working principle of the embodiment 1 is as follows: when the feeding device is used, the transmission separation structure 1, the first detection structure 2 and the second detection structure 3 are combined, a product to be detected is stored in the storage box 4, then the transmission wheel 7 is driven to work, the product in the storage box 4 can be transmitted to the position of the screening frame 16 by the rotation of the transmission wheel 7, the screening frame 16 is arranged in an inclined structure, the product can slide and can reach the position of the guide frame 14 after being screened, the screening frame 16 can reach the position of the second conical frame 13 through transmission, the guide frame 14 conducts the product to the position of the transmission belt 10, the screened product is transferred to the position of the first conical frame 12 at the moment, the product with larger particles can reach the position of the second conical frame 13 through the screening frame 16, the guide frame 14 can be hinged with the screening frame 16 through the second hinged frame 15, the angle adjustment can be realized, and the rapid feeding work can be conveniently carried out, the first conical frame 12 is communicated with the first moisture detection part 17, the second conical frame 13 is communicated with the second moisture detection part 18, nondestructive detection is realized, a product reaches the center of the storage barrel 20 and the protective bottom plate 21, the moisture detection mechanism 22 is driven to work at the moment, the motor 29 in the moisture detection mechanism 22 can be driven to drive the insulating seat 23, the binding post 24, the first probe ring 26, the second probe ring 27 and the circuit control module 30 to rotate, reciprocating adjustment is realized, the circuit control module 30 controls the first probe ring 26 and the second probe ring 27 to work, the first probe ring 26 and the second probe ring 27 emit corresponding frequencies, the detection of moisture content is realized through absorption monitoring, the specific monitoring technology adopts the prior art arrangement, after the detection is finished, the air cylinder 33 is made to extend and retract through the power supply 31 and the lead 32, the material body is guided and discharged through the bottom of the supporting plate 28, and the detection work is completed.

Example 2

On the basis of embodiment 1, as shown in fig. 10, a first partition 34 is fixedly connected to the protective bottom plate 21 near the storage bucket 20, and a second partition 35 is fixedly connected to the first partition 34.

In this embodiment, the first partition plate 34 and the second partition plate 35 are fixed to seal the tops of the first detection structure 2 and the second detection structure 3, so as to assist in isolating the inside and the outside, prevent the outside interference and reduce the dust entering.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a product quality nondestructive test device, includes transmission isolating construction (1), first detection structure (2) and second detection structure (3), the left side intercommunication of transmission isolating construction (1) has first detection structure (2), one side intercommunication that transmission isolating construction (1) deviates from first detection structure (2) has the second to detect structure (3), and first detection structure (2) are the same with the structure that the second detected structure (3), its characterized in that: the transmission separation structure (1) comprises a storage box (4), a support stand (5) and a fixed base plate (6), the upper end of the fixed base plate (6) is fixedly connected with the support stand (5), the inner end top of the transmission separation structure (1) is fixedly connected with the storage box (4), the transmission separation structure (1) further comprises a transmission wheel (7), an auxiliary bearing plate (8), a first hinged frame (9), a transmission belt (10), a connecting guide plate (11), a first conical frame (12), a second conical frame (13), a guide frame (14), a second hinged frame (15) and a screening frame (16), the auxiliary bearing plate (8) is fixedly connected to the lower end of the storage box (4), the center of the auxiliary bearing plate (8) is rotatably connected with the transmission wheel (7), the transmission wheel (7) is communicated with the screening frame (16), the lower end of the screening frame (16) is hinged to the guide frame (14) through the second hinged frame (15), the lower end of the screening frame (16) is communicated with the guide frame (14), one side of the screening frame (16) departing from the transmission wheel (7), one end of the first conical frame (13) is communicated with the guide frame (13), the upper end fixedly connected with of second conical frame (13) connects baffle (11), supplementary loading board (8) are articulated through first articulated frame (9) and screening frame (16) and are set up, and transmission band (10) adopt two-way transmission.

2. The nondestructive inspection apparatus for product quality as set forth in claim 1, wherein: the first detection structure (2) comprises a first moisture detection component (17), a second moisture detection component (18) and a third moisture detection component (19), the right side of the first moisture detection component (17) is fixedly connected with the second moisture detection component (18), the right side of the second moisture detection component (18) is fixedly connected with the third moisture detection component (19), and the internal structures of the first moisture detection component (17), the second moisture detection component (18) and the third moisture detection component (19) are the same.

3. The nondestructive inspection apparatus for product quality as set forth in claim 2, wherein: third moisture detection part (19) are including bucket (20), protection bottom plate (21) and moisture detection mechanism (22), the upper end fixedly connected with bucket (20) of protection bottom plate (21), the rear end fixedly connected with moisture detection mechanism (22) of bucket (20).

4. The nondestructive inspection apparatus for product quality as set forth in claim 3, wherein: moisture detection mechanism (22) are including insulating seat (23), terminal (24), protection baffle (25), first probe ring (26), second probe ring (27), bearing board (28), motor (29) and circuit control module (30), the upper end fixedly connected with protection baffle (25) of bearing board (28), motor (29) are installed to the center of bearing board (28), the upper end of motor (29) is rotated and is connected with circuit control module (30), the upper end of circuit control module (30) is passed through terminal (24) and is visited ring (26), second and visit ring (27) and communicate respectively, insulating seat (23) have been cup jointed to the upper end of terminal (24).

5. The nondestructive inspection apparatus for product quality as set forth in claim 4, wherein: first toper frame (12) are linked together with first moisture detection part (17), third moisture detection part (19) respectively, second toper frame (13) are linked together with second moisture detection part (18), first toper frame (12) are equipped with four, first toper frame (12) adopt the symmetry to set up, and about second toper frame (13) symmetric distribution, two in four first toper frames (12) are linked together with third moisture detection part (19), and other two in four first toper frames (12) are linked together with first moisture detection part (17).

6. The nondestructive inspection apparatus for product quality as set forth in claim 5, wherein: the lower extreme of screening frame (16) is equipped with the filter tank, and the filter tank is linked together with guide frame (14), and guide frame (14) are linked together through transmission band (10) and first toper frame (12), one side that screening frame (16) deviates from transmission wheel (7) is close to second toper frame (13).

7. The nondestructive inspection apparatus for product quality as set forth in claim 6, wherein: moisture detection mechanism (22) include power (31), wire (32) and cylinder (33), the lower extreme of power (31) is connected with wire (32), the lower extreme of wire (32) is connected with cylinder (33).

8. The nondestructive inspection apparatus for product quality as set forth in claim 7, wherein: the cylinder (33) is arranged at the bottom of the bearing plate (28), a plate body is arranged at the bottom of the cylinder (33), and the cylinder (33) controls the opening and closing of a bottom groove body of the bearing plate (28) through the plate body.

9. The nondestructive inspection apparatus for product quality as set forth in claim 8, wherein: the protective bottom plate (21) is fixedly connected with a first partition plate (34), and the first partition plate (34) is fixedly connected with a second partition plate (35).

10. A method of using a nondestructive inspection apparatus for product quality as defined in claim 8, comprising the steps of:

s1, firstly, combining a transmission separation structure (1), a first detection structure (2) and a second detection structure (3), storing a product to be detected in a storage box (4), then driving a transmission wheel (7) to work, and rotating the transmission wheel (7) to transmit the product in the storage box (4) to reach the position of a screening frame (16), wherein the screening frame (16) is arranged in an inclined structure to slide the product;

s2, then, the product reaches the position of a guide frame (14) through screening, the product is transmitted through the screening frame (16) and reaches the position of a second conical frame (13), the guide frame (14) transmits the product to the position of a conveying belt (10), at the moment, the screened product is transmitted to the position of a first conical frame (12), the product with larger particles reaches the position of the second conical frame (13) through the screening frame (16), the guide frame (14) is hinged with the screening frame (16) through a second hinged frame (15), angle adjustment is achieved, rapid blanking work is facilitated, the first conical frame (12) is communicated with a first moisture detection part (17), the second conical frame (13) is communicated with a second moisture detection part (18), nondestructive detection work is achieved, and the product reaches the centers of a storage barrel (20) and a protective bottom plate (21) through the transmission of the first conical frame (12) and the second conical frame (13) respectively;

s3, finally, drive motor (29) inside moisture detection mechanism (22), drive insulating seat (23), terminal (24), first probe ring (26), second probe ring (27), circuit control module (30) rotate, realize reciprocal regulation work, circuit control module (30) control first probe ring (26), second probe ring (27) carry out work, first probe ring (26), second probe ring (27) launch corresponding frequency, through absorbing the monitoring, realize the detection of water content, after the detection finishes, through power (31), wire (32), make cylinder (33) stretch out and draw back, make the material body discharge through the bottom of bearing plate (28), accomplish detection work.

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