WO2023133863A1

WO2023133863A1 - Integrated device applied to quality inspection of preserved fruit products

Info

Publication number: WO2023133863A1
Application number: PCT/CN2022/072191
Authority: WO
Inventors: 李倩; 张永利
Original assignee: 广州工商学院
Priority date: 2022-01-15
Filing date: 2022-01-15
Publication date: 2023-07-20
Also published as: CN117597203A

Abstract

An integrated device applied to quality inspection of preserved fruit products, comprising: an outer cylinder frame (1), an inner column (2) being fixedly mounted on the inner wall of the top of the outer cylinder frame (1), the outer cylinder frame (1) and the inner column (2) being coaxially arranged, a feeding funnel (3) used for charging being fixedly embedded in the top edge of the inner column (2), and the bottom of the inner column (2) being coaxially sleeved with a sleeve (4) to form a sliding lifting structure; and further comprising: a first screen ring (5), the sleeve (4) being coaxially connected to the bottom surface of the inner side of the first screen ring (5), the first screen ring (5) being coaxially attached between the inner wall of the outer cylinder frame (1) and the outer wall of the inner column (2), a ring plate (6) being coaxially mounted on the bottom edge of the first screen ring (5), the outer wall of the ring plate (6) being in contact with the inner wall of the outer cylinder frame (1), and the inner side of the ring plate (6) being provided with pull rods (7) distributed at an equal angle. The integrated device applied to quality inspection of preserved fruit products has higher degree of automation, and during inspection, can automatically sort out incomplete products in preserved fruit products, thereby improving working efficiency and reducing labor intensity, and the device further has quantitative discharging capability, thereby achieving richer functions.

Description

An integrated device applied to the quality inspection of preserved fruit products

technical field

The invention relates to the technical field of preserved fruit production, in particular to an integrated device for quality detection of preserved fruit products.

Background technique

Preserved fruit products include preserved plums, dried mangoes, and preserved apricots. During the production process of preserved plums, it is necessary to use a quality inspection device to detect the content of defective products in the product. However, there are still some problems in the existing preserved fruit product inspection devices:

The preserved fruit product testing devices on the market have a low degree of automation. During the test, the user needs to manually take out the defective products in the preserved fruit product, thereby reducing work efficiency and increasing labor intensity, and the functionality of the device is single.

In view of the above problems, it is urgent to carry out innovative design on the basis of the original preserved fruit product detection device.

Contents of the invention

The object of the present invention is to provide a kind of integrated device that is applied to the quality detection of preserved fruit products, to solve the above-mentioned background technology, propose the existing preserved fruit product detection device, its degree of automation is low, during detection, needs the user to manually put the preserved fruit products Incomplete products in fruit products are taken out, thereby reducing work efficiency, increasing labor intensity, and the problem of single functionality of the device.

In order to achieve the above object, the present invention provides the following technical solutions: an integrated device for quality detection of preserved fruit products, comprising:

The outer cylinder frame has an inner column fixedly installed on the top inner wall, and the two are arranged coaxially. The top edge of the inner column is fixedly embedded with a feeding cylinder for feeding, and the bottom of the inner column is coaxially sleeved with a sleeve. The cylinder forms a sliding lifting structure;

Also includes:

The first sieve ring is coaxially connected with the sleeve on its inner bottom surface, and the first sieve ring is coaxially attached between the inner wall of the outer cylinder frame and the outer wall of the inner column, and the first sieve ring is A ring plate is coaxially installed at the edge of the bottom, and the outer wall of the ring plate is in contact with the inner wall of the outer cylinder frame, and the inner side of the ring plate is provided with equiangularly distributed tie rods, and the top ends of the tie rods are vertically connected to the first screen ring and the bottom of the pull rod is slidably inserted inside the positioning cylinder, and the first spring that plays a reset role is fixedly connected between the bottom end of the pull rod and the inner wall of the positioning cylinder, and the bottom surface of the positioning cylinder is connected vertically on the inner ring frame, and the outer wall of the inner ring frame is coaxially attached to the inner wall of the outer tube frame to play a position-limiting role, and the side wall of the inner ring frame is fixedly connected with a gear ring arranged coaxially, and The gear ring is rotatably embedded in the annular groove provided on the inner wall of the outer cylinder frame;

The bearing cylinder is arranged to slide through the outer support plate of the outer cylinder frame. Pressure sensors are symmetrically distributed on both sides of the bearing cylinder, and the pressure sensors are fixedly embedded on the support plate of the outer cylinder frame.

Preferably, a power gear is provided on the side of the gear ring to form a meshing transmission structure, and the power gear rotates through the outer cylinder frame, and the power gear is fixedly installed on the end of the output shaft of the first motor, and the first The motor is fixedly connected to the outer wall of the outer barrel frame, so that the first motor can drive the gear ring to rotate through the power gear.

Preferably, there is a gap between the bottom surface of the inner wall of the sleeve and the bottom of the inner column, and a force block is fixedly installed at the center of the bottom of the sleeve, and the force block is in contact with the side wall of the cam, the The cam is fixedly installed on the output shaft of the second motor, and the second motor is fixedly connected to the inner ring frame, and the bottom surface of the inner ring frame is coaxially connected with a discharge hopper, so that the second motor can exert force on the stressed block through the cam. thrust.

Preferably, a box body is fixedly installed on the side wall of the inner column, and a guide plate is attached to the inner side of the box body, and the side wall of the guide plate is in contact with the outer wall of the inner column, so that the guide plate can Up and down movement in the body.

Preferably, second springs distributed at equal intervals are fixedly connected between the top of the guide plate and the inner wall of the box, and the brushes provided at the bottom of the guide plate contact the first screen ring to form a cleaning structure, and the guide plate The inclined setting is used to guide the product on the first screen ring, so that the second spring can exert a thrust on the guide plate.

Preferably, the side wall of the box body is fixedly connected in the outlet of the outer cylinder frame, and a grooved pipe is arranged below the box body, and one end of the grooved pipe is fixedly connected to the outer wall of the outer cylinder frame, and the grooved pipe The other end is located directly above the carrying cylinder, so that the products in the grooved tube can fall into the carrying cylinder.

Preferably, the bottom surface of the inner wall of the grooved tube is inclined at an angle of 40° to the horizontal plane so that the preserved fruit product rolls off, and the groove width of the grooved tube is greater than the width of the discharge opening of the outer cylinder frame to prevent the preserved fruit product from falling out of the groove. Accidentally dropped inside the tube.

Preferably, a guide plate is provided above the side of the grooved tube close to the outer cylinder frame, and the axis of the guide plate is perpendicular to the plane where the first screen ring is located, so that the guide plate can guide the preserved fruit products to move.

Preferably, the lower port of the bearing cylinder is fitted with a baffle plate for sealing, and the baffle plate has a fan-shaped structure, and the output shaft of the third motor is fixedly connected to the center of the baffle plate, and the third motor It is fixedly installed on the side wall of the bearing cylinder, so that the third motor can drive the baffle to rotate.

Preferably, the upper part of the side wall of the bearing cylinder is coaxially provided with a convex ring, and the bottom surface of the convex ring is attached to the top of the pressure sensor to form a weighing structure, and the bearing cylinder has a funnel-shaped structure, which is monitored in real time by the pressure sensor Carrying the overall weight of the cylinder.

Compared with the prior art, the beneficial effect of the present invention is: the integrated device applied to the quality detection of preserved fruit products has a higher degree of automation, and can automatically sort out defective products in preserved fruit products during detection, thereby The work efficiency is improved, the labor intensity is reduced, and the device also has the ability of quantitative discharge, and the functions are more abundant. The specific contents are as follows:

1. A sleeve is coaxially connected to the inner bottom surface of the first screen ring. The top end of the tie rod is vertically connected to the bottom surface of the first screen ring. The bottom of the tie rod is slid and inserted inside the positioning cylinder. The first spring that plays a reset role is fixedly connected between them, and the elastic installation structure of the first screen ring is formed through the above-mentioned components. A force-bearing block is fixedly installed at the center of the bottom of the sleeve, and the force-bearing block contacts the side wall of the cam. The cam is fixedly installed on the output shaft of the second motor. When the second motor drives the cam to rotate, the cam can push the force block, so that the force block drives the first screen ring to vibrate, so as to improve the vibration of the first screen ring. Sorting efficiency of Shanghua Meiliangguo;

2. The outlet of the grooved tube is located directly above the bearing cylinder. The bearing cylinder slides through the support plate outside the outer cylinder frame. Pressure sensors are symmetrically distributed on both sides of the bearing cylinder, and the pressure sensors are fixed embedded in the support plate of the outer cylinder frame. On the top, the convex ring on the upper part of the side wall of the carrying cylinder contacts with the pressure sensor to form a weighing structure. When the plum fruit falls into the carrying cylinder through the groove tube, the pressure of the carrying cylinder on the pressure sensor increases, so that the pressure sensor can calculate Get the weight of preserved fruit products.

Description of drawings

Fig. 1 is a schematic diagram of the overall external structure of the present invention;

Fig. 2 is a schematic diagram of the installation structure of the feeding cylinder of the present invention;

Fig. 3 is a schematic diagram of the power gear transmission structure of the present invention;

Fig. 4 is a schematic diagram of the installation structure of the first screen ring of the present invention;

Fig. 4a is a schematic diagram of the first structure of the second sieve ring of the present invention;

Fig. 4b is a schematic diagram of the second structure of the second sieve ring of the present invention;

Fig. 5 is a schematic diagram of the installation structure of the sleeve of the present invention;

Fig. 6 is a schematic diagram of the cam installation structure of the present invention;

Fig. 7 is a schematic diagram of the installation structure of the guide plate of the present invention;

Fig. 7a is another schematic structural view of the guide plate of the present invention;

Fig. 8 is a schematic diagram of the installation structure of the grooved pipe of the present invention;

Fig. 9 is a schematic diagram of the installation structure of the baffle of the present invention;

Fig. 10 is a schematic diagram of the installation structure of the discharge hopper of the present invention;

Fig. 11 is a schematic diagram of the installation structure of the inner column of the present invention.

In the figure: 1. Outer cylinder frame; 2. Inner column; 3. Feeding cylinder; 4. Sleeve; 5. First sieve ring; 51. First sieve hole; 52. Second sieve hole; 53. Second Screen ring; 531, ring body; 532, ring seat; 533, ring column; 6, ring plate; 7, pull rod; 8, positioning cylinder; 9, first spring; 10, inner ring frame; 11, gear ring; 12 1, power gear; 13, first motor; 14, discharge hopper; 15, second motor; 16, cam; 17, force block; 18, box; 19, second spring; 20, guide plate; 201, guide cavity; 202, scraper; 203, L-shaped handle; 204, brush seat; 205, brush; 21, grooved pipe; 22, bearing cylinder; 23, pressure sensor; 24, baffle plate;

Detailed ways

The following will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some, not all, embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present invention.

Please refer to Figures 1-11, the present invention provides a technical solution: an integrated device for quality testing of preserved fruit products, including:

The outer tube frame 1 has an inner column 2 fixedly installed on the inner wall of its top, and the two are arranged coaxially. The top edge of the inner column 2 is fixedly embedded with a feeding cylinder 3 for feeding, and the bottom of the inner column 2 is coaxial A sleeve 4 is provided to form a sliding lifting structure;

Also includes:

The first sieve ring 5 has a sleeve 4 coaxially connected to its inner bottom surface, and the first sieve ring 5 is coaxially attached between the inner wall of the outer cylinder frame 1 and the outer wall of the inner column 2, and the bottom of the first sieve ring 5 A ring plate 6 is coaxially installed at the edge, and the outer wall of the ring plate 6 is in contact with the inner wall of the outer cylinder frame 1, and the inner side of the ring plate 6 is provided with equiangularly distributed tie rods 7, and the top of the tie rods 7 is vertically connected to the first screen On the bottom surface of the ring 5, the bottom of the pull rod 7 is slidably inserted inside the positioning cylinder 8, and the bottom end of the pull rod 7 and the inner wall of the positioning cylinder 8 are fixedly connected with the first spring 9 which plays a reset role, and the positioning cylinder 8 The bottom surface of the inner ring frame 10 is vertically connected to the inner ring frame 10, and the outer wall of the inner ring frame 10 is coaxially attached to the inner wall of the outer tube frame 1 to play a position-limiting role, and the side wall of the inner ring frame 10 is fixedly connected with a coaxial arrangement The gear ring 11, and the gear ring 11 is rotatably embedded in the annular groove provided on the inner wall of the outer cylinder frame 1;

The bearing cylinder 22 is set slidingly through the outer support plate of the outer cylinder frame 1 , and pressure sensors 23 are symmetrically distributed on both sides of the bearing cylinder 22 , and the pressure sensors 23 are fixedly embedded on the support plate of the outer cylinder frame 1 .

The side of the ring gear 11 is provided with a power gear 12 to form a meshing transmission structure, and the power gear 12 is rotated through the outer cylinder frame 1 and is fixedly installed on the output shaft end of the first motor 13, and the first motor 13 is fixedly connected on the outer wall of the outer cylinder frame 1, the first motor 13 drives the gear ring 11 which is meshed and connected through the power gear 12 to rotate, the gear ring 11 will drive the inner ring frame 10 to rotate, and the positioning cylinder installed at an equal angle on the inner ring frame 10 8 rotate synchronously, and the positioning cylinder 8 will drive the vibrating first screen ring 5 through the pull rod 7 to rotate synchronously.

Referring to Fig. 4a and Fig. 4b, the underside of the first sieve ring 5 is connected with a second sieve ring 53, preferably, the second sieve ring 53 is slidably arranged relative to the inner column 2, and the top end of the tie rod 7 is vertically connected to the On the bottom surface of the second sieve ring 53, the second sieve ring 53 includes a ring body 531, a ring seat 532 and a ring post 533; the bottom side of the ring body is connected to the top of the pull rod 7; the ring seat is connected to the ring body The upper side of the ring seat is set through the first screen hole; the ring post is connected to the upper side of the ring seat, and every four ring posts surround a second screen hole 52, and the diameter of the ring post is smaller than the first screen hole. The diameter of the sieve hole is set, that is, the diameter of the second sieve hole is smaller than the diameter of the first sieve hole; as above, the second sieve ring 53 is operated so that the second sieve ring slides relative to the inner column, when the upper side of the second sieve ring When abutting against the lower side of the first sieve ring, the second sieve ring is clamped on the inner column. At this time, every four ring columns surround and form a second sieve hole. The diameter of the first sieve hole and the second sieve hole Different, so that the present invention can set different specification parameters to realize the quality inspection of preserved fruit products, so that the usage scenarios are diversified.

There is a gap between the bottom surface of the inner wall of the sleeve 4 and the bottom of the inner column 2, and a force-bearing block 17 is fixedly installed at the center of the bottom of the sleeve 4, and the force-bearing block 17 is in contact with the side wall of the cam 16, and the cam 16 is fixed. Installed on the output shaft of the second motor 15, and the second motor 15 is fixedly connected on the inner ring frame 10, and the bottom surface of the inner ring frame 10 is coaxially connected with a discharge hopper 14, and the second motor 15 can drive the cam 16 to rotate , when the protruding part of the cam 16 is close to the attached force block 17, the cam 16 will exert an upward thrust on the force block 17, so that the force block 17 drives the sleeve 4 to move upward synchronously along the inner column 2, upward The moving sleeve 4 can drive the first screen ring 5 to move synchronously.

The side wall of the inner column 2 is fixedly equipped with a box body 18, and the inside of the box body 18 is fitted with a guide plate 20, and the side wall of the guide plate 20 is in contact with the outer wall of the inner column 2, and the top of the guide plate 20 is in contact with the box. The inner walls of the body 18 are fixedly connected with second springs 19 distributed at equal intervals, and the brushes provided at the bottom of the guide plate 20 contact the first screen ring 5 to form a cleaning structure, and the guide plate 20 is inclined to guide the first screen products on the ring 5, the second spring 19 exerts pressure on the guide plate 20 through the reset action, so that the bottom of the guide plate 20 can be close to the first screen ring 5, when the first screen ring 5 rotates, the first screen ring 5 The preserved fruit on top will slide along the side wall of guide plate 20.

Referring to Fig. 7a, the inner side of the guide plate 20 forms a guide cavity 201, and the side of the guide plate 20 is slidingly provided with a scraper 202. It is also possible to push preserved fruit products into the groove pipe by sliding the scraper, and a brush assembly is slidably arranged in the guide cavity, and the brush assembly includes a brush seat 204, an L-shaped handle 203 and a hair brush 205; One end is slidably arranged on the inner wall of the guide plate, the other end of the L-shaped handle is connected to the brush seat, and a plurality of brushes are connected to the brush seat; as set above, the operation of the L-shaped handle can make the brush assembly downward Sliding, thereby improving the cleaning action of the brush.

The side wall of the box body 18 is fixedly connected in the discharge opening of the outer cylinder frame 1, and a grooved pipe 21 is arranged below the box body 18, and one end of the grooved pipe 21 is fixedly connected on the outer wall of the outer cylinder frame 1, and the grooved pipe 21 The other end is located directly above the bearing cylinder 22, and the bottom surface of the inner wall of the grooved tube 21 is inclined at an angle of 40° to the horizontal plane so that the preserved fruit product rolls off. A guide plate 20 is arranged above the side of the grooved pipe 21 close to the outer cylinder frame 1, and the axis of the guide plate 20 is perpendicular to the plane where the first screen ring 5 is located. The baffle plate 24, and the baffle plate 24 has a fan-shaped structure, and the output shaft of the third motor 25 is fixedly connected to the center of the baffle plate 24, and the third motor 25 is fixedly installed on the side wall of the bearing cylinder 22, and the bearing cylinder 22 The upper part of the side wall is coaxially provided with a convex ring, and the bottom surface of the convex ring is attached to the top of the pressure sensor 23 to form a weighing structure, and the carrying cylinder 22 has a funnel-shaped structure, and the preserved fruit rolls into the carrying cylinder 22 through the grooved tube 21 , the preserved fruit will be piled up in the bearing tube 22, so that the overall weight of the bearing tube 22 will increase, and the pressure sensor 23 will sense the pressure change of the bearing tube 22, thereby measuring and calculating the weight of the preserved fruit in the bearing tube 22, when the weight of the preserved fruit When the weight reaches the set value, the pressure sensor 23 starts the third motor 25 through the control system, and the third motor 25 will drive the baffle 24 to rotate a certain angle, so that the baffle 24 no longer blocks the lower port of the bearing cylinder 22.

Working principle: When using the integrated device for quality inspection of preserved fruit products, first refer to Figure 1-11, the user pours the preserved plum fruit into the feeding barrel 3, and the preserved preserved fruit will pass through the feeding The barrel 3 falls on the first sieve ring 5, and the defective products in the preserved plum will fall into the discharge hopper 14 through the holes on the first sieve ring 5, and the defective products will be discharged through the discharge hopper 14, and then start the second Two motors 15, the cam 16 that is installed on the output shaft of the second motor 15 rotates synchronously, when the protruding portion of the cam 16 is close to the force bearing block 17 that fits, the cam 16 can apply upward thrust to the force bearing block 17, so that The force bearing block 17 drives the sleeve 4 to move upward synchronously along the inner column 2, because the sleeve 4 is coaxially connected to the inner bottom surface of the first screen ring 5, and the top end of the tie rod 7 is vertically connected to the bottom surface of the first screen ring 5 , and the bottom of the pull rod 7 is slidably inserted inside the positioning cylinder 8, and the first spring 9 that plays a reset role is fixedly connected between the bottom end of the pull rod 7 and the inner wall of the positioning cylinder 8, and the first sieve ring is formed by the above components 5, the elastic installation structure of 5 makes the sleeve 4 moving upwards drive the first screen ring 5 to move synchronously, and the pull rod 7 installed at the bottom of the first screen ring 5 stretches the first spring 9. When the protruding part of the cam 16 is far away from the force When block 17, the force block 17 is no longer under the pressure of the cam 16. At this time, the first spring 9 will drive the pull rod 7 to move downward through the reset action, and the pull rod 7 will drive the first screen ring 5 to move downward synchronously. It can be seen that, The constantly rotating cam 16 will drive the first sieve ring 5 to vibrate, so as to improve the sifting efficiency of the dialogue plum Liangguo. Moving into the box body 18, the second spring 19 connected between the guide plate 20 and the box body 18 is compressed, and when the first screen ring 5 moves downward, the second spring 19 exerts a reverse thrust on the guide plate 20 through the reset action , so that the guide plate 20 is close to the top of the first screen ring 5;

Referring to Figure 1-11, following the above steps, the first motor 13 is started synchronously, and the power gear 12 installed on the output shaft of the first motor 13 is set to rotate, so that the power gear 12 can drive the gear ring 11 that is meshed and connected to rotate, because the positioning cylinder The bottom surface of 8 is vertically connected to the inner ring frame 10, and the outer wall of the inner ring frame 10 is coaxially attached to the inner wall of the outer tube frame 1 to play a position-limiting role, and the side wall of the inner ring frame 10 is fixedly connected with a coaxial The gear ring 11 is set, and the gear ring 11 is rotated and embedded in the ring groove inside the outer cylinder frame 1. At this time, the gear ring 11 will drive the inner ring frame 10 to rotate, and the positioning cylinder 8 installed at an equal angle on the inner ring frame 10 rotates synchronously. , as can be seen from the above steps, the positioning cylinder 8 will drive the vibrating first sieve ring 5 to rotate synchronously through the pull rod 7, and the qualified preserved fruits on the first sieve ring 5 will follow the movement. When the first sieve ring 5 rotates, the guide plate The brush at the bottom of 20 will clean the holes on the first sieve ring 5. When the first sieve ring 5 drives the qualified preserved fruit to contact with the inclined guide plate 20, the preserved fruit will move along the side wall of the guide plate 20, thereby leaving The first sieve ring 5 and the outer tube frame 1 make the preserved fruit fall into the grooved tube 21, and then the dried fruit rolls into the bearing cylinder 22 through the grooved tube 21, because the bearing cylinder 22 slides through the support plate outside the outer cylinder frame 1 set, and the convex ring provided on the upper part of the side wall of the bearing cylinder 22 is in contact with the pressure sensor 23 to form a weighing structure, and the pressure sensor 23 is fixedly embedded on the support plate of the outer cylinder frame 1, and the lower port of the bearing cylinder 22 is covered by the baffle plate 24 Blocking, preserved fruit will be piled up in the bearing cylinder 22, so that the overall weight of the bearing cylinder 22 will increase. At this time, the pressure exerted by the bearing cylinder 22 on the pressure sensor 23 will increase synchronously, and the pressure change sensed by the pressure sensor 23 will be calculated. The weight of the preserved fruit in the carrying cylinder 22, when the weight of the preserved fruit reaches the set value, the pressure sensor 23 sends a closing command to the first motor 13 and the second motor 15 through the control system, and at the same time the third motor 25 starts, and the third motor 25 will drive the baffle plate 24 to rotate a certain angle, so that the baffle plate 24 will no longer block the lower port of the carrying cylinder 22, and the preserved fruit in the carrying cylinder 22 will be discharged through the lower port. After a period of time, the control system controls the third motor 25 is reversely rotated by the same angle, so that the baffle plate 24 blocks the lower port of the carrying cylinder 22 again, and then the first motor 13 and the second motor 15 are started again for the next cycle.

In the description of the present invention, unless otherwise stated, the meaning of "plurality" is two or more; the terms "upper", "lower", "left", "right", "inner", "outer" , "front end", "rear end", "head", "tail", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for the convenience of describing the present invention and simplifying the description, rather than Nothing indicating or implying that a referenced device or element must have a particular orientation, be constructed, and operate in a particular orientation should therefore not be construed as limiting the invention. In addition, the terms "first", "second", "third", etc. are used for descriptive purposes only and should not be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that unless otherwise specified and limited, the terms "connected" and "connected" should be understood in a broad sense, for example, it can be a fixed connection, a detachable connection, or an integral Ground connection; it can be mechanical connection or electrical connection; it can be direct connection or indirect connection through an intermediary. Those of ordinary skill in the art can understand the specific meanings of the above terms in the present invention in specific situations.

Although the present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art can still modify the technical solutions described in the aforementioned embodiments, or perform equivalent replacements for some of the technical features. Within the spirit and principles of the present invention, any modifications, equivalent replacements, improvements, etc., shall be included in the protection scope of the present invention.

Claims

An integrated device for quality testing of preserved fruit products, comprising:

The outer cylinder frame (1), the inner column (2) is fixedly installed on the top inner wall, the two are coaxially arranged, and the top edge of the inner column (2) is fixedly embedded with the feeding cylinder (3) for feeding , and the bottom coaxial sleeve of the inner column (2) is provided with a sleeve (4) to form a sliding lifting structure;

It is characterized in that it also includes:

The first sieve ring (5), the sleeve (4) is coaxially connected to the inner bottom surface, and the first sieve ring (5) is coaxially attached to the inner wall and inner column of the outer cylinder frame (1) Between the outer walls of (2), a ring plate (6) is coaxially installed at the bottom edge of the first screen ring (5), and the outer wall of the ring plate (6) is connected to the inner wall of the outer cylinder frame (1) contact, and the inner side of the ring plate (6) is provided with equiangular distribution of tie rods (7), the top of the tie rods (7) is vertically connected to the bottom surface of the first screen ring (5), and the bottom of the tie rods (7) Slidingly inserted in the inside of the positioning cylinder (8), and the first spring (9) that plays a reset role is fixedly connected between the bottom end of the pull rod (7) and the inner wall of the positioning cylinder (8), and the positioning cylinder The bottom surface of (8) is vertically connected to the inner ring frame (10), and the outer wall of the inner ring frame (10) is coaxially attached to the inner wall of the outer cylinder frame (1) to play a position-limiting role, and the inner ring A gear ring (11) arranged coaxially is fixedly connected to the side wall of the frame (10), and the gear ring (11) is rotatably embedded in an annular groove provided on the inner wall of the outer cylinder frame (1);

The bearing cylinder (22), which slides through the outer support plate of the outer cylinder frame (1), is provided with pressure sensors (23) symmetrically distributed on both sides of the bearing cylinder (22), and the pressure sensors (23) are fixedly embedded It is arranged on the support plate of the outer cylinder frame (1).
An integrated device for quality inspection of preserved fruit products according to claim 1, characterized in that: a power gear (12) is provided on the side of the gear ring (11) to form a meshing transmission structure, and the power gear (12) Rotate through the outer tube frame (1) and set, and the power gear (12) is fixedly installed on the output shaft end of the first motor (13), and the first motor (13) is fixedly connected to the outer tube frame ( 1) on the outer wall.
An integrated device for quality inspection of preserved fruit products according to claim 1, characterized in that there is a gap between the bottom surface of the inner wall of the sleeve (4) and the bottom of the inner column (2) , and the bottom center of the sleeve (4) is fixedly installed with a force block (17), and the force block (17) is in contact with the side wall of the cam (16), and the cam (16) is fixedly installed on the second motor (15) on the output shaft, and the second motor (15) is fixedly connected on the inner ring frame (10), and the bottom surface of the inner ring frame (10) is coaxially connected with a discharge hopper (14).
An integrated device for quality detection of preserved fruit products according to claim 1, characterized in that: a box (18) is fixedly installed on the side wall of the inner column (2), and the box (18 ) is fitted with a guide plate (20) on the inner side, and the side wall of the guide plate (20) is in contact with the outer wall of the inner column (2).
An integrated device applied to the quality detection of preserved fruit products according to claim 4, characterized in that: the top of the guide plate (20) is fixedly connected with the inner wall of the box (18) The second springs (19) are distributed at intervals, and the brushes arranged at the bottom of the guide plate (20) contact the first screen ring (5) to form a cleaning structure, and the guide plate (20) is inclined to guide the first screen ring ( 5) on the product.
An integrated device for quality detection of preserved fruit products according to claim 5, characterized in that: the side wall of the box (18) is fixedly connected in the discharge port of the outer cylinder frame (1), and the box A grooved pipe (21) is arranged below the body (18), and one end of the grooved pipe (21) is fixedly connected to the outer wall of the outer cylinder frame (1), and the other end of the grooved pipe (21) is located on the bearing cylinder (22) directly above.
An integrated device for quality inspection of preserved fruit products according to claim 6, characterized in that: the bottom surface of the inner wall of the grooved tube (21) is inclined at an angle of 40° to the horizontal plane so that preserved fruit products can roll off , and the groove width of the grooved pipe (21) is greater than the width of the outlet of the outer cylinder frame (1).
An integrated device for quality inspection of preserved fruit products according to claim 6, characterized in that: a guide plate (20) is arranged above the side of the grooved pipe (21) close to the outer cylinder frame (1) , and the axis of the guide plate (20) is perpendicular to the plane where the first screen ring (5) is located.
An integrated device for quality inspection of preserved fruit products according to claim 6, characterized in that: the lower port of the bearing cylinder (22) is fitted with a baffle (24) for sealing , and the baffle (24) has a fan-shaped structure, and the output shaft of the third motor (25) is fixedly connected to the center of the baffle (24), and the third motor (25) is fixedly installed on the bearing cylinder (22) on the side wall.
An integrated device for quality inspection of preserved fruit products according to claim 1, characterized in that: a convex ring is coaxially arranged on the upper part of the side wall of the carrying cylinder (22), and the bottom surface of the convex ring is arranged to fit A weighing structure is formed on the top of the pressure sensor (23), and the carrying cylinder (22) has a funnel-shaped structure.