CN216937192U

CN216937192U - Automatic product discharging mechanism

Info

Publication number: CN216937192U
Application number: CN202220580420.1U
Authority: CN
Inventors: 章微
Original assignee: Shenzhen Kaifa Technology Co Ltd
Current assignee: Shenzhen Kaifa Technology Co Ltd
Priority date: 2022-03-16
Filing date: 2022-03-16
Publication date: 2022-07-12
Anticipated expiration: 2032-03-16

Abstract

An automatic product discharging mechanism comprises a transmission module mechanism used for transmitting products (8) and a good product caching module mechanism which is arranged on the transmission module mechanism and used for sensing good products in the products (8) transmitted by the transmission module mechanism and lifting the good products for caching. The automatic product discharging mechanism is simple in mechanism and convenient to operate; the discharging is stable, a specially-assigned person is not required to operate all the time, a pile of products is taken away by the person at intervals, no quantity error exists, and the automatic packaging machine can be well matched for operation.

Description

Automatic product discharging mechanism

Technical Field

The utility model relates to the field of mechanical equipment, in particular to an automatic product discharging mechanism.

Background

At present, the production line flows the product, and the yields is bound as a set of encapsulation according to per predetermined quantity (for example, 10 or 12 etc.), and this process is mostly carried out with manual work mode, and specifically, the manual work can take one by one and pile up.

The feeding mode needs to consume manpower, quantity errors are easily caused, and meanwhile, good products and defective products are easily disordered and are difficult to meet production requirements.

SUMMERY OF THE UTILITY MODEL

Aiming at the technical problem, the utility model provides an automatic product discharging mechanism.

The technical scheme provided by the utility model is as follows:

the utility model provides an automatic product discharging mechanism which comprises a transmission module mechanism used for transmitting products and a good product caching module mechanism which is arranged on the transmission module mechanism and used for sensing a good product in the products transmitted by the transmission module mechanism and lifting the good product for caching.

In the automatic product discharging mechanism of the utility model, the transmission module mechanism comprises a belt for transmitting the product; the good product cache module mechanism also comprises two cache groove bodies which are respectively arranged on the transmission module mechanism and are respectively arranged at two sides of the belt, and the two cache groove bodies are oppositely arranged;

the good product cache module mechanism further comprises a first sensor used for sensing a good product in a product transmitted by the transmission module mechanism, the first sensor is used for blocking the good product so that the good product is limited between the two cache groove bodies, the jacking structure is used for jacking the good product blocked by the blocking structure and the limiting structure is arranged on the cache groove bodies and used for limiting the good product jacked by the jacking structure in the cache groove bodies.

In the automatic product discharging mechanism, the transmission module mechanism comprises a frame, and a belt is movably arranged on the frame; the transmission module mechanism also comprises a first side plate and a second side plate which are respectively supported and arranged on the rack; the first side plate and the second side plate are respectively arranged at two sides of the belt; the top surfaces of the first side plate and the second side plate are flush and higher than the belt;

the good product caching module mechanism comprises a first supporting plate and a second supporting plate, wherein the first supporting plate is respectively supported on the first side plate and the second side plate; a working window is arranged on the first supporting plate;

the good product cache module mechanism also comprises two first mounting seats which are respectively arranged on the first supporting plate; the first installation seats correspond to the cache tank bodies one by one, and the cache tank bodies are fixedly installed on the corresponding first installation seats;

the good product cache module mechanism also comprises two locking parts and a second supporting plate positioned below the belt; the two locking pieces are respectively arranged on two sides of the belt, and each locking piece is respectively fixedly connected with the first supporting plate and the second supporting plate;

the blocking structure and the jacking structure are both arranged on the second supporting plate; the good product buffer memory module mechanism further comprises a third mounting seat, and the first sensor is mounted on the second supporting plate through the third mounting seat.

In the automatic product discharging mechanism, the blocking structure comprises a push plate and a single-rod cylinder arranged on the second supporting plate;

the push plate is positioned below the cylinder body of the single-rod cylinder and is fixedly connected with the output end of the single-rod cylinder; two first through holes are formed in the second supporting plate;

the blocking structure comprises two guide shafts which are fixedly arranged on the push plate and respectively arranged on two sides of the single-rod cylinder, and the guide shafts correspond to the first through holes one to one; the guide shaft is slidably arranged in the corresponding first through hole in a penetrating manner and used for rising to penetrate through the working window so as to block good products.

In the automatic product discharging mechanism, the jacking structure comprises a fixed block, a connecting piece and a double-rod cylinder; the fixed block is fixedly arranged at the bottom of the second supporting plate; the output end of the double-rod cylinder is fixedly arranged on the fixed block;

the connecting piece is fixedly arranged on the cylinder body of the double-rod cylinder; two second through holes are also formed in the second supporting plate;

the jacking structure also comprises two jacking blocks which are respectively arranged on two sides of the connecting piece; the jacking blocks correspond to the second through holes one by one;

the two jacking blocks are respectively slidably arranged in the corresponding second through holes in a penetrating manner and used for lifting to penetrate through the working window to cooperatively jack up a good product.

In the automatic product discharging mechanism, the limiting structure comprises four second mounting seats supported and arranged on the first supporting plate; each first mounting seat corresponds to two second mounting seats respectively and is fixedly connected with the two corresponding second mounting seats;

each first mounting seat and the two corresponding second mounting seats form a U-shaped structure, and the corresponding buffer tank body is enclosed between the first mounting seats and the two corresponding second mounting seats; each second mounting seat is provided with a rotating shaft, and the limiting structure further comprises a wedge-shaped block which is rotatably arranged on the rotating shaft and used for limiting the good products jacked by the jacking structure in the cache groove body.

In the automatic product discharging mechanism, the rack comprises two side profile frames and a plurality of supporting beams, and each supporting beam is vertically and fixedly connected with the two side profile frames respectively;

the rack also comprises a vertical connecting block, a transverse connecting block, two side connecting blocks and two mounting vertical plates, wherein the mounting vertical plates correspond to the side profile racks one by one; the side section bar frame supports are arranged on the corresponding mounting vertical plates;

the side connecting blocks correspond to the side profile frames one by one; the side connecting blocks are arranged on the corresponding side profile frames; the transverse connecting blocks are respectively fixedly connected with the two side connecting blocks; the transverse connecting block is also supported and arranged on the vertical connecting block.

In the automatic product discharging mechanism, the bottom of each mounting vertical plate is correspondingly provided with a mounting bottom block, and the rack also comprises reinforcing ribs fixedly connected with the mounting vertical plates and the corresponding mounting bottom blocks respectively;

the bottom mounting block is installed to vertical connecting block bottom.

In the automatic product discharging mechanism, the transmission module mechanism further comprises a screw rod respectively rotatably mounted on the two side profile frames, a motor fixedly mounted on one side profile frame through a mounting plate, a first synchronizing wheel fixedly sleeved on an output shaft of the motor, a second synchronizing wheel fixedly sleeved on the screw rod and a synchronizing belt in transmission connection with the first synchronizing wheel and the second synchronizing wheel;

the transmission module mechanism also comprises driven shafts which are respectively and rotatably arranged on the two side connecting blocks; the belt is respectively connected on the screw rod and the driven shaft in a transmission way.

In the automatic product discharging mechanism, the transmission module mechanism further comprises a defective product cache box which is arranged on the vertical connecting block and used for storing defective products in the products.

The automatic product discharging mechanism is simple in mechanism and convenient to operate; the discharging is stable, a specially-assigned person is not required to operate all the time, a pile of products are taken away by the person at intervals, no quantity error exists, and the automatic packaging machine can be well matched for operation.

Drawings

The utility model will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a schematic view showing the overall structure of an automatic product discharging mechanism according to a preferred embodiment of the present invention;

FIG. 2 shows an exploded view of the automatic product discharge mechanism of FIG. 1;

FIG. 3 is a schematic structural diagram of a conveying module mechanism of the automatic product discharging mechanism shown in FIG. 1;

FIG. 4 is an exploded view of a good product buffer module mechanism of the automatic product discharging mechanism shown in FIG. 1;

FIG. 5 is a schematic structural diagram of the good product buffer module mechanism shown in FIG. 4;

FIG. 6 is a schematic view of another structure of the good buffer module mechanism shown in FIG. 4;

fig. 7 is a schematic diagram showing another structure of the good-product buffer module mechanism shown in fig. 4.

Detailed Description

In order to make the technical purpose, technical solutions and technical effects of the present invention more clear and facilitate those skilled in the art to understand and implement the present invention, the present invention will be further described in detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view showing the overall structure of an automatic product discharging mechanism according to a preferred embodiment of the present invention; FIG. 2 shows an exploded view of the automatic product discharge mechanism of FIG. 1; FIG. 3 is a schematic structural diagram of a conveying module mechanism of the automatic product discharging mechanism shown in FIG. 1; FIG. 4 is an exploded view of a good product buffer module mechanism of the automatic product discharging mechanism shown in FIG. 1; FIG. 5 is a schematic structural diagram of the good product buffer module mechanism shown in FIG. 4; FIG. 6 is a schematic view of another structure of the good buffer module mechanism shown in FIG. 4; fig. 7 is a schematic diagram showing another structure of the good-product buffer module mechanism shown in fig. 4.

The automatic product discharging mechanism comprises a transmission module mechanism for transmitting the products 8 and a good product caching module mechanism which is arranged on the transmission module mechanism and used for sensing the good products in the products 8 transmitted by the transmission module mechanism and lifting the good products for caching.

The technical scheme is a basic scheme, the upstream of the transmission module mechanism is butted with a product which is scanned with codes, the product flows from the upstream of the transmission module mechanism to the downstream of the transmission module mechanism, and the downstream of the transmission module mechanism is provided with a defective product cache area for collecting and caching defective products; one or more good product cache module mechanisms are arranged in the middle of the transmission module mechanism, the good product cache module mechanisms can sense the good products, then the good products are blocked, and the good products are lifted to be cached. Here, sensing good products and missing defective products is a conventional technique, and the sensing can be realized by the MES system.

Further, the conveying module mechanism comprises a belt 11 for conveying the product; the good product cache module mechanism further comprises two cache groove bodies 25 which are respectively arranged on the transmission module mechanism and are respectively arranged at two sides of the belt 11, and the two cache groove bodies 25 are oppositely arranged;

the good product cache module mechanism further comprises a first sensor 31 for sensing a good product in a product transmitted by the transmission module mechanism, and is used for blocking the good product so that the good product is limited between the two cache groove bodies 25, jacking structures for jacking the good product blocked by the blocking structures, and limiting structures arranged on the cache groove bodies 25 and used for limiting the good product jacked by the jacking structures in the cache groove bodies 25.

In this embodiment, the good products can be buffered between the two buffer tanks 25 by the good product buffer module mechanism. When the number of good products in the buffer tank 25 reaches a certain number, the buffer tank 25 can be taken away together with the good products.

Further, in this embodiment, the transmission module mechanism includes a frame, and the belt 11 is movably mounted on the frame; the transmission module mechanism further comprises a first side plate 6 and a second side plate 10 which are respectively supported and arranged on the rack; the first side plate 6 and the second side plate 10 are respectively arranged at two sides of the belt 11; the top surfaces of the first side plate 6 and the second side plate 10 are flush and higher than the belt 11;

the good product cache module mechanism comprises a first supporting plate 47 which is respectively supported and arranged on the first side plate 6 and the second side plate 10; a working window is arranged on the first supporting plate 47;

the good product cache module mechanism further comprises two first mounting seats 45 respectively mounted on the first supporting plate 47; the first installation seats 45 correspond to the cache groove bodies 25 one by one, and the cache groove bodies 25 are fixedly installed on the corresponding first installation seats 45;

the good product cache module mechanism further comprises two locking pieces 44 and a second supporting plate 33 positioned below the belt 11; two locking pieces 44 are respectively arranged at two sides of the belt 11, and each locking piece 44 is fixedly connected with the first supporting plate 47 and the second supporting plate 33 respectively;

the blocking structure and the jacking structure are both arranged on the second supporting plate 33; the good product buffer module mechanism further includes a third mounting seat 32, and the first sensor 31 is mounted on the second supporting plate 33 through the third mounting seat 32.

Here, a mounting platform is formed by using the first support plate 47, the second support plate 33 and the two locking members 44 to mount and fix the blocking structure and the jacking structure.

Further, the machine frame comprises two side profile frames 19 and a plurality of supporting beams 12, wherein each supporting beam 12 is respectively and vertically and fixedly connected with the two side profile frames 19;

the rack also comprises a vertical connecting block 15, a horizontal connecting block 16, two side connecting blocks 17 and two mounting vertical plates 23, wherein the mounting vertical plates 23 correspond to the side profile frames 19 one by one; the side section bar frame 19 is supported and arranged on the corresponding mounting vertical plate 23;

the side connecting blocks 17 correspond to the side profile frames 19 one by one; the side connecting blocks 17 are arranged on the corresponding side profile frames 19; the transverse connecting blocks 16 are respectively fixedly connected with the two side connecting blocks 17; the transverse connecting block 16 is also supported on the vertical connecting block 15.

In the present embodiment, the supporting function is achieved by two mounting risers 23 and vertical connecting blocks 15.

The machine frame also comprises a flat sheet metal 24 connected between the two side profile frames 19. Through the plane panel beating 24, guarantee that the product can not drop in ground when following the belt motion.

Furthermore, the bottom of each mounting vertical plate 23 is correspondingly provided with a mounting bottom block 21, and the rack further comprises a reinforcing rib 22 fixedly connected with the mounting vertical plate 23 and the corresponding mounting bottom block 21.

Further, a bottom mounting block 14 is mounted at the bottom of the vertical connecting block 15.

Furthermore, the machine frame also comprises a switching block 20 for installing the installation vertical plate 23 on the corresponding side profile frame 19, and a limiting block 18 which is installed on the side profile frame 19 and used for limiting the corresponding side connecting block 17.

Further, the transmission module mechanism further comprises a screw rod 7 respectively rotatably mounted on the two side profile frames 19, a motor 1 fixedly mounted on one side profile frame 19 through a mounting plate 2, a first synchronizing wheel 3 fixedly sleeved on an output shaft of the motor 1, a second synchronizing wheel 5 fixedly sleeved on the screw rod 7 and a synchronizing belt 4 in transmission connection with the first synchronizing wheel 3 and the second synchronizing wheel 5.

The transmission module mechanism also comprises driven shafts 49 which are respectively and rotatably arranged on the two side connecting blocks 17; the belt 11 is respectively connected with the screw rod 7 and the driven shaft 49 in a transmission way. The transmission module mechanism further comprises a defective product cache box 13 which is arranged on the vertical connecting block 15 and used for storing defective products in products.

The transmission module mechanism further comprises an induction module 9 which is arranged on a side profile frame 19 and is used for inducing products. Here, after the product is sensed to response module 9, belt 11 begins the motion, and the yields is cached by yields cache module mechanism, and the defective products flow to defective products cache box 13, and the defective products cache is full back, can adopt the inductor to report to the police the suggestion and take away.

Further, in the present embodiment, the blocking structure includes a push plate 37 and a single-rod cylinder 36 mounted on the second support plate 33;

the push plate 37 is positioned below the cylinder body of the single-rod cylinder 36 and is fixedly connected with the output end of the single-rod cylinder 36; two first through holes are formed in the second support plate 33;

the blocking structure comprises two guide shafts 38 fixedly arranged on the push plate 37 and respectively arranged on two sides of the single-rod cylinder 36, wherein the guide shafts 38 correspond to the first through holes one by one; the guide shaft 38 is slidably disposed through the corresponding first through hole, and is used for ascending through the working window to block off the defective products and descending below the top surface of the first supporting plate 47 so as to facilitate the passage of the defective products in the products transported by the transport module mechanism.

Further, the jacking structure comprises a fixed block 48, a connecting piece 41 and a double-rod cylinder 46; the fixing block 48 is fixedly installed at the bottom of the second support plate 33; the output end of the double-rod cylinder 46 is fixedly mounted on a fixed block 48;

the connecting piece 41 is fixedly installed on the cylinder body of the double-rod cylinder 46; two second through holes are further formed in the second support plate 33;

the jacking structure also comprises two jacking blocks 42 which are respectively arranged at two sides of the connecting piece 41; the jacking blocks 42 correspond to the second through holes one by one;

the two jacking blocks 42 are slidably disposed through the corresponding second through holes respectively, and are used for lifting up and passing through the working window to cooperatively jack up good products, and are also used for lowering the top surface of the first supporting plate 47 so as to allow the products transmitted by the transmission module mechanism to pass through.

Further, in the present embodiment, the limiting structure includes four second mounting seats 30 supported on the first supporting plate 47; each first mounting seat 45 corresponds to two second mounting seats 30 respectively and is fixedly connected with the two corresponding second mounting seats 30;

each first mounting seat 45 and the two corresponding second mounting seats 30 form a U-shaped structure, and the corresponding buffer tank body 25 is enclosed between the two first mounting seats; each second mounting seat 30 is provided with a rotating shaft 29, and the limiting structure further comprises a wedge-shaped block 28 which is rotatably arranged on the rotating shaft 29 and used for limiting the good products jacked by the jacking structure in the buffer tank body 25.

Here, each buffer slot 25 has two opposite wedges 28, and when a good product is jacked up by the jacking structure, the good product will act on the wedges 28, so that the wedges 28 turn around the rotating shaft 29; when the good product is positioned above the wedge-shaped block 28, the wedge-shaped block 28 is reset under the action of gravity; then, after the jacking structure falls down, the two wedge-shaped blocks 28 in each buffer tank body 25 can be matched to block the good products, so that the good products are limited in the buffer tank bodies 25.

Further, in this embodiment, the good product buffer module mechanism further includes a second sensor 27 installed on the buffer tank 25. Specifically, a locking block 26 is fixedly mounted on the buffer tank body 25, and a second sensor 27 is fixedly mounted on the buffer tank body 25 through the locking block 26. Here, whether the number of products in the buffer tank 25 reaches a certain number is sensed by the second sensor 27.

Every yields cache module mechanism can set up the adjustment to the yields quantity of buffer memory according to actual need, the yields flows to yields cache regional back, yields cache module mechanism utilizes its first inductor to sense the yields, adopts its single pole cylinder to drive two direction axles and keeps off the yields, two pole cylinders drive connecting piece and jacking piece upwards with the yields jacking to the buffer memory cell in vivo, wedge automatic adjustment direction blocks the yields in the buffer memory cell, the yields is filled up in the buffer memory cell.

Further, in this embodiment, the good product buffer module mechanism further includes a speed regulating valve 35 installed on the single-rod cylinder 36, and the movement speed of the output end of the single-rod cylinder 36 can be adjusted through the speed regulating valve.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims

1. The automatic product discharging mechanism is characterized by comprising a transmission module mechanism for transmitting a product (8) and a good product caching module mechanism which is arranged on the transmission module mechanism and used for sensing a good product in the product (8) transmitted by the transmission module mechanism and lifting the good product for caching.

2. The automatic product discharge mechanism according to claim 1, wherein the conveying module mechanism comprises a belt (11) for conveying the product; the good product cache module mechanism also comprises two cache groove bodies (25) which are respectively arranged on the transmission module mechanism and are respectively arranged at two sides of the belt (11), and the two cache groove bodies (25) are oppositely arranged;

the good product cache module mechanism further comprises a first sensor (31) used for sensing a good product in a product transmitted by the transmission module mechanism, and the first sensor is used for blocking the good product so that the good product is limited between the two cache tank bodies (25), a jacking structure used for jacking the good product blocked by the blocking structure and a limiting structure arranged on the cache tank bodies (25) and used for limiting the good product jacked by the jacking structure in the cache tank bodies (25).

3. The automatic product discharge mechanism according to claim 2, wherein the conveying module mechanism comprises a frame, and the belt (11) is movably mounted on the frame; the transmission module mechanism also comprises a first side plate (6) and a second side plate (10) which are respectively supported and arranged on the rack; the first side plate (6) and the second side plate (10) are respectively arranged at two sides of the belt (11); the top surfaces of the first side plate (6) and the second side plate (10) are flush and higher than the belt (11);

the good product cache module mechanism comprises a first supporting plate (47) which is respectively supported on the first side plate (6) and the second side plate (10); a working window is arranged on the first supporting plate (47);

the good product cache module mechanism also comprises two first mounting seats (45) which are respectively arranged on the first supporting plate (47); the first installation seats (45) correspond to the buffer tank bodies (25) one by one, and the buffer tank bodies (25) are fixedly installed on the corresponding first installation seats (45);

the good product caching module mechanism also comprises two locking pieces (44) and a second supporting plate (33) positioned below the belt (11); the two locking pieces (44) are respectively arranged at two sides of the belt (11), and each locking piece (44) is respectively fixedly connected with the first supporting plate (47) and the second supporting plate (33);

the blocking structure and the jacking structure are both arranged on the second supporting plate (33); the good product buffer module mechanism further comprises a third mounting seat (32), and the first sensor (31) is mounted on the second supporting plate (33) through the third mounting seat (32).

4. The automatic product outfeed mechanism according to claim 3, wherein the blocking structure comprises a push plate (37) and a single-rod cylinder (36) mounted on the second support plate (33);

the push plate (37) is positioned below the cylinder body of the single-rod cylinder (36) and is fixedly connected with the output end of the single-rod cylinder (36); two first through holes are formed in the second supporting plate (33);

the blocking structure comprises two guide shafts (38) which are fixedly arranged on the push plate (37) and respectively arranged on two sides of the single-rod cylinder (36), and the guide shafts (38) correspond to the first through holes one by one; the guide shaft (38) is slidably arranged in the corresponding first through hole in a penetrating mode and used for rising to penetrate through the working window to block good products.

5. The automatic product discharging mechanism according to claim 3, wherein the jacking structure comprises a fixed block (48), a connecting piece (41) and a double-rod cylinder (46); the fixed block (48) is fixedly arranged at the bottom of the second supporting plate (33); the output end of the double-rod air cylinder (46) is fixedly arranged on the fixed block (48);

the connecting piece (41) is fixedly arranged on the cylinder body of the double-rod cylinder (46); two second through holes are also formed in the second supporting plate (33);

the jacking structure also comprises two jacking blocks (42) which are respectively arranged at two sides of the connecting piece (41); the jacking blocks (42) correspond to the second through holes one by one;

the two jacking blocks (42) are respectively slidably arranged in the corresponding second through holes in a penetrating manner and used for lifting to penetrate through the working window to cooperatively jack up a good product.

6. The automatic product discharge mechanism according to claim 5, wherein the limiting structure comprises four second mounting seats (30) supported and arranged on the first supporting plate (47); each first mounting seat (45) corresponds to two second mounting seats (30) respectively and is fixedly connected with the two corresponding second mounting seats (30);

each first mounting seat (45) and the two corresponding second mounting seats (30) form a U-shaped structure, and the corresponding buffer tank body (25) is enclosed between the two first mounting seats; each second mounting seat (30) is provided with a rotating shaft (29), and the limiting structure further comprises a wedge-shaped block (28) which is rotatably arranged on the rotating shaft (29) and used for limiting the good products jacked by the jacking structure in the buffer tank body (25).

7. The automatic product discharge mechanism according to claim 3, characterized in that the machine frame comprises two side profile frames (19) and a plurality of supporting beams (12), each supporting beam (12) being vertically and fixedly connected with the two side profile frames (19), respectively;

the rack also comprises a vertical connecting block (15), a horizontal connecting block (16), two side connecting blocks (17) and two mounting vertical plates (23), wherein the mounting vertical plates (23) correspond to the side profile frames (19) one by one; the side section bar frame (19) is supported and arranged on the corresponding mounting vertical plate (23);

the side connecting blocks (17) correspond to the side profile frames (19) one by one; the side connecting blocks (17) are arranged on the corresponding side profile frames (19); the transverse connecting blocks (16) are respectively fixedly connected with the two side connecting blocks (17); the transverse connecting block (16) is also supported and arranged on the vertical connecting block (15).

8. The automatic product discharging mechanism according to claim 7, wherein a mounting bottom block (21) is correspondingly mounted at the bottom of each mounting vertical plate (23), and the machine frame further comprises a reinforcing rib (22) fixedly connected with the mounting vertical plate (23) and the corresponding mounting bottom block (21);

and a bottom mounting block (14) is mounted at the bottom of the vertical connecting block (15).

9. The automatic product discharging mechanism according to claim 7, wherein the transmission module mechanism further comprises a screw rod (7) rotatably mounted on the two side profile frames (19), a motor (1) fixedly mounted on one side profile frame (19) through a mounting plate (2), a first synchronizing wheel (3) fixedly sleeved on an output shaft of the motor (1), a second synchronizing wheel (5) fixedly sleeved on the screw rod (7), and a synchronizing belt (4) drivingly connected to the first synchronizing wheel (3) and the second synchronizing wheel (5);

the transmission module mechanism also comprises driven shafts (49) which are respectively and rotatably arranged on the two side connecting blocks (17); the belt (11) is respectively connected with the screw rod (7) and the driven shaft (49) in a transmission way.

10. The automatic product discharging mechanism according to claim 7, wherein the conveying module mechanism further comprises a defective product buffer box (13) mounted on the vertical connecting block (15) and used for storing defective products in the products.