CN109353594B

CN109353594B - Full-automatic fodder racking machine

Info

Publication number: CN109353594B
Application number: CN201811293783.1A
Authority: CN
Inventors: 张大拯
Original assignee: Shandong Mingbang Food Co Ltd
Current assignee: Shandong Mingbang Food Co., Ltd
Priority date: 2018-11-01
Filing date: 2018-11-01
Publication date: 2020-11-13
Anticipated expiration: 2038-11-01
Also published as: CN109353594A

Abstract

The invention discloses a full-automatic feed racking machine which comprises a base, wherein a feed bin for containing feed is arranged on the base, a valve plate matched with a discharge port of the feed bin is connected to the base in a sliding manner below the discharge port of the feed bin, and the valve plate is connected to the base in a sliding manner through a reset assembly; the base is rotatably connected with a funnel below the storage bin through a hinge point, and one end of the funnel is in transmission with the valve plate through a first pull rope; the funnel comprises a first baffle and a second baffle, the first baffle is connected to the base in a sliding mode through a guide assembly, side plates are arranged on the front side and the rear side of the second baffle respectively, gaps are formed between the two side plates and the end portion of the second baffle, and the first baffle is matched with or separated from the gaps; be equipped with on the base be used for with the spacing subassembly of funnel complex, the base has the balladeur train in funnel below sliding connection, has placed on the balladeur train and is used for accomodating the feed cylinder that discharges the fodder from the funnel. The utility model provides a full-automatic fodder racking machine that dress in-process fodder can not spill and the partial shipment structure is more automatic.

Description

Full-automatic fodder racking machine

Technical Field

The invention relates to the field of pet feed production and processing, in particular to a full-automatic feed racking machine.

Background

In the automatic pet feed production and processing process, the situation of equally dividing the pet feed is often encountered, so that a large share of the feed is equally divided into a plurality of small shares of the feed, and the concept of pet feed split charging is realized. Among the prior art partial shipment device includes: a storage bin for containing feed is arranged on the base, and the feed can be automatically discharged from a discharge port at the lower end of the storage bin by virtue of the gravity of the feed; the base is connected with a sliding table below the storage bin in a sliding manner, and a charging barrel for containing feed discharged from the storage bin is placed on the sliding table; the base is provided with a cylinder for driving the sliding table to reciprocate on the base, and the output end of the cylinder is connected with the sliding table; in the specific working process: the cylinder is in reciprocating motion at regular time to drive the feed barrel on the sliding table to do reciprocating motion relative to the storage bin at regular time, or the feed barrel intermittently generates relative motion relative to the storage bin, when the feed barrel is positioned below the storage bin, feed in the storage bin can be discharged to the feed barrel, and after the feed barrel is full of feed, the cylinder can drive the feed barrel to move so that the feed barrel and the storage bin are staggered, so that the feed in the storage bin cannot be discharged into the feed barrel, and the feed in each feed barrel is ensured to be equal; wherein, the misplacement of the charging barrel and the storage bin means that a feeding hole at the upper end of the charging barrel and a discharging hole at the lower end of the storage bin are not in the same vertical direction. This kind of partial shipment structure leads to the fodder to spill the phenomenon everywhere easily in concrete working process, mainly because the feed cylinder drives down with the storage silo dislocation state, the fodder in the storage silo still can outwards discharge the fodder because of action of gravity, this imagination that has just led to the fodder to spill everywhere, that is to say, prior art's partial shipment structure degree of automation is not high enough.

Disclosure of Invention

The invention aims to solve the technical problem of overcoming the defects of the prior art and provides a full-automatic feed racking machine which can prevent feed from scattering in a racking process and has a more automatic racking structure.

The technical scheme of the invention is to provide a full-automatic feed racking machine with the following structure: the feed bin device comprises a base, wherein a feed bin for containing feed is arranged on the base, a valve plate matched with a discharge port of the feed bin is connected to the base in a sliding mode below the discharge port of the feed bin, and the valve plate is connected to the base in a sliding mode through a reset assembly; the base is rotatably connected with a funnel below the storage bin through a hinge point, and one end of the funnel is in transmission with the valve plate through a first pull rope; the funnel comprises a first baffle and a second baffle, the first baffle is connected to the base in a sliding mode through a guide assembly, side plates are arranged on the front side and the rear side of the second baffle respectively, gaps are formed between the two side plates and the end portion of the second baffle, and the first baffle is matched with or separated from the gaps; the base is provided with a limiting assembly matched with the funnel, the base is connected with a sliding frame in a sliding manner below the funnel, and a feed distributing cylinder for containing feed discharged from the funnel is placed on the sliding frame; the sliding frame is connected with the second baffle plate through a second pull rope, and a linkage assembly for driving the first baffle plate to slide on the base is arranged between the sliding frame and the first baffle plate; the limiting assembly matched with the hopper is arranged on the base, namely a first cylindrical pin and a second cylindrical pin are arranged on the base, and the first cylindrical pin and the second cylindrical pin are respectively positioned on two sides of a hinge point; a side plate on the funnel is provided with a vertical plate, the vertical plate is tightly abutted or separated from the first cylindrical pin, the second cylindrical pin is tightly abutted or separated from a second baffle plate on the funnel, one end of a first pull rope is connected with the valve plate, and the other end of the first pull rope is connected with the side plate on the funnel; when the vertical plate abuts against the first cylindrical pin, the gravity center of the funnel and the hinge point are not in the same vertical direction, and the gravity center of the funnel is positioned on one side, far away from the first baffle, of the funnel; the linkage assembly for driving the first baffle to slide on the base is arranged between the sliding frame and the first baffle, namely, a guide pillar is arranged at the lower end part of the sliding frame, a supporting block is arranged on the base, the guide pillar is connected to the supporting block in a sliding mode through a dovetail groove, and the sliding frame is connected to the base in a sliding mode through an elastic resetting assembly; the base is rotatably connected with a driving wheel, and a first linear rack which is meshed with the driving wheel for driving is arranged on the guide post; the base is connected with a transmission plate in a sliding mode through a sliding assembly, and a second linear rack which is used for being meshed with the transmission wheel for transmission is arranged at the lower end of the transmission plate; a first gear and a second gear which are in meshed transmission with each other are rotatably connected to the base, a third linear rack which is in meshed transmission with the second gear is arranged at the upper end of the transmission plate, and a fourth linear rack which is in meshed transmission with the first gear is arranged on the first baffle; the balladeur train indicates on the base through elasticity reset assembly sliding connection, and the supporting shoe is located the balladeur train below, is equipped with on the base to be used for supporting the stopper tight or break away from with the balladeur train upper end, is equipped with between balladeur train and the supporting shoe to be used for promoting the balladeur train to support and leans on the pressure spring on the stopper, and the pressure spring is located the balladeur train below, and pressure spring one end is connected with the ball.

Preferably, the valve plate is slidably connected to the base through the reset assembly, that is, the base is provided with a guide block, the valve plate is slidably connected to the guide block through a dovetail groove, the valve plate is provided with a projection for abutting against or disengaging from the guide block, a tension spring for pulling the projection to abut against the guide block is arranged between the valve plate and the base, one end of the tension spring is rotatably connected with the base, the other end of the tension spring is rotatably connected with the valve plate, and the tension spring and the projection are respectively positioned on two sides of the guide block.

Preferably, the base is rotatably connected with a guide wheel, the first pull rope is wound on the guide wheel, and the guide wheel is arranged to guide the routing of the first pull rope.

As an improvement of the invention, the first baffle is connected to the base in a sliding manner through the guide assembly, that is, the guide rod is arranged on the base, and the first baffle is provided with a blind hole for the guide rod to slide.

As an improvement of the invention, the base is connected with the transmission plate in a sliding manner through the sliding assembly, namely, the vertical block is arranged on the base, and the transmission plate is connected to the vertical block in a sliding manner through the dovetail groove.

After the structure is adopted, compared with the prior art, the full-automatic feed racking machine has the advantages that the feed is put into the hopper through the bin, and when the feed in the hopper is accumulated to a set value, the gravity of the hopper overcomes the tension of the tension spring on the hopper and suddenly deflects around a hinge point; when the funnel deflects, the funnel can drive the valve plate to slide through the first pull rope, so that the valve plate closes the stock bin; after the funnel rotates, the notch on the funnel and the first baffle are staggered, and the feed in the funnel leaks out of the notch and is discharged into the material distribution cylinder; moreover, as the feed in the feed dividing barrel is gradually increased, the feed dividing barrel can push the sliding frame to descend, the sliding frame drives the transmission plate to ascend through the transmission wheel, the transmission plate drives the first gear to rotate through being meshed with the second gear, the first gear drives the first baffle plate to slide on the guide rod through being meshed with the fourth linear rack, namely, the first baffle plate can move towards the direction away from the hinged point, so that the openings of the first baffle plate and the second baffle plate on the hopper are enlarged, and the feed in the hopper can be accelerated to be discharged to the feed dividing barrel; in addition, in the descending process of the sliding frame, the sliding frame can pull the hopper to abut against the second cylindrical pin through the second pull rope, so that the hopper can be prevented from being pulled and rotated by the tension spring due to the fact that the mass of the hopper is reduced after the hopper is arranged to the material distributing cylinder, namely, the hopper can be ensured to be completely discharged into the material distributing cylinder through the second pull rope, and the subpackaging work of one part of the hopper is finished; the feed in the feed bin can not be scattered all around in the whole sub-packaging process, because when the hopper discharges the feed into the feed distributing cylinder, the feed bin is closed by the valve plate; and, the linkage through driving plate and first baffle can accelerate the funnel to the speed of dividing the feed cylinder row material, can ensure through the second stay cord that the fodder is completely discharged to every branch feed cylinder in each portion of funnel in, improved the automation level of whole device partial shipment. In conclusion, the invention provides the full-automatic feed racking machine which can prevent feed from scattering in the racking process and has a more automatic racking structure.

Drawings

Fig. 1 is a schematic view of the full automatic fodder racking machine of the present invention.

FIG. 2 is a view showing the state of the funnel of the present invention abutting against the second cylindrical pin.

FIG. 3 is a diagram showing the state of the first baffle sliding on the guide rod in the state that the funnel of the present invention is abutted against the second cylindrical pin.

FIG. 4 is a schematic structural view of a second baffle plate and two side plates in the funnel of the present invention.

FIG. 5 is a schematic structural diagram of a first baffle, a second baffle and two side plates in the funnel of the present invention.

Fig. 6 is a schematic view of another angle of the funnel of the present invention.

Shown in the figure: 1. the feed bin, 2, the valve plate, 3, the funnel, 3.1, the pin joint, 3.2, first baffle, 3.3, the second baffle, 3.4, the breach, 4, the balladeur train, 5, the feed cylinder, 6, first stay cord, 7, the second stay cord, 8, the base, 9, the guide block, 10, the lug, 11, the extension spring, 12, the leading wheel, 13, the guide arm, 14, first cylindric lock, 15, the second cylindric lock, 16, the riser, 17, the guide pillar, 18, the supporting shoe, 19, the drive wheel, 20, the driving plate, 21, first gear, 22, the second gear, 23, the stopper, 24, the pressure spring, 25, the riser.

Detailed Description

The invention is further described with reference to the following figures and detailed description.

As shown in the figure, the full-automatic feed racking machine comprises a base 8, wherein a feed bin 1 for containing feed is arranged on the base 8, a valve plate 2 matched with a discharge port of the feed bin 1 is connected to the lower part of the discharge port of the feed bin 1 in a sliding manner on the base 8, the valve plate 2 is connected to the base 8 in a sliding manner through a resetting component, and the resetting component can drive the valve plate 2 to restore to an initial position after each time of racking is completed; the base 8 is rotatably connected with a funnel 3 below the stock bin 1 through a hinge point 3.1, and one end of the funnel 3 is in transmission with the valve plate 2 through a first pull rope 6; the funnel 3 comprises a first baffle 3.2 and a second baffle 3.3, the first baffle 3.2 is connected to the base 8 in a sliding mode through a guide assembly, side plates are arranged on the front side and the rear side of the second baffle 3.3 respectively, a gap 3.4 is formed between the two side plates and the end portion of the second baffle 3.3, and the first baffle 3.2 is matched with or separated from the gap 3.4; the base 8 is provided with a limiting assembly matched with the funnel 3, the limiting assembly can limit the range of the rotation angle of the funnel 3, the base 8 is connected with a sliding frame 4 below the funnel 3 in a sliding manner, and a feed distributing cylinder 5 used for containing feed discharged from the funnel 3 is placed on the sliding frame 4; the sliding frame 4 is connected with the second baffle 3.3 through a second pull rope 7, and a linkage assembly for driving the first baffle 3.2 to slide on the base 8 is arranged between the sliding frame 4 and the first baffle 3.2. Wherein, feed bin 1, valve plate 2, funnel 3 and minute feed cylinder 5 distribute in proper order on base 8, and the fodder of discharging also drops to in minute feed cylinder 5 after passing through breach 3.4 on funnel 3, the funnel 3 in proper order in the feed bin 1.

Valve plate 2 indicates through reset assembly sliding connection on base 8, is equipped with guide block 9 on the base 8, and valve plate 2 passes through dovetail sliding connection on guide block 9, is equipped with on the valve plate 2 to be used for supporting tight or the lug 10 that breaks away from with guide block 9, is equipped with between valve plate 2 and the base 8 to be used for pulling lug 10 and supports the extension spring 11 that leans on guide block 9, and extension spring 11 one end rotates with base 8 to be connected, and the other end rotates with valve plate 2 to be connected, and extension spring 11 is located guide block 9 both sides respectively with lug 10.

The base 8 is rotatably connected with a guide wheel 12, the first pull rope 6 is wound on the guide wheel 12, the first pull rope 6 can be guided through the arrangement of the guide wheel 12, and as shown in fig. 1, the pull force of the pull rope at the left end part of the first pull rope 6 on the valve plate 2 is towards the moving direction of the valve plate 2.

The first baffle 3.2 is slidably connected to the base 8 through the guide assembly means that the guide rod 13 is arranged on the base 8, and the first baffle 3.2 is provided with a blind hole for the guide rod 13 to slide, so that the first baffle 3.2 can slide along the length direction of the guide rod 13.

The limiting assembly which is arranged on the base 8 and used for being matched with the hopper 3 means that the base 8 is provided with a first cylindrical pin 14 and a second cylindrical pin 15, and the first cylindrical pin 14 and the second cylindrical pin 15 are respectively positioned at two sides of the hinge point 3.1; a vertical plate 16 is arranged on a side plate on the funnel 3, the vertical plate 16 is tightly abutted or separated from the first cylindrical pin 14, the second cylindrical pin 15 is tightly abutted or separated from the second baffle 3.3 on the funnel 3, one end of the first pull rope 6 is connected with the valve plate 2, and the other end of the first pull rope is connected with the side plate on the funnel 3; when the vertical plate 16 abuts against the first cylindrical pin 14, the gravity center of the funnel 3 and the hinge point 3.1 are not in the same vertical direction, and the gravity center of the funnel 3 is located on the side, far away from the first baffle 3.2, of the funnel 3.

A linkage assembly for driving the first baffle 3.2 to slide on the base 8 is arranged between the sliding frame 4 and the first baffle 3.2, namely, a guide pillar 17 is arranged at the lower end part of the sliding frame 4, a supporting block 18 is arranged on the base 8, the guide pillar 17 is connected on the supporting block 18 in a sliding manner through a dovetail groove, and the sliding frame 4 is connected on the base 8 in a sliding manner through an elastic resetting assembly; the base 8 is rotatably connected with a driving wheel 19, and a first linear rack which is meshed with the driving wheel 19 for driving is arranged on the guide post 17; the base 8 is connected with a transmission plate 20 in a sliding way through a sliding assembly, and the lower end part of the transmission plate 20 is provided with a second linear rack which is used for being meshed with the transmission wheel 19 for transmission; the base 8 is rotatably connected with a first gear 21 and a second gear 22 which are meshed with each other for transmission, the upper end of the transmission plate 20 is provided with a third linear rack which is meshed with the second gear 22 for transmission, and the first baffle 3.2 is provided with a fourth linear rack which is meshed with the first gear 21 for transmission.

The sliding connection of the carriage 4 on the base 8 through the elastic reset assembly means that the supporting block 18 is located below the carriage 4, the base 8 is provided with a limiting block 23 for abutting against or disengaging from the upper end of the carriage 4, a pressure spring 24 for pushing the carriage 4 to abut against the limiting block 23 is arranged between the carriage 4 and the supporting block 18, the pressure spring 24 is located below the carriage 4, one end of the pressure spring 24 is connected with the carriage 4, and the other end of the pressure spring is connected with the supporting block 18.

The base 8 is connected with the transmission plate 20 through a sliding component in a sliding mode, namely, the vertical block 25 is arranged on the base 8, and the transmission plate 20 is connected to the vertical block 25 through a dovetail groove in a sliding mode.

The working principle is as follows: as shown in the figure, an operator pours the feed to be subpackaged into a bin 1, a valve plate 2 is staggered with a discharge port at the lower end of the bin 1, and the feed in the bin 1 is discharged from the discharge port at the lower end and falls into a funnel 3 from the state shown in figure 1;

the feed in the hopper 3 is more and more, when the feed in the hopper 3 is increased to a set value, the gravity action of the feed on the hopper 3 is greater than the pulling action of the tension spring 11 on the hopper 3, the hopper 3 suddenly rotates around a hinge point 3.1, namely, the hopper 3 rotates clockwise around the hinge point 3.1 to the state shown in the figure 2; in the state of fig. 2, the notch 3.4 on the funnel 3 is staggered with the first baffle 3.2, the second pull rope 7 is in a relaxed state, and the feed in the funnel 3 can fall into the feed distributing cylinder 5 from the gap between the first baffle 3.2 and the notch 3.4; in the clockwise rotation process of the funnel 3, the funnel 3 can drive the valve plate 2 to slide rightwards on the guide block 9 through the first pull rope 6, the convex block 10 on the valve plate 2 is separated from the right end part of the guide block 9, when the funnel 3 abuts against the second cylindrical pin 15, the valve plate 2 can block the discharge hole at the lower end of the feed bin 1, and then the feed bin 1 cannot continuously discharge feed to the funnel 3;

along with the feed in the feed dividing barrel 5 is more and more, the gravity action of the feed dividing barrel 5 on the sliding frame 4 is more and more, then the feed dividing barrel 5 can push the sliding frame 4 to slide downwards, namely the sliding frame 4 and the guide post 17 overcome the elastic action of the pressure spring 24 to slide downwards together, and the sliding frame 4 is separated from the limiting block 23; the sliding frame 4 can strain the second pull rope 7 in the descending process, so that the second pull rope 7 can pull the funnel 3 to abut against the second cylindrical pin 15, namely, the second pull rope 7 can apply a downward acting force to the second baffle 3.3 on the funnel 3, the feed in the funnel 3 is ensured to be gradually reduced and cannot be pulled by the tension spring 11 to be reversely reset, and the feed in the funnel 3 can be completely discharged into the material distributing cylinder 5; in addition, in the descending process of the guide post 17, the guide post 17 drives the transmission plate 20 and the second linear rack to ascend through the engagement of the first linear rack and the transmission wheel 19, the transmission plate 20 drives the first gear 21 to rotate through the engagement of the third linear rack and the second gear 22, the first gear 21 drives the first baffle plate 3.2 to slide obliquely upwards through the engagement of the fourth linear rack, namely, the distance from the lower end part of the first baffle plate 3.2 to the second baffle plate 3.3 on the funnel 3 is increased, an opening for flowing the feed is formed between the first baffle plate 3.2 and the second baffle plate 3.3, the opening can accelerate the feed to be discharged from the funnel 3 to the feed distributing cylinder 5, as shown in fig. 3 and 6, until the feed in the funnel 3 is completely discharged into the feed distributing cylinder 5, and an operator can take the feed distributing cylinder 5 filled with the feed from the carriage 4 and then place the feed distributing cylinder 5 into an empty feed distributing cylinder 5;

once the pressure action of the sliding frame 4 is lost, the pressure spring 24 can push the sliding frame 4 to ascend and reset until the sliding frame 4 abuts against the limiting block 23, and the guide post 17 can drive the first baffle 3.2 to reversely move and reset through the transmission plate 20 and the two gears; after the carriage 4 is reset, the funnel 3 and the valve plate 2 are also reset by the reverse movement under the action of the tension spring 11, and the next dispensing operation is carried out.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the scope of the claims of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a full-automatic fodder racking machine, it includes base (8), is equipped with feed bin (1) on base (8), its characterized in that: the valve plate (2) matched with the discharge hole of the storage bin (1) is connected to the lower part of the discharge hole of the storage bin (1) in a sliding mode through the base (8), and the valve plate (2) is connected to the base (8) in a sliding mode through the resetting component; the base (8) is rotatably connected with a funnel (3) below the stock bin (1) through a hinge point (3.1), and one end of the funnel (3) is in transmission with the valve plate (2) through a first pull rope (6); the funnel (3) comprises a first baffle (3.2) and a second baffle (3.3), the first baffle (3.2) is connected to the base (8) in a sliding mode through the guide assembly, side plates are arranged on the front side and the rear side of the second baffle (3.3) respectively, a notch (3.4) is formed by the two side plates and the end portion of the second baffle (3.3), and the first baffle (3.2) is matched with or separated from the notch (3.4); a limiting component matched with the hopper (3) is arranged on the base (8), a sliding frame (4) is connected to the base (8) below the hopper (3) in a sliding mode, and a feed distributing barrel (5) used for containing feed discharged from the hopper (3) is placed on the sliding frame (4); the sliding frame (4) is connected with the second baffle (3.3) through a second pull rope (7), and a linkage assembly for driving the first baffle (3.2) to slide on the base (8) is arranged between the sliding frame (4) and the first baffle (3.2); the limiting assembly matched with the funnel (3) is arranged on the base (8), namely, a first cylindrical pin (14) and a second cylindrical pin (15) are arranged on the base (8), and the first cylindrical pin (14) and the second cylindrical pin (15) are respectively positioned on two sides of a hinge point (3.1); a vertical plate (16) is arranged on a side plate on the funnel (3), the vertical plate (16) is tightly abutted or separated from the first cylindrical pin (14), the second cylindrical pin (15) is tightly abutted or separated from a second baffle (3.3) on the funnel (3), one end of a first pull rope (6) is connected with the valve plate (2), and the other end of the first pull rope is connected with the side plate on the funnel (3); when the vertical plate (16) abuts against the first cylindrical pin (14), the gravity center of the funnel (3) and the hinge point (3.1) are not in the same vertical direction, and the gravity center of the funnel (3) is positioned on one side, far away from the first baffle (3.2), of the funnel (3); a linkage assembly for driving the first baffle (3.2) to slide on the base (8) is arranged between the sliding frame (4) and the first baffle (3.2), namely, a guide pillar (17) is arranged at the lower end part of the sliding frame (4), a supporting block (18) is arranged on the base (8), the guide pillar (17) is connected to the supporting block (18) in a sliding mode through a dovetail groove, and the sliding frame (4) is connected to the base (8) in a sliding mode through an elastic resetting assembly; the base (8) is rotatably connected with a driving wheel (19), and a first linear rack which is meshed with the driving wheel (19) for transmission is arranged on the guide post (17); the base (8) is connected with a transmission plate (20) in a sliding way through a sliding assembly, and a second linear rack which is used for being meshed with the transmission wheel (19) for transmission is arranged at the lower end part of the transmission plate (20); a first gear (21) and a second gear (22) which are in meshed transmission with each other are rotatably connected to the base (8), a third linear rack which is in meshed transmission with the second gear (22) is arranged at the upper end of the transmission plate (20), and a fourth linear rack which is in meshed transmission with the first gear (21) is arranged on the first baffle (3.2); the sliding connection of the sliding frame (4) on the base (8) through the elastic reset assembly means that the supporting block (18) is located below the sliding frame (4), the base (8) is provided with a limiting block (23) which is used for abutting against or separating from the upper end of the sliding frame (4), a pressure spring (24) which is used for pushing the sliding frame (4) to abut against the limiting block (23) is arranged between the sliding frame (4) and the supporting block (18), the pressure spring (24) is located below the sliding frame (4), one end of the pressure spring (24) is connected with the sliding frame (4), and the other end of the pressure spring is connected with the supporting block (.

2. The fully automatic feed racking machine according to claim 1, wherein: valve plate (2) are through reset assembly sliding connection to mean on base (8), be equipped with guide block (9) on base (8), valve plate (2) are through dovetail sliding connection on guide block (9), be equipped with on valve plate (2) and be used for supporting lug (10) tight or break away from with guide block (9), be equipped with between valve plate (2) and base (8) and be used for pulling lug (10) and support and lean on extension spring (11) on guide block (9), extension spring (11) one end is rotated with base (8) and is connected, the other end rotates with valve plate (2) and is connected, extension spring (11) are located guide block (9) both sides respectively with lug (10).

3. The fully automatic feed racking machine according to claim 1, wherein: the base (8) is rotatably connected with a guide wheel (12), and the first pull rope (6) is wound on the guide wheel (12).

4. The fully automatic feed racking machine according to claim 1, wherein: the first baffle (3.2) is connected to the base (8) in a sliding mode through the guide assembly, namely a guide rod (13) is arranged on the base (8), and a blind hole for the guide rod (13) to slide is formed in the first baffle (3.2).

5. The fully automatic feed racking machine according to claim 1, wherein: the base (8) is connected with the transmission plate (20) in a sliding mode through the sliding assembly, namely, the vertical block (25) is arranged on the base (8), and the transmission plate (20) is connected to the vertical block (25) in a sliding mode through the dovetail groove.