CN116941792B - High-strength feed forming equipment - Google Patents

Abstract

The invention provides high-strength feed forming equipment, which relates to the field of feed forming equipment and comprises a compression body, wherein a driving cylinder is arranged at the top and the outer left side of the compression body, a cylinder is arranged at the bottom of the inner side of the compression body, and a floating pressing plate is slidably arranged at the inner side of the compression body; the middle position of the top of the floating pressing plate is a through circular slot; a telescopic rod is arranged at the position of the included angle of the top edge of the inner side of the compression body, a reset spring is arranged on the outer side ring sleeve of the telescopic rod, and the output end of the bottom of the telescopic rod is connected with the position of the included angle of the top edge of the floating pressing plate; the fodder mould is still installed to the inboard bottom of the compression body, makes the even tiling of fodder of putting in on the fodder mould through using the driving lever, makes the fodder in the different mould downthehole receive the same compression dynamics, improves the intensity to bulk plastics compression, has solved because the inhomogeneous problem that probably leads to the pressure inhomogeneous that appears when compressing the fodder of bulk fodder supply.

Description

High-strength feed forming equipment

Technical Field

The invention relates to the technical field of feed forming equipment, in particular to high-strength feed forming equipment.

Background

The pellet feed is a feed with comprehensive nutrition and strong stability and is easy to digest and absorb, so that in the process of preparing feed pellets, the pellet feed needs to be compressed and molded by feed molding equipment, the processing efficiency of the pellet feed is improved, the volume of the feed after compression molding is reduced, the feeding time can be shortened, and the nutrition consumption of livestock and poultry caused by feeding activities is reduced. When the existing feed forming equipment reduces compression forming on bulk feed, the non-uniformity of bulk feed supply possibly causes the condition of non-uniformity of pressure when compressing feed, the feed is unevenly distributed on the die to cause different feed components in different die spaces, the compression strength of feed forming is further different, and particles after feed forming possibly are damaged when being separated from the die, so that the quality of feed forming is affected.

Disclosure of Invention

In view of the above, the present invention provides a high-strength feed forming apparatus, so as to solve the problems that the uneven pressure during the compression of feed may occur due to the uneven feeding of bulk feed, the uneven distribution of feed on the mold may cause different feed components in different mold cavities, the compression forces of the feed forming may be different, and the pellets after the feed forming may be damaged during the detachment from the mold.

The invention provides high-strength feed forming equipment, which specifically comprises a compression body, wherein the compression body is of a rectangular structure, a driving cylinder is arranged at the top and the outer left side of the compression body, an air cylinder is arranged at the bottom of the inner side of the compression body, a connecting air pipe is arranged at the side surface of the air cylinder, and a floating pressing plate is slidably arranged at the inner side of the compression body; the floating pressing plate is made of elastic materials, and the middle position of the top of the floating pressing plate is provided with a through circular slot; a telescopic rod is arranged at the position of the included angle of the top edge of the inner side of the compression body, a reset spring is arranged on the outer side ring sleeve of the telescopic rod, and the output end of the bottom of the telescopic rod is connected with the position of the included angle of the top edge of the floating pressing plate; the feed mould is also installed to the inboard bottom of the compression body, and the blown down tank has been seted up to the compression body front side and the position that feed mould is co-altitude.

Further, a part of a fixing frame is arranged at the position of the included angle of the edge of the bottom of the compression body, and a feed transmission cylinder is arranged at the top of the other part of the fixing frame; the fodder transmission section of thick bamboo is the toper structure, and the narrower one end of fodder transmission section of thick bamboo installs the conveying channel.

Further, a driving motor is arranged on the outer side of the top of the conveying channel, the bottom of the conveying channel is connected with the side face of the compression body, and an automatic valve is arranged at the position, close to the compression body, of the conveying channel; a feeding piece is arranged on the outer side of the top of the wider end of the feed transmission barrel; wherein, the top of feed piece is toper structure.

Further, a rotating shaft is arranged at the output end of the driving motor at the outer side of the top of the conveying channel, the other end of the rotating shaft is arranged at the wider end of the feed conveying cylinder, and a shaft coupler is arranged between the rotating shaft and the output end of the driving motor at the outer side of the conveying channel; the outside of the rotating shaft is welded with a spiral sheet; the spiral sheet is of a spiral structure, the diameter of the spiral sheet gradually decreases from the wider end to the narrower end, and the depth and the width of the groove formed on the outer side of the spiral sheet gradually decrease from the wider end to the narrower end.

Furthermore, positioning plates are arranged on the front side and the rear side of the top of the floating pressing plate; a servo motor is arranged at the middle position of the top of the positioning plate; an outer rotating plate is rotatably arranged in a groove at the top of the floating pressing plate; the outer rotating plate is of an annular structure, a limiting plate is arranged on the outer side of the outer rotating plate, and an outer driving plate of the annular structure is arranged on the top of the outer rotating plate; wherein, the inside position of outer drive plate is equipped with the cockscomb structure.

Further, an inner rotating plate is rotatably arranged on the inner side of the outer rotating plate; the middle position of the inner rotating plate is fixedly connected with the output end of the servo motor at the top of the positioning plate, the top of the inner rotating plate is provided with an inner driving plate with an annular structure, and the outer side of the inner driving plate is provided with a sawtooth-shaped structure; wherein, the bottoms of the outer rotating plate and the inner rotating plate are arc-shaped structures.

Further, a driving rod is rotatably arranged at the top of the positioning plate; the driving rod is of a cylindrical structure, a gear is arranged at the bottom of the driving rod, and the gear at the bottom of the driving rod is meshed with the saw-tooth structures at the outer sides of the outer driving plate and the inner driving plate respectively; an outer connecting ring is arranged at the top of the outer rotating plate through a spring; the top of the inner rotating plate is provided with an inner connecting ring through a spring, wherein the bottoms of the outer connecting ring and the inner connecting ring are provided with a plurality of shift levers which are uniformly arranged.

Further, a limiting plate is arranged at the bottom of the deflector rod, and the bottom of the deflector rod penetrates through the bottoms of the outer rotating plate and the inner rotating plate; the bottom of the inner rotating plate is also provided with the bottom of the exhaust pipe; the bottom of the exhaust pipe is provided with a tiny air hole, and the top of the exhaust pipe is arranged at the top of the positioning plate in a penetrating way; the left and right sides at floating clamp plate top are installed the backup pad, and the top of backup pad is connected with the actuating cylinder output at compression body top.

Further, a sealing plate is arranged in the discharge chute at the front side of the compression body; the side ends of the sealing plates are connected with the output ends of the driving cylinders at the left outer sides of the compression bodies, two connecting plates are arranged at the bottoms of the inner parts of the sealing plates and are slidably arranged at the two sides of the top of the feed mould, and movable push plates are arranged at the inner ends of the connecting plates; the movable push plate is arranged on the inner side of the compression body, and the movable push plate is also slidably arranged on the top of the feed mould.

Further, a discharging plate is arranged at the output end of the bottom cylinder at the inner side of the compression body; the pushing block is arranged on the discharging plate, and the pushing block at the top of the discharging plate is slidably arranged in a die groove of the feed die; the bottom of the discharging groove at the front side of the compression body is provided with a guide plate which is of an inclined structure.

The high-strength feed forming equipment provided by the invention has the following beneficial effects:

1. the fodder that makes the input through using the driving lever tiling on the fodder mould evenly, when the fodder was put in compression shaping on the fodder mould of the internal side of compression, then be in the relative direction rotation of mutually supporting of a plurality of driving levers of outer rotatory board and internal rotation board bottom respectively, make the driving lever stir the fodder that gathers together on the fodder mould evenly, make the fodder evenly distribute, during the compression, make the fodder component that the mould hole in the fodder mould stored the same, make the fodder in the different mould holes receive the same compression dynamics, improve the intensity of compressing bulk plastics, thereby make the even compression of bulk fodder become the pellet feed of same specification, prevent the compression dynamics of bulk fodder itself to cause the problem that receives the damage in the later stage when taking out differently, guarantee pellet feed's integrality.

2. Through using the transportation fodder that the flight can be accurate, the wider one end of flight can accept more fodder, then the narrower one end of flight is according to the accurate inside of throwing in the compression body of certain weight to the fodder of transportation, makes bulk fodder receive preliminary compression, reduces the space between the fodder, makes the fodder component of throwing in at every turn the same, guarantees the homogeneity of fodder compression feeding, guarantees the homogeneity of later stage compression, improves the quality after the fodder compression.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

fig. 1 is a schematic perspective view of an embodiment of the present invention.

Fig. 2 is a schematic cross-sectional view of a feed transfer drum according to an embodiment of the present invention.

Fig. 3 is a perspective view of a flight according to an embodiment of the present invention.

Fig. 4 is a schematic cross-sectional view of a compressed body according to an embodiment of the present invention.

Fig. 5 is a schematic perspective view of a floating platen according to an embodiment of the present invention.

Fig. 6 is a schematic cross-sectional view of an outer rotating plate according to an embodiment of the present invention.

Fig. 7 is a schematic perspective view of a feed mold according to an embodiment of the present invention.

Fig. 8 is a schematic perspective view of an active pusher plate according to an embodiment of the present invention.

List of reference numerals

1. A compression body; 101. a fixing frame; 102. a feed transport cartridge; 103. a conveying channel; 104. a feed member; 105. a rotation shaft; 106. a spiral sheet;

2. a floating pressure plate; 201. a telescopic rod; 202. a positioning plate; 203. an outer rotating plate; 204. an outer driving plate; 205. an inner rotating plate; 206. an inner driving plate; 207. a driving rod; 208. an outer connecting ring; 209. an inner connecting ring; 2010. a deflector rod; 2011. an exhaust pipe; 2012. a support plate;

3. a feed mold; 301. a sealing plate; 302. a movable push plate; 303. a discharge plate; 304. and a deflector.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present invention more clear, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present invention.

Please refer to fig. 1 to 8:

example 1: the invention provides high-strength feed forming equipment, which comprises a compression body 1, wherein the compression body 1 is of a rectangular structure, a driving cylinder is arranged at the top and the outer left side of the compression body 1, an air cylinder is arranged at the bottom of the inner side of the compression body 1, and a connecting air pipe is arranged at the side surface of the air cylinder; a part of a fixing frame 101 is arranged at the position of the included angle of the edge of the bottom of the compression body 1, and a feed transmission barrel 102 is arranged at the top of the other part of the fixing frame 101; the feed transmission barrel 102 is of a conical structure, and a conveying channel 103 is arranged at the narrower end of the feed transmission barrel 102; a driving motor is arranged on the outer side of the top of the conveying channel 103, the bottom of the conveying channel 103 is connected with the side surface of the compression body 1, and an automatic valve is arranged at the position of the conveying channel 103 close to the compression body 1; a feeding piece 104 is arranged on the outer side of the top of the wider end of the feed transmission barrel 102; wherein the top of the feeding element 104 is in a conical structure; a rotating shaft 105 is arranged on the output end of the driving motor outside the top of the conveying channel 103, the other end of the rotating shaft 105 is arranged on the wider end of the feed conveying cylinder 102, and a shaft coupler is arranged between the rotating shaft 105 and the output end of the driving motor outside the conveying channel 103; the outside of the rotating shaft 105 is welded with a spiral sheet 106; the screw plate 106 is spiral structure, and the diameter of screw plate 106 reduces gradually from wider one end to narrower one end, the recess degree of depth and the width that the screw plate 106 outside formed gradually reduces from wider one end to narrower one end, when compressing the shaping to the bulk, mount 101 lifts fodder transmission section of thick bamboo 102 and ground and is slight inclination, put in fodder transmission section of thick bamboo 102 through feed piece 104, the drive motor drive rotation axis 105 at the top outside the transmission path 103 rotates in fodder transmission section of thick bamboo 102, then the axle connector on the driving motor output is used for compensating the minor deviation of axis, guarantee the axiality of driving motor and rotation axis 105, rotation axis 105 drives screw plate 106 and rotates in fodder transmission section of thick bamboo 102, make the wider one end of screw plate 106 can accept more fodder, along with the rotation of screw plate 106 makes the fodder inwards promote, compress bulk plastics simultaneously, make the fodder pass through the narrower one end of screw plate 106 and accurately put in the inside of transmission path 103, transmission path 103 carries the fodder of suitable component to the inside compression body 1 on the fodder mould 3, when compression body 1 compresses the inside the body, the fodder component is compressed, the compression body is compressed and the compression body is carried on the inside the compression body 1, the compression passageway is reduced, the problem is continued when compression is carried out.

Example 2: the invention provides high-strength feed forming equipment, which also comprises a floating pressing plate 2 which is arranged on the inner side of a compression body 1 in a sliding manner; the floating pressing plate 2 is made of elastic materials, and the middle position of the top of the floating pressing plate 2 is a through circular slot; a telescopic rod 201 is arranged at the position of the included angle of the top edge of the inner side of the compression body 1, a reset spring is arranged on the outer side ring sleeve of the telescopic rod 201, and the output end of the bottom of the telescopic rod 201 is connected with the position of the included angle of the top edge of the floating pressing plate 2; positioning plates 202 are arranged on the front side and the rear side of the top of the floating pressing plate 2; a servo motor is arranged at the middle position of the top of the positioning plate 202; an outer rotating plate 203 is rotatably arranged in a groove at the top of the floating pressing plate 2; the outer rotating plate 203 is of an annular structure, a limiting plate is arranged on the outer side of the outer rotating plate 203, and an outer driving plate 204 of an annular structure is arranged on the top of the outer rotating plate 203; wherein, the inner side of the outer driving plate 204 is provided with a saw tooth structure; an inner rotating plate 205 is rotatably installed at the inner side of the outer rotating plate 203; the middle position of the inner rotation plate 205 is fixedly connected with the output end of a servo motor at the top of the positioning plate 202, an inner driving plate 206 with an annular structure is arranged at the top of the inner rotation plate 205, and a sawtooth-shaped structure is arranged at the outer side of the inner driving plate 206; wherein, the bottoms of the outer rotary plate 203 and the inner rotary plate 205 are arc-shaped surface structures; a driving rod 207 is rotatably arranged at the top of the positioning plate 202; the driving rod 207 is of a cylindrical structure, a gear is arranged at the bottom of the driving rod 207, and the gear at the bottom of the driving rod 207 is meshed with the saw-tooth structures at the outer sides of the outer driving plate 204 and the inner driving plate 206 respectively; the top of the outer rotating plate 203 is mounted with an outer connecting ring 208 by a spring; the top of the inner rotary plate 205 is provided with an inner connecting ring 209 through a spring, wherein the bottoms of the outer connecting ring 208 and the inner connecting ring 209 are provided with a plurality of shift levers 2010 which are uniformly arranged; the bottom of the deflector rod 2010 is provided with a limiting plate, and the bottom of the deflector rod 2010 penetrates through the bottoms of the outer rotating plate 203 and the inner rotating plate 205; the bottom of the inner rotation plate 205 is also mounted with the bottom of the exhaust pipe 2011; wherein, the bottom of the exhaust pipe 2011 is provided with a tiny air hole, and the top of the exhaust pipe 2011 is installed at the top of the positioning plate 202 in a penetrating way; the left and right sides at the top of the floating platen 2 are provided with a supporting plate 2012, the top of the supporting plate 2012 is connected with the output end of a driving cylinder at the top of the compression body 1, when the bulk compression molding is carried out, the driving cylinder at the top of the compression body 1 drives the supporting plate 2012 to move downwards, so that the supporting plate 2012 drives the floating platen 2 to move downwards at the inner side of the compression body 1, the telescopic rod 201 stretches everywhere, meanwhile, a servo motor at the top of the positioning plate 202 drives the inner rotating plate 205 to rotate, a sawtooth structure at the outer side of the inner driving plate 206 at the top of the inner rotating plate 205 drives a gear at the bottom of the driving rod 207 to rotate, the gear drives the outer driving plate 204 at the top of the outer rotating plate 203 to rotate, the outer rotating plate 203 rotates in a groove at the top of the floating platen 2, the rotation directions of the outer rotating plate 203 are opposite to the rotation directions of the inner rotating plate 205, the inner connecting ring 209 and the outer connecting ring 208 respectively drive the deflector 2010 to move downwards through the inner rotating plate 205 and the outer rotating plate 203 under the action of a spring, the outer rotating plate 203 and the inner rotating plate 205 drive the deflector rod 2010 to rotate, the deflector rod 2010 moving in two directions dials the feed piled on the feed mould 3, the feed is evenly spread on the feed mould 3, the elastic material of the floating pressing plate 2 increases the tightness contacted with the inner side wall of the compression body 1 along with the continuous downward movement of the floating pressing plate 2, the air between the feed is collected by the arc-shaped structure at the bottom of the inner rotating plate 205 and the outer rotating plate 203, the air between the feed flows out through the exhaust pipe 2011, the deflector rod 2010 moves upwards on the outer rotating plate 203 and the inner rotating plate 205 along with the compression of the feed, the floating pressing plate 2 compresses the bulk feed in the mould groove in the feed mould 3 with high strength, the feed is evenly distributed, the uniformity of the feed is ensured, the feed is evenly molded, when the driving cylinder drives the supporting plate 2012 to move upwards, the return spring on the outer side of the telescopic rod 201 contracts, so that the floating pressing plate 2 is restored to the original position, and the next feed compression is facilitated.

Example 3: the invention provides high-strength feed forming equipment, which further comprises a feed die 3, wherein the feed die 3 is arranged at the bottom of the inner side of a compression body 1, and a discharge chute is arranged at the position, which is the same as the feed die 3, of the front side of the compression body 1; a sealing plate 301 is arranged in the discharge chute at the front side of the compression body 1; the side end of the sealing plate 301 is connected with the output end of the driving cylinder at the left outer side of the compression body 1, two connecting plates are arranged at the inner bottom of the sealing plate 301 and are slidably arranged at the two sides of the top of the feed mould 3, and a movable push plate 302 is arranged at the inner end of each connecting plate; the movable push plate 302 is arranged on the inner side of the compression body 1, and the movable push plate 302 is also slidably arranged on the top of the feed mould 3; a discharge plate 303 is arranged at the output end of the bottom cylinder at the inner side of the compression body 1; the pushing block is arranged on the discharging plate 303, and the pushing block at the top of the discharging plate 303 is slidably arranged in a die groove of the feed die 3; the guide plate 304 is installed at the bottom of the front side discharging groove of the compression body 1, the guide plate 304 is of an inclined structure, after the feed is compressed and molded, the floating pressing plate 2 moves upwards to the original position, then the air cylinder at the bottom of the inner side of the compression body 1 detects molded feed on the feed mold 3 through the sensor, air pressure enters the air cylinder through the air pipe at the top, the output end of the air cylinder pushes the discharging plate 303 to move upwards, the pushing block at the top of the discharging plate 303 pushes out granular feed in the mold groove on the feed mold 3, the driving cylinder at the left outer side of the compression body 1 drives the sealing plate 301 to move outwards, the two connecting plates at the bottom of the inner side of the sealing plate 301 drive the movable pushing plate 302 to move outwards, the movable pushing plate 302 pushes out molded feed through the guide plate 304, the sealing plate 301 drives the movable pushing plate 302 to restore to the original position, the air pressure in the air cylinder is discharged through the air pipe at the bottom, and the air cylinder drives the discharging plate 303 to restore to the original position.

Specific use and action of the embodiment: in the invention, when in use, bulk feed is put into the feed transmission barrel 102 through the feeding piece 104, the electric drive is used for driving the spiral piece 106 at the outer side of the rotary shaft 105 to rotate in the feed transmission barrel 102, one wider end of the spiral piece 106 receives more feed, the narrower end of the spiral piece 106 is accurately put into the conveying channel 103, the conveying channel 103 conveys the feed to the feed mould 3 at the inner side of the compression body 1, after a certain amount of feed is stored in the compression body 1, the automatic valve on the conveying channel 103 is closed, the driving cylinder at the top of the compression body 1 drives the floating pressing plate 2 at the bottom of the supporting plate 2012 to move downwards at the inner side of the compression body 1, meanwhile, the servo motor at the top of the positioning plate 202 drives the inner driving plate 206 at the top to drive the gear at the bottom of the driving rod 207 to rotate, the gear drives the outer driving plate 204 on the top of the outer rotating plate 203 to rotate, the outer rotating plate 203 and the inner rotating plate 205 rotate in opposite directions, so that the outer rotating plate 203 and the inner rotating plate 205 drive the deflector rod 2010 to rotate to uniformly spread the feed on the feed mold 3, along with the continuous downward movement of the floating pressing plate 2, the air between the feeds flows out through the exhaust pipe 2011, the deflector rod 2010 moves upwards on the outer rotating plate 203 and the inner rotating plate 205, the floating pressing plate 2 compresses the bulk feed in the mold groove in the feed mold 3 with high strength, after the feed is compressed and molded, the floating pressing plate 2 moves upwards to the original position, the air pressure enters into the air cylinder through the air pipe on the top, the output end of the air cylinder pushes the pellet feed in the mold groove on the feed mold 3 out by pushing the ejector plate 303, the driving cylinder on the left outer side of the compression body 1 drives the sealing plate 301 to move outwards, the sealing plate 301 drives the movable pushing plate 302 through the connecting plate to push out the formed feed through the guide plate 304.

Claims (4)

1. The high-strength feed forming equipment comprises a compression body (1), wherein a driving cylinder is arranged at the top and the outer left side of the compression body (1) in a rectangular structure, a cylinder is arranged at the bottom of the inner side of the compression body (1), a connecting air pipe is arranged on the side surface of the cylinder, and a floating pressing plate (2) is arranged on the inner side of the compression body (1) in a sliding manner; the device is characterized in that the middle position of the top of the floating pressing plate (2) is a through circular slot; a telescopic rod (201) is arranged at the position of the included angle of the top edge of the inner side of the compression body (1), a reset spring is sleeved on the outer side of the telescopic rod (201), and the output end of the bottom of the telescopic rod (201) is connected with the position of the included angle of the top edge of the floating pressing plate (2); the feed mould (3) is also arranged at the bottom of the inner side of the compression body (1), and a discharge chute is arranged at the position, which is the same as the feed mould (3), of the front side of the compression body (1); a part of a fixing frame (101) is arranged at the position of the included angle of the edge of the bottom of the compression body (1), and a feed transmission cylinder (102) with a conical structure is arranged at the top of the other part of the fixing frame (101); a conveying channel (103) is arranged at the narrower end of the feed conveying cylinder (102); a driving motor is arranged on the outer side of the top of the conveying channel (103), the bottom of the conveying channel (103) is connected with the side face of the compression body (1), and an automatic valve is arranged at the position, close to the compression body (1), of the conveying channel (103); a feeding piece (104) is arranged on the outer side of the top of the wider end of the feed transmission barrel (102); a rotating shaft (105) is arranged at the output end of the driving motor at the outer side of the top of the conveying channel (103), the other end of the rotating shaft (105) is arranged at the wider end of the feed transmission barrel (102), and a shaft coupler is arranged between the rotating shaft (105) and the output end of the driving motor at the outer side of the conveying channel (103); a spiral sheet (106) with a spiral structure is welded on the outer side of the rotating shaft (105); the diameter of the spiral sheet (106) gradually decreases from the wider end to the narrower end, and the depth and the width of the groove formed on the outer side of the spiral sheet (106) gradually decrease from the wider end to the narrower end; positioning plates (202) are arranged on the front side and the rear side of the top of the floating pressing plate (2); a servo motor is arranged at the middle position of the top of the positioning plate (202); an outer rotating plate (203) with an annular structure is rotatably arranged in a groove at the top of the floating pressing plate (2); the outer side of the outer rotating plate (203) is provided with a limiting plate, and the top of the outer rotating plate (203) is provided with an outer driving plate (204) with an annular structure; wherein, the inner side of the outer driving plate (204) is provided with a saw-tooth structure; an inner rotating plate (205) is rotatably arranged on the inner side of the outer rotating plate (203); the middle position of the inner rotating plate (205) is fixedly connected with the output end of a servo motor at the top of the positioning plate (202), an inner driving plate (206) with an annular structure is arranged at the top of the inner rotating plate (205), and a sawtooth-shaped structure is arranged at the outer side of the inner driving plate (206); wherein, the bottoms of the outer rotating plate (203) and the inner rotating plate (205) are arc-shaped surface structures; a sealing plate (301) is arranged in the discharge chute at the front side of the compression body (1); the side end of the sealing plate (301) is connected with the output end of the driving cylinder at the left outer side of the compression body (1), two connecting plates are arranged at the inner bottom of the sealing plate (301), the connecting plates are slidably arranged at the two sides of the top of the feed mould (3), and movable pushing plates (302) are arranged at the inner ends of the connecting plates; the movable pushing plate (302) is arranged on the inner side of the compression body (1), and the movable pushing plate (302) is also slidably arranged on the top of the feed mould (3).

2. A high strength feed forming apparatus as claimed in claim 1, wherein: a driving rod (207) is rotatably arranged at the top of the positioning plate (202); the bottom of the driving rod (207) is provided with a gear, and the gear at the bottom of the driving rod (207) is meshed with the saw-tooth structures at the outer sides of the outer driving plate (204) and the inner driving plate (206) respectively; an outer connecting ring (208) is arranged at the top of the outer rotating plate (203) through a spring; the top of the inner rotating plate (205) is provided with an inner connecting ring (209) through a spring, wherein the bottoms of the outer connecting ring (208) and the inner connecting ring (209) are provided with a plurality of shift levers (2010) which are uniformly arranged.

3. A high strength feed forming apparatus as claimed in claim 2, wherein: the bottom of the deflector rod (2010) is provided with a limiting plate, and the bottom of the deflector rod (2010) penetrates through the bottoms of the outer rotating plate (203) and the inner rotating plate (205); the bottom of the inner rotating plate (205) is also provided with the bottom of an exhaust pipe (2011); wherein the top of the exhaust pipe (2011) is arranged at the top of the positioning plate (202) in a penetrating way; the left and right sides at floating clamp plate (2) top is installed backup pad (2012), and the top of backup pad (2012) is connected with the actuating cylinder output at compression body (1) top.

4. A high strength feed forming apparatus as claimed in claim 3, wherein: a discharge plate (303) is arranged at the output end of the bottom cylinder at the inner side of the compression body (1); the pushing block is arranged on the discharging plate (303), and the pushing block at the top of the discharging plate (303) is slidably arranged in a die groove of the feed die (3); and a guide plate (304) is arranged at the bottom of the front discharging groove of the compression body (1).