CN118077740B - Multi-section type sausage raw material breaker - Google Patents

Abstract

The invention provides a multi-section sausage raw material breaker, which relates to the field of sausage production and comprises: a frame is installed; four support columns are fixedly connected with the bottom end of the mounting rack in a rectangular array shape; a feeding conveyor belt is arranged in the lower part of the mounting rack; the rear end face of the mounting rack is fixedly connected with a driving motor through bolts; the upper part of the mounting rack is connected with a sealing cover in a sliding way; the front part of the rotating shaft of the driving motor is fixedly connected with a rotating shaft; the rotating shaft is aligned with the position of the sealing cover; the lower part of the rear end surface of the mounting rack is fixedly connected with a fixing seat; and a plurality of groups of hydraulic cylinders are connected in the driving motor in a bolt fastening way. Through manual promotion link, make the second supplementary slider drive rotary blade through a series of transmission and remove afterwards, adjust the interval between the rotary blade, solved the complexity of electric control and increased the maintenance degree of difficulty of the garrulous butadiene machine of multistage sausage raw and other materials easily, inconvenient staff maintains it fast.

Description

Multi-section type sausage raw material breaker

Technical Field

The invention relates to the technical field of sausage production, in particular to a multi-section type sausage raw material breaker.

Background

In the sausage production process, in order to conveniently fill raw materials into a casing, the raw materials of the sausage are crushed into small fragments, a worker usually uses a multi-section raw material sausage crusher for conveniently crushing the raw materials of the sausage, and the conventional multi-section raw material sausage crusher is usually composed of an installation frame, a cutting mechanism and a collecting mechanism.

For example: the invention patent with the application number of CN202011580463.1 discloses a multi-section type sausage raw material dicing device, which comprises a supporting device, a transmission device arranged at the top end of the supporting device and a collecting device arranged on the side surface of the transmission device, wherein a first cutting device is arranged in the transmission device and comprises a pair of second gears, a second rotating rod is connected between the two second gears, a plurality of rotating blades are sleeved on the second rotating rod, a plurality of second cutting devices are arranged in the collecting device and comprise a second motor, the side surface of the second motor is coaxially connected with a third rotating rod, a rotating disc is sleeved on the side surface of the rotating rod, and a plurality of cutting blades are arranged on the side surface of the rotating disc. According to the invention, the multi-section cutting device is arranged, so that the sausage raw material is cut for a plurality of times, and the sausage raw material is cut into finer crushed pieces, so that the later-stage further production and processing are facilitated.

However, the existing multi-section type sausage raw material dicing machine is convenient for cutting raw materials into diced pieces with different sizes, and usually an electric adjustment mode is used, so that the distance between the blades is automatically adjusted according to the sizes of the raw materials, but the complexity of an electric adjustment structure is easy to increase the maintenance difficulty of the multi-section type sausage raw material dicing machine, and the multi-section type sausage raw material dicing machine is inconvenient for workers to maintain the multi-section type sausage raw material dicing machine quickly and is inconvenient to use.

Disclosure of Invention

In view of the above, the present invention provides a multi-section type sausage raw material breaker, which has a second auxiliary slide block, a sliding seat, an auxiliary connecting rod, a supporting frame, a sliding column and a control connecting rod, wherein the distance between the blades can be adjusted by a simple physical mechanism.

The invention provides a purpose and an effect of a multi-section sausage raw material dicing machine, which specifically comprise the following steps: a frame is installed; four support columns are fixedly connected with the bottom end of the mounting rack in a rectangular array shape; a feeding conveyor belt is arranged in the lower part of the mounting rack; the rear end face of the mounting rack is fixedly connected with a driving motor through bolts; the upper part of the mounting rack is connected with a sealing cover in a sliding way; the front part of the rotating shaft of the driving motor is fixedly connected with a rotating shaft; the rotating shaft is aligned with the position of the sealing cover; the lower part of the rear end surface of the mounting rack is fixedly connected with a fixing seat; a plurality of groups of hydraulic cylinders are fixedly connected with the inner bolts of the driving motor; the outer part of the rotating shaft is symmetrically and fixedly connected with a plurality of groups of first auxiliary sliding rails; the outer part of the rotating shaft is symmetrically and fixedly connected with a plurality of groups of second auxiliary guide rails; the plurality of groups of second auxiliary guide rails and the plurality of groups of first auxiliary guide rails are distributed in an annular array shape.

Further, a sensor is arranged at the front part of the mounting rack; the front part of the mounting rack is provided with a control unit; the sensor is connected with the control unit through a cable; a plurality of groups of hydraulic cylinders are fixedly connected in the rotating shaft through bolts; the control unit is electrically connected with electromagnetic valves of the hydraulic cylinders to control the hydraulic cylinders.

Further, the plurality of groups of first auxiliary sliding rails are internally and respectively connected with a first auxiliary sliding block in a sliding way; the tail ends of the plurality of groups of first auxiliary sliding blocks are respectively and fixedly connected to the outer parts of the output shafts of the plurality of groups of hydraulic cylinders; the outer parts of the plurality of groups of first auxiliary sliding blocks are fixedly connected with an adapter seat; a group of guide sliding rods are symmetrically and slidingly connected in the plurality of groups of adapter seats; a group of reset springs are fixedly connected to the inner sides of the plurality of groups of guide sliding rods; the tail ends of the multiple groups of reset springs are respectively and fixedly connected to the outer parts of the multiple groups of adapter seats; the inner sides of the plurality of groups of guide slide bars are fixedly connected with a group of limiting blocks; the left parts of the plurality of groups of adapter seats are fixedly connected with guide slide rails; blade mounting seats are connected in the multiple groups of adapter seats in a sliding manner; the limiting blocks are inserted into the blade mounting seats.

Further, a plurality of groups of blade mounting seats are internally and slidably connected with rotary blades; the outer parts of the plurality of groups of blade mounting seats are fixedly connected with limiting frames; the inner parts of the plurality of groups of limiting frames are respectively connected with limiting bolts in a sliding way; the inner sides of the plurality of groups of limiting bolts are fixedly connected with supporting springs; the tail ends of the plurality of groups of supporting springs are respectively and fixedly connected to the outer parts of the plurality of groups of blade mounting seats.

Further, the outer part of the rotating shaft is symmetrically connected with a plurality of groups of sliding seats in a sliding way; the outer parts of the plurality of groups of sliding seats on the same side are hinged with connecting frames; a control connecting rod is hinged in each of the plurality of groups of sliding seats; a plurality of support frames are symmetrically and fixedly connected to the outer part of the rotating shaft; a group of sliding columns are connected in the plurality of supporting frames in a sliding way; the tail ends of the plurality of groups of control connecting rods are respectively hinged to the outer parts of the plurality of groups of sliding columns.

Further, the outer parts of the sliding columns are hinged with auxiliary connecting rods; the auxiliary connecting rods are respectively arranged at the inner sides of the control connecting rods; the plurality of groups of second auxiliary guide rails are internally and respectively connected with a second auxiliary sliding block in a sliding way; the inner sides of the plurality of groups of second auxiliary sliding blocks are respectively and fixedly connected with the outer parts of the output shafts of the plurality of groups of hydraulic cylinders; the tail ends of the auxiliary connecting rods are respectively hinged to the outer parts of the second auxiliary sliding blocks.

Further, the inner side of the fixed seat is fixedly connected with four guide plates in a rectangular array shape; the four guide plates are all arranged in an inclined manner; the lower part of the fixed seat is connected with a collecting box in a sliding way; the inner wall of the collecting box is smeared with a non-stick coating; the front part of the top end surface of the fixed seat is fixedly connected with a material guiding seat; the guide seat is aligned with the position of the feeding conveyor belt.

Further, the top end surface of the fixing seat is symmetrically and slidingly connected with two side baffles; the rear parts of the two side baffles are connected with a rear baffle in a sliding way; the tailgate is aligned with the position of the feed conveyor.

The beneficial effects are that:

In the using process, after the multi-section type sausage raw material breaker is stopped, a worker can manually push the connecting frame to enable the connecting frame to drive the sliding seat to slide along the rotating shaft, then the second auxiliary sliding block drives the rotating blades to move through a series of transmission, the distance between the rotating blades is adjusted, the adjusting process of the blade distance is optimized, the worker is allowed to realize accurate adjustment of the blade distance through simple external control, the reliability of the multi-section type sausage raw material breaker is improved, the maintenance and adjusting process is greatly simplified, the worker can quickly and conveniently adjust the blade distance, and different cutting requirements are met.

The limiting block can be separated from the blade mounting seat by pulling the guide sliding rod, the limiting of the blade mounting seat is relieved, at the moment, a worker can quickly assemble and disassemble the blade mounting seat, the worker can conveniently mount the blade mounting seat with different shapes and materials on the multi-section type sausage raw material breaker, and the convenience of the multi-section type sausage raw material breaker is effectively improved.

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 diagram of an axial structure of the present invention.

FIG. 2 is a schematic illustration of the axially measured structure of the seal cap of the present invention after sliding down.

Fig. 3 is a schematic cross-sectional structure of the rotary shaft of the present invention.

Fig. 4 is a schematic diagram of an axial structure of the connecting frame of the present invention.

Fig. 5 is an enlarged schematic view of the structure of fig. 4 at a in accordance with the present invention.

FIG. 6 is a schematic diagram of a cross-sectional, axially measured structure of the rotating shaft of the present invention.

Fig. 7 is an enlarged schematic view of the structure of fig. 6B according to the present invention.

Fig. 8 is a schematic cross-sectional view of the adapter of the present invention.

Fig. 9 is an enlarged schematic view of the structure of fig. 8 at C according to the present invention.

Fig. 10 is a schematic flow chart of the hydraulic cylinder driving of the present invention.

FIG. 11 is a schematic diagram of an isometric construction of a collection box of the present invention.

List of reference numerals

1. A frame is installed; 101. a support column; 102. a feed conveyor; 103. a driving motor; 104. a sealing cover; 105. a rotation shaft; 106. a hydraulic cylinder; 107. a first auxiliary slide rail; 108. a first auxiliary slide block; 109. an adapter seat; 110. a guide rail; 111. a guide slide bar; 112. a return spring; 113. limiting block; 114. a blade mounting base; 115. a limiting frame; 116. a limit bolt; 117. a support spring; 118. a rotary blade; 119. a second auxiliary guide rail; 120. a second auxiliary slide block; 121. an auxiliary connecting rod; 122. a support frame; 123. a sliding column; 124. a control link; 125. a sliding seat; 126. a connecting frame; 127. a fixing seat; 128. a guide plate; 129. a collection box; 130. side baffles; 131. a rear baffle; 132. a sensor; 133. a control unit; 134. and a material guiding seat.

Detailed Description

Embodiment one:

referring to fig. 1 to 10, a multi-stage sausage raw material breaker, comprising: a frame 1 is installed;

four support columns 101 are fixedly connected with the bottom end of the mounting rack 1 in a rectangular array shape; a feeding conveyor belt 102 is arranged in the lower part of the installation frame 1; the rear end face of the mounting rack 1 is connected with a driving motor 103 in a bolt fastening manner; the upper part of the mounting frame 1 is connected with a sealing cover 104 in a sliding way; a rotary shaft 105 is fixedly connected to the front part of the rotary shaft of the driving motor 103; the rotation shaft 105 is aligned with the position of the seal cover 104; the lower part of the rear end surface of the mounting rack 1 is fixedly connected with a fixing seat 127; a plurality of groups of hydraulic cylinders 106 are fixedly connected in the driving motor 103 through bolts; the outer part of the rotating shaft 105 is symmetrically and fixedly connected with a plurality of groups of first auxiliary sliding rails 107; the outer part of the rotating shaft 105 is symmetrically and fixedly connected with a plurality of groups of second auxiliary guide rails 119; the plurality of second auxiliary guide rails 119 and the plurality of first auxiliary guide rails 107 are distributed in an annular array.

Wherein the front part of the mounting frame 1 is provided with a sensor 132; the front part of the mounting frame 1 is provided with a control unit 133; the sensor 132 is connected with the control unit 133 by a cable; a plurality of groups of hydraulic cylinders 106 are fastened and connected in the rotating shaft 105 through bolts; the control unit 133 is electrically connected with the electromagnetic valves of the multiple groups of hydraulic cylinders 106, so as to control the hydraulic cylinders 106.

Wherein, the plurality of groups of first auxiliary slide rails 107 are respectively connected with a first auxiliary slide block 108 in a sliding way; the tail ends of the plurality of groups of first auxiliary sliding blocks 108 are respectively and fixedly connected to the outside of the output shafts of the plurality of groups of hydraulic cylinders 106; the outer parts of the plurality of groups of first auxiliary sliding blocks 108 are fixedly connected with an adapter seat 109; a group of guide slide bars 111 are symmetrically and slidingly connected in the plurality of groups of adapter seats 109; a group of return springs 112 are fixedly connected to the inner sides of the plurality of groups of guide slide bars 111; the tail ends of the multiple groups of return springs 112 are respectively fixedly connected to the outside of the multiple groups of adapter seats 109; the inner sides of the plurality of groups of guide slide bars 111 are fixedly connected with a group of limiting blocks 113; the left parts of the plurality of groups of the adapter seats 109 are fixedly connected with guide slide rails 110; blade mounting seats 114 are slidably connected in the plurality of groups of adapter seats 109; the limiting blocks 113 are respectively inserted into the blade mounting seats 114.

Wherein, the rotary blades 118 are slidably connected in the plurality of groups of blade mounting seats 114; the outer parts of the plurality of groups of blade mounting seats 114 are fixedly connected with limiting frames 115; the inner parts of the plurality of groups of limiting frames 115 are respectively and slidably connected with limiting bolts 116; the inner sides of the plurality of groups of limiting bolts 116 are fixedly connected with supporting springs 117; the ends of the plurality of sets of support springs 117 are fixedly coupled to the exterior of the plurality of sets of blade mounts 114, respectively.

Wherein, the outer part of the rotating shaft 105 is symmetrically connected with a plurality of groups of sliding seats 125 in a sliding way; the outer parts of the same-side multiple groups of sliding seats 125 are hinged with connecting frames 126; a control connecting rod 124 is hinged in each of the plurality of groups of sliding seats 125; a plurality of supporting frames 122 are symmetrically and fixedly connected to the outer part of the rotating shaft 105; a group of sliding columns 123 are slidably connected in each of the plurality of supporting frames 122; the ends of the plurality of sets of control links 124 are respectively hinged to the outside of the plurality of sets of sliding posts 123.

Wherein, the outer parts of the plurality of groups of sliding columns 123 are hinged with auxiliary connecting rods 121; the auxiliary connecting rods 121 are respectively arranged on the inner sides of the control connecting rods 124; the plurality of groups of second auxiliary guide rails 119 are internally and slidably connected with second auxiliary sliding blocks 120; the inner sides of the plurality of groups of second auxiliary sliding blocks 120 are respectively fixedly connected to the outer parts of the output shafts of the plurality of groups of hydraulic cylinders 106; the ends of the plurality of auxiliary links 121 are respectively hinge-coupled to the outside of the plurality of second auxiliary sliders 120.

Specific use and action of the embodiment: in the invention, support is provided for a mounting frame 1 through a support column 101, when sausage raw materials are crushed, a worker places sausage raw materials on a feeding conveyor belt 102, the sausage raw materials are transported to a rotary blade 118 through the feeding conveyor belt 102, then a driving motor 103 is started to enable the rotary blade 118 to rotate, the sausage raw materials are crushed, meanwhile, when the sausage raw materials move on the feeding conveyor belt 102, a sensor 132 detects the size of the sausage raw materials, then a signal is sent to a control unit 133 according to the detected raw material size, the control unit 133 starts a hydraulic cylinder 106 to adjust the distance between the rotary blade 118 according to the information, the worker slides the blade mounting seat 114 onto an adapter seat 109 through the arrangement of a guide slide rail 110, the cutter mounting seat 114 can be guided in the process of sliding the blade mounting seat 109, so that the cutter mounting seat 114 can be smoothly slid into the adapter seat 109, after the cutter mounting seat 114 is completely slid into the adapter seat 109, a limit block 113 can be inserted into the blade mounting seat 114 to limit the cutter mounting seat 114, then a signal is sent to a control unit 133 according to the detected raw material size, the control unit 133 starts a hydraulic cylinder 106 to adjust the distance between the rotary blade 118, the rotary blade 118 is required to be replaced by the worker, the worker only slides out of the guide rail 117 in the adapter seat 109 along with the rotary blade mounting seat 114, and the rotary blade mounting seat 114, when the cutter mounting seat is required to be replaced by the rotary blade mounting seat 114, the rotary blade mounting seat is required to be replaced by the rotary blade mounting seat is replaced by the rotary blade mounting seat 114, and the rotary blade 118, and the rotary blade is required to be replaced by the rotary blade mounting seat is replaced by the rotary blade is required by the rotary blade carrier 114, and the rotary blade is required by the rotary blade is, the rotary blade is replaced by the rotary cutter, the rotary cutter is required by the rotary cutter is. The limiting bolt 116 is loosened, the limiting bolt 116 resets along with the rebound of the supporting spring 117, the limiting bolt 116 penetrates through the rotary blade 118 to fix the rotary blade 118, when the space between the rotary blade 118 needs to be manually adjusted to maintain the multi-section sausage raw material breaker, the multi-section sausage raw material breaker is powered off, at this time, the valve inside the hydraulic cylinder 106 can allow hydraulic oil to flow back, the shaft of the hydraulic cylinder 106 can move freely, the hydraulic cylinder 106 allows hydraulic oil to flow back to the prior art after power failure, the detailed description is not made herein, a worker drives the sliding seat 125 to slide through pushing the connecting frame 126, the sliding column 123 is driven to slide in the supporting frame 122 through the control connecting rod 124 in the sliding process of the sliding seat 125, the second auxiliary sliding block 120 is driven to slide in the second auxiliary guide rail 119 through the auxiliary connecting rod 121 in the sliding process of the sliding column 123, the output shaft of the hydraulic cylinder 106 is driven to slide along with the sliding of the second auxiliary sliding block 120, and the space between the rotary blade 118 is manually adjusted.

Embodiment two:

on the basis of the first embodiment, please refer to fig. 1 and 11, which includes: the guide plates 128, the collecting box 129, the side baffle plates 130 and the rear baffle plates 131, and four guide plates 128 are fixedly connected to the inner side of the fixing seat 127 in a rectangular array shape; the four guide plates 128 are all arranged in an inclined manner; the lower part of the fixed seat 127 is connected with a collecting box 129 in a sliding way; the inner wall of the collecting box 129 is smeared with a non-stick coating; the front part of the top end surface of the fixed seat 127 is fixedly connected with a material guide seat 134; the guide block 134 is aligned with the position of the feed conveyor 102.

Wherein, the top end surface of the fixing seat 127 is symmetrically and slidingly connected with two side baffles 130; the rear parts of the two side baffles 130 are connected with a rear baffle 131 in a sliding manner; the tailgate 131 is aligned with the position of the infeed conveyor 102.

Specific use and action of the embodiment: in the invention, after sausage raw materials are crushed by the multilayer rotary blades 118 rotating at a high speed, the feeding conveyor belt 102 can convey crushed raw materials to the guide seat 134, the guide seat 134 conveys the crushed raw materials into the fixed seat 127, the scattered raw materials can roll back into the fixed seat 127 again through the arrangement of the guide plate 128, the raw materials entering the fixed seat 127 can naturally fall into the collecting box 129 to be collected, the collecting box 129 connected to the lower part of the fixed seat 127 in a sliding manner is convenient for workers to transfer the collected raw materials, meanwhile, the non-stick coating on the inner wall of the collecting box 129 can facilitate the workers to clean the collecting box 129, and the splashed raw materials can be prevented from splashing out of the collecting area through the arrangement of the side baffle 130 and the rear baffle 131, so that the collecting efficiency is ensured.

Claims (3)

1. A multi-section sausage raw material breaker, comprising: a mounting frame (1); four support columns (101) are fixedly connected with the bottom end of the mounting rack (1) in a rectangular array shape; a feeding conveyor belt (102) is arranged in the lower part of the mounting frame (1); the rear end face of the mounting rack (1) is connected with a driving motor (103) in a bolt fastening manner; the upper part of the mounting rack (1) is connected with a sealing cover (104) in a sliding way; the front part of the rotating shaft of the driving motor (103) is fixedly connected with a rotating shaft (105); the rotary shaft (105) is aligned with the position of the sealing cover (104); The lower part of the rear end surface of the mounting rack (1) is fixedly connected with a fixing seat (127); the outer part of the rotating shaft (105) is symmetrically and fixedly connected with a plurality of groups of first auxiliary sliding rails (107); the outer part of the rotating shaft (105) is symmetrically and fixedly connected with a plurality of groups of second auxiliary guide rails (119); the plurality of groups of second auxiliary guide rails (119) and the plurality of groups of first auxiliary guide rails (107) are distributed in an annular array; a sensor (132) is arranged at the front part of the mounting rack (1); a control unit (133) is arranged at the front part of the mounting rack (1); the sensor (132) is connected with the control unit (133) through a cable; a plurality of groups of hydraulic cylinders (106) are fixedly connected in the rotating shaft (105) through bolts; The control unit (133) is electrically connected with electromagnetic valves of the plurality of groups of hydraulic cylinders (106) to control the hydraulic cylinders (106); a plurality of groups of sliding seats (125) are symmetrically and slidingly connected to the outside of the rotating shaft (105); the outer parts of the plurality of groups of sliding seats (125) on the same side are hinged with a connecting frame (126); a control connecting rod (124) is hinged in each of the plurality of groups of sliding seats (125); a plurality of supporting frames (122) are symmetrically and fixedly connected to the outer part of the rotating shaft (105); a group of sliding columns (123) are connected in the plurality of supporting frames (122) in a sliding way; the tail ends of the plurality of groups of control connecting rods (124) are respectively hinged outside the plurality of groups of sliding columns (123); A plurality of groups of first auxiliary sliding rails (107) are internally and respectively connected with a first auxiliary sliding block (108) in a sliding way; the tail ends of the plurality of groups of first auxiliary sliding blocks (108) are respectively and fixedly connected to the outer parts of the output shafts of the plurality of groups of hydraulic cylinders (106); the outer parts of the plurality of groups of first auxiliary sliding blocks (108) are fixedly connected with an adapter seat (109); a plurality of groups of adapter seats (109) are symmetrically and slidingly connected with a group of guide slide bars (111); the inner sides of the plurality of groups of guide slide bars (111) are fixedly connected with a group of return springs (112); the tail ends of the multiple groups of reset springs (112) are respectively and fixedly connected to the outer parts of the multiple groups of adapter seats (109); The inner sides of the plurality of groups of guide slide bars (111) are fixedly connected with a group of limit blocks (113); the left parts of the plurality of groups of adapter seats (109) are fixedly connected with guide slide rails (110); blade mounting seats (114) are slidably connected in the plurality of groups of adapter seats (109); the plurality of groups of limiting blocks (113) are respectively inserted into the plurality of groups of blade mounting seats (114); the plurality of groups of blade mounting seats (114) are internally and slidably connected with rotary blades (118); the outer parts of the plurality of groups of blade mounting seats (114) are fixedly connected with limiting frames (115); the inner parts of the plurality of groups of limiting frames (115) are respectively and slidably connected with a limiting bolt (116); the inner sides of the plurality of groups of limiting bolts (116) are fixedly connected with supporting springs (117); the tail ends of the plurality of groups of supporting springs (117) are respectively and fixedly connected to the outer parts of the plurality of groups of blade mounting seats (114); the outer parts of the sliding columns (123) are hinged with auxiliary connecting rods (121); the auxiliary connecting rods (121) are respectively arranged on the inner sides of the control connecting rods (124); the plurality of groups of second auxiliary guide rails (119) are internally and slidably connected with second auxiliary sliding blocks (120); the inner sides of the plurality of groups of second auxiliary sliding blocks (120) are respectively and fixedly connected to the outer parts of the output shafts of the plurality of groups of hydraulic cylinders (106); the tail ends of the auxiliary connecting rods (121) are respectively hinged to the outer parts of the second auxiliary sliding blocks (120).

2. A multi-section sausage raw material breaker as claimed in claim 1 wherein: four guide plates (128) are fixedly connected to the inner side of the fixed seat (127) in a rectangular array shape; the four guide plates (128) are all obliquely arranged; the lower part of the fixed seat (127) is connected with a collecting box (129) in a sliding way; the inner wall of the collecting box (129) is smeared with a non-stick coating; the front part of the top end surface of the fixed seat (127) is fixedly connected with a material guide seat (134); the guide seat (134) is aligned with the position of the feed conveyor (102).

3. A multi-section sausage raw material breaker as claimed in claim 1 wherein: the top end surface of the fixed seat (127) is symmetrically and slidingly connected with two side baffles (130); the rear parts of the two side baffles (130) are connected with a rear baffle (131) in a sliding way; the tailgate (131) is aligned with the position of the feed conveyor (102).