CN212792377U

CN212792377U - Meal garbage sorting machine

Info

Publication number: CN212792377U
Application number: CN202021575746.2U
Authority: CN
Inventors: 周品文; 沈志超; 徐雷雷
Original assignee: Zhejiang Shunlian Environmental Protection Technology Co ltd
Current assignee: Zhejiang Shunlian Environmental Protection Technology Co ltd
Priority date: 2020-08-03
Filing date: 2020-08-03
Publication date: 2021-03-26
Anticipated expiration: 2030-08-03

Abstract

A sorting machine for food waste comprises a frame, a driving mounting plate, a driving motor, a swinging transmission mechanism, a swinging knocking component, a screen component and a base; the swinging knocking component and the screen component are obliquely arranged; the swinging and knocking component is provided with a swinging shaft which is obliquely arranged, a mounting sleeve which is arranged in the middle of the swinging shaft and a plurality of swinging legs which are arranged at the bottom of the mounting sleeve at intervals along the axial direction of the mounting sleeve, the bottom of each swinging leg is provided with a hammering block, the shape of each hammering block is triangular, the large end of each hammering block faces the upper end of the swinging shaft, and the small end of each hammering block faces the lower end of the swinging shaft; the base is provided with a first discharge hole below the screen assembly, and a second discharge hole below the lower end of the swing shaft. Therefore, a propelling mechanism does not need to be additionally arranged, the structure is simple, and the cost is lower.

Description

Meal garbage sorting machine

Technical Field

The utility model relates to a refuse treatment technical field, especially a surplus rubbish sorting machine of meal.

Background

Wet garbage, especially kitchen garbage, needs to be broken up and smashed firstly, then sorted according to size, and garbage with smaller size and garbage with larger size are screened. A plurality of rapping hammers in the existing sorting machine only have a rapping function, so that massive materials are scattered and smashed, but the materials cannot continuously move in the prior art, a propelling mechanism needs to be additionally arranged to propel the materials forward, and the sorting machine is complex in structure and high in cost.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a need not additionally to set up advancing mechanism, simple structure, less meal waste sorting machine of cost to solve above-mentioned problem.

A sorting machine for food waste comprises a frame, a driving mounting plate arranged on the frame, a driving motor arranged on the driving mounting plate, a swing transmission mechanism arranged on the driving mounting plate and connected with the driving motor, a swing knocking component arranged below the driving mounting plate and connected with the swing transmission mechanism, a screen component arranged below the swing knocking component, and a base arranged below the screen component; the swinging knocking component and the screen component are obliquely arranged; the swinging and knocking component is provided with a swinging shaft which is obliquely arranged, a mounting sleeve which is arranged in the middle of the swinging shaft and a plurality of swinging legs which are arranged at the bottom of the mounting sleeve at intervals along the axial direction of the mounting sleeve, the bottom of each swinging leg is provided with a hammering block, the shape of each hammering block is triangular, the large end of each hammering block faces the upper end of the swinging shaft, and the small end of each hammering block faces the lower end of the swinging shaft; the base is provided with a first discharge hole below the screen assembly, and a second discharge hole below the lower end of the swing shaft.

Furthermore, the positions of two sides of the frame, which are close to the top, are obliquely provided with upper cross beams, and lower cross beams are arranged below the upper cross beams in parallel; the upper cross beam is provided with a base support, and the driving mounting plate is positioned on the base support; two sides of the base are respectively provided with a first extending plate in an outward extending mode, and the two first extending plates are respectively arranged on the two lower cross beams; the both sides of screen cloth subassembly are outwards extended respectively and are had the second to extend the board, and the second extends the board and is located the first extension board of base respectively.

Furthermore, the swing transmission mechanism comprises a rotary table fixedly connected with an output shaft of the driving motor, a connecting rod with a first end eccentrically hinged with the rotary table, a swing block with a top end hinged with a second end of the connecting rod, a transmission output shaft connected with the bottom end of the swing block, and a plurality of driving sprockets fixedly sleeved at one end of the transmission output shaft far away from the swing block; a plurality of driven chain wheels are fixedly sleeved at the position of the swing shaft close to the second rotating support plate; a chain connecting a driving sprocket and a driven sprocket; a fixed mounting plate is arranged on the stand bracket, a movable mounting plate is detachably arranged on the fixed mounting plate, a plurality of first screw holes are formed in the fixed mounting plate, a plurality of first through holes are formed in the movable mounting plate, and a first screw penetrates through the first through holes and is in threaded connection with the first screw holes; the driving mounting plate is arranged on the movable mounting plate.

Furthermore, a mounting groove is concavely arranged on the circumferential side surface of the movable mounting plate; the edge of the movable mounting plate forms an upper flange above the mounting groove and a lower flange below the mounting groove; a plurality of L-shaped stop blocks are arranged in the mounting groove at one side of the movable mounting plate away from the transmission output shaft; the lower part of the L-shaped stop block is provided with a second through hole along the vertical direction, the bottom surface of the upper flange is provided with a second screw hole, and a second screw passes through the second through hole and is in threaded connection with the second screw hole of the upper flange; the upper part of the L-shaped stop block is positioned on the outer side of the upper flange, a third screw hole is formed in the upper part of the L-shaped stop block along the horizontal direction, an adjusting stud is connected with the third screw hole in an internal thread mode, and one end, facing the transmission output shaft, of the adjusting stud is abutted to the driving mounting plate; the first through hole is formed in the lower flange; the upper flange is provided with a plurality of fourth screw holes, the driving mounting plate is provided with a strip hole corresponding to the fourth screw holes, and a third screw penetrates through the strip hole and is in threaded connection with the fourth screw holes.

Furthermore, a plurality of arc-shaped screen mesh sheets are connected between two second extension plates of the second extension plates, a plurality of mounting holes are formed in the screen mesh sheets at intervals along the length direction of the first extension plate, a screen rotating shaft is parallel to the first extension plate and penetrates through the mounting holes of the screen mesh sheets, mounting screw holes are formed in two ends of the screen rotating shaft, and mounting studs are connected in the mounting screw holes in a threaded manner; the screen mesh rotating shaft is movably sleeved with a movable sleeve between two adjacent screen mesh sheets.

Furthermore, a feeding end baffle is arranged on the outer side of the upper end of the swinging knocking component, and a feeding hole is formed in the middle of the feeding end baffle; the position of the feeding end baffle corresponding to each screen rotating shaft is provided with a shaft drawing hole, and one end of the screen rotating shaft or a mounting stud penetrates through the shaft drawing hole.

Furthermore, a side baffle is connected between the upper cross beam and the lower cross beam.

Furthermore, a first acute angle is formed between one part of the swing legs and the axial direction of the mounting sleeve, and a second acute angle is formed between the other part of the swing legs and the axial direction of the mounting sleeve.

Further, the minimum distance between the screen assembly and the swing leg is 10-20 mm.

Furthermore, a reinforcing installation block is welded on the upper cross beam, a fifth screw hole is formed in the reinforcing installation block, and the stand bracket is positioned above the reinforcing installation block; the machine base support is provided with an embedding hole corresponding to the fifth screw hole, a reinforcing sleeve is embedded in the embedding hole, and a stud penetrates through the reinforcing sleeve and is in threaded connection with the fifth screw hole of the reinforcing installation block.

Compared with the prior art, the sorting machine for the garbage after meals comprises a frame, a driving mounting plate arranged on the frame, a driving motor arranged on the driving mounting plate, a swing transmission mechanism arranged on the driving mounting plate and connected with the driving motor, a swing knocking component arranged below the driving mounting plate and connected with the swing transmission mechanism, a screen assembly arranged below the swing knocking component, and a base arranged below the screen assembly; the swinging knocking component and the screen component are obliquely arranged; the swinging and knocking component is provided with a swinging shaft which is obliquely arranged, a mounting sleeve which is arranged in the middle of the swinging shaft and a plurality of swinging legs which are arranged at the bottom of the mounting sleeve at intervals along the axial direction of the mounting sleeve, the bottom of each swinging leg is provided with a hammering block, the shape of each hammering block is triangular, the large end of each hammering block faces the upper end of the swinging shaft, and the small end of each hammering block faces the lower end of the swinging shaft; the base is provided with a first discharge hole below the screen assembly, and a second discharge hole below the lower end of the swing shaft. Therefore, a propelling mechanism does not need to be additionally arranged, the structure is simple, and the cost is lower.

Drawings

Embodiments of the present invention are described below with reference to the accompanying drawings, in which:

fig. 1 is a schematic perspective view of the sorting machine for food waste.

Fig. 2 is a perspective view of the frame of fig. 1.

Fig. 3 is a partial schematic view of the meal waste sorting machine provided by the utility model.

Fig. 4 is the utility model provides a meal remains rubbish sorting machine's local split sketch map.

Fig. 5 is an enlarged schematic view of a portion a in fig. 3.

Fig. 6 is a partially broken away schematic view of fig. 3.

Figure 7 is a perspective view of the screen assembly of figure 4.

Fig. 8 is a schematic view of another view angle of the sorting machine for food waste.

Fig. 9 is a schematic sectional view taken along line a-a in fig. 2.

Detailed Description

The following describes in further detail specific embodiments of the present invention based on the drawings. It should be understood that the description herein of embodiments of the invention is not intended to limit the scope of the invention.

Referring to fig. 1 to 4, the remaining food garbage sorting machine provided by the present invention includes a frame 10, a driving mounting plate 20 disposed on the frame 10, a driving motor 30 disposed on the driving mounting plate 20, a swing transmission mechanism 40 disposed on the driving mounting plate 20 and connected to the driving motor 30, a swing knocking assembly 60 disposed below the driving mounting plate 20 and connected to the swing transmission mechanism 40, a screen assembly 70 disposed below the swing knocking assembly 60, and a base 80 disposed below the screen assembly 70. The pendulum rapping assembly 60 and the screen assembly 70 are both inclined such that the material in the screen assembly 70 moves forward under the influence of gravity.

The upper beam 11 is obliquely arranged at the position close to the top of the two sides of the frame 10, and the lower beam 12 is arranged below the upper beam 11 in parallel. The upper cross beam 11 is provided with a base bracket 50, and the base bracket 50 is provided with a fixed mounting plate 21.

The fixed mounting plate 21 is detachably provided with a movable mounting plate 22, and the driving mounting plate 20 is arranged on the movable mounting plate 22.

Referring to fig. 3 and 8, the swing transmission mechanism 40 includes a rotating disc 41 fixedly connected to the output shaft of the driving motor 30, a connecting rod 42 with a first end eccentrically hinged to the rotating disc 41, a swing block 43 with a top end hinged to a second end of the connecting rod 42, a transmission output shaft 44 connected to a bottom end of the swing block 43, and a plurality of driving sprockets 45 fixedly sleeved on an end of the transmission output shaft 44 away from the swing block 43.

Because the upper cross beam 11 and the lower cross beam 12 are both obliquely arranged, the engine base bracket 50 is also obliquely arranged. The upper end bottom of the stand bracket 50 is provided with a first rotary support plate 51 extending downward, and the lower end bottom is provided with a second rotary support plate 52 extending downward.

The swing knocking assembly 60 includes a swing shaft 61 with two ends rotatably connected to the first rotating support plate 51 and the second rotating support plate 52, a plurality of driven sprockets 62 fixedly sleeved on the swing shaft 61 and located near the second rotating support plate 52, a mounting sleeve 63 disposed in the middle of the swing shaft 61, and a plurality of swing legs 64 disposed at the bottom of the mounting sleeve 63 along the axial direction of the mounting sleeve 63 at intervals, wherein the bottom of the swing legs 64 is provided with a hammering block 641. Wherein, a first angle with an acute angle is formed between part of the swing legs 64 and the axial direction of the mounting sleeve 63, and a second angle with an acute angle is formed between the other part of the swing legs 64 and the axial direction of the mounting sleeve 63. So a plurality of swing legs 64 are the setting of leaning towards about, increase the orderliness that the material removed, avoid the material bulk movement and lead to knocking the effect and descend.

The hammer block 641 has a generally triangular shape with a large head end facing the first rotation support plate 51 and a small head end facing the second rotation support plate 52. Thus, when the hammer block 641 strikes the material, the material can move along the side of the hammer block 641, thereby generating a component force to move forward, and promoting the forward movement of the material.

The screen assembly 70 is semi-circular in shape and is located at least partially below the plurality of swing legs 64. The minimum distance between the screen assembly 70 and the swing leg 64 is 10-20mm, preferably 15 mm.

The two sides of the base 80 are respectively extended with a first extending plate, and the two first extending plates are respectively installed on the two lower beams 12. The base 80 has a first discharge hole 81 formed below the screen assembly 70, and a second discharge hole 82 formed below one end of the swing shaft 61 close to the second rotating support plate 52. Two sides of the screen assembly 70 are respectively extended outward to form second extending plates, and the second extending plates are respectively located on the first extending plates of the base 80. A connecting pin or screw passes through the first and second extension plates and is connected to the lower cross member 12.

A side baffle 90 is connected between the upper beam 11 and the lower beam 12.

A plurality of first screws have been seted up on the fixed mounting panel 21, a plurality of first through-holes have been seted up on the movable mounting panel 22, a first screw pass first through-hole and with first screw threaded connection, thereby make the movable mounting panel 22 install different positions on the fixed mounting panel 21, and then make different drive sprocket 45 relative with different driven sprocket 62, different drive sprocket 45 and different drive sprocket 45 have different radial dimensions, a drive sprocket 45 and relative driven sprocket 62 are connected to a chain, thereby adjustable speed ratio.

Referring to fig. 5 and 6, the circumferential side surface of the movable mounting plate 22 is concavely provided with a mounting groove 221, such that an upper flange 222 is formed on the edge of the movable mounting plate 22 above the mounting groove 221, and a lower flange 223 is formed below the mounting groove 221.

A plurality of L-shaped stoppers 23 are arranged in the mounting groove 221 on one side of the movable mounting plate 22 away from the transmission output shaft 44; a second through hole is formed in the lower portion of the L-shaped stopper 23 along the vertical direction, a second screw hole is formed in the bottom surface of the upper flange 222, and a second screw penetrates through the second through hole and is in threaded connection with the second screw hole of the upper flange 222. The upper part of the L-shaped stopper 23 is located outside the upper flange 222 and protrudes upward from the upper flange 222, a third screw hole is formed in the part of the upper part of the L-shaped stopper 23 protruding from the movable mounting plate 22 along the horizontal direction, an adjusting stud is connected to the third screw hole in an internal thread manner, and one end of the adjusting stud facing the transmission output shaft 44 is abutted to the driving mounting plate 20.

A first through hole 2231 opens in the lower flange 223.

The upper flange 222 further has a plurality of fourth screw holes 2221, the driving mounting plate 20 has a long hole 201 corresponding to the fourth screw holes 2221, and a third screw passes through the long hole 201 and is threadedly coupled to the fourth screw holes 2221. If the chain is loosened, the third screw can be loosened first, the position of the driving mounting plate 20 is changed, the fourth screw hole 2221 is opposite to different positions of the strip hole 201, and the third screw and the adjusting stud are screwed, so that the tightness of the chain is adjusted.

Referring to fig. 7, two sides of the screen assembly 70 respectively extend outward to form second extending plates 71, a plurality of arc-shaped screen grids 72 are connected between the two second extending plates 71, a plurality of mounting holes are formed in the plurality of screen grids 72 at intervals along the length direction of the first extending plate 71, a screen rotating shaft 73 is parallel to the first extending plate 71 and penetrates through the mounting holes of the plurality of screen grids 72, mounting screw holes are formed in both ends of the screen rotating shaft 73, and mounting studs are connected to the mounting screw holes through threads. The screen rotating shaft 73 is movably sleeved with a movable sleeve 74 between two adjacent screen grids 72. The small materials can fall from the gap between the adjacent movable sleeves 74, the screen rotating shaft 73 can be protected, the movable sleeves 74 roll along with the materials, friction and resistance can be reduced, and the falling probability of the small materials is improved.

Referring to fig. 8, a feeding end baffle 91 is disposed on an outer side of an upper end of the swinging knocking assembly 60, and a feeding hole 911 is formed in a middle portion of the feeding end baffle 91. The position of the feeding end baffle 91 corresponding to each screen rotating shaft 73 is provided with a shaft drawing hole 912, and one end of the screen rotating shaft 73 or a mounting stud penetrates through the shaft drawing hole 912. When a plurality of movable sleeves 74 on a certain screen rotating shaft 73 are damaged and need to be replaced, the mounting studs at one end, far away from the feeding end baffle 91, of the screen rotating shaft 73 are loosened, then the screen rotating shaft 73 is drawn out from the drawing shaft hole 912 for a certain distance, so that the movable sleeves 74 on the screen rotating shaft 73 fall off, then new movable sleeves 74 are replaced, then the screen rotating shaft 73 is pushed in, and the mounting studs at one end, far away from the feeding end baffle 91, are mounted and fixed.

A 60mm by 60mm screening opening is formed between two adjacent movable sleeves 74 and two screen grids 72.

Referring to fig. 2 and 9, since the upper beam 11 and the base bracket 50 are both square tubes with hollow interiors and thin tube walls, the acting force of the driving motor 30 and the swinging and striking assembly 60 is large, if the upper beam 11 and the base bracket 50 are directly connected by connecting pins or screws, the upper beam 11 and the base bracket 50 cannot bear large acting force, and thus the upper beam 11 and the base bracket 50 are deformed and damaged.

Therefore, the upper beam 11 is welded with the reinforced mounting block 53, the reinforced mounting block 53 is provided with a fifth screw hole 531, and the stand bracket 50 is located above the reinforced mounting block 53. The upper cross beam 11 is connected with the base bracket 50 through the reinforcing mounting block 53, so that the stress area of the upper cross beam 11 is increased, and the deformation and damage caused by concentrated stress of the upper cross beam 11 due to thin pipe wall are avoided.

The base bracket 50 is provided with an embedding hole corresponding to the fifth screw hole 531, a reinforcing sleeve 54 is embedded in the embedding hole, and a stud 55 penetrates through the reinforcing sleeve 54 and is in threaded connection with the fifth screw hole 531 of the reinforcing mounting block 53. Thus, the local stress of the thin pipe wall is changed into the circumferential stress of the reinforcing sleeve 54, and the probability of deformation and damage of the engine base bracket 50 caused by concentrated stress is reduced.

Compared with the prior art, the sorting machine for the garbage after meals comprises a frame 10, a driving mounting plate 20 arranged on the frame 10, a driving motor 30 arranged on the driving mounting plate 20, a swing transmission mechanism 40 arranged on the driving mounting plate 20 and connected with the driving motor 30, a swing knocking component 60 arranged below the driving mounting plate 20 and connected with the swing transmission mechanism 40, a screen component 70 arranged below the swing knocking component 60, and a base 80 arranged below the screen component 70; the swinging rapping assembly 60 and the screen assembly 70 are both obliquely arranged; the swinging and striking assembly 60 is provided with a swinging shaft 61 arranged obliquely, a mounting sleeve 63 arranged in the middle of the swinging shaft 61, and a plurality of swinging legs 64 arranged at the bottom of the mounting sleeve 63 at intervals along the axial direction of the mounting sleeve 63, wherein the bottom of each swinging leg 64 is provided with a hammering block 641, the shape of each hammering block 641 is triangular, the large end of each hammering block 641 faces the upper end of the swinging shaft 61, and the small end of each hammering block faces the lower end of the swinging shaft 61; the base 80 has a first discharge hole 81 below the screen assembly 70, and a second discharge hole 82 below the lower end of the swing shaft 61. Therefore, a propelling mechanism does not need to be additionally arranged, the structure is simple, and the cost is lower.

The above description is only for the preferred embodiment of the present invention and should not be construed as limiting the scope of the present invention, and any modification, equivalent replacement or improvement within the spirit of the present invention is encompassed by the claims of the present invention.

Claims

1. The utility model provides a meal remains rubbish sorting machine which characterized in that: the device comprises a frame, a driving mounting plate arranged on the frame, a driving motor arranged on the driving mounting plate, a swing transmission mechanism arranged on the driving mounting plate and connected with the driving motor, a swing knocking component arranged below the driving mounting plate and connected with the swing transmission mechanism, a screen assembly arranged below the swing knocking component, and a base arranged below the screen assembly; the swinging knocking component and the screen component are obliquely arranged; the swinging and knocking component is provided with a swinging shaft which is obliquely arranged, a mounting sleeve which is arranged in the middle of the swinging shaft and a plurality of swinging legs which are arranged at the bottom of the mounting sleeve at intervals along the axial direction of the mounting sleeve, the bottom of each swinging leg is provided with a hammering block, the shape of each hammering block is triangular, the large end of each hammering block faces the upper end of the swinging shaft, and the small end of each hammering block faces the lower end of the swinging shaft; the base is provided with a first discharge hole below the screen assembly, and a second discharge hole below the lower end of the swing shaft.

2. The meal waste sorter as claimed in claim 1 wherein: the upper cross beams are obliquely arranged at the positions, close to the top, of the two sides of the frame, and the lower cross beams are arranged below the upper cross beams in parallel; the upper cross beam is provided with a base support, and the driving mounting plate is positioned on the base support; two sides of the base are respectively provided with a first extending plate in an outward extending mode, and the two first extending plates are respectively arranged on the two lower cross beams; the both sides of screen cloth subassembly are outwards extended respectively and are had the second to extend the board, and the second extends the board and is located the first extension board of base respectively.

3. The meal waste sorter as claimed in claim 2 wherein: the swing transmission mechanism comprises a rotary table fixedly connected with an output shaft of the driving motor, a connecting rod with a first end eccentrically hinged with the rotary table, a swing block with a top end hinged with a second end of the connecting rod, a driving output shaft connected with the bottom end of the swing block, and a plurality of driving sprockets fixedly sleeved at one end of the driving output shaft far away from the swing block; a plurality of driven chain wheels are fixedly sleeved at the position of the swing shaft close to the second rotating support plate; a chain connecting a driving sprocket and a driven sprocket; a fixed mounting plate is arranged on the stand bracket, a movable mounting plate is detachably arranged on the fixed mounting plate, a plurality of first screw holes are formed in the fixed mounting plate, a plurality of first through holes are formed in the movable mounting plate, and a first screw penetrates through the first through holes and is in threaded connection with the first screw holes; the driving mounting plate is arranged on the movable mounting plate.

4. The meal waste sorter as claimed in claim 3 wherein: the circumferential side surface of the movable mounting plate is concavely provided with a mounting groove; the edge of the movable mounting plate forms an upper flange above the mounting groove and a lower flange below the mounting groove; a plurality of L-shaped stop blocks are arranged in the mounting groove at one side of the movable mounting plate away from the transmission output shaft; the lower part of the L-shaped stop block is provided with a second through hole along the vertical direction, the bottom surface of the upper flange is provided with a second screw hole, and a second screw passes through the second through hole and is in threaded connection with the second screw hole of the upper flange; the upper part of the L-shaped stop block is positioned on the outer side of the upper flange, a third screw hole is formed in the upper part of the L-shaped stop block along the horizontal direction, an adjusting stud is connected with the third screw hole in an internal thread mode, and one end, facing the transmission output shaft, of the adjusting stud is abutted to the driving mounting plate; the first through hole is formed in the lower flange; the upper flange is provided with a plurality of fourth screw holes, the driving mounting plate is provided with a strip hole corresponding to the fourth screw holes, and a third screw penetrates through the strip hole and is in threaded connection with the fourth screw holes.

5. The meal waste sorter as claimed in claim 2 wherein: a plurality of arc-shaped screen mesh sheets are connected between two second extension plates of the second extension plates, a plurality of mounting holes are formed in the screen mesh sheets at intervals along the length direction of the first extension plate, a screen rotating shaft is parallel to the first extension plate and penetrates through the mounting holes of the screen mesh sheets, mounting screw holes are formed in two ends of the screen rotating shaft, and mounting studs are connected in the mounting screw holes in a threaded manner; the screen mesh rotating shaft is movably sleeved with a movable sleeve between two adjacent screen mesh sheets.

6. The meal waste sorter of claim 5 wherein: a feeding end baffle is arranged on the outer side of the upper end of the swinging knocking component, and a feeding hole is formed in the middle of the feeding end baffle; the position of the feeding end baffle corresponding to each screen rotating shaft is provided with a shaft drawing hole, and one end of the screen rotating shaft or a mounting stud penetrates through the shaft drawing hole.

7. The meal waste sorter as claimed in claim 2 wherein: and a side baffle is connected between the upper cross beam and the lower cross beam.

8. The meal waste sorter as claimed in claim 1 wherein: a first angle which is an acute angle is formed between one part of swing legs and the axial direction of the mounting sleeve, and a second angle which is an acute angle is formed between the other part of swing legs and the axial direction of the mounting sleeve.

9. The meal waste sorter as claimed in claim 1 wherein: the minimum distance between the screen assembly and the swing leg is 10-20 mm.

10. The meal waste sorter as claimed in claim 2 wherein: the upper cross beam is welded with a reinforced mounting block, the reinforced mounting block is provided with a fifth screw hole, and the stand bracket is positioned above the reinforced mounting block; the machine base support is provided with an embedding hole corresponding to the fifth screw hole, a reinforcing sleeve is embedded in the embedding hole, and a stud penetrates through the reinforcing sleeve and is in threaded connection with the fifth screw hole of the reinforcing installation block.