CN113348972A - Automatic punching equipment of culture embryo for planting of summer mushroom strain - Google Patents

Abstract

The invention relates to a punching device, in particular to an automatic punching device for a culture embryo for planting a mushroom strain. The technical problem to be solved is as follows: the utility model provides a can carry out the pay-off to the culture embryo voluntarily, and can plant the automatic trompil equipment of culture embryo for the mushroom bacterial of culture embryo trompil voluntarily. The utility model provides a summer mushroom bacterial is planted with automatic trompil equipment of culture embryo, including: the number of the bottom plates is one; the supporting frame is arranged on one side of the upper part of the bottom plate; the motor is arranged on the upper part of the support frame; the workbench is arranged on the upper part of the bottom plate; the feeding mechanism is arranged between the workbench and the bottom plate; and the manual punching mechanism is arranged in the middle of the upper part of the bottom plate. The invention achieves the effects of automatically feeding the culture embryos and automatically opening holes in the culture embryos; the culture embryos are placed on the workbench and move left and right through the deflector rod, so that the culture embryos can be fed.

Description

Automatic punching equipment of culture embryo for planting of summer mushroom strain

Technical Field

The invention relates to a punching device, in particular to an automatic punching device for a culture embryo for planting a mushroom strain.

Background

The summer mushroom is the anti-season mushroom, and the strain is the propagation material composed of mycelium of edible mushroom, industrial mushroom, agricultural mushroom and the like and the growth substrate thereof.

When people plant strains, the culture embryos need to be manually placed on a workbench, then the culture embryos are perforated, then the strains are sequentially placed in holes of the culture embryos, and after the placement is completed, new culture embryos continue to be replaced. In the process of planting the strains on the culture embryos manually, the culture embryos need to be perforated manually, and blanking needs to be carried out manually.

Therefore, it is necessary to design an automatic hole forming device for the cultivation embryos for planting the summer mushroom strains, which can automatically feed the cultivation embryos and can automatically form holes on the cultivation embryos.

Disclosure of Invention

In order to overcome the defects that in the process of manually planting strains on a culture embryo, the culture embryo needs to be perforated manually and needs to be blanked manually, the technical problem to be solved is as follows: the utility model provides a can carry out the pay-off to the culture embryo voluntarily, and can plant the automatic trompil equipment of culture embryo for the mushroom bacterial of culture embryo trompil voluntarily.

The technical scheme of the invention is as follows: the utility model provides a summer mushroom bacterial is planted with automatic trompil equipment of culture embryo, including: the number of the bottom plates is one; the supporting frame is arranged on one side of the upper part of the bottom plate; the motor is arranged on the upper part of the support frame; the workbench is arranged on the upper part of the bottom plate; the feeding mechanism is arranged between the workbench and the bottom plate; and the manual punching mechanism is arranged in the middle of the upper part of the bottom plate.

In one embodiment, the feeding mechanism comprises: the first fixing column is arranged on one side, close to the supporting frame, of the upper part of the bottom plate; the first rotating shaft is rotatably arranged on the first fixing column and is connected with an output shaft of the motor; the first rotating rod is arranged on the first rotating shaft; the second rotating rod is arranged on the first rotating rod; the second fixing columns are arranged on two sides of the middle of the upper part of the workbench; the third rotating rod is rotatably arranged on the second fixing column and is rotatably connected with the second rotating rod; and the deflector rod is arranged between the second rotating rods on the two sides.

In one embodiment, the manual hole punching mechanism comprises: the third fixing columns are symmetrically arranged in the middle of the upper part of the bottom plate; the first telescopic groups are arranged on the third fixed column in a sliding manner; the compression columns are arranged between the first telescopic groups on the two sides.

In one embodiment, the automatic punching machine further comprises an automatic punching mechanism, wherein the automatic punching mechanism comprises: the gear lack is arranged on the first rotating shaft; the fourth fixing columns are symmetrically arranged at the upper part of the bottom plate, close to the first rotating shaft; the second telescopic groups are arranged on the fourth fixed columns; the straight rack is arranged on the second telescopic group in a sliding manner; the first wedge-shaped blocks are arranged on the straight rack; and the first wedge block is in contact fit with the second wedge block.

In one of them embodiment, still including unloading mechanism, unloading mechanism includes: the fifth fixing columns are symmetrically arranged on one side of the upper part of the bottom plate, which is far away from the straight rack; the charging box is arranged between the fifth fixing columns on the two sides; the discharging barrel is arranged on the charging box; the second rotating shaft is rotatably arranged in the lower charging barrel; the ratchet wheel is arranged on the second rotating shaft; the first connecting rod is arranged on the first wedge-shaped block close to one side of the motor; the third telescopic group is arranged on the first connecting rod; the ratchet bar is arranged at the lower part of the third telescopic group in a sliding way and is matched with the ratchet wheel; and the roller is arranged on the second rotating shaft.

In one embodiment, the device further comprises a cleaning mechanism, wherein the cleaning mechanism comprises: the sixth fixing column is arranged at the position, far away from the motor, of the upper part of the bottom plate; the third rotating shaft is rotatably arranged between the sixth fixing columns on the two sides; the bevel gear set is arranged between the third rotating shaft and the first rotating shaft; the cam is arranged on the third rotating shaft; the seventh fixing column is symmetrically arranged at the position, close to the sixth fixing column, of the upper part of the bottom plate; the fourth telescopic groups are arranged on the seventh fixed column, and the number of the fourth telescopic groups is two; the filter plate is arranged on the fourth telescopic group in a sliding manner; the push plate is arranged on the filter plate and is in contact fit with the cam; the waste bin is arranged on one side, close to the push plate, of the upper portion of the bottom plate.

In one embodiment, the device further comprises a fixing mechanism, wherein the fixing mechanism comprises: the second connecting rods are uniformly arranged on the workbench at intervals; the stop block is arranged on the second connecting rod in a sliding manner; and the spring is arranged between the stop block and the second connecting rod.

In one embodiment, the spring is a compression spring.

The beneficial effects are that: 1. the invention achieves the effects of automatically feeding the culture embryos and automatically opening holes in the culture embryos;

2. the culture embryos are placed on the workbench and move left and right through the deflector rod, so that the culture embryos can be fed;

3. the first wedge-shaped block drives the second wedge-shaped block and the pressing column to move upwards, and then the pressing column can automatically open holes in the process of moving downwards;

4. drive the ratchet through the ratchet and rotate, and then drive fourth pivot and cylinder and rotate, and then make the bacterial unloading to cultivateing in the embryo, so can realize carrying out the effect of planting to the bacterial automatically.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the feeding mechanism of the present invention.

Fig. 3 is a schematic perspective view of the manual hole punching mechanism of the present invention.

Fig. 4 is a schematic perspective view of the automatic hole-punching mechanism of the present invention.

Fig. 5 is a schematic perspective view of a first part of the blanking mechanism of the present invention.

Fig. 6 is an enlarged schematic perspective view of part a of the present invention.

Fig. 7 is a schematic perspective view of a second part of the blanking mechanism of the present invention.

Fig. 8 is a schematic perspective view of the cleaning mechanism of the present invention.

Fig. 9 is a schematic perspective view of the fixing mechanism of the present invention.

Labeled as: 1_ bottom plate, 2_ support frame, 3_ motor, 4_ workbench, 5_ feeding mechanism, 51_ first fixed column, 52_ first rotating shaft, 53_ first rotating rod, 54_ second rotating rod, 55_ third rotating rod, 56_ second fixed column, 57_ toggle lever, 6_ manual punching mechanism, 61_ third fixed column, 62_ first telescopic set, 63_ press column, 7_ automatic punching mechanism, 71_ missing gear, 72_ straight rack, 73_ fourth fixed column, 74_ second telescopic set, 75_ first wedge block, 76_ second wedge block, 8_ blanking mechanism, 81_ fifth fixed column, 82_ charging box, 83_ discharging barrel, 84_ second rotating shaft, 85_ ratchet, 86_ first connecting rod, 87_ third telescopic set, 88_ ratchet rack, 89_ roller, 9_ cleaning mechanism, 91_ sixth fixed column, 92_ third rotating shaft, 93_ bevel gear set, 94_ cam, 95_ seventh fixed column, 96_ push plate, 97_ filter plate, 98_ fourth telescopic group, 99_ waste bin, 10_ fixing mechanism, 101_ second connecting rod, 102_ spring and 103_ stop block.

Detailed Description

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Example 1

The utility model provides a summer mushroom bacterial is planted with automatic trompil equipment of cultivateing embryo, as shown in figure 1, including bottom plate 1, support frame 2, motor 3, workstation 4, feeding mechanism 5 and manual mechanism 6 of punching, the left front side in 1 upper portion of bottom plate is equipped with support frame 2, and 2 upper portions of support frame are equipped with motor 3, and 1 upper portion of bottom plate is equipped with workstation 4, is connected with feeding mechanism 5 between workstation 4 and the bottom plate 1, is equipped with manual mechanism 6 of punching in the middle of 1 upper portion of bottom plate.

When the user need cultivate the bacterial, can use this equipment, at first place the cultivation embryo that will cultivate on feeding mechanism 5, starter motor 3 afterwards, the part that drives feeding mechanism 5 through motor 3 removes, will cultivate the embryo and remove to the below of manual mechanism 6 of punching, punch the cultivation embryo through manual mechanism 6 of punching, punch the completion back, the user can be at downthehole bacterial of placing, when the user need not plant the bacterial, it can to close motor 3.

Example 2

On the basis of embodiment 1, as shown in fig. 2 to 3, the feeding mechanism 5 includes a first fixed column 51, a first rotating shaft 52, a first rotating rod 53, a second rotating rod 54, a third rotating rod 55, a second fixed column 56 and a shift lever 57, the first fixed column 51 is disposed on the left front side of the upper portion of the base plate 1, the first rotating shaft 52 is rotatably disposed on the first fixed column 51, the first rotating shaft 52 is connected to an output shaft of the motor 3, the first rotating rod 53 is disposed on the first rotating shaft 52, the second rotating rod 54 is disposed on the first rotating rod 53, the second fixed column 56 is symmetrically disposed in front and rear of the middle of the upper portion of the workbench 4, the third rotating rod 55 is rotatably disposed on the second fixed column 56, the third rotating rod 55 is rotatably connected to the second rotating rod 54, and the shift lever 57 is disposed between the second rotating rods 54 on both sides.

The user can place the cultivation embryo that needs plant on workstation 4, and motor 3 drives first pivot 52 and first bull stick 53 and rotates, drives second bull stick 54 and third bull stick 55 and rotates to make driving lever 57 remove about, driving lever 57 removes the in-process, can constantly remove the cultivation embryo on workstation 4 to the right side to manual mechanism 6 of punching under.

The manual punching mechanism 6 comprises a third fixing column 61, a first telescopic group 62 and pressing columns 63, the third fixing column 61 is symmetrically arranged in the middle of the upper portion of the bottom plate 1 front and back, the first telescopic group 62 is arranged on the third fixing column 61 in a sliding mode, and the pressing columns 63 are connected between the first telescopic groups 62 on the two sides.

The user can be with compression leg 63 rebound, and first flexible group 62 is stretched this moment, and when the culture embryo removed under compression leg 63, the user no longer exerted force to compression leg 63 for under the reset effect of first flexible group 62, make the culture embryo punch.

Example 3

On the basis of the embodiment 2, as shown in fig. 4 to 9, the automatic punching device 7 is further included, the automatic punching device 7 includes a missing gear 71, a spur rack 72, a fourth fixed column 73, a second telescopic group 74, a first wedge block 75 and a second wedge block 76, the missing gear 71 is arranged on the first rotating shaft 52, the fourth fixed column 73 is symmetrically arranged on the left side of the upper portion of the bottom plate 1 in a front-back manner, the second telescopic group 74 is arranged on the fourth fixed column 73, the spur rack 72 is slidably arranged on the second telescopic group 74, the spur rack 72 is engaged with the missing gear 71, the first wedge block 75 is connected to the spur rack 72, the second wedge block 76 is connected to the compression column 63, and the first wedge block 75 is in contact fit with the second wedge block 76.

First pivot 52 rotates and drives scarce gear 71 and rotate, through lacking gear 71 and spur rack 72 meshing, make spur rack 72 and first wedge 75 move to the right side, flexible group 74 of second is stretched this moment, first wedge 75 is with second wedge 76 and compression leg 63 jack-up that makes progress, so need not artifical manual upwards to stimulate compression leg 63, when lacking gear 71 and not meshing with spur rack 72, under the reset action of flexible group 74 of second, spur rack 72 and first wedge 75 move to the left side, first wedge 75 no longer supports second wedge 76, thereby make compression leg 63 remove downwards, so can realize the effect of automatic punching.

The blanking mechanism 8 comprises fifth fixing columns 81, a charging box 82, a blanking barrel 83, a second rotating shaft 84, a ratchet 85, a first connecting rod 86, a third telescopic group 87, a ratchet rack 88 and a roller 89, the fifth fixing columns 81 are symmetrically arranged on the front and back of the right side of the upper portion of the bottom plate 1, the charging box 82 is connected between the fifth fixing columns 81 on two sides, the charging box 83 is connected onto the charging box 82, the second rotating shaft 84 is rotatably arranged in the blanking barrel 83, the ratchet 85 is arranged on the second rotating shaft 84, the first wedge-shaped block 75 on the front side is connected with the first connecting rod 86, the third telescopic group 87 is arranged on the first connecting rod 86, the ratchet rack 88 is arranged on the lower portion of the third telescopic group 87 in a sliding mode, the ratchet rack 88 is matched with the ratchet 85, and the roller 89 is arranged on the second rotating shaft 84.

The user can place the bacterial in the charging box 82, the bacterial can be in proper order on the cylinder 89 of unloading section of thick bamboo 83 on, first wedge 75 drives first link 86 and ratchet 88 and moves to the right side, drive ratchet 85 through ratchet 88 and rotate, and then drive second pivot 84 and cylinder 89 and rotate, at this moment, the cultivation embryo that punches the completion removes under unloading section of thick bamboo 83, thereby cylinder 89 can be with the bacterial unloading in proper order to cultivateing the embryo, drive first link 86 and ratchet 88 and move to the left side when first wedge 75, ratchet 88 can not drive ratchet 85 and rotate this moment, thereby third flexible group 87 is compressed, when ratchet 88 does not contact with ratchet 85, third flexible group 87 resets.

Still including clearance mechanism 9, clearance mechanism 9 is including sixth fixed column 91, third pivot 92, bevel gear group 93, cam 94, seventh fixed column 95, push pedal 96, filter 97, flexible group 98 of fourth and dump bin 99, 1 upper portion right front side of bottom plate is equipped with sixth fixed column 91, the rotary type is equipped with third pivot 92 between the sixth fixed column 91 of both sides, be connected with bevel gear group 93 between third pivot 92 and the first pivot 52, be equipped with cam 94 on the third pivot 92, the symmetrical formula is equipped with seventh fixed column 95 around 1 upper portion right side of bottom plate, all be connected with two flexible groups 98 of fourth on the seventh fixed column 95, slidingtype is equipped with filter 97 between the flexible group 98 of fourth, filter 97 left side is equipped with push pedal 96, push pedal 96 and cam 94 contact cooperation, 1 upper portion right side of bottom plate is equipped with dump bin 99.

First pivot 52 rotates and drives third pivot 92 and cam 94 through bevel gear set 93 and rotate, cam 94 rotates can intermittent type nature and push pedal 96 contact, and drive push pedal 96 and filter 97 and carry out the back-and-forth movement, the culture embryo when putting the bacterial removes to the filter 97 on, the filter 97 drives the culture embryo who puts the bacterial and shakes, in this process, the fourth flexible group 98 intermittent type nature takes place deformation, and reset thereupon, the unnecessary bacterial on the culture embryo shakes down, the bacterial of shaking down can drop in the dump bin 99 from the filter 97.

The device is characterized by further comprising a fixing mechanism 10, wherein the fixing mechanism 10 comprises a second connecting rod 101, a spring 102 and a stop block 103, the second connecting rod 101 is evenly arranged on the workbench 4 at intervals, the stop block 103 is arranged on the second connecting rod 101 in a sliding mode, and the spring 102 is connected between the stop block 103 and the second connecting rod 101.

Because the culture embryo is cylindric to stopper 103 can carry out spacing to the culture embryo, when the culture embryo moved, stopper 103 was pushed down, and spring 102 is compressed, and when the culture embryo did not contact with stopper 103, under spring 102's reset effect, stopper 103 moved up and reset.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims (8)

1. The utility model provides a summer mushroom bacterial is planted with automatic trompil equipment of culture embryo which characterized in that, including:

the number of the bottom plates (1) is one;

the supporting frame (2), the supporting frame (2) is arranged on one side of the upper part of the bottom plate (1);

the motor (3), the motor (3) is arranged on the upper part of the supporting frame (2);

the workbench (4), the workbench (4) is arranged on the upper part of the bottom plate (1);

the feeding mechanism (5), the feeding mechanism (5) is arranged between the workbench (4) and the bottom plate (1);

and the manual punching mechanism (6) is arranged in the middle of the upper part of the bottom plate (1).

2. The apparatus for automatically perforating culture embryos for planting mushroom strains according to claim 1, wherein the feeding mechanism (5) comprises:

the first fixing column (51), the first fixing column (51) is arranged on one side, close to the supporting frame (2), of the upper part of the bottom plate (1);

the first rotating shaft (52), the first rotating shaft (52) is rotatably arranged on the first fixing column (51), and the first rotating shaft (52) is connected with an output shaft of the motor (3);

a first rotating rod (53), wherein the first rotating rod (53) is arranged on the first rotating shaft (52);

a second rotating lever (54), the second rotating lever (54) being provided on the first rotating lever (53);

the second fixing columns (56), the second fixing columns (56) are arranged on two sides of the middle of the upper part of the workbench (4); the third rotating rod (55), the third rotating rod (55) is rotatably arranged on the second fixing column (56), and the third rotating rod (55) is rotatably connected with the second rotating rod (54);

and the deflector rod (57) is arranged between the second rotating rods (54) at the two sides.

3. The apparatus for automatically perforating a culture embryo for the cultivation of a mushroom strain according to claim 2, wherein the manual perforating mechanism (6) comprises:

the third fixing columns (61), the third fixing columns (61) are symmetrically arranged in the middle of the upper part of the bottom plate (1);

the first telescopic groups (62) are all arranged on the third fixed column (61) in a sliding manner;

and the compression columns (63) are arranged between the first telescopic groups (62) on the two sides.

4. The apparatus for automatically perforating a culture embryo for planting a shaggy mushroom strain according to claim 3, further comprising an automatic perforating mechanism (7), wherein the automatic perforating mechanism (7) comprises:

a missing gear (71), wherein the missing gear (71) is arranged on the first rotating shaft (52);

the fourth fixing columns (73), the fourth fixing columns (73) are symmetrically arranged at the upper part of the bottom plate (1) close to the first rotating shaft (52);

the second telescopic groups (74) are arranged on the fourth fixed column (73);

the straight rack (72) is arranged on the second telescopic group (74) in a sliding manner;

the first wedge-shaped blocks (75), the first wedge-shaped blocks (75) are all arranged on the spur rack (72);

the second wedge block (76) and the second wedge block (76) are arranged on the compression column (63), and the first wedge block (75) is in contact fit with the second wedge block (76).

5. The apparatus for automatically perforating the culture embryo for planting the mushroom strain as claimed in claim 4, further comprising a blanking mechanism (8), wherein the blanking mechanism (8) comprises:

the fifth fixing columns (81), the fifth fixing columns (81) are symmetrically arranged on one side of the upper part of the bottom plate (1) far away from the straight rack (72);

the charging box (82), the charging box (82) is arranged between the fifth fixing columns (81) on the two sides;

a charging barrel (83), the charging barrel (83) is arranged on the charging box (82);

the second rotating shaft (84), the second rotating shaft (84) is rotatably arranged in the lower charging barrel (83);

the ratchet wheel (85), the ratchet wheel (85) is set on the second rotating shaft (84);

the first connecting rod (86), the first connecting rod (86) is arranged on the first wedge block (75) close to one side of the motor (3);

a third telescopic group (87), the third telescopic group (87) is arranged on the first connecting rod (86);

the ratchet bar (88) is arranged at the lower part of the third telescopic group (87) in a sliding way, and the ratchet bar (88) is matched with the ratchet wheel (85);

and the roller (89) is arranged on the second rotating shaft (84).

6. The apparatus for automatically opening holes in culture embryos for planting mushroom strains according to claim 5, further comprising a cleaning mechanism (9), wherein the cleaning mechanism (9) comprises:

the sixth fixing column (91) is arranged at the position, far away from the motor (3), of the upper part of the bottom plate (1);

the third rotating shaft (92), the third rotating shaft (92) is rotatably arranged between the sixth fixing columns (91) on the two sides;

the bevel gear set (93), the bevel gear set (93) is set up between third spindle (92) and first spindle (52);

a cam (94), the cam (94) being provided on the third rotating shaft (92);

the seventh fixing column (95) is symmetrically arranged at the position, close to the sixth fixing column (91), of the upper part of the bottom plate (1);

the fourth telescopic groups (98) are arranged on the seventh fixed column (95), and the number of the fourth telescopic groups (98) is two;

the filter plate (97), the filter plate (97) is slidably arranged on the fourth telescopic group (98);

the push plate (96), the push plate (96) is set up on the filter plate (97), the push plate (96) contacts and cooperates with cam (94);

the waste box (99), the waste box (99) is arranged on one side of the upper part of the bottom plate (1) close to the push plate (96).

7. The apparatus for automatically opening holes in culture embryos for planting mushroom strains according to claim 6, further comprising a fixing mechanism (10), wherein the fixing mechanism (10) comprises:

the second connecting rods (101), the second connecting rods (101) are uniformly arranged on the workbench (4) at intervals;

the stop block (103), the stop block (103) is arranged on the second connecting rod (101) in a sliding manner;

and the spring (102), wherein the spring (102) is arranged between the stop block (103) and the second connecting rod (101).

8. The apparatus for automatically perforating culture embryos for planting mushroom strains according to claim 7, wherein the springs (102) are compression springs.

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