CN217064849U - Gastrodia elata is grown seedlings with connecing bacterial device - Google Patents

Abstract

The utility model relates to a gastrodia elata technical field that grows seedlings especially relates to a gastrodia elata is grown seedlings with connecing bacterial device. The technical scheme comprises the following steps: device casing and locate the transmission band in the device casing inner chamber, the surface of transmission band has been placed and has been connect fungus timber, the inner chamber both sides of transmission band have all been installed the transmission roller and have been used for driving the transmission band operation, the bottom of transmission band is equipped with the bacterial and retrieves the mechanism, the top of transmission band is equipped with evenly connects bacterial mechanism. The utility model discloses a transmission roller drives the transmission band operation, and then will connect the fungus timber to transport to connect fungus bottom of the case, under the continuous operation of evenly connecing the bacterial mechanism, make the inoculation box in the case of connecing constantly rock about, make the bacterial wherein evenly spill to connect fungus timber surface, thereby realize evenly connecing the bacterial, prevent to cause the problem that the bacterial ejection of compact stops up and connects the fungus inhomogeneous; and still can collect the unrestrained bacterial to the conveyer belt surface through setting up bacterial recovery mechanism, avoid causing the waste.

Description

Gastrodia elata is grown seedlings with connecing bacterial device

Technical Field

The utility model relates to a gastrodia elata technical field that grows seedlings especially relates to a gastrodia elata is grown seedlings with connecing bacterial device.

Background

The inoculation device for the existing rhizoma gastrodiae seedling culture is simple in structure, the inoculation box adopts a natural fixed blanking mode, the strain blockage can be caused when the strain is inoculated, the blanking in the inoculation box cannot be carried out, and the inoculation device is inconvenient. And because the fungus inoculation timber is generally not convenient for match with the unloading of bacterial for the surface of fungus inoculation timber can't be carried out whole the coverage by the bacterial, leads to causing the inhomogeneous condition of fungus inoculation easily when carrying out the fungus inoculation, and then influences subsequent gastrodia elata condition of growing seedlings.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a thereby can shake fungus down and avoid the fungus unloading to block up and the gastrodia elata of the inhomogeneous condition of fungus inoculation is grown seedlings with connecing fungus kind device to the fungus probably takes place to block up and connects the inhomogeneous problem of fungus when connecing the fungus that exists among the background art.

The technical scheme of the utility model: the utility model provides a gastrodia elata is grown seedlings with connecing fungus kind device, includes the device casing and locates the transmission band in the device casing inner chamber, and the surface of transmission band has been placed and has been connect fungus timber, the transmission roller has all been installed to the inner chamber both sides of transmission band and has been used for driving the transmission band operation, the bottom of transmission band is equipped with the bacterial and retrieves the mechanism, the top of transmission band is equipped with evenly connects bacterial mechanism.

Preferably, the uniform inoculation mechanism comprises a driving motor, an inoculation box, a rotating rod, an eccentric cam, an inoculation box, a movable block, a sliding groove, a reset spring, an opening C and a strain outlet hole.

Preferably, connect fungus case fixed mounting in the inner chamber middle part roof of device casing, the inside of connecing the fungus case is equipped with the cavity, just the roof of device casing set up with connect the opening B that the cavity of fungus case is linked together, opening C sets up respectively connect the front and back both sides wall and the left side wall of fungus case, the fungus is walked out evenly and is set up in connect the diapire of fungus kind box.

Preferably, the inoculation box is arranged in the cavity of the inoculation box, the movable blocks are two groups, two groups of the movable blocks are respectively and fixedly arranged on the front side wall and the rear side wall of the inoculation box, and the sliding grooves are arranged on the front side wall and the rear side wall of the groove cavity of the opening C.

Preferably, the sliding block fixed mounting in the diapire of movable block, just the sliding block activity install in the vallecular cavity of sliding tray, reset spring locates in the vallecular cavity of sliding tray, the dwang is located connect the left side of fungus case, just reset spring is located keeping away from of sliding block one side of dwang.

Preferably, the bottom left side wall fixed mounting who connects the fungus case has the fixed block, just the bottom body of rod of dwang is installed in the wall body of fixed block, the top body of rod of dwang runs through the bearing the roof of device casing, driving motor locates the roof of device casing, just driving motor's output with the top body of rod of dwang is connected, eccentric cam fixed install in the body of rod of dwang and with connect the fungus kind box with left opening C parallel arrangement.

Preferably, the opening A is all seted up to the both sides wall of device casing, the bacterial is retrieved the mechanism and is included stock guide, collecting box.

Preferably, the collecting box is arranged on the bottom wall of the inner cavity of the device shell and is positioned under the conveying belt, the material guide plates are respectively arranged on two side walls of the inner cavity of the bottom of the device shell, and the material guide plates are positioned at the bottom of the conveying belt and are obliquely arranged.

Compared with the prior art, the utility model discloses following profitable technological effect has:

the conveying belt is driven by the conveying roller to run, so that the inoculated wood is conveyed to the bottom of the inoculated box, and under the continuous running of the uniform inoculated box mechanism, the inoculated box in the inoculated box is continuously shaken left and right, so that the strains in the inoculated box are uniformly scattered to the surface of the inoculated wood, thereby realizing uniform inoculated strain, and preventing the problems of strain discharge blockage and nonuniform inoculated strain;

still can collect unrestrained bacterial to the conveyer belt surface through setting up bacterial recovery mechanism, avoid causing the waste.

Drawings

Fig. 1 is a schematic perspective sectional view of an embodiment of the present invention;

FIG. 2 is a schematic front sectional view of the structure of FIG. 1;

FIG. 3 is a schematic sectional view of the inoculum cassette of FIG. 1 in elevation.

Reference numerals: 1-a device housing; 2-a material guide plate; 3-a collection box; 4-opening A; 5-a transfer roller; 6, conveying the belt; 7-inoculating fungus wood; 8-driving a motor; 9-opening B; 10-inoculation box; 11-rotating rods; 12-an eccentric cam; 13-fixing block; 15-inoculating the strain box; 16-a movable block; 17-a slider; 18-a sliding groove; 19-a return spring; 20-opening C; 21-exit the hole with the strain.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings and specific embodiments.

Example one

As shown in fig. 1-3, the utility model provides a gastrodia elata is grown seedlings with connecing fungus kind device, including device casing 1 and locate transmission band 6 in the 1 inner chamber of device casing, transmission band 6's surface has been placed and has been connect fungus timber 7, transmission band 6's the inner chamber left and right sides has all been installed transmission roller 5 and has been used for driving transmission band 6 operation, transmission band 6 cover is established on transmission roller 5's surface, the both ends of transmission roller 5's roll body are established in the wall of both sides around the casing of device casing 1 through bearing dress, and according to the in-service use demand, can make transmission roller 5 outside access motor be used for driving transmission roller 5 and rotate, and then control transmission band 6 drives and connects fungus timber 7 to remove the transportation. The bottom of transmission band 6 is equipped with the bacterial and retrieves the mechanism, and the top of transmission band 6 is equipped with evenly connects bacterial mechanism.

In this embodiment, drive the operation of transmission band 6 through transmission roller 5, and then will connect fungus timber 7 to evenly connect the bottom of fungus mechanism, evenly connect under the operation of fungus mechanism, make wherein fungus evenly unrestrained to connect fungus timber 7 surface, avoid the unable whole realization in surface of connecing fungus timber 7 to connect the fungus, thereby realize evenly connecting the fungus, and make fungus unloading in-process constantly tremble through evenly connecting fungus mechanism, and then realize trembling the unloading, prevent that the fungus unloading in-process from taking place the jam condition, still can collect the fungus that spills to the transmission band surface through setting up fungus recovery mechanism, avoid causing the fungus extravagant.

Example two

As shown in fig. 1, fig. 2, fig. 3, the utility model provides a gastrodia elata is grown seedlings with connecing fungus kind device, compare in embodiment one, this embodiment still includes that even inoculation mechanism includes driving motor 8, connect fungus case 10, dwang 11, eccentric cam 12, connect fungus kind box 15, movable block 16, sliding block 17, sliding tray 18, reset spring 19, opening C20, the fungus is portal 21, connect fungus case 10 fixed mounting in device casing 1's inner chamber middle part roof, the inside that connects fungus case 10 is equipped with the cavity, and the opening B9 that is linked together with the cavity that connects fungus case 10 is seted up to device casing 1's roof, the purpose of seting up opening B9 is in order to adding the fungus kind box 15 to connecing in fungus case 10. The openings C20 are formed in the front and rear side walls and the left side wall of the inoculation box 10, respectively, and the seed outlet holes 21 are formed in the bottom wall of the inoculation box 15. The inoculation box 15 is arranged in the cavity of the inoculation box 10, two groups of movable blocks 16 are arranged, and the two groups of movable blocks 16 are respectively and fixedly arranged on the front side wall and the rear side wall of the inoculation box 15. The sliding groove 18 is opened in the slot cavity diapire of opening C20 of front and back both sides, and sliding block 17 fixed mounting is in the diapire of movable block 16, and sliding block 17 activity is installed in the slot cavity of sliding groove 18, and sliding block 17 can move about along the slot cavity of sliding groove 18 promptly. The return spring 19 is arranged in the groove cavity of the sliding groove 18, the rotating rod 11 is arranged on the left side of the bacteria receiving box 10, and the return spring 19 is positioned on one side of the sliding block 17 far away from the rotating rod 11. The bottom left side wall fixed mounting who connects fungus case 10 has fixed block 13, and the bottom body of rod of dwang 11 is established in the wall body of fixed block 13 through the bearing dress, and the top body of rod of dwang 11 runs through the roof of device casing 1 through the bearing. The driving motor 8 is arranged on the top wall of the device shell 1, and the output end of the driving motor 8 is connected with the top end rod body of the rotating rod 11 through a coupler. The eccentric cam 12 is fixed to the lever body of the rotating lever 11 and is arranged in parallel with the inoculation cassette 15 and the left opening C20. The eccentric cam 12 may pass through the left opening C20 and push the inoculation cassette 15 to move during rotation. The left side wall and the right side wall of the device shell 1 are provided with openings A4 to facilitate the transportation of the bacterium inoculation wood 7. The strain recovery mechanism comprises a material guide plate 2 and a collecting box 3, the collecting box 3 is arranged on the bottom wall of the inner cavity of the device shell 1 and is positioned under the transmission belt 6, the material guide plate 2 is respectively arranged on the left side wall and the right side wall of the inner cavity of the bottom of the device shell 1, and the material guide plate 2 is positioned at the bottom of the transmission belt 6 and is arranged in an inclined mode.

In this embodiment, as the transmission belt 6 is transported to the position under the inoculation box 10 through the inoculation wood 7, the coupling is driven to rotate along with the output end of the driving motor 8, the coupling drives the rotating rod 11 to rotate together, the rotating rod 11 drives the eccentric cam 12 to rotate in the rotating process, the eccentric cam 12 contacts the inoculation box 15 and pushes the inoculation box to the right side in the rotating process, the sliding block 17 moves to the right side along the sliding groove 18 in the pushing process, and the sliding block 17 extrudes the return spring 19, when the eccentric cam 12 rotates to the other side, the sliding block 17 drives the inoculation box 15 to return to the original position under the elastic force of the return spring 19, and further under the cooperation of the eccentric cam 12 and the return spring 19, the inoculation box 15 continuously shakes left and right, thereby realizing shaking blanking, preventing blockage in the blanking process of strains, and facilitating the strains to be sprinkled over the surface of the inoculation wood 7, realizing uniform inoculation. Part of the strains scattered on the surface of the conveying belt 6 can automatically fall on the surface of the material guide plate 2 under the operation of the conveying belt 6 and are finally guided into the collecting box 3 to prevent the waste of the strains.

The above embodiments are merely some preferred embodiments of the present invention, and those skilled in the art can make various alternative modifications and combinations to the above embodiments based on the technical solution of the present invention and the related teachings of the above embodiments.

Claims (8)

1. The utility model provides a gastrodia elata is grown seedlings with connecing fungus kind device, includes device casing (1) and locates transmission band (6) in device casing (1) inner chamber, and the surface of transmission band (6) has been placed and has been connect fungus timber (7), its characterized in that: the inner chamber both sides of transmission band (6) have all been installed transmission roller (5) and have been used for driving transmission band (6) operation, the bottom of transmission band (6) is equipped with the bacterial and retrieves the mechanism, the top of transmission band (6) is equipped with evenly connects bacterial mechanism.

2. The inoculation device for gastrodia elata seedlings according to claim 1, characterized in that: the uniform inoculation mechanism comprises a driving motor (8), an inoculation box (10), a rotating rod (11), an eccentric cam (12), an inoculation box (15), a movable block (16), a sliding block (17), a sliding groove (18), a return spring (19), an opening C (20) and a strain outlet hole (21).

3. The inoculation device for raising gastrodia elata seedlings according to claim 2, characterized in that: connect fungus case (10) fixed mounting in the inner chamber middle part roof of device casing (1), the inside that connects fungus case (10) is equipped with the cavity, just the roof of device casing (1) seted up with opening B (9) that the cavity that connects fungus case (10) is linked together, opening C (20) are seted up respectively in connect the front and back both sides wall and the left side wall of fungus case (10), the fungus is walked out (21) and is evenly seted up in connect the diapire of fungus kind box (15).

4. The inoculation device for raising gastrodia elata seedlings according to claim 3, characterized in that: connect fungus kind box (15) to locate in the cavity that connects fungus case (10), just movable block (16) are equipped with two sets ofly, two sets ofly movable block (16) fixed mounting respectively in connect the front and back both sides wall of fungus kind box (15), both sides around sliding tray (18) are seted up the vallecular cavity diapire of opening C (20).

5. The inoculation device for gastrodia elata seedling culture according to claim 4, wherein: sliding block (17) fixed mounting in the diapire of movable block (16), just sliding block (17) activity install in the vallecular cavity of sliding tray (18), reset spring (19) are located in the vallecular cavity of sliding tray (18), dwang (11) are located connect the left side of fungus case (10), just reset spring (19) are located keeping away from of sliding block (17) one side of dwang (11).

6. The inoculation device for raising gastrodia elata seedlings according to claim 5, characterized in that: connect the bottom left side wall fixed mounting of fungus case (10) to have fixed block (13), just the bottom body of rod of dwang (11) is installed in the wall body of fixed block (13), the top body of rod of dwang (11) runs through the bearing the roof of device casing (1), driving motor (8) are located the roof of device casing (1), just the output of driving motor (8) with the top body of rod of dwang (11) is connected, eccentric cam (12) fixed install in the body of rod of dwang (11) and with connect fungus kind box (15) with left opening C (20) parallel arrangement.

7. The inoculation device for gastrodia elata seedlings according to claim 1, characterized in that: opening A (4) have all been seted up to the both sides wall of device casing (1), bacterial recovery mechanism includes stock guide (2), collecting box (3).

8. The inoculation device for raising gastrodia elata seedlings according to claim 7, characterized in that: the collecting box (3) is placed on the bottom wall of the inner cavity of the device casing (1) and located under the conveying belt (6), the material guide plates (2) are respectively installed on two side walls of the inner cavity of the bottom of the device casing (1), and the material guide plates (2) are located at the bottom of the conveying belt (6) and are arranged in an inclined mode.

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