CN220157214U - Vibration device and inoculation system - Google Patents

Abstract

The utility model provides a vibration device and an inoculation system, relates to the technical field of edible fungus cultivation, and can enable strain materials to enter holes in a cultivation container after inoculation, and prevent the strain materials from accumulating on the surface of a cultivation substrate so as to improve the cultivation effect. The main technical scheme of the utility model is as follows: a vibration device includes: the vibrating table comprises a vibrating area, wherein the vibrating area is used for placing the inoculated cultivation container, and the vibrating table drives the cultivation container to vibrate along with the inoculated cultivation container when vibrating; and the positioning part is used for limiting the cultivation container to be in the vibration area. The inoculating system comprises the vibrating device. The utility model is mainly used for inoculating edible fungi and improving the cultivation efficiency.

Description

Vibration device and inoculation system

Technical Field

The utility model relates to the technical field of edible fungi cultivation, in particular to a vibration device and an inoculation system.

Background

In the industrial cultivation process of edible fungi, an inoculation link is often arranged, a solid inoculation mode is adopted at present, granular strain materials are inoculated into containers such as a cultivation bottle by using an inoculating machine, a cultivation matrix is filled in the cultivation bottle, holes for strains to fall in are formed in the cultivation bottle, however, the strain materials falling into the cultivation bottle through the inoculating machine are often scattered on the surface of a bottle opening at random, are piled on the surface of the cultivation matrix, cannot enter the preset holes in the bottle, the cultivation effect is affected, and the later soil covering height is also affected by the scattered and piled strain materials on the surface of the bottle opening, so that the cultivation effect is affected.

Disclosure of Invention

Therefore, the embodiment of the utility model provides the vibrating device and the inoculation system, which can enable the strain material to enter the holes in the cultivation container after inoculation, and prevent the strain material from accumulating on the surface of the cultivation substrate so as to improve the cultivation effect.

In order to achieve the above purpose, the present utility model mainly provides the following technical solutions:

in one aspect, an embodiment of the present utility model provides a vibration device, including:

the vibrating table comprises a vibrating area, wherein the vibrating area is used for placing the inoculated cultivation container, and the vibrating table drives the cultivation container to vibrate along with the inoculated cultivation container when vibrating;

and the positioning part is used for limiting the cultivation container to be in the vibration area.

Specifically, the vibration table comprises a bearing table and a vibration source connected to the bearing table, wherein the vibration source is used for generating vibration;

a first elastic component is connected between the bearing table and the vibration source.

Specifically, the plummer includes conveying portion, conveying portion links to each other with transport actuating mechanism, transport actuating mechanism is used for driving conveying portion carries out the transportation motion, conveying portion is used for with cultivation container arrives the vibration region.

Specifically, the above-mentioned vibration device further includes:

the monitoring component is connected with the conveying driving mechanism, and when the monitoring component monitors that the conveying part conveys the cultivation container to the vibration area, the monitoring component sends a shutdown signal to the conveying driving mechanism to control the conveying driving mechanism to stop driving the conveying part;

and/or the number of the groups of groups,

the vibration source is connected with the conveying driving mechanism, and after the vibration source vibrates for a preset time, the vibration source stops vibrating and sends a starting signal to the conveying driving mechanism to control the conveying driving mechanism to drive the conveying part.

Specifically, the positioning part comprises a side positioning part, and the side positioning part at least comprises a first side positioning part and a second side positioning part which are opposite, and the side positioning part is used for moving to two opposite sides of the vibration area respectively when the cultivation container is positioned in the vibration area so as to prevent the cultivation container from moving sideways to the vibration area.

Specifically, the positioning part further comprises a top positioning part, wherein the top positioning part is used for moving to the top of the vibration area by a preset height when the cultivation container is positioned in the vibration area so as to prevent the top cover of the cultivation container from falling.

Specifically, the side positioning component is a telescopic component, when the cultivation container is positioned in the vibration area, the telescopic component stretches out to the side of the vibration area, and when vibration is completed, the telescopic component retracts to be far away from the vibration area;

and/or the number of the groups of groups,

when the carrying table includes a conveying portion for conveying the cultivation container to the vibration area, the side positioning member includes at least the first side positioning member for moving to a first side of the vibration area and the second side positioning member for moving to a second side of the vibration area, the first side being located on a front side of the conveying direction with respect to the second side; the first side positioning member moves to a first side of the vibration region before the conveying part conveys the cultivation container to the vibration region, and the second side positioning member moves to a second side of the vibration region after the conveying part conveys the cultivation container to the vibration region; when vibration is completed, both the first side positioning member and the second side positioning member move away from the vibration region.

Specifically, the top positioning part comprises a top positioning driving mechanism and a gland part connected to the top positioning driving mechanism, wherein the top positioning driving mechanism is used for driving the gland part to move to the preset height at the top of the vibration area, and the gland part is used for blocking the top cover of the cultivation container from falling off.

Specifically, the gland part comprises a second elastic part and a baffle connected to one end of the second elastic part, and the other end of the second elastic part is connected to the top positioning driving mechanism;

and/or the number of the groups of groups,

the preset height is that the gap between the gland part and the top cover of the cultivation container is between 4mm and 6 mm;

and/or the number of the groups of groups,

the top positioning driving mechanism is a push rod mechanism, the push rod mechanism is connected with a plurality of gland parts through a mounting plate, and the gland parts are positioned above the vibration area and are used for corresponding to the cultivation containers in the vibration area.

In another aspect, embodiments of the present utility model provide an inoculating system comprising: inoculation device and the vibration device.

The vibration device and the inoculation system provided by the embodiment of the utility model are used for carrying out vibration operation on the cultivation container through the vibration device after the strain material is inoculated into the cultivation container through the inoculation device of the inoculation system, wherein the vibration table of the vibration device drives the cultivation container to vibrate, the positioning part of the vibration device limits the cultivation container to be always in a vibration area, the strain material in the cultivation container falls into holes in the cultivation container along with the vibration action of the cultivation container, the holes are filled up, so that the cultivation effect is ensured, and the strain material left on the surface of the cultivation substrate in the cultivation container is paved on the surface of the cultivation substrate under the vibration action, so that the influence of scattered accumulation of the strain material on the surface of the cultivation substrate on the later-stage soil covering effect in the prior art is avoided.

Drawings

Fig. 1 is a schematic structural diagram of a vibration device according to an embodiment of the present utility model;

FIG. 2 is a schematic view of the vibration device of FIG. 1 in a vibrating state;

FIG. 3 is a schematic view of a cultivation container according to an embodiment of the present utility model after inoculation by an inoculation device;

fig. 4 is a schematic view showing a structure of the cultivation container of fig. 3 after being vibrated by the vibration device.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1 and 2, an embodiment of the present utility model provides a vibration device, including: the vibrating table 1, the vibrating table 1 comprises a vibrating area, the vibrating area is used for placing the inoculated cultivation container 2, and the cultivation container 2 is driven to vibrate along with the vibrating table 1 when vibrating; and a positioning part 3, wherein the positioning part 3 is used for limiting the cultivation container 2 in the vibration area.

Wherein, the vibrating table 1 can vibrate when working, when the cultivation container 2 is placed in the vibrating area of the vibrating table 1, the vibrating table 1 vibrates and drives the cultivation container 2 to vibrate along with the vibrating table; different vibration frequencies and vibration amplitudes may be used as desired. In order to prevent the cultivation container 2 from being disturbed when the cultivation container 2 vibrates, the positioning part 3 is provided to restrict the cultivation container 2 from being always located in the vibration area. The positioning part 3 can be designed into structures such as a baffle plate and a rod piece, the positioning part 3 can be designed into a movable connection mode, and can move relative to the vibrating table 1, when the vibration operation is carried out, the positioning part 3 moves to the periphery of the vibration area to block the cultivation container 2 from deviating out of the vibration area, and when the vibration operation is completed, the positioning part 3 moves to be far away from the vibration area, so that the cultivation container 2 can be conveniently moved out of the vibration area.

Embodiments of the present utility model will be specifically described below by the operation principle of the vibration device.

As shown in fig. 3 and 4, after the seed material 23 is introduced into the cultivation container 2 by the inoculating device (not shown), the cultivation container 2 is placed in the vibration area of the vibration table 1, and the cultivation container 2 is driven to vibrate by the vibration table 1, and at this time, the positioning part 3 restricts the cultivation container 2 in the vibration area, and prevents the cultivation container 2 from being deviated from the vibration area. When the cultivation container 2 vibrates along with the vibration table 1, the strain material 23 in the cultivation container 2 gradually falls into the holes 21 in the cultivation container 2 in the continuous vibration process, and as the strain material 23 fills the holes 21 in the cultivation container 2, the rest of the strain material 23 remains on the surface of the cultivation substrate 22 in the cultivation container 2, and is flatly paved on the surface of the cultivation substrate 22 under the action of vibration (see fig. 4), so as to improve the cultivation effect.

The vibration device provided by the embodiment of the utility model is used for inoculating, after bacterial seeds are inserted into the cultivation container 2, the cultivation container 2 is driven to vibrate through the vibration table 1, the cultivation container 2 is limited to be always in a vibration area through the positioning part 3, bacterial seeds in the cultivation container 2 fall into holes in the cultivation container 2 along with the vibration action of the cultivation container 2, the holes are filled up to ensure the cultivation effect, bacterial seeds left on the surface of a cultivation substrate in the cultivation container 2 are paved on the surface of the cultivation substrate under the vibration action, and the bacterial seeds are prevented from being scattered and accumulated on the surface of the cultivation substrate to influence the later soil covering effect in the prior art.

Specifically, the vibration table 1 includes a carrying table 11 and a vibration source 12 connected to the carrying table 11, the vibration source 12 for generating vibrations; a first elastic member 13 is connected between the stage 11 and the vibration source 12. Wherein the vibration source 12 may employ a vibration motor; the vibration source 12 may be connected to a mounting plate, one end of the first elastic member 13 may be connected to the mounting plate, and the other end is connected to the carrying platform 11, so that when the vibration source 12 generates vibration, the mounting plate is driven to vibrate, and then the vibration is transmitted to the first elastic member 13 to vibrate, so that the carrying platform 11 connected to the first elastic member 13 vibrates accordingly. Wherein the first elastic member 13 may be a spring.

Specifically, the carrying table 11 includes a conveying portion 111, the conveying portion 111 is connected to a conveying driving mechanism (not shown in the drawing) for driving the conveying portion 111 to perform conveying movement, and the conveying portion 111 is for conveying the cultivation container 2 to the vibration area. The conveying part 111 may adopt a conveying belt, a conveying roller, etc., and the conveying driving mechanism may adopt a motor to drive a belt transmission mechanism or a chain transmission mechanism, etc.; after the fungus seeds are inserted into the cultivation container 2, the cultivation container 2 can be conveyed to the vibration area through the conveying part 111, so that assembly line operation is facilitated, and the working efficiency is improved.

Specifically, the above-mentioned vibration device further includes: and the monitoring part 4 is connected with the conveying driving mechanism, and when the monitoring part 4 monitors that the conveying part 111 conveys the cultivation container 2 to the vibration area, the monitoring part 4 sends a shutdown signal to the conveying driving mechanism to control the conveying driving mechanism to stop driving the conveying part 111. Wherein, monitoring part 4 can adopt position sensor, infrared detector etc. when conveying portion 111 carries cultivation container 2 to the vibration region, monitoring part 4 can monitor cultivation container 2 and put in place, then can send corresponding outage signal to carry actuating mechanism, carry actuating mechanism and obtain this signal after, can stop driving, make conveying portion 111 pause and carry.

Specifically, the vibration source 12 is connected to the conveyance driving mechanism, and when the vibration source 12 vibrates for a preset time, the vibration source 12 stops vibrating and sends a start signal to the conveyance driving mechanism to control the conveyance driving mechanism to drive the conveyance section 111. Wherein, after the vibration source 12 drives the carrying table 11 to vibrate for a preset time, the vibration operation is completed, the vibration source 12 stops vibrating and sends a start signal to the conveying driving mechanism, and after the conveying driving mechanism obtains the signal, the conveying part 111 is driven to convey, and the cultivation container 2 after the vibration operation is completed is conveyed away.

Specifically, the positioning part 3 includes a side positioning member 31, and the side positioning member 31 includes at least a first side positioning member 311 and a second side positioning member 312 that are opposite to each other, for moving to opposite sides of the vibration area, respectively, when the cultivating container 2 is located in the vibration area, so as to block the cultivating container 2 from moving sideways of the vibration area. The side positioning members 31 may be disposed around the vibration area, that is, the two pairs of the first side positioning members 311 and the second side positioning members 312, or may be disposed at positions where the cultivation container 2 is easy to deviate according to a vibration rule, for example, the vibration source 12 drives the vibration direction of the carrying table 11 to reciprocate along the conveying direction, so that the first side positioning members 311 and the second side positioning members 312 may be disposed on front and rear sides along the conveying direction, respectively.

Specifically, the side positioning member 31 includes at least a first side positioning member 311 and a second side positioning member 312 provided along the conveying direction, the first side positioning member 311 being for movement to a first side of the vibration region, the second side positioning member 312 being for movement to a second side of the vibration region, the first side being located on a front side of the conveying direction with respect to the second side; the first side positioning member 311 moves to the first side of the vibration region before the transporting section 111 transports the cultivating container 2 to the vibration region, and the second side positioning member 312 moves to the second side of the vibration region after the transporting section 111 transports the cultivating container 2 to the vibration region; when the vibration is completed, both the first side positioning member 311 and the second side positioning member 312 move away from the vibration region.

Specifically, the side positioning members 31 are telescopic members that extend to the sides of the vibration area when the cultivation container 2 is located in the vibration area, and retract away from the vibration area when the vibration is completed. The telescopic component can be a telescopic rod of an air cylinder or an electric cylinder, or can also be a worm of a worm gear structure, a rack of a gear rack structure and the like.

Specifically, the positioning part 3 further includes a top positioning member 32, and the top positioning member 32 is configured to move to a preset height at the top of the vibration area when the cultivating container 2 is located in the vibration area, so as to block the top cover 24 of the cultivating container 2 from falling. Wherein, cultivation container 2 can cover top cap 24 after inoculation, when vibrating, in order to prevent top cap 24 from dropping, then set up top positioning member 32, when cultivation container 2 is placed in the vibration region, top positioning member 32 moves to the vibration region top and predetermines the height, can keep having certain clearance with top cap 24, can prevent that top cap 24 from dropping when vibrating can.

Specifically, the top positioning member 32 includes a top positioning driving mechanism 321 and a cover pressing member 322 connected to the top positioning driving mechanism 321, wherein the top positioning driving mechanism 321 is used for driving the cover pressing member 322 to move to a preset height at the top of the vibration area, and the cover pressing member 322 is used for blocking the top cover 24 of the cultivation container 2 from falling. Wherein, the top positioning driving mechanism 321 can adopt an air cylinder, an electric cylinder, a motor to drive a gear rack, a worm gear or a link mechanism, etc., when the cultivation container 2 is placed in the vibration area, the top positioning driving mechanism 321 drives the gland member 322 to move to a preset height above the cultivation container 2, so as to prevent the top cover 24 of the cultivation container 2 from falling off during vibration.

Specifically, the capping member 322 includes a second elastic member 3221 and a stopper 3222 connected to one end of the second elastic member 3221, and the other end of the second elastic member 3221 is connected to the top positioning drive mechanism 321. Among them, the second elastic member 3221 may employ a spring. When the cultivation container 2 vibrates, the stopper 3222 corresponds to the top cover 24 of the cultivation container 2, and the second elastic member 3221 can prevent the stopper 3222 from pressing against the top cover 24 of the cultivation container 2 to prevent vibration during vibration.

Specifically, the preset height is such that the gap between the capping member 322 and the top cover 24 of the cultivation container 2 is between 4mm and 6 mm. The cover pressing member 322 and the top cover 24 of the cultivation container 2 are kept at a certain gap, and the top cover 24 can be prevented from falling off and not from being tightly attached to each other, so that vibration affecting the cultivation container 2 is prevented.

Specifically, the top positioning driving mechanism 321 is a push rod mechanism, and the push rod mechanism is connected to a plurality of cover members 322 through a mounting plate 323, and the plurality of cover members 322 are located above the vibration area for corresponding to a plurality of cultivation containers 2 in the vibration area. The push rod mechanism can be an air cylinder or an electric cylinder and the like. The push rod mechanism is connected with the mounting plate 323, the mounting plate 323 can be pushed to the cultivation container 2 located in the vibration area, the mounting plate 323 is connected with the plurality of gland components 322, the number of the gland components 322 can be the same as that of the cultivation containers 2 in the vibration area, each gland component 322 corresponds to one cultivation container 2, the plurality of cultivation containers 2 can be subjected to vibration operation at the same time, and the plurality of gland components 322 ensure that the top cover 24 of all the cultivation containers 2 cannot fall off when vibrating.

An embodiment of the present utility model provides an inoculation system including: inoculation device and the vibration device.

The structure and working principle of the vibration device are the same as those of the above embodiments, and are not repeated here.

The inoculation system provided by the embodiment of the utility model comprises the inoculation device and the rotation device, and is used for carrying out vibration operation on the cultivation container through the vibration device after the strain materials are connected into the cultivation container through the inoculation device during inoculation operation, wherein the vibration table of the vibration device drives the cultivation container to vibrate, the positioning part of the vibration device limits the cultivation container to be always in a vibration area, the strain materials in the cultivation container fall into holes in the cultivation container along with the vibration action of the cultivation container, the holes are filled up, so that the cultivation effect is ensured, and the strain materials left on the surface of the cultivation substrate in the cultivation container are paved on the surface of the cultivation substrate under the vibration action, so that the influence of the scattered accumulation of the strain materials on the surface of the cultivation substrate on the later-stage soil covering effect in the prior art is avoided.

The above description is only of the preferred embodiments of the present utility model, and is not intended to limit the present utility model in any way, but any simple modification, equivalent variation and modification made to the above embodiments according to the technical substance of the present utility model still fall within the scope of the technical solution of the present utility model.

Claims (9)

1. A vibration device, comprising:

the vibrating table comprises a vibrating area, wherein the vibrating area is used for placing the inoculated cultivation container, and the vibrating table drives the cultivation container to vibrate along with the inoculated cultivation container when vibrating;

a positioning portion for restricting the cultivation container within the vibration region;

the positioning part comprises a side positioning part, and the side positioning part at least comprises a first side positioning part and a second side positioning part which are opposite, and the side positioning part is used for moving to two opposite sides of the vibration area respectively when the cultivation container is positioned in the vibration area so as to prevent the cultivation container from moving sideways towards the vibration area.

2. A vibration apparatus according to claim 1, wherein,

the vibration table comprises a bearing table and a vibration source connected to the bearing table, wherein the vibration source is used for generating vibration;

a first elastic component is connected between the bearing table and the vibration source.

3. A vibration apparatus according to claim 2, wherein,

the bearing table comprises a conveying part, the conveying part is connected with a conveying driving mechanism, the conveying driving mechanism is used for driving the conveying part to carry out conveying motion, and the conveying part is used for conveying the cultivation container to the vibration area.

4. A vibration apparatus according to claim 3, further comprising:

the monitoring component is connected with the conveying driving mechanism, and when the monitoring component monitors that the conveying part conveys the cultivation container to the vibration area, the monitoring component sends a shutdown signal to the conveying driving mechanism to control the conveying driving mechanism to stop driving the conveying part;

and/or the number of the groups of groups,

the vibration source is connected with the conveying driving mechanism, and after the vibration source vibrates for a preset time, the vibration source stops vibrating and sends a starting signal to the conveying driving mechanism to control the conveying driving mechanism to drive the conveying part.

5. A vibration apparatus according to claim 1, wherein,

the positioning part further comprises a top positioning part, wherein the top positioning part is used for moving to the top of the vibration area by a preset height when the cultivation container is positioned in the vibration area so as to prevent the top cover of the cultivation container from falling.

6. A vibration apparatus according to claim 2, wherein,

the side positioning component is a telescopic component, when the cultivation container is positioned in the vibration area, the telescopic component stretches out to the side of the vibration area, and when vibration is completed, the telescopic component retracts to be far away from the vibration area;

and/or the number of the groups of groups,

when the carrying table includes a conveying portion for conveying the cultivation container to the vibration area, the side positioning member includes at least the first side positioning member for moving to a first side of the vibration area and the second side positioning member for moving to a second side of the vibration area, the first side being located on a front side of the conveying direction with respect to the second side; the first side positioning member moves to a first side of the vibration region before the conveying part conveys the cultivation container to the vibration region, and the second side positioning member moves to a second side of the vibration region after the conveying part conveys the cultivation container to the vibration region; when vibration is completed, both the first side positioning member and the second side positioning member move away from the vibration region.

7. The vibration apparatus according to claim 5, wherein,

the top positioning part comprises a top positioning driving mechanism and a gland part connected to the top positioning driving mechanism, the top positioning driving mechanism is used for driving the gland part to move to the preset height at the top of the vibration area, and the gland part is used for blocking the top cover of the cultivation container from falling.

8. The vibration apparatus according to claim 7, wherein,

the gland part comprises a second elastic part and a baffle connected to one end of the second elastic part, and the other end of the second elastic part is connected to the top positioning driving mechanism;

and/or the number of the groups of groups,

the preset height is that the gap between the gland part and the top cover of the cultivation container is between 4mm and 6 mm;

and/or the number of the groups of groups,

the top positioning driving mechanism is a push rod mechanism, the push rod mechanism is connected with a plurality of gland parts through a mounting plate, and the gland parts are positioned above the vibration area and are used for corresponding to the cultivation containers in the vibration area.

9. An inoculating system, comprising: inoculation device and vibration device according to any one of claims 1 to 8.