CN112005946A

CN112005946A - Automatic timing and quantitative bait feeding device for rice field fish culture

Info

Publication number: CN112005946A
Application number: CN202010958947.9A
Authority: CN
Inventors: 赵凤
Original assignee: Individual
Current assignee: Changsha Struggle Ecological Agriculture Technology Co ltd
Priority date: 2020-09-14
Filing date: 2020-09-14
Publication date: 2020-12-01
Anticipated expiration: 2040-09-14
Also published as: CN112005946B

Abstract

The invention discloses an automatic timing and quantitative bait casting device for fish culture in a rice field, which comprises a rack, wherein a control panel is arranged on the rack, a partitioned charging mechanism, a feeding mechanism and a weighing mechanism are sequentially arranged on the rack from top to bottom, and the partitioned charging mechanism comprises a plurality of material areas. The feeding device carries out separate storage of forage and different types of baits and feeds, puts in regularly, puts in quantitatively after weighing, has high degree of automation, saves labor force and reduces the labor cost of enterprises.

Description

Automatic timing and quantitative bait feeding device for rice field fish culture

Technical Field

The invention belongs to the field of fishery culture, and particularly relates to an automatic timing and quantitative bait feeding device for rice field fish culture.

Background

At present, the aquaculture industry mostly depends on artificial pond culture or artificial culture in reservoirs or natural water bodies by adopting culture nets and boxes. In the process of fully growing the seedlings, food is needed, but the food needed by different fish species is different, and the eating time is also different. Therefore, different foods such as feed, forage and the like need to be manually put into different fish species at regular time and quantity. The scale development of fishery, the manpower required increases with the increase of scale, which brings more challenges to the scale cultivation: firstly, the labor demand expansion can increase more management cost; secondly, bait is put in and is totally relied on the manual work to go on, must increase intensity of labour, and also be convenient for accomplish regularly and quantitatively put in moreover, the management degree of difficulty is multiplied.

Disclosure of Invention

The invention provides an automatic timing and quantitative bait casting device for paddy field fish culture, which aims to solve the problems in the background technology.

The technical scheme of the invention is as follows: an automatic timing and quantitative bait casting device for fish culture in rice fields comprises a rack, wherein a control panel is arranged on the rack, a partitioned charging mechanism, a feeding mechanism and a large electronic scale are sequentially arranged on the rack from top to bottom, and the partitioned charging mechanism comprises a plurality of charging areas; the large electronic scale comprises a scale pan, the feeding mechanism is fixedly arranged on the scale pan, and the large electronic scale simultaneously weighs forage, bait and the feeding mechanism;

the partitioned charging mechanism comprises a hopper, a partition plate is arranged in the hopper, the hopper is partitioned into a plurality of independent charging areas by the partition plate, and each charging area comprises a forage storage area and a bait storage area; the bottom of the hopper is provided with a plurality of discharge ports, and each discharge port corresponds to one material area up and down; each discharge port is provided with an electric switch, and the discharge ports are opened or closed by the electric switches;

the feeding mechanism comprises a feeding motor, a transmission shaft and a plurality of belt conveying combinations, and each belt conveying combination comprises a driving belt wheel, a driven belt wheel and a conveying belt, wherein the driving belt wheel and the driven belt wheel are rotationally connected to the rack; all the belt conveying combinations are arranged below the hopper side by side, and each belt conveying combination corresponds to one discharge port up and down; the transmission shaft is coaxially and fixedly connected with all the driving belt wheels, the feeding motor is fixedly connected with the transmission shaft, and the feeding motor drives all the driving belt wheels to synchronously rotate through the transmission shaft;

the weighing mechanism is a large-scale electronic scale, the large-scale electronic scale comprises a scale pan, the feeding mechanism is fixedly arranged on the scale pan, and the large-scale electronic scale simultaneously weighs forage, bait and the feeding mechanism; the control panel is fixedly arranged on the frame.

Further: the cross section of the conveying belt is in a concave shape, the conveying belt is turned over along the direction of the two edges in the long direction towards the outer belt surface, and accordingly bait can be prevented from falling off from the side edge of the conveying belt in the conveying process.

Further: be equipped with electronic cutting mechanism and shower in the forage memory area, electronic cutting mechanism includes cutting motor and rotating blade, by cutting motor drive rotating blade with the edge-to-edge cutting forage, utilizes the shower to spray water so that the forage whereabouts smoothly and can not pile up in the forage memory area.

Further: and the conveying belt is provided with water permeable holes.

Further: the electric switch corresponding to the forage storage area comprises a frame fixedly connected with the bottom of a discharge port, a sealing plate is connected to the frame in a sliding mode, a small stepping motor is further fixed to the frame, a driving gear is coaxially fixed to an output shaft of the stepping motor, and the driving gear is meshed with the plate surface of the sealing plate.

Further: the electric switch corresponding to the bait storage area comprises a throwing mechanism and a sealing disc, the sealing disc is fixedly arranged at a discharge port of the bait storage area, and the discharge port of the bait storage area is blocked by the sealing disc; the bait throwing mechanism comprises a driving assembly and driven assemblies, wherein one driven assembly is arranged in each bait storage region, and all the driven assemblies are correspondingly connected with one driving assembly; the driving assembly comprises a stirring motor and a driving shaft, and an output shaft of the stirring motor is coaxially fixed with the driving shaft; the stirring motor is fixedly arranged on the rack, the output shaft horizontally penetrates through all bait storage areas and is rotatably connected with the hopper, and driving gears the number of which is matched with that of the driven assemblies are coaxially and fixedly arranged on the driving shaft; each driven assembly comprises a driven shaft which is vertically arranged and is rotationally connected with the hopper, a driven gear which is coaxially fixed at the upper end of the driven shaft and a closing frame which is coaxially fixed at the lower end of the driven shaft; the closed disc is provided with an opening matched with the closed frame.

Further: and a spray pipe is arranged in the feed storage area.

Has the advantages that: the scheme provides an automatic timing and quantitative bait feeding device for fish culture in rice fields, forage, different types of baits and feeds are separately stored, fed in a timing mode, and fed in a quantitative mode after weighing, so that the automation degree is high, the labor force is saved, and the labor cost of enterprises is reduced;

the forage is cut into small sections by the electric cutting mechanism, and easily passes through the discharge hole, so as to conveniently and smoothly reach the conveying belt;

the cooperation of the cut forage and the spray pipe can prevent the forage from accumulating in the hopper, realize the smooth falling of the forage and accelerate the falling speed of the forage; it should be noted that: under the condition of spraying water, the water flowability can ensure that only the forage stays on the conveying belt only based on the fact that the forage falls onto the conveying belt, and a large-scale electronic scale can weigh the forage and can ignore the weight of the water, so that the forage cutting, spraying and conveying and feeding of the conveying belt are matched and coordinated with one another, and further the quantitative feeding of the forage is completed and realized;

the water permeable holes are formed in the conveying belt, so that the flow of water can be accelerated, and the feeding waiting time in the midway of the conveying belt is reduced;

the spray pipe arranged in the bait storage area can clean the bait storage area;

the electric switch that sets up in the bait storage area can realize that each bait storage area realizes the feed alone to carry out accurate ration feed to different bait or fodder. .

Drawings

FIG. 1 is a schematic view showing the overall construction of the feeding device of the present invention;

FIG. 2 is a schematic structural view of an electric switch arranged at a discharge port of a feed storage area in the invention;

FIG. 3 is a first schematic structural diagram of an electric switch arranged at a discharge port of a forage storage area in the present invention;

FIG. 4 is a schematic view of a second structure of an electric switch arranged at a discharge port of a forage storage area according to the present invention.

Detailed Description

The invention is further illustrated by the following examples in conjunction with the accompanying drawings:

as shown in fig. 1, fig. 2, fig. 3 and fig. 4, the invention discloses an automatic timing and quantitative bait casting device for fish culture in rice field, comprising a frame 1, wherein a control panel 2 is arranged on the frame 1; still be equipped with subregion charging mechanism 3, feeding mechanism 4 and weighing mechanism 5 from top to bottom in proper order on frame 1, subregion charging mechanism 3 includes a plurality of material district, send bait or forage in the different material districts alone on time to throw the material mechanism by feeding mechanism 4 to weigh feeding mechanism 4 and the forage or the bait of throwing send, throw away by the bait after feeding mechanism 4 will weigh at last.

The partitioned charging mechanism 3 comprises a hopper, a partition plate 6 is arranged in the hopper, the hopper is partitioned into a plurality of independent charging areas by the partition plate 6, and each charging area comprises a forage storage area 31 and a bait storage area 32; the bottom of the hopper is provided with a plurality of discharge ports, and each discharge port corresponds to one material area up and down; the bait storage area 32 is used for storing bait or feed. The discharge outlets of the forage storage area 31 and the bait storage area 32 are respectively provided with an electric switch, and the discharge outlets are opened or closed by the electric switches.

The feeding mechanism 4 comprises a feeding motor 12, a transmission shaft 13 and a plurality of belt conveying combinations, and each belt conveying combination comprises a driving belt wheel 14, a driven belt wheel and a conveying belt 15, wherein the driving belt wheel 14 and the driven belt wheel are rotationally connected to the rack 1; all the belt conveying combinations are arranged below the hopper side by side, and each belt conveying combination corresponds to one discharge port up and down; the transmission shaft 13 is coaxially and fixedly connected with all the driving belt wheels 14, the feeding motor 12 is fixedly connected with the transmission shaft 13, and the feeding motor 12 drives all the driving belt wheels 14 to synchronously rotate through the transmission shaft 13.

The weighing mechanism 5 is a large-scale electronic scale, the large-scale electronic scale comprises a scale pan, the feeding mechanism 4 is fixedly arranged on the scale pan, and the large-scale electronic scale simultaneously weighs forage, bait and the feeding mechanism 4; the control panel 2 is fixedly arranged on the frame 1.

As shown in fig. 1: the cross section of the conveying belt 15 is in a concave shape, the conveying belt 15 is turned over along the direction of the outer belt surface of the two edges in the long direction, and accordingly bait can be prevented from falling to the side direction of the conveying belt 15 in the conveying process. And a spray pipe 25 is arranged in each material area, and each material area is automatically washed at regular time by utilizing the spray pipe 25, so that the material areas are kept clean and sanitary.

The following describes a method of using the bait casting device according to the present invention in a specific embodiment:

the first step is as follows: firstly, closing all electric switches, and keeping the discharge ports of all material areas in a closed state; respectively filling forage, feed or bait into different material areas according to different types, wherein each material area is used for loading and storing the forage, the feed or the bait;

a third part: a program is set through the control panel 2, and under the condition that all the discharge ports are closed, the feeding motor 12 is started, and all the driving belt wheels 14 drive all the conveying belts 15 to rotate; at the moment, the conveying belt 15 begins to be emptied, and all the residues or other impurities on the conveying belt 15 are conveyed into the rice field in advance;

the third step: under normal conditions, the conveying belt 15 is set to rotate five to ten circles in the circumferential direction, and then emptying can be completed; after emptying, if forage needs to be put in, an electric switch at a discharge port corresponding to the material storage area is turned on, the forage falls downwards onto a corresponding conveying belt 15, and at the moment, the large-scale electronic scale starts weighing; when the preset weight is reached, the electric switch corresponding to the material storage area is closed, the transmission motor drives the driving belt wheel 14 to rotate through the transmission shaft 13, and then the forage is conveyed into the rice field by the plastic mechanism;

the fourth step: and repeating the process of the third step, and sequentially finishing the feeding of the baits and the feeds in time, wherein the feeding time and the feeding weight are preset through the control panel 2, and the feeding device in the scheme can be used for executing the feeding in time.

The above-mentioned method of use has been described with reference to the basic functions of the various parts of the baiting device in the present case, however, there still remain problems in use:

1. the forage eaten by the fish is mostly green grass, contains water and has viscosity, and can be accumulated in the forage storage area 31 and not fall down completely by self when being thrown; the natural forage of gathering differs in size, can appear blocking the condition at the discharge gate.

2. When the feed or the bait passes through the discharge hole again, the feed or the bait is mostly granular, so that the weight error is obvious when the feed or the bait is put in again, and although the feed or the bait can be adjusted through the opening and closing time of the electric switch, the feed or the bait in different batches is difficult to adjust due to the difference of the storage time, the humidity and the like.

Therefore, the scheme further optimizes the problems.

To forage storage area 31, in this scheme, be equipped with electronic cutting mechanism 7 in forage storage area 31, electronic cutting mechanism 7 is rotatory by cutting motor drive rotating blade including cutting motor and rotating blade, and then utilizes rotating blade to cut the forage, avoids forage length overlength and unable nature whereabouts. The cutting motor is fixedly installed in the forage storage area 31.

It should be noted that, in the further optimization: electric switch of discharge gate department installation of forage memory area 31 includes the frame 11 of being connected bottom forage memory area 31, and sliding connection has a closing plate 10 on this frame 11, still be fixed with a miniature step motor 8 on the frame 11, coaxial drive gear 9 that is fixed with on step motor 8's the output shaft, drive gear 9 with the face meshing of closing plate 10 is similar to the engagement structure of gear and rack. The closing plate 10 is driven by the stepping motor 8 to close or open the discharge hole of the forage storage area 31, so as to control the falling speed and the falling weight of the forage.

Regarding the use of the shower 25 in conjunction with the electric switch there: because the forage has viscosity, when the forage is used in the third step: firstly, the stepping motor 8 is used for completing the sliding of the closing plate 10, a discharge hole of a forage storage area 31 is opened, the electric cutting mechanism 7 cuts forage, and then the spraying pipe 25 positioned in the forage storage area 31 starts spraying; the forage is first cut short by the electric cutting mechanism 7, then the forage will lose its viscosity under the flow of water, and then the forage mixed water falls down onto the conveyor belt 15 together. Due to the fluidity of the water, the water is rapidly discharged through the conveyor belt 15, and the fodder stays on the conveyor belt 15. In this way, both smooth falling of forage is achieved, and meanwhile, the forage can be prevented from being accumulated in the forage storage area 31. For this kind of structure, can also set up the hole of permeating water on the conveyer belt 15 through the belt transport combination that corresponds in forage memory area 31, the persistence of the water on the realization conveyer belt 15 that just so can be faster impels large-scale electronic scale to more accurately weigh the weight of forage, and the weight of water can not be calculated in the weight of forage, realizes weighing error and reduces. This is the case when the shower pipe and the electric cutting mechanism 7 are used in cooperation. To forage memory area 31, the combination is carried to the belt that corresponds, can also be through the increase scraper blade as shown in fig. 1 to utilize the scraper blade to carry out the scratch to the forage on conveyor belt 15, and then do benefit to the forage and break away from conveyor belt 15 fast and enter into the paddy field.

As shown in fig. 1 and 2, the electric switch disposed in the bait storage area 32 includes a feeding mechanism and a closing plate 16, the closing plate 16 is fixedly installed at a discharge port of the bait storage area 32, and the discharge port of the bait storage area 32 is blocked by the closing plate 16. The feeding mechanism comprises a driving assembly and driven assemblies, wherein one driven assembly is arranged in each bait storage area 32, and all the driven assemblies are correspondingly connected with one driving assembly. The driving component comprises a stirring motor 18 and a driving shaft 19, and an output shaft of the stirring motor 18 is coaxially fixed with the driving shaft 19. Stirring motor 18 fixed mounting is in frame 1, the output shaft level runs through to all bait memory areas 32, and the output shaft rotates with the hopper to be connected, and coaxial fixed mounting has quantity and driven subassembly assorted driving gear 21 on this driving shaft 19.

Each driven assembly comprises a driven shaft 23 which is vertically arranged and is rotationally connected with the hopper, a driven gear 22 which is coaxially fixed at the upper end of the driven shaft 23 and a closing frame 24 which is coaxially fixed at the lower end of the driven shaft 23; the closing disk 16 is provided with an opening 16a matched with the closing frame 24.

It should be noted that: the opening 16a may also allow fodder to pass through.

As shown in fig. 3 and 4, when the closing frame 24 is driven by the driven shaft 23 to rotate, the closing frame 24 is aligned with the opening 16a once per one rotation of the closing frame 24, and when the closing frame 24 is completely aligned with the opening 16a up and down, the feed or bait cannot fall down from the opening 16a, and the discharge port corresponding to the closing tray 16 is in a closed state. When the closing frame 24 does not completely correspond to the opening 16a up and down, the gap between the closing frame 24 and the opening 16a can pass through bait or feed.

In the present embodiment, as shown in fig. 3 and 4, the opening 16a has a circular shape that is centrosymmetric on the disk surface of the closed disk 16, and the closed frame 24 has a fan shape that is centrosymmetric on the orthogonal projection shape of the disk surface of the closed disk 16. It should be noted that: the shape of the opening 16a may be any shape, and the shape of the closing frame 24 may be any shape, but when the closing frame 24 vertically corresponds to the opening 16a, the closing frame 24 should be able to completely shield the opening 16 a. As the closing frame 24 rotates, a gap appears between the closing frame 24 and the opening 16a as shown in fig. 3. The gap can be used for feed or bait to pass through.

In the present preferred embodiment, the closing frame 24 and the opening 16a are configured as shown in fig. 3 and 4, and only one of the structures is given to express the relationship between the closing frame 24 and the opening 16 a. Meanwhile, when the closing frame 24 is in a central symmetry fan shape in the orthogonal projection shape of the closing frame 24 on the disc surface of the closing disc 16, the rotation of the closing frame 24 can play a role in physically stirring the bait or the feed so as to prevent the bait or the feed from being accumulated at the closing frame 24, especially aiming at the bait or the feed with certain viscosity due to moisture.

As shown in fig. 1, each material section of the hopper is provided with a cover plate 17, and the cover plate 17 is hinged with the partition plate 6 of each corresponding material section. The cover plate 17 can shield wind and rain, and can keep forage or bait and the like from being invaded by external rainwater and the like.

In essence, the scheme further optimizes the active combination aiming at each material area. As shown in fig. 1 and 2, the driving shaft 19 is formed by coaxially connecting a plurality of rotating shafts, each rotating shaft corresponds to one material area, and is correspondingly connected with one driven assembly through one driving gear 21. Two adjacent rotating shafts are coaxially connected through an electronic clutch 20.

As shown in fig. 1, when the material in the middle area needs to be discharged, both the two electronic clutches 20 work simultaneously; when only the material area on the right side is required to discharge, the control module controls the electronic clutch 20 located in the middle material area to be disengaged, at this time, only the rightmost driven assembly is driven by the driving gear 21 to rotate, and at this time, only the rightmost material area can discharge downwards. This is more convenient for distinguishing the feeding of various baits or feeds.

It should be noted that: the electric switch in the scheme is not limited to the structure, for example, a door plate type switch opened or closed by a hydraulic cylinder or a common structure driven by a chain gear and similar to the electric door and the like belong to the range of the electric switch, the action is the same in the scheme, and the electric switch can be opened or closed as long as the opening and closing can be realized, and the feeding of forage, feed and the like is realized by the gravity of the electric switch.

The above description is only exemplary of the present invention and should not be taken as limiting, and any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a be used for paddy field to breed fish with automatic timing ration device of feeding which characterized in that: the automatic feeding device comprises a rack, wherein a control panel is arranged on the rack, a partitioned charging mechanism, a feeding mechanism and a large electronic scale are sequentially arranged on the rack from top to bottom, and the partitioned charging mechanism comprises a plurality of charging areas; the large electronic scale comprises a scale pan, the feeding mechanism is fixedly arranged on the scale pan, and the large electronic scale simultaneously weighs forage, bait and the feeding mechanism;

2. The automatic timing and quantitative feeding device for paddy field fish culture according to claim 1, wherein: the cross section of the conveying belt is in a concave shape, the conveying belt is turned over along the direction of the two edges in the long direction towards the outer belt surface, and accordingly bait can be prevented from falling off from the side edge of the conveying belt in the conveying process.

3. The automatic timing and quantitative feeding device for paddy field fish culture according to claim 1, wherein: be equipped with electronic cutting mechanism and shower in the forage memory area, electronic cutting mechanism includes cutting motor and rotating blade, by cutting motor drive rotating blade with the edge-to-edge cutting forage, utilizes the shower to spray water so that the forage whereabouts smoothly and can not pile up in the forage memory area.

4. The automatic timing and quantitative feeding device for paddy field fish culture according to claim 3, wherein: and the conveying belt is provided with water permeable holes.

5. The automatic timing and quantitative feeding device for paddy field fish culture according to claim 1, wherein: the electric switch corresponding to the forage storage area comprises a frame fixedly connected with the bottom of a discharge port, a sealing plate is connected to the frame in a sliding mode, a small stepping motor is further fixed to the frame, a driving gear is coaxially fixed to an output shaft of the stepping motor, and the driving gear is meshed with the plate surface of the sealing plate.

6. The automatic timing and quantitative feeding device for paddy field fish culture according to claim 1, wherein: the electric switch corresponding to the bait storage area comprises a throwing mechanism and a sealing disc, the sealing disc is fixedly arranged at a discharge port of the bait storage area, and the discharge port of the bait storage area is blocked by the sealing disc; the bait throwing mechanism comprises a driving assembly and driven assemblies, wherein one driven assembly is arranged in each bait storage region, and all the driven assemblies are correspondingly connected with one driving assembly; the driving assembly comprises a stirring motor and a driving shaft, and an output shaft of the stirring motor is coaxially fixed with the driving shaft; the stirring motor is fixedly arranged on the rack, the output shaft horizontally penetrates through all bait storage areas and is rotatably connected with the hopper, and driving gears the number of which is matched with that of the driven assemblies are coaxially and fixedly arranged on the driving shaft; each driven assembly comprises a driven shaft which is vertically arranged and is rotationally connected with the hopper, a driven gear which is coaxially fixed at the upper end of the driven shaft and a closing frame which is coaxially fixed at the lower end of the driven shaft; the closed disc is provided with an opening matched with the closed frame.

7. The automatic timing and quantitative feeding device for paddy field fish culture according to claim 1, wherein: and a spray pipe is arranged in the feed storage area.