CN211746283U - Thing networking ration is thrown and is eaten fish bowl - Google Patents

Abstract

The utility model provides an edible fish bowl is thrown to thing networking ration, comprising a cylinder body, cylinder body upper portion is equipped with the removal and throws edible mechanism, the removal is thrown to be equipped with the ration in the edible mechanism and is thrown edible device, the ration is thrown edible device and is set firmly on the mobile device, one side is equipped with the lead screw that rotates the connection on the mobile device, mobile device below opposite side is equipped with the slide bar that runs through, the ration is thrown and is equipped with weighing transducer and throws edible motor on the edible device, weighing transducer with throw edible motor and control box electricity and be connected, the control box is connected with the host computer electricity, the mobile device bottom is equipped with the. When not throwing the fodder, throw the material device and be located fish bowl one side, do not influence people and vwatch, throw the material device and place the fish bowl centre in and put in the fodder and strive for the biggest and throw the edible space, prevent that fish from struggling for food and leading to colliding with each other and friction, realize the automatic control to water oxygen content and temperature through the control box, be fit for in the fish art house and carry out self-control to a large amount of fish bowls, can realize concentrating and remote control.

Description

Thing networking ration is thrown and is eaten fish bowl

Technical Field

The utility model relates to an intelligence fish skill field, especially a thing networking ration are thrown and are eaten fish bowl.

Background

Along with the improvement of living standard of people, more and more families for displaying the ornamental fish tank in a house are provided, fish culture can be used for cultivating the temperament and the performance of people, the ornamental fish tank can be used for improving the home environment and improving the life interest, a large number of fish tanks are often arranged in a fish art hall for consumers to select, the fish is sensitive to the perception of the environment, the requirements of the fish in water with different temperatures and different oxygen contents on feed are different, workers in the fish art hall need to frequently check the temperature and the oxygen contents in each fish tank and dose fish food at regular time and quantity, the operation in a large-scale shop can lead operators to fatigue due to the selected living conditions of the fish, a technology capable of automatically controlling the environment of the fish tank and the fish food dosing is needed, and the proper temperature and the proper fish food dosing quantity can be selected according to the variety of the fish.

In the prior art, a technology for solving the problems is provided, for example, chinese patent document CN 205143224U describes an internet of things fish tank, the environment in the fish tank is monitored by a sensor, and a motor and a lead screw on the side of the fish tank are matched to drive a feeding box to move near a feeding port to feed fish feed, but the feeding cannot control the amount of the feed fed each time, so that water quality is polluted due to feeding, and the feeding port is located on one side of the fish tank.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a thing networking ration is thrown and is eaten fish bowl is provided, can carry out the cluster management to a plurality of fish bowls, monitors the temperature, the oxygen concentration of fish bowl to adjust the food volume of throwing of fish fodder and throw edible time according to the quantity and the kind of fish, and can realize throwing food in the fish bowl centre, the increase is thrown edible area, reduces to throw food and strives for, and the fodder box is in fish bowl one side when not throwing food.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is:

the utility model provides an edible fish bowl is thrown to thing networking ration, it includes the cylinder body, its characterized in that: the upper portion of the cylinder body is provided with a movable feeding mechanism, the movable feeding mechanism is provided with a quantitative feeding device, the quantitative feeding device is fixedly arranged on the movable device, one side below the movable device is provided with a lead screw in rotating connection, the other side below the movable device is provided with a slide rod in rotating connection, the quantitative feeding device is provided with a weight sensor and a feeding motor, the weight sensor is electrically connected with the feeding motor and a control box, the control box is electrically connected with an upper computer, the bottom of the movable device is provided with a feeding hole for feeding, an operator sets a setting mode and a setting value of a feeding rule on the upper computer according to the type and the quantity of fishes, the setting mode and the setting value are transmitted to the control box to control the feeding motor, the weight of the fed fodder is sensed through the weight sensor, and remote control is realized.

Two ends of the sliding rod are fixed on the cylinder body;

foretell lead screw one end and cylinder body fixed connection, the other end and displacement motor fixed connection, displacement motor location end and motor cabinet fixed connection, motor cabinet and cylinder body fixed connection, displacement motor drives the mobile device and moves to the cylinder body along the slide bar when throwing the material, makes and throws the food space the biggest, reduces the collision or the friction that fish led to because of striving for the food.

The structure of the quantitative feeding device is as follows: including throwing edible device and bulk cargo device of weighing, the bulk cargo device of weighing is located the mobile device, and the bulk cargo device of weighing is connected with throwing edible device detachably of top, throws edible device and is used for opening and close the dog-house, realizes the fodder and puts in, throws edible device and the whole quality of fodder on the bulk cargo device perception upper portion of weighing to put in with the biggest circular area with the fodder, increase and throw edible area.

The feeding device has the following structure: throw edible device upper portion and be square casing, throw edible device upper portion lower part and be conical shell, be equipped with the motor board on the square shells inner wall, throw edible motor and motor board fixed connection, the axle head of throwing edible motor with throw material pole fixed connection, throw the material pole run through the conical shell of lower part and with throw material separation blade fixed connection, the tip just is equipped with the dog-house that corresponds with throwing material separation blade shape to department under the conical shell, be equipped with the location heel post outside conical shell circumference on the boundary plane of square shell at conical shell, when throwing the material, it drives the rotation of throwing material separation blade to throw edible motor, make the dog-house below not shelter from, the fodder realizes throwing the material from the dog-house whereabouts because of the effect of gravity.

The weighing and bulk material scattering device has the following structure: bulk cargo device of weighing is a square cylinder, be equipped with the locating hole that corresponds with top location heel post at the upper surface of cylinder, weight sensor places in the bottom of locating hole, just be equipped with toper chamber one to the cylinder of conical shell below, be equipped with the toper cylinder under the toper chamber one, the toper wall fixed connection of spliced pole and cylinder below is passed through to the upper portion and the lower part of toper cylinder, at last lower spliced pole, form toper chamber two between the toper wall of toper cylinder and cylinder below, the total weight that the device and fodder will be thrown to the location heel post passes the weight sensor in the locating hole, throw the material and learn the input weight of fodder constantly through the difference of former total amount and existing quality.

The oxygen increasing device is arranged at the bottom of the cylinder body, the dissolved oxygen sensor is fixedly connected below the moving device, the heating device and the temperature sensor are connected to the side wall of the cylinder body, the control box senses the oxygen content in the water body through the dissolved oxygen sensor, controls the oxygen increasing device to control the oxygen content of the water body to be at a set value, senses the temperature of the water body through the temperature sensor, and controls the water temperature to be at the set value through the heating device.

The oxygenator, the dissolved oxygen sensor, the heating device and the temperature sensor are all electrically connected with the control box.

The control box control device adopts a single chip microcomputer or a PLC.

The number of the positioning bearing columns, the positioning holes and the weight sensors is not less than four.

The utility model provides a pair of edible fish bowl is thrown to thing networking ration, throw the material device through the displacement motor drive and remove in the fish bowl, when not throwing the fodder, throw the material device and be located fish bowl one side, do not influence people and vwatch, when throwing the fodder, will throw the material device and arrange the fish bowl in the centre in and put in the fodder and strive for the biggest edible space of throwing, prevent that fish from contending to eat and leading to collision and friction each other, put in the weight of fodder through the bulk cargo device control of weighing, and the area diffusion of fodder will be put in, can also realize the automatic control to water oxygen content and temperature through the control box simultaneously, carry out self-control to a large amount of fish bowl in being fit for the fish art shop, can realize concentrating and remote control, also be.

Drawings

The invention will be further explained with reference to the following figures and examples:

fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a top view of the present invention;

FIG. 3 is a schematic view of a dosing device;

FIG. 4 is a cross-sectional view of the administration device;

FIG. 5 is a bottom view of the eating device;

FIG. 6 is a schematic view of a bulk material weighing device;

fig. 7 is a cross-sectional view of a bulk weighing device.

In the figure: the device comprises a cylinder body 1, a movable feeding mechanism 2, a quantitative feeding device 3, a moving device 4, a lead screw 5, a slide bar 6, a weight sensor 7, a feeding motor 8, a control box 9, a displacement motor 10, a motor base 11, an oxygenator 12, an oxygen dissolving sensor 13, a heating device 14, a temperature sensor 15, an upper computer 16, a feeding device 31, a square shell 311, a conical shell 312, a motor plate 313, a feeding rod 314, a positioning bearing column 315, a feeding baffle 316, a feeding port 317, a weighing and bulk material device 32, a column 321, a positioning hole 322, a first conical cavity 323, a conical column 324, a connecting column 325 and a second conical cavity 326.

Detailed Description

As shown in fig. 1, a fish bowl is thrown to thing networking ration, it includes cylinder body 1, its characterized in that: the upper part of the cylinder body 1 is provided with a movable feeding mechanism 2, the movable feeding mechanism 2 is provided with a quantitative feeding device 3, the quantitative feeding device 3 is fixedly arranged on a moving device 4, one side below the moving device 4 is provided with a lead screw 5 which is rotationally connected, the other side below the moving device 4 is provided with a slide bar 6 which is rotationally connected, the feeding device 3 is provided with a weight sensor 7 and a feeding motor 8, the weight sensor 7 is electrically connected with the feeding motor 8 and a control box 9, the control box 9 is electrically connected with an upper computer 16, the bottom of the moving device 4 is provided with a feeding hole 17 for feeding, an operator sets a setting mode and a setting value of a feeding rule on the upper computer 16 according to the type and the quantity of fishes and transmits the setting mode and the setting value to the control box 9 to control, the weight of the feed to be fed is sensed through the weight sensor 7, and remote control is achieved through the communication department of the mobile terminal and the upper computer 16.

As shown in fig. 1 and 2, the two ends of the sliding rod 6 are fixed on the cylinder body 1;

the one end of foretell lead screw 5 and cylinder body 1 fixed connection, the other end and displacement motor 10 fixed connection, displacement motor 10 location end and motor cabinet 11 fixed connection, motor cabinet 11 and cylinder body 1 fixed connection, displacement motor 10 drives mobile device 4 and moves to cylinder body 1 along slide bar 6 when throwing the material, makes and throws the food space the biggest, reduces the collision or the friction that fish led to because of striving for the food.

As shown in fig. 3, the above-mentioned dosing device 3 has the following structure: including throwing edible device 31 and bulk cargo device 32 of weighing, bulk cargo device 32 of weighing is located on mobile device 4, and the edible device 31 detachably of throwing of bulk cargo device 32 and top of weighing is connected, throws edible device 31 and is used for opening and closing the dog-house, realizes the fodder and puts in, and the whole quality of edible device 31 and fodder is thrown on the bulk cargo device 32 perception upper portion of weighing to throw the fodder with the biggest circular area, increase and throw the edible area.

As shown in fig. 4 and 5, the feeding device 31 has the following structure: the upper portion of the feeding device 31 is a square shell 311, the lower portion of the upper portion of the feeding device 31 is a conical shell 312, a motor plate 313 is arranged on the inner wall of the square shell 311, the feeding motor 8 is fixedly connected with the motor plate 313, the shaft end of the feeding motor 8 is fixedly connected with a feeding rod 314, the feeding rod 314 penetrates through the conical shell 312 at the lower portion and is fixedly connected with a feeding baffle 316, a feeding port 317 corresponding to the feeding baffle 316 in shape is arranged at the position, opposite to the feeding baffle 316, of the lower end portion of the conical shell 312, a positioning bearing column 315 is arranged outside the circumference of the conical shell 312 on the boundary plane of the square shell 311 of the conical shell 312, when feeding is carried out, the feeding motor 8 drives the feeding baffle 316 to rotate, so that the lower portion of the feeding port 317 is not shielded, and feeding is achieved due to the effect of gravity.

As shown in fig. 6 and 7, the above-mentioned weighing and bulk-material-distributing device 32 has the following structure: the weighing and bulk-distributing device 32 is a square column 321, a positioning hole 322 corresponding to the upper positioning bearing column 315 is arranged on the upper surface of the column 321, the weight sensor 7 is placed at the bottom of the positioning hole 322, a first conical cavity 323 is arranged on the column 321 opposite to the lower part of the conical shell 312, a conical column 324 is arranged under the first conical cavity 323, the upper part and the lower part of the conical column 324 are fixedly connected with a conical wall below the column 321 through a connecting column 325, a second conical cavity 326 is formed among the upper connecting column 325, the lower connecting column 325, the conical column 324 and the conical wall below the column 321, the positioning bearing column 315 transmits the total weight of the feeding device 31 and the feed to the weight sensor 7 in the positioning hole 322, and the feeding weight of the feed is known through the difference value of the original total amount.

As shown in fig. 1 and 2, an oxygenator 12 is disposed at the bottom of the cylinder 1, a dissolved oxygen sensor 13 is fixedly connected below the moving device 4, a heating device 14 and a temperature sensor 15 are connected to the side wall of the cylinder 1, the control box 9 senses the oxygen content in the water body through the dissolved oxygen sensor 13, controls the oxygenator 12 to control the oxygen content in the water body to be at a set value, senses the temperature of the water body through the temperature sensor 15, and controls the water temperature to be at a set value through the heating device 14.

The oxygenator 12, the dissolved oxygen sensor 13, the heating device 14 and the temperature sensor 15 are all electrically connected with the control box 9.

The control device of the control box 9 adopts a single chip microcomputer or a PLC, and can realize communication with the upper computer 16 through an ethernet.

The PLC is a commercially available product, such as S1200PLC model 6ES 7214-1 AG40-0XB0 manufactured by SIEMENS.

The dissolved oxygen sensor 13 is a commercially available product, for example, a RMD-ISDC2 type dissolved oxygen sensor manufactured by REMOND AOTO company.

The oxygenator 12 is commercially available, for example, an oxygenator of model HJ-311B manufactured by Happy company.

The temperature sensor 15 is a commercially available product, for example, a SIN-WZP-PT100 temperature sensor manufactured by Sinomeasure.

The number of the positioning bearing columns 315, the positioning holes 322 and the weight sensors 7 is not less than four.

Claims (9)

1. The utility model provides a fish bowl is eaten to thing networking ration, includes cylinder body (1), its characterized in that: the food feeding device is characterized in that a movable food feeding mechanism (2) is arranged on the upper portion of a cylinder body (1), a quantitative food feeding device (3) is arranged on the movable food feeding mechanism (2), the quantitative food feeding device (3) is fixedly arranged on a moving device (4), a lead screw (5) connected in a rotating mode is arranged on one side of the moving device (4), a sliding rod (6) penetrating through the other side of the lower portion of the moving device (4) is arranged on the other side of the lower portion of the moving device (4), a weight sensor (7) and a food feeding motor (8) are arranged on the quantitative food feeding device (3), the weight sensor (7) and the food feeding motor (8) are electrically connected with a control box (9), the control box (9) is electrically connected with an upper computer (16), and.

2. The internet-of-things quantitative feeding fish tank as claimed in claim 1, characterized in that: two ends of the sliding rod (6) are fixed on the cylinder body (1);

one end of the screw rod (5) is fixedly connected with the cylinder body (1), the other end of the screw rod is fixedly connected with the displacement motor (10), the positioning end of the displacement motor (10) is fixedly connected with the motor base (11), and the motor base (11) is fixedly connected with the cylinder body (1).

3. The internet-of-things quantitative feeding fish tank as claimed in claim 1, wherein the quantitative feeding device (3) has the structure that: the food throwing device comprises a food throwing device (31) and a bulk weighing device (32), wherein the bulk weighing device (32) is positioned on a moving device (4), and the bulk weighing device (32) is detachably connected with the food throwing device (31) above.

4. The internet-of-things quantitative feeding fish tank as claimed in claim 3, wherein the feeding device (31) is structurally characterized in that: throw edible device (31) upper portion and be square casing (311), throw edible device (31) upper portion lower part and be toper casing (312), be equipped with motor board (313) on square casing (311) inner wall, throw edible motor (8) and motor board (313) fixed connection, throw the axle head of edible motor (8) and throw material pole (314) fixed connection, throw material pole (314) run through conical casing (312) of lower part and with throw material separation blade (316) fixed connection, conical casing (312) lower tip and throw material separation blade (316) just are equipped with dog-house (317) that correspond with throwing material separation blade (316) shape to the department, be equipped with location heel post (315) outside conical casing (312) circumference on square casing (311)'s boundary plane at conical casing (312).

5. The internet of things quantitative feeding fish tank as claimed in claim 3, wherein the weighing and dispersing device (32) is structurally characterized in that: weighing bulk cargo device (32) is a square column body (321), be equipped with locating hole (322) that correspond with top location heel post (315) on the upper surface of column body (321), weight sensor (7) are placed in the bottom of locating hole (322), be equipped with toper chamber (323) just to column body (321) of toper casing (312) below, be equipped with toper cylinder (324) under toper chamber (323), the toper wall fixed connection of spliced pole (325) and column body (321) below is passed through to the upper portion and the lower part of toper cylinder (324), at last lower spliced pole (325), form toper chamber two (326) between the toper wall of toper cylinder (324) and column body (321) below.

6. The internet-of-things quantitative feeding fish tank as claimed in claim 1, characterized in that: the automatic aerator is characterized in that the bottom of the cylinder body (1) is provided with an aerator (12), a dissolved oxygen sensor (13) is fixedly connected below the moving device (4), and the side wall of the cylinder body (1) is connected with a heating device (14) and a temperature sensor (15).

7. The internet-of-things quantitative feeding fish tank as claimed in claim 6, characterized in that: the oxygenator (12), the dissolved oxygen sensor (13), the heating device (14) and the temperature sensor (15) are all electrically connected with the control box (9).

8. The internet-of-things quantitative feeding fish tank as claimed in claim 1, characterized in that: the control device of the control box (9) adopts a singlechip or a PLC.

9. The internet of things quantitative feeding fish tank as claimed in claim 4 or 5, wherein: the number of the positioning bearing columns (315), the number of the positioning holes (322) and the number of the weight sensors (7) are not less than four.

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