CN112005949A - Dedicated automatic oxygenation in pond feeds and eats ship - Google Patents

Abstract

The invention discloses an automatic oxygen increasing and feeding boat special for a fishpond, which comprises a boat body, wherein floating plates are fixed at the left end and the right end of the boat body, the upper end of the ship body is provided with an oxygenation block, the front end surface and the rear end surface of the left end of the ship body are both provided with front rolling grooves with downward openings, the device has simple structure and convenient operation, overcomes the problem of fish school gathering caused by feeding the fish pond manually, can be used for long-distance uniform feeding, can deliver oxygen to water in the feeding process, prevents the phenomenon of over-low oxygen content in the fishpond, when the device is used, the device can be used for continuously injecting air into water to increase the oxygen content in the water when the device moves in the water, and meanwhile, the device can be used for periodically feeding food into the water when the device moves, thereby avoiding the phenomenon of fish school gathering caused by feeding in a specific area, greatly improving the feeding effect and efficiency, and ensuring that the phenomenon of low oxygen content in the fishpond can not occur all the time.

Description

Dedicated automatic oxygenation in pond feeds and eats ship

Technical Field

The invention relates to the field of ships, in particular to an automatic oxygen-increasing feeding ship special for a fishpond.

Background

Ships are important means for work and transportation on water, and are important vehicles for working or working in water.

At the present stage, general boats and ships can be divided into various types according to the effect, and the general fishing boat that carries out operation on water in the pond is, general fishing boat mainly is artifical boat stay and carries out the breed operation in the pond on water, and often can meet the low circumstances of oxygen content of the subaqueous pressure in the pond, and still need often feed the fodder to the pond, the artifical fodder of feeding often can not accomplish evenly to throw and eat, often can only throw and eat and throw the distance near in specific area, often can cause the condition of shoal of fish gathering.

Disclosure of Invention

The invention aims to solve the technical problem of providing an automatic oxygen-increasing feeding boat special for a fishpond, which overcomes the problem of fish swarm aggregation caused by manual feeding to the fishpond, can feed uniformly in a long distance, can convey oxygen to water in the feeding process, and prevents the phenomenon of over-low oxygen content in the fishpond.

The invention is realized by the following technical scheme.

The invention relates to an automatic oxygen increasing and feeding boat special for a fishpond, which comprises a boat body, wherein floating plates are fixed at the left end and the right end of the boat body, an oxygen increasing block is arranged at the upper end of the boat body, front rolling grooves with downward openings are formed in the front end surface and the rear end surface of the left end of the boat body, rear rolling grooves with downward openings are formed in the front end surface and the rear end surface of the right end of the boat body, a driven cavity is arranged at the left end of the boat body, a connecting cavity is arranged in the lower end of the right end of the boat body, a push-pull cavity is arranged at the upper side of the connecting cavity, an intermittent cavity is arranged at the upper side of the push-pull cavity, a driven mechanism is arranged in the driven cavity, a connecting mechanism is arranged in the connecting cavity, a push-pull mechanism is arranged in the push-pull cavity, an intermittent mechanism is arranged in the push-pull, a push-pull piston is fixed at the right end of the clip-shaped block and is connected in the push-pull cavity in a sliding manner, the upper end of the meshing shaft penetrates through the upper cavity wall of the push-pull cavity and extends into the intermittent cavity, the lower end of the meshing shaft penetrates through the lower cavity wall of the push-pull cavity and extends into the connecting cavity, an oxygenation pipeline is arranged on the upper cavity wall of the right end of the push-pull cavity, an air suction one-way valve is arranged in the oxygenation pipeline, an oxygenation pipe communicated with the outside of the ship body is further arranged on the lower cavity wall of the right end of the push-pull cavity, an aeration one-way valve is arranged in the oxygenation pipe, an oxygenation block is further fixed at the upper end of the ship body, an oxygen suction cavity is further arranged in the oxygenation block and is communicated with the oxygen suction cavity, oxygen suction pipelines communicated with the outside are arranged at the left end and the right end of the oxygen suction cavity, a feeding cavity is further arranged, a pressing groove with an upward opening is further formed in the lower cavity wall of the feeding cavity on the lower side of the pressing plate, a pressing sliding block is connected in the pressing groove in a sliding manner, a spring is fixed between the lower end of the pressing sliding block and the lower cavity wall of the pressing groove, a power pull rope is also fixed at the left end of the pressing sliding block, a feeding pipeline is arranged at the lower side of the feeding cavity, a blanking pipeline communicated with the feeding pipeline is also arranged on the lower cavity wall at the right end of the feeding cavity, the lower cavity wall at the left end of the blanking pipeline and the lower cavity wall at the right end of the blanking pipeline are both communicated with the outside of the ship body, the left end of the return block is fixedly connected with a push-pull rod, the left end of the push-pull rod penetrates through the left cavity wall of the push-pull cavity and extends into the feeding pipeline, the left end of the push-pull rod is positioned in the feeding pipeline, and the inner part of the feeding pipeline is fixedly connected with a push-pull plate which is connected in the feeding pipeline in a sliding mode, and the left end and the right end of the feeding pipeline are both communicated with the outside of the ship body.

Further, the driven mechanism comprises a rolling shaft which is rotatably connected to the front cavity wall and the rear cavity wall of the driven cavity, a front bevel gear is fixed on the rolling shaft, the front end of the rolling shaft penetrates through the front cavity wall of the driven cavity and extends into a front rolling groove at the front end of the ship body, the rear end of the rolling shaft penetrates through the rear cavity wall of the driven cavity and penetrates through the rear cavity wall of the connecting cavity and extends into a front rolling groove at the rear end of the ship body, front water wheels are fixed at the parts, located in the front rolling groove, of the front and rear ends of the rolling shaft, a power cavity is further arranged at the upper side of the driven cavity, a driven shaft is rotatably connected to the upper cavity wall of the driven cavity, a rear bevel gear is fixedly connected to the lower end of the driven shaft, the upper end of the driven shaft penetrates through the upper cavity wall of the driven cavity and extends into the power cavity, and a meshing gear is fixedly connected to the upper end of the, the power shaft is characterized in that a reversing shaft and a power shaft are respectively connected to the upper cavity wall of the power cavity in a rotating mode from left to right, a reversing gear is fixedly connected to the lower end of the reversing shaft, the reversing gear is meshed with the meshing gear, an upper power gear is connected to the upper end of the power shaft through a spline, a lower power gear is connected to the lower end of the power shaft through a spline, the upper power gear is fixedly connected to the lower power gear through a rod, a power sleeve is further connected to the lower end of the power shaft in a rotating mode, a spring is fixed between the lower end of the power sleeve and the lower cavity wall of the power cavity, the upper end of the power sleeve is connected to the lower power gear in a rotating mode, and the left.

Further, coupling mechanism is including rotating the connection and being in connect the chamber on the wall worm around the chamber, fixedly connected with right belt on the worm, connect the chamber left end still fixedly connected with left band pulley on the roll axis, right belt with connect through connecting the belt between the left band pulley, both ends run through around the worm connect the chamber around the chamber wall and stretch into the back roll inslot at both ends around the hull, both ends are located around the worm the inside fixedly connected with back water wheels of portion in the front roll inslot at both ends around the hull, the meshing axle lower extreme is located connect intracavity portion still fixedly connected with worm wheel, the worm wheel with the worm meshes.

Further, the intermittent mechanism comprises an intermittent gear fixedly connected with the upper end of the meshing shaft and positioned in the intermittent cavity, a shifting shaft and an intermittent shaft are respectively and rotatably connected with the upper cavity wall of the left end of the intermittent cavity from left to right, a shifting gear is fixedly connected with the intermittent shaft and meshed with the intermittent gear, a shifting rod is further fixed on the upper end surface of the shifting gear, a shifting block is fixedly connected with the upper end of the shifting shaft, a rotating groove with a leftward opening is formed in the right cavity wall of the blanking pipeline, the lower end of the shifting shaft penetrates through the lower cavity wall of the intermittent cavity and extends into the rotating groove, a rotating disc with a through hole is fixedly connected with the lower end of the shifting shaft and positioned in the rotating groove, the left end of the rotating disc extends into the blanking pipeline, the feeding cavity is filled with feed in an initial state, the pressing slide block is pressed downwards and the power pull rope is tensioned, the power sleeve is engaged with the meshing gear.

The invention has the beneficial effects that: the device simple structure, the simple operation, the device can realize constantly injecting the oxygen content of air in order to increase the aquatic into the aquatic through using the device when the aquatic moves, can throw the food to the aquatic in the motion periodically simultaneously to avoid specific area to throw the food and cause the phenomenon of shoal of fish gathering, thereby improved the effect and the efficiency of throwing the food greatly, and guaranteed that the phenomenon that the oxygen content is low can not appear throughout in the pond.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view taken along line A-A of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the embodiment of the present invention at B-B in FIG. 2;

FIG. 4 is an enlarged view of the structure at C-C in FIG. 3 according to an embodiment of the present invention;

FIG. 5 is an enlarged view of the structure at D-D in FIG. 3 according to an embodiment of the present invention;

fig. 6 is an enlarged schematic structural diagram at E in fig. 3 according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

With reference to fig. 1-6, the automatic oxygen increasing and feeding boat for fish pond comprises a boat body 10, floating plates 11 are fixed at the left and right ends of the boat body 10, an oxygen increasing block 18 is arranged at the upper end of the boat body 10, front and rear end faces at the left end of the boat body 10 are respectively provided with a front rolling groove 15 with a downward opening, rear rolling grooves 12 with a downward opening are respectively arranged at the front and rear end faces at the right end of the boat body 10, a driven cavity 21 is arranged at the left end of the boat body 10, a connecting cavity 28 is arranged in the lower end of the right end of the boat body 10, a push-pull cavity 61 is arranged at the upper side of the connecting cavity 28, an intermittent cavity 53 is arranged at the upper side of the push-pull cavity 61, a driven mechanism 63 is arranged in the driven cavity 21, a connecting mechanism 64 is arranged in the connecting cavity 28, a push-pull mechanism 65 is arranged in the push-, a push-pull gear 59 with a half tooth is fixedly connected to the meshing shaft 30, the push-pull gear 59 is meshed with a clip block 58 with teeth inside, a push-pull piston 57 is fixed at the right end of the clip block 58, the push-pull piston 57 is slidably connected to the push-pull cavity 61, the upper end of the meshing shaft 30 penetrates through the upper cavity wall of the push-pull cavity 61 and extends into the intermittent cavity 53, the lower end of the meshing shaft 30 penetrates through the lower cavity wall of the push-pull cavity 61 and extends into the connecting cavity 28, an oxygenation pipeline 46 is arranged on the upper cavity wall at the right end of the push-pull cavity 61, an air suction one-way valve 60 is arranged in the oxygenation pipeline 46, an oxygenation pipe 20 communicated with the outside of the ship body 10 is further arranged on the lower cavity wall at the right end of the push-pull cavity 61, an aeration one-way valve 62 is arranged in the oxygenation pipe 20, an oxygenation block 18 is further fixed at the upper end of, the oxygen charging pipeline 46 is communicated with the inside of the oxygen charging cavity 67, the oxygen charging cavity 67 is provided with oxygen charging pipelines 45 communicated with the outside at the left end and the right end, the upper end of the ship body 10 is further provided with a feeding cavity 68, the lower cavity wall of the feeding cavity 68 is arranged as an inclined plane, the lower cavity wall of the feeding cavity 68 is further rotatably connected with a pressing plate 42, the pressing plate 42 is arranged at the lower side of the pressing plate, a pressing groove 44 with an upward opening is further formed in the lower cavity wall of the feeding cavity 68, a pressing slider 43 is slidably connected in the pressing groove 44, a spring is fixed between the lower end of the pressing slider 43 and the lower cavity wall of the pressing groove 44, the left end of the pressing slider 43 is further fixed with a power pull rope 37, the feeding pipeline 54 is further arranged at the lower side of the feeding cavity 68, the lower cavity wall of the right end of the feeding cavity 68 is further provided with a blanking pipeline 69 communicated with the lower cavity wall of the feeding pipeline 54, the left end of the, the left end of the return block 58 is fixedly connected with a push-pull rod 56, the left end of the push-pull rod 56 penetrates through the left cavity wall of the push-pull cavity 61 and extends into the feeding pipeline 54, a push-pull plate 70 is fixedly connected to the inner part of the left end of the push-pull rod 56, the push-pull plate 70 is slidably connected into the feeding pipeline 54, and the left end and the right end of the feeding pipeline 54 are both provided with 19 communicated with the outside of the ship body 10.

Advantageously, the driven mechanism 63 includes a rolling shaft 17 rotatably connected to the front and rear cavity walls of the driven cavity 21, a front bevel gear 22 is fixed on the rolling shaft 17, the front end of the rolling shaft 17 penetrates through the front cavity wall of the driven cavity 21 and extends into a front rolling groove 15 at the front end of the hull 10, the rear end of the rolling shaft 17 penetrates through the rear cavity wall of the driven cavity 21 and penetrates through the rear cavity wall of the connecting cavity 28 and extends into a front rolling groove 15 at the rear end of the hull 10, front and rear ends of the rolling shaft 17 are located inside the front rolling groove 15 and are both fixed with a front water wheel 16, a power cavity 32 is further arranged on the upper side of the driven cavity 21, a driven shaft 24 is further rotatably connected to the upper cavity wall of the driven cavity 21, a rear bevel gear 23 is fixedly connected to the lower end of the driven shaft 24, the rear bevel gear 23 is engaged with the front bevel gear 22, the upper end of the driven shaft 24 penetrates through the driven cavity 21 and extends into the, a meshing gear 33 is fixedly connected to the part of the upper end of the driven shaft 24, which is positioned in the power cavity 32, the upper cavity wall of the power cavity 32 is respectively connected with a reversing shaft 35 and a power shaft 40 in a rotating way from left to right, the lower end of the reversing shaft 35 is fixedly connected with a reversing gear 34, the reversing gear 34 is meshed with the meshing gear 33, the upper end of the power shaft 40 is connected with an upper power gear 36 through a spline, the lower end of the power shaft 40 is connected with a lower power gear 39 through a spline, the upper power gear 36 is fixedly connected with the lower power gear 39 through a rod, the lower end of the power shaft 40 is also rotatably connected with a power sleeve 38, a spring is fixed between the lower end of the power sleeve 38 and the lower cavity wall of the power cavity 32, the upper end of the power sleeve 38 is rotatably connected with the lower power gear 39, and the left end of the power pull rope 37 is fixedly connected with the lower end of the power sleeve 38.

Beneficially, the connecting mechanism 64 includes a worm 14 rotatably connected to the front and rear cavity walls of the connecting cavity 28, a right belt 31 is fixedly connected to the worm 14, a left belt wheel 26 is further fixedly connected to the left end of the connecting cavity 28 on the rolling shaft 17, the right belt 31 is connected to the left belt wheel 26 through a connecting belt 27, the front and rear ends of the worm 14 penetrate through the front and rear cavity walls of the connecting cavity 28 and extend into the rear rolling grooves 12 at the front and rear ends of the hull 10, the front and rear ends of the worm 14 are located in the front rolling grooves 15 at the front and rear ends of the hull 10 and are further fixedly connected to a rear water wheel 13, the lower end of the meshing shaft 30 is located in the connecting cavity 28 and is further fixedly connected to a worm wheel 29, and the worm wheel 29 is meshed with the worm.

Advantageously, the intermittent mechanism 66 includes an intermittent gear 52 fixedly connected to a portion of the upper end of the meshing shaft 30 located inside the intermittent cavity 53, a dial shaft 48 and an intermittent shaft 50 rotatably connected to an upper cavity wall of the left end of the intermittent cavity 53 from left to right, respectively, a dial gear 49 fixedly connected to the intermittent shaft 50, the dial gear 49 meshed with the intermittent gear 52, a dial rod 51 further fixed to an upper end surface of the dial gear 49, a dial block 47 fixedly connected to an upper end of the dial shaft 48, a left-opening rotary groove 71 formed in a right cavity wall of the blanking pipeline 69, a lower end of the dial shaft 48 penetrating through a lower cavity wall of the intermittent cavity 53 and extending into the rotary groove 71, a rotary plate 55 having a through hole and fixedly connected to a portion of the lower end of the dial shaft 48 located inside the rotary groove 71, and a left end of the rotary plate 55 extending into the blanking pipeline 69, in the initial state, the feed feeding chamber 68 is filled with the feed, the pressing slider 43 is pressed down and the power cord 37 is pulled, and the power sleeve 38 is engaged with the engaging gear 33. Sequence of mechanical actions of the whole device: 1: the motor 41 is actuated to rotate the power shaft 40, thereby rotating the upper power gear 36, thereby rotating the power sleeve 38, thereby rotating the reversing gear 34, thereby rotating the meshing gear 33, thereby rotating the driven shaft 24, thereby rotating the rear bevel gear 23, thereby rotating the front bevel gear 22, thereby rotating the rolling shaft 17, thereby rotating the front water wheel 16, thereby rotating the left belt wheel 26, thereby rotating the right belt 31, thereby rotating the worm 14, thereby rotating the rear water wheel 13, thereby moving the device in water, while the rear water wheel 13 rotates the worm wheel 29, thereby rotating the push-pull shaft 30, thereby rotating the push-pull gear 59, thereby moving the return block 58 to the left and right in the push-pull cavity 61, thereby sliding the push-pull piston 57 to the left and right in the push-pull cavity 61, so that the air outside the oxygenation block 18 is continuously discharged into the water through the oxygenation pipe 20 through the oxygenation pipeline 46, and the device continuously aerates the fishpond in the moving process; 2: meanwhile, the return block 58 continuously drives the push-pull rod 56 to move left and right when moving left and right, so that the push-pull plate 70 is continuously driven to move left and right in the feeding pipeline 54, the meshing shaft 30 rotates to drive the intermittent gear 52 to rotate, the toggle gear 49 is driven to rotate, the toggle block 47 is intermittently driven to rotate, the toggle shaft 48 is intermittently driven to rotate, the rotating disc 55 is intermittently driven to rotate, when the through hole in the rotating disc 55 rotates to be aligned with the blanking pipeline 69, so that the feed in the feeding cavity 68 falls into the feeding pipeline 54 and is pushed into the water by the push-pull plate 70, and the feed is intermittently fed into the water in the moving process; 3: when the feed in the feeding cavity 68 is fed, the pressing plate 42 loses compression, so that the pressing slider 43 is bounced, the power pull rope 37 is loosened, the power sleeve 38 is bounced upwards, the lower power gear 39 and the upper power gear 36 are bounced upwards, the upper power gear 36 and the reversing gear 34 are disengaged, meanwhile, the lower power gear 39 is meshed with the meshing gear 33 upwards, the meshing gear 33 is driven to rotate reversely, the rear bevel gear 23 is driven to rotate reversely, the front bevel gear 22 is driven to rotate reversely, the rolling shaft 17 is driven to rotate reversely, the worm 14 is driven to rotate reversely, the device is rotated reversely, and the motor 41 is turned off after the device is rotated reversely, so that automatic oxygen increasing and feed feeding are realized for a fish pond.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (4)

1. The utility model provides a dedicated automatic oxygenation in pond feeds and eats ship, includes the hull, its characterized in that: the floating plates are fixed at the left end and the right end of the ship body, the oxygenation block is arranged at the upper end of the ship body, front and back end faces at the left end of the ship body are respectively provided with a front rolling groove with a downward opening, back rolling grooves with a downward opening are respectively arranged at the front and back end faces at the right end of the ship body, the left end of the ship body is provided with a driven cavity, a connecting cavity is arranged in the lower end of the right end of the ship body, a push-pull cavity is arranged at the upper side of the connecting cavity, an intermittent cavity is arranged at the upper side of the push-pull cavity, a driven mechanism is arranged in the driven cavity, a connecting mechanism is arranged in the connecting cavity, a push-pull mechanism is arranged in the push-pull cavity, an intermittent mechanism is arranged in the intermittent cavity, the push-pull mechanism comprises a meshing shaft which is rotatably connected with the upper cavity wall, the push-pull piston is connected in the push-pull cavity in a sliding manner, the upper end of the meshing shaft penetrates through the upper cavity wall of the push-pull cavity and extends into the intermittent cavity, the lower end of the meshing shaft penetrates through the lower cavity wall of the push-pull cavity and extends into the connecting cavity, an oxygenation pipeline is arranged on the upper cavity wall of the right end of the push-pull cavity, an air suction one-way valve is arranged in the oxygenation pipeline, an oxygenation pipe communicated with the outside of the ship body is further arranged on the lower cavity wall of the right end of the push-pull cavity, an inflation one-way valve is arranged in the oxygenation pipe, an oxygenation block is further fixed at the upper end of the ship body, an oxygen suction cavity is further arranged in the oxygenation block and communicated with the oxygen suction cavity, oxygen suction pipelines communicated with the outside are arranged at the left end and the right end of the oxygen suction cavity, a feeding cavity is further arranged in the upper end, a pressing groove with an upward opening is further formed in the lower cavity wall of the feeding cavity on the lower side of the pressing plate, a pressing sliding block is connected in the pressing groove in a sliding manner, a spring is fixed between the lower end of the pressing sliding block and the lower cavity wall of the pressing groove, a power pull rope is also fixed at the left end of the pressing sliding block, a feeding pipeline is arranged at the lower side of the feeding cavity, a blanking pipeline communicated with the feeding pipeline is also arranged on the lower cavity wall at the right end of the feeding cavity, the lower cavity wall at the left end of the blanking pipeline and the lower cavity wall at the right end of the blanking pipeline are both communicated with the outside of the ship body, the left end of the return block is fixedly connected with a push-pull rod, the left end of the push-pull rod penetrates through the left cavity wall of the push-pull cavity and extends into the feeding pipeline, the left end of the push-pull rod is positioned in the feeding pipeline, and the inner part of the feeding pipeline is fixedly connected with a push-pull plate which is connected in the feeding pipeline in a sliding mode, and the left end and the right end of the feeding pipeline are both communicated with the outside of the ship body.

2. The automatic oxygen-increasing and feeding boat special for the fishpond according to claim 1, characterized in that: the driven mechanism comprises a rolling shaft which is rotatably connected to the front cavity wall and the rear cavity wall of the driven cavity, a front bevel gear is fixed on the rolling shaft, the front end of the rolling shaft penetrates through the front cavity wall of the driven cavity and extends into a front rolling groove at the front end of the ship body, the rear end of the rolling shaft penetrates through the rear cavity wall of the driven cavity and penetrates through the rear cavity wall of the connecting cavity and extends into a front rolling groove at the rear end of the ship body, front water wheels are fixed at the parts, located in the front rolling groove, of the front end and the rear end of the rolling shaft, a power cavity is further arranged at the upper side of the driven cavity, a driven shaft is rotatably connected to the upper cavity wall of the driven cavity, a rear bevel gear is fixedly connected to the lower end of the driven shaft and is meshed with the front bevel gear, the upper end of the driven shaft penetrates through the upper cavity wall of the driven cavity and extends into the power cavity, and, the power shaft is characterized in that a reversing shaft and a power shaft are respectively connected to the upper cavity wall of the power cavity in a rotating mode from left to right, a reversing gear is fixedly connected to the lower end of the reversing shaft, the reversing gear is meshed with the meshing gear, an upper power gear is connected to the upper end of the power shaft through a spline, a lower power gear is connected to the lower end of the power shaft through a spline, the upper power gear is fixedly connected to the lower power gear through a rod, a power sleeve is further connected to the lower end of the power shaft in a rotating mode, a spring is fixed between the lower end of the power sleeve and the lower cavity wall of the power cavity, the upper end of the power sleeve is connected to the lower power gear in a rotating mode, and the left.

3. The automatic oxygen-increasing and feeding boat special for the fishpond according to claim 1, characterized in that: the connecting mechanism comprises a worm which is rotatably connected to the front cavity wall and the rear cavity wall of the connecting cavity, a right belt is fixedly connected to the worm, the left end of the connecting cavity is fixedly connected to a left belt wheel on the rolling shaft, the right belt is connected with the left belt wheel through a connecting belt, the front end and the rear end of the worm penetrate through the front cavity wall and the rear cavity wall of the connecting cavity and stretch into rear rolling grooves at the front end and the rear end of the ship body, the front end and the rear end of the worm are located in the front rolling grooves at the front end and the rear end of the ship body, a meshing shaft lower end is located a worm wheel which is fixedly connected to the inner part of the connecting cavity, and.

4. The automatic oxygen-increasing and feeding boat special for the fishpond according to claim 1, characterized in that: the intermittent mechanism comprises an intermittent gear fixedly connected with the upper end of the meshing shaft and positioned in the intermittent cavity, a shifting shaft and an intermittent shaft are respectively and rotatably connected with the upper cavity wall of the left end of the intermittent cavity from left to right, a shifting gear is fixedly connected with the intermittent shaft and meshed with the intermittent gear, a shifting rod is further fixed on the upper end surface of the shifting gear, a shifting block is fixedly connected with the upper end of the shifting shaft, a rotating groove with a leftward opening is formed in the right cavity wall of the blanking pipeline, the lower end of the shifting shaft penetrates through the lower cavity wall of the intermittent cavity and extends into the rotating groove, a rotating disc with a through hole is fixedly connected with the lower end of the shifting shaft and positioned in the rotating groove, the left end of the rotating disc extends into the blanking pipeline, the feeding cavity is filled with feed in an initial state, the pressing slide block is pressed downwards and the power pull rope is tensioned, the power sleeve is engaged with the meshing gear.

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