CN115417525A

CN115417525A - Oxygen-cutoff alarm device for aquaculture

Info

Publication number: CN115417525A
Application number: CN202211023328.6A
Authority: CN
Inventors: 韦布春; 李菊; 杨再恩
Original assignee: Duyun Agriculture And Rural Affairs Bureau
Current assignee: Duyun Agriculture And Rural Affairs Bureau
Priority date: 2022-08-25
Filing date: 2022-08-25
Publication date: 2022-12-02
Anticipated expiration: 2042-08-25
Also published as: CN115417525B

Abstract

The invention discloses oxygen-cut-off alarm equipment for aquaculture, which structurally comprises a support rod, a floating ball, a support ring, a connection box, a storage battery and a warning device.

Description

Oxygen-cutoff alarm device for aquaculture

Technical Field

The invention relates to the technical field of aquaculture, in particular to oxygen-cut-off alarm equipment for aquaculture.

Background

Aquaculture is the production activity of breeding, cultivating and harvesting aquatic animals and plants under artificial control, generally comprises the whole process of cultivating aquatic products from seedlings under artificial breeding management, the aquaculture has modes of rough cultivation, fine cultivation, high-density fine cultivation and the like, the rough cultivation is to put the seedlings in middle and small natural waters, the aquatic products are cultivated completely by natural baits, the high-density fine cultivation adopts methods of running water, temperature control, oxygenation, high-quality bait feeding and the like, high-density cultivation is carried out in small waters, high yield is obtained, in the aquaculture process, oxygen needs to be continuously provided for the aquatic products, if the oxygen cut-off condition occurs, the aquatic products are likely to die due to oxygen deficiency, and when the oxygen cut-off alarm equipment is used for the aquatic products, an improved place is needed:

when the oxygen-cut-off alarm device is used, under the normal condition, the pipeline is connected with the butt joint, oxygen is conveyed into the receiving assembly through the pipeline, the pushing block in the receiving assembly is pushed away by the flowing force of the oxygen, the contacts on the two pushing blocks can be separated with the pushing block, so that a loop is cut off, the controller and the alarm stop working, the oxygen can flow rapidly through the oxygen pipe, when the oxygen is cut off, the pushing part can drive the pushing block to move outwards through the telescopic pushing part, the contacts on the two pushing blocks are contacted, the controller controls the alarm to give an alarm, when the oxygen is cut off, the pressing power of the pushing part can be released with the pushing part to generate a rebound phenomenon, because the moving amplitude of the telescopic pushing parts on the two sides of the pushing part is slow, the amplitude of the pushing part driving the pushing block to move outwards can be slow with the pushing part, the contacts on the two pushing blocks can only be in single contact after butt joint, the contacts can not be rapidly and stably connected with the loop, the phenomenon that the alarm gives an alarm can be released continuously occurs due to cause the phenomenon of the contact to influence on the judgment of oxygen by workers, and the loss of aquatic product continuous seedlings is caused.

Disclosure of Invention

Aiming at the defects in the prior art, the invention is realized by the following technical scheme: the utility model provides an aquaculture is with disconnected oxygen alarm device, its structure includes branch, floater, support ring, connecting box, battery, warning device, branch meets with the support ring, the branch other end is connected on warning device, warning device installs on the connecting box, connecting box one side is equipped with the battery, be equipped with a plurality of floaters that meet with it on the support ring.

As a further optimization of the invention, the warning device comprises an impeller, a butt joint, a receiving assembly, an intercepting net, a limiting sleeve and a storage tank, wherein the impeller is connected with the storage tank, the intercepting net is connected onto the storage tank, the limiting sleeve is arranged in the middle of the storage tank and connected with the receiving assembly, the other end of the receiving assembly is inserted into the butt joint in a penetrating mode, the butt joint is connected with a supporting rod, and the top of the butt joint is installed on a connecting box.

As a further optimization of the invention, the receiving component comprises an alarm, a wire, a pushing guide piece, an oxygen tube, a main body, a movable groove, a controller and an oxygen delivery piece, wherein the alarm and the controller are arranged at the lower ends of the two sides in the main body and are connected with the wire, the other end of the wire is connected with the pushing guide piece, the oxygen delivery piece is arranged at the bottom of the main body and is communicated with the oxygen tube, the oxygen tube is arranged at the middle position in the main body, the pushing guide piece is arranged at the left side and the right side of the oxygen tube, the pushing guide piece is arranged on the main body and is connected with the movable groove in a sliding manner, the main body is connected with a limiting sleeve, and the upper end of the main body is inserted into the butt joint in a penetrating manner.

As a further optimization of the invention, the oxygen therapy part comprises a negative pressure fan, a frame body, a communicating plate, an intercommunicating pipe, a shunt pipe and a transmission shaft, wherein the negative pressure fan is arranged on the transmission shaft, the transmission shaft is arranged on the frame body, the frame body is provided with the intercommunicating pipe, the intercommunicating pipe is connected with the shunt pipe through the communicating plate, the frame body is arranged on the main body, and the intercommunicating pipe is communicated with the oxygen pipe.

As a further optimization of the invention, the pushing guide piece comprises a pushing block, a contact, a guide block, a connecting plate, an elastic pushing accessory, a placing block, a limiting chute and a pushing piece, wherein the contact is installed on the pushing block, the guide blocks are arranged on the left side and the right side of the pushing block, the pushing block is inserted on the connecting plate, the pushing piece is connected in the middle of the connecting plate in a penetrating mode, the elastic pushing accessory is arranged on the two sides of the connecting plate facing the pushing piece, the other end of the elastic pushing accessory is fixedly connected on the placing block, the limiting chute is arranged in the middle of the placing block, the limiting chute is movably connected with the pushing piece, the contact is electrically connected with a lead, the placing block is installed on the main body, and the pushing block is connected with the oxygen tube through a movable groove.

As a further optimization of the invention, the pushing piece comprises an opening and closing clamp, push rods, a connector, clamping plates, movable frames and triangular supports, wherein the opening and closing clamp is arranged in the middle of the movable frame, the triangular supports are connected to the left side and the right side of the opening and closing clamp respectively, the other ends of the triangular supports are connected with the clamping plates, the two clamping plates are symmetrically arranged on the two sides of the movable frame, the push rods are inserted into one sides of the clamping plates, the other ends of the push rods are connected with the connector, the connector is connected to the middle of the connecting plate in a penetrating mode, and the clamping plates are movably connected with the limiting sliding grooves.

As further optimization of the invention, the elastic pushing accessory comprises a plurality of superposed and pressed adjusting pieces, a plurality of connecting pieces, a scaling Zhang Jian, a connecting plate and a pulling strip, wherein the superposed and pressed adjusting pieces are symmetrically arranged at the upper end and the lower end of the connecting frame, the superposed and pressed adjusting pieces are transversely arranged on the two connecting plates at equal intervals, one ends of the two superposed and pressed adjusting pieces, which are far away from the connecting plate, are buckled, the superposed and pressed adjusting pieces are connected in series through the connecting pulling piece, a scaling Zhang Jian and a pulling strip are arranged in the superposed and pressed adjusting pieces, and the connecting frame is arranged between the connecting plate and the mounting block.

As a further optimization of the invention, a plurality of shunt tubes are arranged on the communicating plate in an equidistant and transverse mode and are communicated with the communicating tube.

As a further optimization of the invention, the plurality of laminated adjusting pieces are symmetrically and equally distributed at the upper end and the lower end of the connecting frame.

Advantageous effects

The invention relates to an oxygen-cut-off alarm device for aquaculture, which has the following beneficial effects:

1. according to the invention, through the combined arrangement of the impeller, the butt joint, the receiving assembly, the intercepting net, the limiting sleeve and the storage tank, the butt joint is fixedly connected with the connecting box, the oxygen pipeline is connected with the butt joint, oxygen is conveyed into the receiving assembly through the oxygen pipeline, the oxygen is output outwards through the receiving assembly, so that air around the supporting ring enters water, the oxygen in the water is supplemented, the oxygen increasing effect is improved, and some garbage floating on or in the water can be pulled into the storage tank, the storage tank concentrates the floating garbage, and the intercepting net is utilized to prevent the garbage from being thrown into the water again in the storage tank.

2. According to the invention, through the combination arrangement of the alarm, the wire, the pushing guide piece, the oxygen tube, the main body, the movable groove, the controller and the oxygen delivery piece, oxygen flows downwards through the oxygen tube, the flow force of the oxygen pushes the pushing guide piece outwards to be pushed open, the pushing guide piece can move along with the pushing guide piece in the movable groove, the two pushing guide pieces cannot be butted together, so that a loop of the wire is disconnected, the alarm and the controller stop working, the oxygen can rapidly flow through the oxygen tube, when the oxygen is disconnected, the limiting is relieved by pushing the guide piece, the pushing guide piece can be pushed outwards along with the resilience force of an internal element, so that the two pushing guide pieces can be in butt-press contact together to form a conduction loop, and the controller can control the alarm to give an alarm.

3. According to the invention, through the combined arrangement of the negative pressure fan, the frame body, the communicating plate, the communicating pipe, the flow dividing pipes and the transmission shaft, the communicating plate is used for butting the communicating pipe and the flow dividing pipes together, the oxygen pipe is used for dividing the flow dividing pipes through the communicating pipe under the action of the communicating plate, then the oxygen is led out through the flow dividing pipes, the transmission shaft drives the negative pressure fan to rotate, the water in the water surface is guided by the rotating suction force of the negative pressure fan, the transmission shaft drives the impeller to rotate through the object storage groove to stir the surrounding water, so that the oxygen in the water is supplemented, and the oxygen increasing effect is improved.

4. According to the invention, through the combined arrangement of the pushing block, the contact, the guide block, the connecting plate, the elastic pushing accessory, the placing block, the limiting sliding groove and the pushing piece, the contact is pushed outwards by the flow force of oxygen, the contact moves inwards along with the guide block to push the connecting plate inwards, the connecting plate retracts inwards to push the elastic pushing accessory and the pushing piece inwards, after oxygen is cut off, the elastic pushing accessory and the pushing piece can generate resilience force to rapidly eject the connecting plate outwards, the two pushing blocks can move outwards along with the connecting plate under the action of the connecting plate, the contacts at the end parts of the two pushing blocks can be tightly butted together, and the controller can control the alarm to give an alarm along with the two pushing blocks.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of an oxygen cut-off alarm device for aquaculture according to the present invention;

fig. 2 is a schematic diagram of the internal structure of the warning device of the present invention.

Fig. 3 is a schematic cross-sectional view of a receiving assembly according to the present invention.

Fig. 4 is a schematic view of the internal structure of the oxygen transfer member of the present invention.

Fig. 5 is a schematic view showing the inner structure of the push guide according to the present invention.

FIG. 6 is a schematic cross-sectional view of a pusher according to the present invention.

Fig. 7 is a schematic cross-sectional view of the ejector attachment of the present invention.

In the figure: the device comprises a support rod 1, a floating ball 5, a support ring 2, a connecting box 6, a storage battery 3, a warning device 4, an impeller Q1, a butt joint E3, a receiving component Y5, an intercepting net W2, a limiting sleeve U6, a storage tank T4, an alarm R11, a lead I15, a pushing guide Y13, an oxygen pipe S18, a main body U14, a movable tank P16, a controller T12, an oxygen delivery piece A17, a negative pressure fan D21, a frame body F23, a communication plate J25, an intercommunication pipe G22, a shunt pipe H26, a transmission shaft H24, a push block K31, a contact Z33, a guide block C35, a connecting plate L32, an elastic pushing accessory X34, a mounting block V36, a limiting sliding groove N38, a pushing block B37, an opening and closing clamp C41, a push rod B46, a connector N42, a clamping plate Q45, a movable frame V43, a triangular support M44, a laminated adjusting piece E51, a connecting pulling piece Y54, a connecting frame I56, a zooming piece 8978, a T52, a U55 and a pulling piece R53.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained by combining the specific embodiments.

Example one

Referring to fig. 1, the present invention provides a technical solution: the utility model provides an aquaculture is with disconnected oxygen alarm device, its structure includes branch 1, floater 5, support ring 2, connecting box 6, battery 3, warning device 4, branch 1 meets with support ring 2, the other end of branch is connected on warning device 4, warning device 4 is installed on connecting box 6, 6 one side of connecting box are equipped with battery 3, be equipped with a plurality of floater 5 that meet with it on the support ring 2.

Referring to fig. 2, the warning device 4 includes an impeller Q1, a butt joint E3, a receiving assembly Y5, an intercepting net W2, a limiting sleeve U6, and a storage tank T4, the impeller Q1 is connected to the storage tank T4, the intercepting net W2 is connected to the storage tank T4, the limiting sleeve U6 is disposed in the middle of the storage tank T4, the limiting sleeve U6 is connected to the receiving assembly Y5, the other end of the receiving assembly Y5 is inserted into the butt joint E3, the butt joint E3 is connected to the support rod 1, and the top of the butt joint E3 is mounted on the connecting box 6.

The storage tank T4 is used for being matched with the storage tank T4, the storage tank T4 is connected with the impeller Q1, the receiving component Y5 rotates, water in the water surface is guided by the rotating suction force of the water surface and gushes into the storage tank T4, meanwhile, the receiving component Y5 drives the storage tank T4 to rotate, the storage tank T4 stirs the water around through the impeller Q1, the air around the support ring 2 enters the water, oxygen in the water is supplemented, the oxygen increasing effect is improved, garbage floating on the water or in the water can be pulled into the storage tank T4, the storage tank T4 concentrates the floating garbage, and the storage tank T4 utilizes the interception net W2 to prevent the garbage from being thrown into the water again.

Referring to fig. 3, the receiving assembly Y5 includes an alarm R11, a wire I15, a pushing guide Y13, an oxygen tube S18, a main body U14, a movable groove P16, a controller T12, and an oxygen delivery member a17, the alarm R11 and the controller T12 are disposed at the lower ends of the two sides of the main body U14 and connected to the wire I15, the other end of the wire I15 is connected to the pushing guide Y13, the oxygen delivery member a17 is mounted at the bottom of the main body U14, the oxygen tube a17 is connected to the oxygen tube S18, the oxygen tube S18 is disposed at the middle position of the inside of the main body U14, the pushing guide Y13 is disposed at the left and right sides of the oxygen tube S18, the pushing guide Y13 is mounted on the main body U14 and slidably connected to the movable groove P16, the main body U14 is connected to a limiting sleeve U6, and the upper end of the main body U14 is inserted into the abutment E3.

Referring to fig. 4, the oxygen therapy component a17 includes a negative pressure fan D21, a frame F23, a communicating plate J25, an communicating pipe G22, a shunt pipe H26, and a transmission shaft H24, the negative pressure fan D21 is mounted on the transmission shaft H24, the transmission shaft H24 is disposed on the frame F23, the frame F23 is provided with an interconnecting pipe G22, the interconnecting pipe G22 is connected to the shunt pipe H26 through the communicating plate J25, the frame F23 is mounted on the main body U14, and the interconnecting pipe G22 is communicated with the oxygen pipe S18.

Referring to fig. 4, a plurality of the shunt tubes H26 are arranged on the communicating plate J25 in an equidistant and transverse manner and are communicated with the communicating tube G22.

The negative pressure fan D21 is used for being matched with the shunt tubes H26, the communicating pipe J25 is used for butting the communicating pipe G22 and the shunt tubes H26 together, the oxygen pipe S18 is used for shunting the shunt tubes H26 through the communicating pipe G22 under the action of the communicating pipe J25, oxygen is guided out along with the oxygen through the shunt tubes H26, the transmission shaft H24 drives the negative pressure fan D21 to rotate, water in the water surface is guided by the rotary suction of the negative pressure fan D21, oxygen in the water is supplemented, and the oxygen increasing effect is improved.

Referring to fig. 5, the pushing guide member Y13 includes a pushing block K31, a contact Z33, a guide block C35, a connecting plate L32, an ejection accessory X34, a mounting block V36, a limiting chute N38, and a pushing member B37, the contact Z33 is mounted on the pushing block K31, the guide blocks C35 are disposed on the left and right sides of the pushing block K31, the pushing block K31 is inserted into the connecting plate L32, the pushing member B37 is penetratingly connected to the middle of the connecting plate L32, the ejection accessories X34 are disposed on both sides of the connecting plate L32 facing the pushing member B37, the other end of the ejection accessory X34 is fixedly connected to the mounting block V36, the limiting chute N38 is disposed in the middle of the mounting block V36, the limiting chute N38 is movably connected to the pushing member B37, the contact Z33 is electrically connected to a wire I15, the mounting block V36 is mounted on the main body U14, and the pushing block K31 is connected to the oxygen tube S18 through a movable groove P16.

The guide block C35 is used for being matched with the push block K31, the guide block C35 is connected to the left side and the right side of the push block K31, the push block K31 is adjusted in a sliding mode in the movable groove P16 under the action of the guide block C35, and the contact Z33 is effectively driven to move.

Example two

Referring to fig. 5, the pushing guide member Y13 includes a pushing block K31, a contact Z33, a guide block C35, a connecting plate L32, an ejection pushing accessory X34, a mounting block V36, a limiting sliding groove N38, and a pushing member B37, the contact Z33 is mounted on the pushing block K31, the guide blocks C35 are disposed on the left and right sides of the pushing block K31, the pushing block K31 is inserted into the connecting plate L32, the pushing member B37 is connected through the middle of the connecting plate L32, the ejection pushing accessory X34 is disposed on both sides of the connecting plate L32 facing the pushing member B37, the other end of the ejection pushing accessory X34 is fixedly connected to the mounting block V36, the limiting sliding groove N38 is disposed in the middle of the mounting block V36, the limiting sliding groove N38 is movably connected to the pushing member B37, the contact Z33 is electrically connected to a wire I15, the mounting block V36 is mounted on the main body U14, and the pushing block K31 is connected to the oxygen pipe S18 through a movable groove P16.

Referring to fig. 6, the pushing member B37 includes an opening and closing clamp C41, a push rod B46, connectors N42, clamping plates Q45, a movable frame V43, and triangular supports M44, the opening and closing clamp C41 is disposed at a middle position of the movable frame V43, the triangular supports M44 are connected to left and right sides of the opening and closing clamp C41, the other ends of the triangular supports M44 are connected to the clamping plates Q45, the two clamping plates Q45 are symmetrically disposed at two sides of the movable frame V43, the push rod B46 is inserted into one side of the clamping plates Q45, the other end of the push rod B46 is connected to the connector N42, the connector N42 is connected to a middle position of the connecting plate L32 in a penetrating manner, and the clamping plates Q45 are movably connected to the limiting sliding groove N38.

The folding clamp C41 is used for matching with the triangular supports M44, the folding clamp C41 is connected between the two triangular supports M44, when the clamping plate Q45 presses the movable frame V43, the movable frame V43 can retract inwards when being pressed, the two triangular supports M44 in the movable frame V can be unfolded, and the folding clamp C41 connected with the movable frame V can be folded and unfolded under the action of the triangular supports M44.

The elastic pushing accessory X34 comprises a plurality of superposed pressure adjusting pieces E51, a connecting pulling piece Y54, a connecting frame I56, a zooming Zhang Jian T52, a connecting plate U55 and a pulling strip R53, wherein the superposed pressure adjusting pieces E51 are symmetrically arranged at the upper end and the lower end of the connecting frame I56, the superposed pressure adjusting pieces E51 are transversely arranged on the two connecting plate U55 at equal intervals, one ends, far away from the connecting plate U55, of the two superposed pressure adjusting pieces E51 are buckled, the superposed pressure adjusting pieces E51 are connected in series through the connecting pulling piece Y54, the zooming tensioning piece T52 and the pulling strip R53 are arranged inside the superposed pressure adjusting pieces E51, and the connecting frame I56 is arranged between the connecting plate L32 and the mounting block V36.

Referring to fig. 7, a plurality of the laminated adjusting members E51 are symmetrically and equally divided at the upper and lower ends of the connecting frame I56.

The connecting pulling piece Y54 is used for matching with the overlying regulating piece E51, the overlying regulating pieces E51 are buckled and connected together, the connecting pulling piece Y54 connects the overlying regulating pieces E51 in series, when the overlying regulating piece E51 is pressed, the connecting pulling piece Y54 retracts inwards along with the overlying regulating piece E51 and expands outwards, the elastic piece in the connecting pulling piece Y54 can effectively assist the elastic piece in resetting, and the overlying regulating piece E51 is effectively supported.

The working principle of the above technical solution is explained as follows:

when the invention is used, the butt joint E3 is matched and connected with the connecting box 6, the connecting box 6 is stably arranged at the middle position of the support ring 2 through the support rod 1, the support ring 2 is put into water, the whole support ring 2 is supported by buoyancy on water by utilizing the floating ball 5, an oxygen pipeline penetrates through the connecting box 6 and extends into the butt joint E3 to be connected with the oxygen pipe S18, oxygen flows into the oxygen pipe S18, the flow force of the oxygen pushes the push block K31 outwards, the contact Z33 is driven by the guide block C35 to move inwards along with the push block, the connecting plate L32 is pushed inwards, the connecting plate L32 retracts inwards to press the connecting head N42 and the connecting frame I56, the pressure of the connecting head N42 is transmitted to the clamping plate Q45 through the push rod B46, the clamping plate Q45 movably presses the movable frame V43 inwards after being pressed, the movable frame V43 retracts inwards when being pressed, two triangular supports M44 in the connecting plate are opened and retract inwards along with the movable frame V43, the opening and closing clamp C41 connected with the opening and closing clamp C41 performs opening and closing movement under the action of the triangular support M44, the movable frame V43 pushes the clamping plate Q45 at the lower end of the movable frame V when the opening and closing clamp C41 and the triangular support M44 are movably opened, the clamping plate Q45 moves on the limiting sliding groove N38, the position of the limiting sliding groove N38 is limited through the arrangement block V36, the connecting frame I56 retracts inwards after being pressed, the two sides of the connecting frame I56 are both connected with the connecting plate U55, the two U55 are both connected with the overlying adjusting parts E51 in a penetrating way, the end parts of the two overlying adjusting parts E51 are buckled together, the overlying adjusting parts E51 are connected together in series through the connecting piece Y54, the connecting frame I56 drives the overlying adjusting parts E51 to retract and overlap and move inwards under the action of the connecting plate U55 under the action of the connecting frame I56, the end part E51 is connected with the scaling 3238 zft 3238 zT 52, and the scaling 3262 zft 52 performs opening and closing movement through the connecting plate E51, the push block K31 is effectively moved outwards and separated, so that oxygen can stably flow outwards to the communicating pipe G22 through the oxygen pipe S18, the communicating pipe G22 is communicated with the shunt pipes H26 through the communicating plate J25, the oxygen in the oxygen pipe S18 is dispersed and guided out through the shunt pipes H26, the oxygen drives the motor in the connecting box 6 while being discharged, the motor converts electric energy into kinetic energy through the transmission shaft H24, the transmission shaft H24 drives the negative pressure fan D21 to rotate, water in the water surface is guided by the rotating suction force of the negative pressure fan D21 to flow into the storage tank T4, the transmission shaft H24 drives the storage tank T4 to rotate, the storage tank T4 stirs surrounding water through the impeller Q1, so that air around the support ring 2 enters the water, oxygen in the water is supplemented, the oxygen increasing effect is improved, and garbage floating on the water or in the water can be pulled into the storage tank T4, the storage tank T4 concentrates floating garbage, the water storage tank T4 intercepts and utilizes the water W2 to prevent the water from being filtered again, and can effectively increase oxygen to be added into young plants for water treatment;

when oxygen is cut off, the connecting pull piece Y54 and the triangular supports M44 can generate resilience force under the action of no pressure, the triangular supports M44 can retract inwards along with the resilience force, the opening and closing clamp C41 is restrained inwards, the two triangular supports M44 can retract inwards under the action of the opening and closing clamp C41, the movable frame V43 can retract inwards under the action of the connecting pull piece Y44 and the triangular supports M41 and eject the clamping plate Q45 outwards, the pushing rod B46 can be taken out when the clamping plate Q45 moves outwards, and the connecting head N42 can take out under the action of the pushing rod B46

The lower connecting plate L32 is ejected outwards, the elastic part in the connecting pulling part Y54 can generate resilience force to eject the laminated adjusting part E51 at the two sides outwards under the condition that the connecting pulling part Y54 is not pressed, the zooming and stretching part T52 in the laminated adjusting part E51 can be opened along with the resilience force to expand the laminated adjusting part E51 outwards, the zooming and stretching part T52 is connected with a pulling strip R53, the movement limit of the laminated adjusting part E51 is controlled through the matching of the pulling strip R53, the excessive movement of the laminated adjusting part E51 due to the action of the elastic force is prevented, the laminated adjusting part E51 can move outwards along with the resilience force under the action of the connecting pulling part Y54, and the connecting frame I56 and the connecting plate U55 are simultaneously brought out outwards, mutually support through link frame I56 and push rod B46 and outwards ejecting fishplate bar L32 rapid stabilization, ejector pad K31 can move outward thereupon under guide block C35's effect, two ejector pads K31 move a definite position after outward, the contact Z33 of its tip can directly be in the same place to pressing the connection, form with wire I15 and switch on the return circuit, wire I15 is put through with controller T12, the controller can control alarm R11 thereupon and send the police dispatch newspaper, make alarm R11 can stably send the police dispatch newspaper, effectively remind the staff, can make the staff in time react, avoid the oxygen-break time overlength, influence aquatic products seedling's growth.

In summary, the invention adopts the combination of the support rod, the floating ball, the support ring, the connection box, the storage battery and the warning device to form a new oxygen cut-off alarm device for aquaculture, oxygen flows downwards through the oxygen pipe, the flow force of the oxygen pushes the guide piece to be pushed outwards, the push guide piece can move in the movable groove along with the pushing, the two push guide pieces cannot be in butt joint, the loop of the guide wire is disconnected, the alarm and the controller stop working, the oxygen can rapidly flow through the oxygen pipe, after the oxygen cut-off phenomenon occurs, the limit of the guide piece is relieved by pushing the guide piece, the push guide piece can be pushed outwards along with the resilience force of the internal element of the guide piece, the two push guide pieces can be in press contact together to form a conduction loop, and the controller can control the alarm to give an alarm.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides an aquaculture is with disconnected oxygen alarm device, its structure includes branch (1), floater (5), support ring (2), connecting box (6), battery (3), warning device (4), its characterized in that:

the support rod (1) is connected to the support ring (2) and the warning device (4), the warning device (4) is installed on the connecting box (6), the connecting box (6) is provided with the storage battery (3), and the support ring (2) is provided with the floating ball (5);

the warning device (4) comprises an impeller (Q1), a butt joint (E3), a receiving assembly (Y5), an intercepting net (W2), a limiting sleeve (U6) and a storage groove (T4), wherein the impeller (Q1) is connected with the storage groove (T4), the storage groove (T4) is connected with the intercepting net (W2), the limiting sleeve (U6) on the storage groove (T4) is connected with the receiving assembly (Y5), the receiving assembly (Y5) is inserted into the butt joint (E3), the butt joint (E3) is connected with a support rod (1), and the butt joint (E3) is installed on a connecting box (6).

2. The oxygen interruption alarm device for aquaculture according to claim 1, wherein: the receiving assembly (Y5) comprises an alarm (R11), a lead (I15), a pushing guide piece (Y13), an oxygen tube (S18), a main body (U14), a movable groove (P16), a controller (T12) and an oxygen delivery piece (A17), wherein the alarm (R11) and the controller (T12) are arranged on the main body (U14) and are electrically connected with the lead (I15), the lead (I15) is connected with the pushing guide piece (Y13), the oxygen delivery piece (A17) on the main body (U14) is communicated with the oxygen tube (S18), the oxygen tube (S18) is arranged on the main body (U14), the pushing guide piece (Y13) is connected with the movable groove (P16) through the main body (U14), the main body (U14) is connected with a limiting sleeve (U6), and the main body (U14) is arranged on the butt joint (E3).

3. The oxygen interruption alarm device for aquaculture according to claim 2, wherein: the oxygen therapy part (A17) comprises a negative pressure fan (D21), a frame body (F23), a communication plate (J25), an intercommunication pipe (G22), a shunt pipe (H26) and a transmission shaft (H24), wherein the negative pressure fan (D21) is installed on the transmission shaft (H24), the transmission shaft (H24) and the intercommunication pipe (G22) are arranged on the frame body (F23), the intercommunication pipe (G22) is connected with the shunt pipe (H26) through the communication plate (J25), the frame body (F23) is installed on the main body (U14), and the intercommunication pipe (G22) is communicated with an oxygen pipe (S18).

4. The oxygen interruption alarm device for aquaculture according to claim 1, wherein: the pushing guide piece (Y13) comprises a pushing block (K31), a contact (Z33), a guide block (C35), a connecting plate (L32), an elastic pushing accessory (X34), a placing block (V36), a limiting sliding groove (N38) and a pushing piece (B37), the contact (Z33) is installed on the pushing block (K31), the guide block (C35) is arranged on the pushing block (K31), the pushing block (K31) is connected to the connecting plate (L32) in an inserting mode, the connecting plate (L32) is connected with the pushing piece (B37) and the elastic pushing accessory (X34), the elastic pushing accessory (X34) is fixed to the placing block (V36), the limiting sliding groove (N38) in the placing block (V36) is movably connected with the pushing piece (B37), the contact (Z33) is electrically connected with a lead (I15), the placing block (V36) is installed on the main body (U14), and the pushing block (K31) is connected with an oxygen pipe (S18) through a movable groove (P16).

5. The oxygen interruption alarm device for aquaculture according to claim 4, wherein: impeller (B37) is including opening and shutting clamp (C41), push rod (B46), connector (N42), cardboard (Q45), activity frame (V43), triangular supports (M44), open and shut clamp (C41), triangular supports (M44) and establish on activity frame (V43), triangular supports (M44) meet with cardboard (Q45), cardboard (Q45) are established on activity frame (V43), push rod (B46) meet with cardboard (Q45), connector (N42) through connection is on fishplate bar (L32), cardboard (Q45) and spacing spout (N38) swing joint.

6. The oxygen interruption alarm device for aquaculture according to claim 4, wherein: the elastic pushing accessory (X34) comprises an overlapped pressure regulating piece (E51), a connecting pulling piece (Y54), a connecting frame (I56), a scaling Zhang Jian (T52), a connecting plate (U55) and a pulling strip (R53), wherein the overlapped pressure regulating piece (E51) is arranged on the connecting frame (I56), the overlapped pressure regulating piece (E51) is arranged on the connecting plate (U55), the overlapped pressure regulating piece (E51) is connected in series through the connecting pulling piece (Y54), a scaling Zhang Jian (T52) and the pulling strip (R53) are arranged on the overlapped pressure regulating piece (E51), and the connecting frame (I56) is arranged between the connecting plate (L32) and a mounting block (V36).

7. The oxygen interruption alarm device for aquaculture according to claim 3, wherein: a plurality of shunt tubes (H26) are transversely arranged on the communication plate (J25) at equal intervals and are communicated with the communication tube (G22).

8. The oxygen interruption alarm device for aquaculture according to claim 6, wherein: the laminated adjusting pieces (E51) are symmetrically and equally distributed at the upper end and the lower end of the connecting frame (I56).