CN108902002B - Pure oxygen supply equipment for aquaculture - Google Patents

Abstract

The invention discloses pure oxygen supply equipment for aquaculture, which structurally comprises an equipment main body, a control door, an axial flow fan, an air outlet end, a reaction liquid storage tank, an air discharge channel, a circulating pump, an air inlet end and a particulate matter filtering control structure, wherein the reaction liquid storage tank is fixedly connected to the right bottom of the inner bottom surface of the equipment main body and is communicated with the air outlet end, the air discharge channel is vertically connected to the left end surface of the reaction liquid storage tank and is communicated with the inner part of the reaction liquid storage tank, the air inlet end is fixedly connected to the leftmost part of the inner bottom surface of the equipment main body, the particulate matter filtering control structure is movably connected to the upper part of an inner cavity of the equipment main body, dust, pollen and other particulate matters which possibly flow through an air inlet of the equipment can be filtered in time, and the conditions of blockage and the like of related parts for pure oxygen preparation are avoided, the normal operation of the subsequent pure oxygen supply work of the equipment is ensured, and the durability of the equipment is effectively improved.

Description

Pure oxygen supply equipment for aquaculture

Technical Field

The invention relates to the technical field of pure oxygen supply equipment manufacturing, in particular to aquaculture pure oxygen supply equipment.

Background

At present, people generally use culture ponds to breed when carrying out aquaculture. The amount of oxygen filled into the water in the culture ponds with the same area cannot be effectively increased, so that the cultured objects fed in the culture ponds with the same area can be limited to a certain amount, the culture capacity is greatly limited, and an aquaculture pure oxygen supply device is needed.

However, in the process of providing pure oxygen supply operation to the aquaculture pond in the prior art, although the amount of oxygen filled into the aquaculture pond can be greatly increased, particles such as dust, pollen and the like which may flow through the air inlet of the equipment cannot be filtered in time, and the situation that related parts for preparing pure oxygen are blocked and the like can be caused, so that the normal operation of the subsequent pure oxygen supply operation cannot be ensured, and even the durability of the equipment is affected.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide aquaculture pure oxygen supply equipment to solve the problems that in the process of supplying pure oxygen to an aquaculture pond, although the oxygen amount filled in the aquaculture pond can be greatly increased, particles such as dust, pollen and the like which possibly flow through an air inlet of the equipment cannot be filtered in time, related parts for preparing pure oxygen are blocked and the like, so that the normal operation of the subsequent pure oxygen supply work cannot be ensured, and even the durability of the equipment is affected in the prior art.

In order to achieve the purpose, the invention is realized by the following technical scheme: an aquaculture pure oxygen supply device structurally comprises a device main body, a control door, an axial flow fan, an air outlet end, a reaction liquid storage tank, a gas discharge channel, a circulating pump, an air inlet end and a particulate matter filtering control structure, wherein the control door is movably connected to the front end surface of the device main body, the axial flow fan is fixedly connected to the upper portion of the front end surface of the control door, the air outlet end is fixedly connected to the middle of the right end surface of the device main body and communicated with the inside of the device main body, the reaction liquid storage tank is fixedly connected to the right portion of the inner bottom surface of the device main body and communicated with the air outlet end, the gas discharge channel is vertically connected to the left end surface of the reaction liquid storage tank and communicated with the inside of the reaction liquid storage tank, the circulating pump is fixedly connected to the middle of the outer side surface of the gas discharge channel, air inlet end fixed connection is in the interior bottom surface leftmost department of equipment main part, particulate matter filtration control structure swing joint is on the inside cavity upper portion of equipment main part, the air inlet end is by intake pipe, intake pipe support, filter screen structure, coupling spring, signal output fixed power contact, signal output movable power contact are constituteed, intake pipe vertical connection is in the interior bottom surface leftmost department of equipment main part and its outside that runs through out equipment main part, intake pipe support fixed connection is in the right-hand member department of intake pipe, the filter screen structure passes through coupling spring fixed connection in the left end surface of intake pipe, signal output fixed power contact fixed connection is in the upper end surface of intake pipe support, signal output movable power contact fixed connection is in the upper end surface of filter screen structure, particulate matter filtration control structure is by signal output conduction device, the particulate matter filtration control structure is by signal output conduction device, Rotate connecting device, gear drive structure, transmission frame device, circulating pump control and lead to the device and constitute, signal output conduction device fixed connection is connected through the connecting wire electricity between the leftmost department of the interior top surface of equipment main part and its and signal output fixed power contact, it connects in the middle of the interior top surface of equipment main part perpendicularly to rotate connecting device, gear drive structure swing joint is in the upper right department of the inside cavity of equipment main part, transmission frame device swing joint is in the lower extreme department of gear drive structure, the circulating pump control leads to the right department in the outside surface of closed device activity nestification in gas discharge passageway.

Further, signal output conduction device comprises signal output converter, control output shaft, control rotating turret, interior pulley, signal output converter fixed connection is connected through the connecting wire electricity between the leftmost department of the interior top surface of equipment main part and its and the fixed power contact of signal output, control output shaft fixed connection is connected the state in the middle of the front end surface of signal output converter and between its and the signal output converter, control rotating turret activity nested in the outside surface of control output shaft and its right-hand member department to the control output shaft extends, interior pulley swing joint is in the rightmost department of the inside cavity of control rotating turret, the outside surface activity nested of interior pulley has the connecting rope.

Further, it comprises a rotating wheel rotating shaft, a winding roller, a rotating wheel, a first gear output shaft, a driving wheel fixing frame, a driving wheel and a driving wheel output shaft to rotate the connecting device, wherein the rotating wheel rotating shaft is vertically connected to the left part of the inner top surface of the equipment main body, the winding roller and the rotating wheel are sequentially and movably nested on the outer side surface of the rotating wheel rotating shaft from top to bottom, the first gear is movably connected to the middle part of the inner top surface of the equipment main body, the first gear output shaft is mechanically connected to the center of the front end surface of the first gear, the driving wheel fixing frame is vertically connected to the middle part of the inner top surface of the equipment main body, the driving wheel is movably connected to the lower end surface of the driving wheel fixing frame, and the driving wheel output.

Further, the outside surface of wire winding roller closely twines has the connection rope, wire winding roller is through connecting rope and interior pulley swing joint, the even equidistance range of outside surface edge of rotating the wheel has the external screw thread, the even equidistance range of front end surface edge of first gear has the external screw thread, first gear, rotating the wheel and passing through the meshing effect swing joint between the external screw thread, the outside surface of first gear output shaft, drive wheel output shaft all activity nested has drive belt, first gear, drive wheel pass through drive belt swing joint.

Further, the gear transmission structure comprises a second gear fixing frame, a second gear input shaft and a gear tooth structure, wherein the second gear fixing frame is vertically connected to the uppermost position of the right surface inside the equipment main body, the second gear is movably connected to the left end surface of the second gear fixing frame, the second gear input shaft is mechanically connected to the center of the front end surface of the second gear, the gear tooth structure is uniformly and equidistantly distributed on the edge of the outer side surface of the second gear, and the second gear is movably nested on the outer side surface of the second gear through a transmission belt and is movably connected with the transmission wheel.

Further, the driving frame device comprises horizontal slide rail, horizontal sliding shaft, T type link, driving tooth, transverse control pole, horizontal slide rail fixed connection locates in the middle of the inside right surface of equipment main part, horizontal sliding shaft horizontal sliding connection is in the spout of the inboard surface of horizontal slide rail, T type link fixed connection is in the upper end surface of horizontal sliding shaft, the even equidistance distribution of driving tooth is in the upper end surface of T type link, transverse control pole vertical connection is in the left end surface of horizontal sliding shaft, T type link, second gear are through the meshing swing joint between teeth of a cogwheel structure, the driving tooth.

Further, circulating pump control on-off device comprises circulating pump control valve, make-and-break control pole, control valve activity power contact, control valve fixed power contact, the activity nestification of circulating pump control valve is right department and is the electrical connection state between its and the circulating pump in the outside surface of gas discharge passageway, make-and-break control pole fixed connection is in the upper end surface of circulating pump control valve and is the electrical connection state between it and the circulating pump control valve, control valve activity power contact swing joint is in the upper end surface of make-and-break control pole and is the electrical connection state between its and the make-and-break control pole, control valve fixed power contact fixed connection is in the electrical connection state between control valve activity power contact, the upper end department of make-and-break control pole and its and the make-and-break control pole.

Further, the filter screen structure carries out advanced particulate matter filtering operation on gas entering an air inlet pipe of equipment, the resistance of the gas is increased along with the increase of particulate matters on the filter screen structure, the gas is pressed to the right to move the connecting spring and the air inlet pipe support, then the signal output movable power supply contact moves to the right along with the gas until the signal output movable power supply contact is in contact with the signal output fixed power supply contact and is electrified, a signal is output to the signal output converter, the signal output converter controls the rotating frame to rotate downwards around the control output shaft, then the connecting rope on the outer side surface of the inner sliding wheel is pulled along with the signal output movable power supply contact, the connecting rope on the outer side surface of the winding roller is pulled along with the connecting rope, the winding roller rotates around the rotating wheel rotating shaft and rotates along with the rotating wheel, the first gear rotates under the meshing effect of external threads and sequentially, And the T-shaped connecting frame slides leftwards along the sliding groove of the transverse sliding rail under the meshing action between the gear tooth structure and the transmission gear, so that the transverse control rod moves leftwards along with the transverse control rod until the transverse control rod touches the movable power supply contact of the control valve, the movable power supply contact of the control valve is pushed leftwards until the movable power supply contact of the control valve is separated from the fixed power supply contact of the control valve, and then the power-on and power-off control rod is powered off, and a circuit of the circulating pump control valve is enabled to be in a disconnected state.

Advantageous effects

The invention provides a pure oxygen supply device for aquaculture, which can timely filter and process particles such as dust, pollen and the like which possibly flow through an air inlet of the device in the process of supplying pure oxygen to an aquaculture pond by arranging a particle filtering control structure, particularly, the filtering structure performs advanced particle filtering operation on air entering an air inlet pipe of the device, the resistance of the air entering the air inlet pipe of the device is increased along with the increase of the particles on the filtering structure, a connecting spring and an air inlet pipe bracket are pressed to the right, so that a signal output movable power supply contact moves to the right along with the air inlet pipe until the air is contacted with a signal output fixed power supply contact and electrified and outputs a signal to a signal output converter, the signal output converter controls a control rotating frame to rotate downwards around a control output shaft, and then a connecting rope on the outer side surface of an inner pulley is pulled along with the connecting rope on the outer side surface of a winding roller, the winding roller rotates around the rotating wheel rotating shaft and enables the rotating wheel to rotate along with the rotating wheel, the first gear rotates under the meshing action between external threads and is sequentially transmitted to the driving wheel and the second gear through the driving belt, the T-shaped connecting frame slides leftwards along the sliding groove of the transverse sliding rail under the meshing action between the gear tooth structure and the driving teeth, then the transverse control rod moves leftwards along with the T-shaped connecting frame until the transverse control rod touches the movable power supply contact of the control valve, the movable power supply contact of the control valve is pushed leftwards until the movable power supply contact of the control valve is separated from the fixed power supply contact of the control valve, then the power on-off control rod is powered off and a circuit of the circulating pump control valve control circulating pump is in a disconnected state, so that an operator can replace a filter screen structure of the equipment in time, the situations of blockage of related components for preparing pure, the durability of the equipment is effectively improved.

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 perspective view of an aquaculture pure oxygen supply apparatus according to the present invention.

Fig. 2 is a schematic view of the internal plan structure of the apparatus main body of the present invention.

Fig. 3 is a schematic plan view of a particulate filter control structure according to the present invention.

Fig. 4 is a schematic plan view of another operating state of the particulate matter filtration control structure of the present invention.

The labels in the figures are: equipment main body-1, control door-2, axial flow fan-3, air outlet end-4, reaction liquid storage tank-5, gas discharge channel-6, circulating pump-7, air inlet end-8, particulate matter filtering control structure-9, air inlet pipe-81, air inlet pipe support-82, filter screen structure-83, connecting spring-84, signal output fixed power supply contact-85, signal output movable power supply contact-86, signal output conduction device-91, rotary connection device-92, gear transmission structure-93, transmission frame device-94, circulating pump control on-off device-95, signal output converter-911, control output shaft-912, control rotating frame-913, internal pulley-914, rotating wheel rotating shaft-921, 921, The wire winding device comprises a wire winding roller-922, a rotating wheel-923, a first gear-924, a first gear output shaft-925, a transmission wheel fixing frame-926, a transmission wheel-927, a transmission wheel output shaft-928, a second gear fixing frame-931, a second gear-932, a second gear input shaft-933, a gear tooth structure-934, a transverse sliding rail-941, a transverse sliding shaft-942, a T-shaped connecting frame-943, a transmission tooth-944, a transverse control rod-945, a circulating pump control valve-951, an on-off control rod-952, a control valve movable power supply contact-953 and a control valve fixed power supply contact-954.

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 described with the specific embodiments.

Referring to fig. 1-4, the present invention provides an aquaculture pure oxygen supply apparatus, which comprises an apparatus main body 1, a control door 2, an axial flow fan 3, an air outlet end 4, a reaction liquid storage tank 5, an air discharge channel 6, a circulation pump 7, an air inlet end 8, and a particulate matter filtering control structure 9, wherein the control door 2 is movably connected to the front end surface of the apparatus main body 1, the axial flow fan 3 is fixedly connected to the upper portion of the front end surface of the control door 2, the air outlet end 4 is fixedly connected to the middle of the right end surface of the apparatus main body 1 and is communicated with the interior of the apparatus main body 1, the reaction liquid storage tank 5 is fixedly connected to the right portion of the inner bottom surface of the apparatus main body 1 and is communicated with the air outlet end 4, the air discharge channel 6 is vertically connected to the left end surface of the reaction liquid storage tank 5 and is communicated with the interior of the reaction liquid storage tank 5, the circulating pump 7 is fixedly connected to the middle of the outer surface of the gas discharge channel 6, the gas inlet end 8 is fixedly connected to the leftmost position of the inner bottom surface of the equipment main body 1, the particulate matter filtering control structure 9 is movably connected to the upper part of the inner cavity of the equipment main body 1, the gas inlet end 8 is composed of a gas inlet pipe 81, a gas inlet pipe support 82, a filter screen structure 83, a connecting spring 84, a signal output fixed power contact 85 and a signal output movable power contact 86, the gas inlet pipe 81 is vertically connected to the leftmost position of the inner bottom surface of the equipment main body 1 and penetrates through the outer side of the equipment main body 1, the gas inlet pipe support 82 is fixedly connected to the right end of the gas inlet pipe 81, the filter screen structure 83 is fixedly connected to the left end surface of the gas inlet pipe 81 through the connecting spring 84, and the signal output fixed power contact 85 is fixedly, the signal output movable power supply contact 86 is fixedly connected to the upper end surface of the filter screen structure 83, the particulate matter filtering control structure 9 is composed of a signal output conduction device 91, a rotating connection device 92, a gear transmission structure 93, a transmission frame device 94 and a circulating pump control on-off device 95, the signal output conduction device 91 is fixedly connected to the leftmost position of the inner top surface of the equipment main body 1 and is electrically connected with the signal output fixed power supply contact 85 through a connection line, the rotating connection device 92 is vertically connected to the middle position of the inner top surface of the equipment main body 1, the gear transmission structure 93 is movably connected to the upper right position of the inner cavity of the equipment main body 1, the transmission frame device 94 is movably connected to the lower end of the gear transmission structure 93, and the circulating pump control on-off device 95 is movably nested in the right position of the outer side surface of the gas discharge channel 6, the signal output conduction device 91 is composed of a signal output converter 911, a control output shaft 912, a control rotating frame 913 and an inner pulley 914, the signal output converter 911 is fixedly connected to the leftmost position of the inner top surface of the device body 1 and is electrically connected with the signal output fixed power contact 85 through a connecting line, the control output shaft 912 is fixedly connected to the middle position of the front end surface of the signal output converter 911 and is electrically connected with the signal output converter 911, the control rotating frame 913 is movably nested on the outer side surface of the control output shaft 912 and extends to the right end of the control output shaft 912, the inner pulley 914 is movably connected to the rightmost position of the inner cavity of the control rotating frame 913, a connecting rope is movably nested on the outer side surface of the inner pulley 914, and the rotating connection device 92 is composed of a rotating wheel rotating shaft 921, a winding roller 922, a rotating wheel 923, a rotating wheel rotating shaft, First gear 924, first gear output shaft 925, drive wheel mount 926, drive wheel 927, drive wheel output shaft 928 constitute, it connects in the interior top surface left part of equipment main part 1 perpendicularly to rotate wheel pivot 921, wire winding roller 922, rotation wheel 923 are from last to lower in proper order the activity nested in the outside surface of rotating wheel pivot 921, department in the middle of first gear 924 swing joint in the interior top surface of equipment main part 1, first gear output shaft 925 mechanical connection is in the front end surface center department of first gear 924, right department in the interior top surface of equipment main part 1 is connected perpendicularly to drive wheel mount 926, drive wheel 927 swing joint is in the lower extreme surface of drive wheel mount 926, drive wheel 928 output shaft 928 mechanical connection is in the front end surface center department of drive wheel 927, the outside surface of wire winding roller 922 closely twines the connecting rope, wire winding roller 922 is through connecting rope and interior pulley 914 swing joint, the utility model discloses an equipment, including the even equidistance range in outside surface edge of rotating wheel 923 has the external screw thread, the even equidistance range in front end surface edge of first gear 924 has the external screw thread, first gear 924, rotating wheel 923 pass through the meshing swing joint between the external screw thread, the outside surface of first gear output shaft 925, drive wheel output shaft 928 all activity nestification has drive belt, first gear 924, drive wheel 927 pass through drive belt swing joint, gear drive structure 93 comprises second gear mount 931, second gear 932, second gear input shaft 933, teeth of a cogwheel structure 934, second gear mount 931 vertical link is in the top of the inside right surface of equipment main part 1, second gear 932 swing joint is in the left end surface of second gear mount 931, second gear input shaft 933 mechanical link is in the front end surface center department of second gear 932, the even equidistance of teeth of a cogwheel structure 934 distributes in the outside surface edge of second gear 932, second gear 932 is through activity nested in the drive belt and the drive wheel 927 swing joint of second gear 932 outside surface, driving frame device 94 comprises horizontal slide rail 941, horizontal slip axle 942, T type link 943, driving tooth 944, horizontal control lever 945, horizontal slide rail 941 fixed connection is in the middle of the inside right surface of equipment main part 1, horizontal slip axle 942 horizontal slip connection is in the spout of the inside surface of horizontal slide rail 941, T type link 943 fixed connection is in the upper end surface of horizontal slip axle 942, even equidistance of driving tooth 944 distributes in the upper end surface of T type link 943, horizontal control lever 945 is connected perpendicularly in the left end surface of horizontal slip axle 942, T type link 943, second gear are through teeth of a cogwheel structure 934, The transmission teeth 944 are movably connected with each other through meshing, the circulating pump control on-off device 95 is composed of a circulating pump control valve 951, an on-off control rod 952, a control valve movable power supply contact 953 and a control valve fixed power supply contact 954, the circulating pump control valve 951 is movably nested in the middle right position of the outer side surface of the gas discharge channel 6 and is in an electric connection state with the circulating pump 7, the on-off control rod 952 is fixedly connected with the upper end surface of the circulating pump control valve 951 and is in an electric connection state with the circulating pump control valve 951, the control valve movable power supply contact 953 is movably connected with the upper end surface of the on-off control rod 952 and is in an electric connection state with the on-off control rod 952, the control valve fixed power supply contact 954 is fixedly connected with the control valve movable power supply contact 953 and the upper end position of the on-off control rod 952 and is in an electric connection state with the on, the filter screen structure 83 performs advanced particulate matter filtering operation on gas entering the air inlet pipe 81 of the equipment, along with the increase of particulate matters on the filter screen structure 83, the resistance of the filter screen structure is increased, the filter screen structure presses the connecting spring 84 and the air inlet pipe support 82 to the right, then the signal output movable power contact 86 moves to the right along with the filter screen structure until the signal output movable power contact 85 is in contact with the signal output fixed power contact 85 and is electrified, and the signal output converter 911 outputs a signal to the signal output converter 911, the signal output converter 911 controls the control rotating frame to rotate downwards around the control output shaft 912, so that the connecting rope on the outer side surface of the inner pulley 914 is pulled along with the connecting rope on the outer side surface of the wire winding roller 922, the wire winding roller 922 rotates around the rotating wheel rotating shaft 921 and rotates along with the rotating wheel 923, the first gear 924 rotates under the meshing effect of the outer threads and sequentially transmits the connecting rope to, And a second gear 932, the T-shaped connecting bracket 943 slides leftwards along the sliding groove of the transverse sliding rail 941 under the engagement action between the gear tooth structure 934 and the transmission gear 944, then the transverse control rod 945 moves leftwards along with the transverse control rod 945 until the transverse control rod touches the control valve movable power contact 953, the control valve movable power contact 953 is pushed leftwards until the control valve movable power contact 954 is separated from the control valve fixed power contact 954, and then the power on/off control rod 952 is powered off and the circulating pump control valve 951 controls the circuit of the circulating pump 7 to be in an off state.

The particulate matter filtering control structure can prevent the membrane of the equipment from being blocked, has better impact load resistance and improves the pure oxygen preparation efficiency of the equipment to a great extent.

When the device is used, whether the appearance of the device is intact is checked, the reaction liquid storage tank 5, the gas discharge channel 6, the circulating pump 7 and the gas inlet end 8 of the device are stably connected, after the device is confirmed to be intact, the device is placed at a proper position to ensure that the gas outlet end 4 and the gas inlet end 8 of the device are in a smooth state, the circulating pump control valve 951 of the circulating pump 7 of the device is opened, and then the device can start to work normally.

The invention solves the problem that in the process of providing pure oxygen supply operation for an aquaculture pond, although the oxygen amount filled in the aquaculture pond can be greatly increased, the timely filtering operation treatment of particles such as dust, pollen and the like which possibly flow through an air inlet of equipment can not be carried out, the conditions that related parts for preparing the pure oxygen are blocked and the like can be caused, the normal operation of the subsequent pure oxygen supply work can not be ensured, and even the durability of the equipment can be influenced, through the mutual combination of the parts, through the arrangement of the particle filtering control structure, the timely filtering operation treatment of the particles such as the dust, the pollen and the like which possibly flow through the air inlet of the equipment can be carried out in the process of providing the pure oxygen supply operation for the aquaculture pond, particularly, the advanced filtering operation of the gas entering the air inlet pipe of the equipment can be carried out by the filter screen structure, the resistance of the filter screen structure is increased along with the increase of particles on the filter screen structure, the connecting spring and the air inlet pipe support are pressed to the right, then the signal output movable power supply contact moves to the right along with the filter screen structure until the signal output movable power supply contact is contacted with the signal output fixed power supply contact and electrified, and outputs a signal to the signal output converter, the signal output converter controls the rotating frame to rotate downwards around the control output shaft, then the connecting rope on the outer side surface of the inner sliding wheel is pulled along with the signal output movable power supply contact, the connecting rope on the outer side surface of the winding roller is pulled along with the connecting rope on the outer side surface of the winding roller, the winding roller rotates around the rotating wheel rotating shaft and enables the rotating wheel to rotate along with the signal output converter, the first gear rotates under the meshing action between the external threads and is sequentially transmitted to the driving wheel and the second, therefore, the transverse control rod moves leftwards along with the transverse control rod until the transverse control rod touches the control valve movable power supply contact head, the control valve movable power supply contact head is pushed leftwards until the control valve movable power supply contact head is separated from the control valve fixed power supply contact head, the power on/off control rod is powered off, and a circuit of the circulating pump control valve control circulating pump is in a disconnected state, so that an operator can replace a filter screen structure of the equipment in time, the situations of blockage and the like of relevant parts for preparing pure oxygen are avoided, the normal operation of subsequent pure oxygen supply work of the equipment is ensured, and the durability of the equipment is effectively improved.

The positional relationships described herein are for illustrative purposes only and are not to be construed as limiting the invention; 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 scope of the invention is indicated by the appended claims rather than by the foregoing description, and all changes that 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.

Although the present description is described in terms of embodiments, not every embodiment includes only a single embodiment, and such description is for clarity only, and those skilled in the art should be able to integrate the description as a whole, and the embodiments can be appropriately combined to form other embodiments as will be understood by those skilled in the art.

Claims (1)

1. The utility model provides an aquaculture pure oxygen supply equipment, its structure includes equipment main part (1), control door (2), axial fan (3), gives vent to anger end (4), reaction liquid reserve tank (5), gas discharge passageway (6), circulating pump (7), inlet end (8), particulate matter filtration control structure (9), its characterized in that:

the control door (2) is movably connected to the front end surface of the equipment main body (1), the axial flow fan (3) is fixedly connected to the upper portion of the front end surface of the control door (2), the air outlet end (4) is fixedly connected to the middle of the right end surface of the equipment main body (1) and communicated with the inside of the equipment main body (1), the reaction liquid storage tank (5) is fixedly connected to the right portion of the inner bottom surface of the equipment main body (1) and is communicated with the air outlet end (4), the gas discharge channel (6) is vertically connected to the left end surface of the reaction liquid storage tank (5) and is communicated with the inside of the reaction liquid storage tank (5), the circulating pump (7) is fixedly connected to the middle of the outer side surface of the gas discharge channel (6), and the air inlet end (8) is fixedly connected to the leftmost position of the inner bottom surface of the equipment main body (1), the particle filtering control structure (9) is movably connected to the upper part of the inner cavity of the equipment main body (1);

the air inlet end (8) is composed of an air inlet pipe (81), an air inlet pipe support (82), a filter screen structure (83), a connecting spring (84), a signal output fixed power supply contact head (85) and a signal output movable power supply contact head (86), the air inlet pipe (81) is vertically connected to the leftmost position of the inner bottom surface of the equipment main body (1) and penetrates through the outer side of the equipment main body (1), the air inlet pipe support (82) is fixedly connected to the right end of the air inlet pipe (81), the filter screen structure (83) is fixedly connected to the left end surface of the air inlet pipe (81) through the connecting spring (84), the signal output fixed power supply contact head (85) is fixedly connected to the upper end surface of the air inlet pipe support (82), and the signal output movable power supply contact head (86) is fixedly connected to the upper end surface of the filter screen structure (83);

the particle filtering control structure (9) consists of a signal output conduction device (91), a rotary connection device (92), a gear transmission structure (93), a transmission frame device (94) and a circulating pump control on-off device (95), the signal output conduction device (91) is fixedly connected to the leftmost position of the inner top surface of the equipment main body (1) and is electrically connected with the signal output fixed power supply contact (85) through a connecting wire, the rotary connecting device (92) is vertically connected to the middle of the inner top surface of the equipment main body (1), the gear transmission structure (93) is movably connected to the upper right of the inner cavity of the equipment main body (1), the transmission frame device (94) is movably connected to the lower end of the gear transmission structure (93), the circulating pump control on-off device (95) is movably nested in the right part of the outer side surface of the gas discharge channel (6);

the signal output conduction device (91) consists of a signal output converter (911), a control output shaft (912), a control rotating frame (913) and an inner pulley (914), the signal output converter (911) is fixedly connected to the leftmost position of the inner top surface of the equipment main body (1) and is electrically connected with the signal output fixed power contact (85) through a connecting wire, the control output shaft (912) is fixedly connected to the middle of the front end surface of the signal output converter (911) and is electrically connected with the signal output converter (911), the control rotating frame (913) is movably nested on the outer side surface of the control output shaft (912) and extends towards the right end of the control output shaft (912), the inner pulley (914) is movably connected to the rightmost position of the inner cavity of the control rotating frame (913), and a connecting rope is movably nested on the outer side surface of the inner pulley (914);

rotate connecting device (92) and constitute by rotating wheel pivot (921), wire winding roller (922), rotation wheel (923), first gear (924), first gear output shaft (925), drive wheel mount (926), drive wheel (927), drive wheel output shaft (928), it connects in the interior top surface left part of equipment main part (1) perpendicularly to rotate wheel pivot (921) from last, wire winding roller (922), rotation wheel (923) are from last to lower activity nested in the outside surface of rotating wheel pivot (921) in proper order, department in the middle of the interior top surface of equipment main part (1) is located to first gear (924) swing joint, first gear output shaft (925) mechanical connection is in the front end surface center department of first gear (924), right department in the interior top surface of equipment main part (1) is connected perpendicularly to drive wheel mount (926), drive wheel (927) swing joint is in the lower extreme surface of mount (926), the output shaft (928) of the driving wheel is mechanically connected to the center of the surface of the front end of the driving wheel (927);

the outside surface of wire winding roller (922) closely twines has the connection rope, wire winding roller (922) is through connecting rope and interior pulley (914) swing joint, the even equidistance of outside surface edge of rotation wheel (923) is arranged there is the external screw thread, the even equidistance of front end surface edge of first gear (924) is arranged there is the external screw thread, first gear (924), rotation wheel (923) are through the meshing swing joint between the external screw thread, the outside surface of first gear output shaft (925), drive wheel output shaft (928) all activity nested has drive belt, first gear (924), drive wheel (927) are through drive belt swing joint;

the gear transmission structure (93) consists of a second gear fixing frame (931), a second gear (932), a second gear input shaft (933) and a gear tooth structure (934), wherein the second gear fixing frame (931) is vertically connected to the uppermost position of the inner right surface of the device body (1), the second gear (932) is movably connected to the left end surface of the second gear fixing frame (931), the second gear input shaft (933) is mechanically connected to the center of the front end surface of the second gear (932), the gear tooth structures (934) are uniformly and equidistantly distributed on the edge of the outer side surface of the second gear (932), and the second gear (932) is movably connected with a transmission wheel (927) through a transmission belt movably nested on the outer side surface of the second gear (932);

the driving frame device (94) is composed of a transverse sliding rail (941), a transverse sliding shaft (942), a T-shaped connecting frame (943), driving teeth (944) and a transverse control rod (945), the transverse sliding rail (941) is fixedly connected to the middle of the inner right surface of the equipment main body (1), the transverse sliding shaft (942) is transversely and slidably connected to a sliding groove in the inner side surface of the transverse sliding rail (941), the T-shaped connecting frame (943) is fixedly connected to the upper end surface of the transverse sliding shaft (942), the driving teeth (944) are uniformly and equidistantly distributed on the upper end surface of the T-shaped connecting frame (943), the transverse control rod (945) is vertically connected to the left end surface of the transverse sliding shaft (942), and the T-shaped connecting frame (943), a second gear (932) are movably connected through meshing action between a gear tooth structure (944) and the driving teeth (934);

circulating pump control on-off device (95) comprises circulating pump control valve (951), on-off control pole (952), control valve activity power contact (953), control valve fixed power contact (954), right department and its and circulating pump (7) are the electrical connection state in the outside surface of circulating pump control valve (951) activity nestification in gas discharge passageway (6), on-off control pole (952) fixed connection is in the upper end surface of circulating pump control valve (951) and is the electrical connection state between it and circulating pump control valve (951), control valve activity power contact (953) swing joint is in the upper end surface of on-off control pole (952) and is the electrical connection state between it and on-off control pole (952), control valve fixed power contact (954) fixed connection is in control valve activity power contact (953), the upper end department of on-off control pole (952) and be the electrical connection state between it and on-off control pole (952) (ii) a

The filter screen structure (83) performs advanced particulate matter filtering operation on gas entering an air inlet pipe (81) of equipment, resistance of the gas becomes larger and the connecting spring (84) and the air inlet pipe support (82) are pressed to the right along with increase of particulate matters on the filter screen structure (83), then the signal output movable power supply contact head (86) moves to the right along with the gas until the gas is contacted with the signal output fixed power supply contact head (85) to be electrified and outputs signals to the signal output converter (911), the signal output converter (911) controls the control rotating frame (913) to rotate downwards around the control output shaft (912), then the connecting rope on the outer side surface of the inner pulley (914) is pulled along with the signal output movable power supply contact head and enables the connecting rope on the outer side surface of the winding roller (922) to be pulled along with the signal output converter, the winding roller (922) rotates around the rotating wheel rotating shaft (921) and enables the rotating wheel (923) to rotate along, first gear (924) rotate and pass through drive belt transmission to drive wheel (927), second gear (932) in proper order under the meshing between the external screw thread, T type link (943) slide left along the spout of horizontal slide rail (941) under the meshing between teeth of a cogwheel structure (934), drive tooth (944), then horizontal control lever (945) moves left thereupon until it touches control valve activity power contact (953), control valve activity power contact (953) are promoted left and are separated until it and the fixed power contact (954) of control valve, then make and break electric control lever (952) outage and make the circuit of circulating pump control valve (951) control circulating pump (7) be in the off-state.

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