CN212360078U - Novel buoyancy lifting device for water conservancy and hydropower - Google Patents

Abstract

The utility model discloses a novel water conservancy is buoyancy for water and electricity promotes device, including the water lifting tank, power cord and switch door, the utility model discloses a regulating mechanism has been set up at the water lifting tank right-hand member, drive bevel gear group through electric motor circular telegram output shaft and rotate, and bevel gear group drives the pinion rack, and the pinion rack then drives the well hollow plate of engaged with and carries out horizontal migration in the leading truck, well hollow plate carries out vertical migration through arm-tie pulling driving plate simultaneously, it rotates to realize that the driving plate drives discharge pipe and expansion hose in the right-hand member of outlet, thereby realize that the angle of discharge water in the drain outlet obtains adjusting with receiving the buffering and discharge water flow size, reached convenient quick adjusting discharge water's size and direction, bring convenient beneficial effect for work.

Description

Novel buoyancy lifting device for water conservancy and hydropower

Technical Field

The utility model relates to a hoisting device correlation field specifically is a novel buoyancy hoisting device for water conservancy water and electricity.

Background

Water is a source of all lives, is an essential substance in human life and production activities, plays an extremely important role in the survival and development of the human society, and with the progress of social production technology, the water conservancy and hydropower industry is also continuously developed and advanced, so that a special lifting device is born for reducing the energy consumed in the water lifting process.

When the in-process flow of hoisting device at promotion and drainage is comparatively fixed for its discharged water's direction and size are also comparatively fixed, are difficult to carry out fast and stable's regulation, make to be difficult to adapt to more actual production life needs, bring inconvenience for work.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above-mentioned not enough, the utility model provides a novel buoyancy lifting device for water conservancy water and electricity here.

The utility model is realized in such a way, a novel buoyancy lifting device for water conservancy and hydropower is constructed, the device comprises a water lifting tank, a power line and a switch door, the water lifting tank movably extends into the opening inner side formed at the right upper end of the inner side of a bottom box, the left lower end of the front end surface of the water lifting tank and the right lower ends of the front end surface and the rear end surface of the water lifting tank are respectively fastened with a first fixed column and a second fixed column, an adjusting mechanism is arranged at the right side of the water lifting tank, the adjusting mechanism comprises a shell, an electric motor, a protective sealing mechanism, a bevel gear set, a half gear, a hollow plate, a guide frame, a pull plate, a transmission plate, a sealing sleeve, a discharge pipe and a telescopic hose, the shell is locked at the middle upper end of the right end surface of the water lifting tank, the electric motor is arranged at the bottom end of the inner side of the shell, the bevel gear, the middle part of the rear end face of the half gear is rotatably connected with the middle upper part of the rear end of the inner side of the shell through a rotating shaft, the hollow plate is slidably mounted on the inner side of the guide frame, the hollow plate is meshed with the side surface of the half gear through inner gear teeth distributed on the inner side wall, the guide frame is mounted at the middle upper end of the inner side of the shell, the upper end and the lower end of the pull plate are respectively hinged to the bottom of the transmission plate and the right end of the top plate of the hollow plate, the transmission plate vertically penetrates through the right end of the top end face of the inner side of the shell, the top end of the outer side of the transmission plate is hinged to the right end of the bottom of the discharge pipe, the sealing sleeve is embedded into the right end face.

Preferably, the top of the top end surface and the top of the right end surface of the water lifting box are respectively provided with a water inlet and a water outlet, the power cord penetrates through the side surface of the bottom box, the bottom of the rear end surface of the bottom box is hinged with a switch door, the middle of the bottom end surface of the inner side of the bottom box is locked with a bidirectional air pump, the first fixing column movably extends into the inner side of an arc-shaped guide rail arranged at the left upper end of the front end surface of the inner side of the bottom box, the left end surface of the first fixing column is connected with the left end of the inner side of the arc-shaped guide rail through a spring, the second fixing column movably extends into the inner sides of square grooves arranged at the front end and the rear end of the inner side of the opening, the inner sides of the left and right output ends of the bidirectional air pump are respectively fastened with an air pipe, the top of the air pipe is connected, the bidirectional air pump, the electromagnetic valve and the electric motor are electrically connected with a power line.

Preferably, protection sealing mechanism comprises safety cover, sound absorption cotton, extension board, louvre and linking pipe, the safety cover covers in electric motor outside terminal surface completely, and safety cover medial surface pastes and has inhales the sound cotton, the extension board sets up in both ends bottom about the safety cover as an organic whole structure, and extends the board lock in the inboard bottom face of shell, the louvre is seted up in shell bottom end face middle part, the linking pipe is fastened in shell bottom end face, and links up in the louvre inboard in the linking pipe.

Preferably, the bottom end face of the guide frame is provided with a reinforcing rib which is obliquely arranged, and the guide frame is symmetrically provided with two middle upper parts at the left end and the right end of the inner side of the shell.

Preferably, the inner sides of the flexible hose, the discharge pipe and the water outlet are the same in size, and the length of the discharge pipe is 6 times of the length of the flexible hose.

Preferably, the right end in the bottom end face of the discharge pipe is provided with a groove, and the groove is corresponding to the transmission plate in position.

Preferably, the vertical distance between the top end surface of the sealing sleeve and the top end surface of the shell is 3cm, and the sealing sleeve is in a cross shape and clings to the top end surface of the shell.

Preferably, the outer middle lower end of the hollow plate is provided with a smooth ceramic layer, and the thickness of the ceramic layer is 0.2 cm.

Preferably, more than two radiating holes are formed in the bottom end face of the shell at equal intervals, and the connecting pipes are correspondingly arranged at the bottom of the shell.

Preferably, the bottom end surface of the connecting pipe and the bottom end surface of the shell form an included angle of 45 degrees, and the inner diameter of the connecting pipe is consistent with that of the heat dissipation hole.

Preferably, the electric motor is a GH series speed reduction motor.

Preferably, the transmission plate is made of carbon steel.

The utility model has the advantages of as follows: the utility model discloses an improve and provide a novel buoyancy for water conservancy water and electricity promotes device here, compare with equipment of the same type, have following improvement:

the method has the advantages that: a novel buoyancy for water conservancy water and electricity promotes device, the utility model discloses a regulating mechanism has been set up at the water lifting box right-hand member, it rotates to drive bevel gear group through electric motor circular telegram output shaft, and bevel gear group drives half gear revolve, and half gear then drives the well hollow plate of engaged with and carries out horizontal migration in the leading truck, well hollow plate carries out vertical migration through arm-tie pulling driving plate simultaneously, it rotates in the right-hand member of outlet to realize that the driving plate drives discharge pipe and expansion hose, thereby realize that the angle of discharge water in the discharge port and receive the buffering and discharge water flow size obtains adjusting, reached convenient quick big or small and the direction with the discharge water adjust, bring convenient beneficial effect for work.

The method has the advantages that: a novel buoyancy for water conservancy water and electricity promotes device, the utility model discloses a bottom face of leading truck is provided with the strengthening rib that an slant set up, and the leading truck symmetry is provided with two upper portions in both ends about the shell inboard, has reached and has makeed the cavity board to carry out more stable horizontal slip's beneficial effect.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the connection structure of the water lifting tank of the present invention;

FIG. 3 is a schematic view of the front cross-sectional structure of the bottom case of the present invention;

FIG. 4 is a schematic view of the front cross-sectional structure of the adjusting mechanism of the present invention;

fig. 5 is an enlarged schematic view of a structure in fig. 4 according to the present invention.

Wherein: water lifting box-1, power cord-2, switch door-3, bottom box-4, opening-5, water inlet-6, first fixed column-8, second fixed column-9, water outlet-10, bidirectional air pump-11, air pipe-12, electromagnetic valve-13, air bag-14, fixed frame-15, arc guide rail-16, spring-17, regulating mechanism-7, shell-71, electric motor-72, protective sealing mechanism-73, bevel gear group-74, half gear-75, hollow plate-76, guide frame-77, pull plate-78, driving plate-79, sealing sleeve-710, discharge pipe-711, telescopic hose-712, protective cover-731, sound-absorbing cotton-732, extension plate-733, bottom box-4, air pipe-7, air bag-71, air bag-76, air pipe-77, hollow plate-78, heat dissipation hole-734, connection tube-735.

Detailed Description

The present invention will be described in detail with reference to the accompanying fig. 1-5, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1, 2 and 3, the utility model provides a novel buoyancy lifting device for water conservancy and hydropower through improvement, which comprises a water lifting tank 1, a power cord 2 and a switch door 3, wherein the water lifting tank 1 movably extends into an opening 5 arranged at the upper right end of the inner side of a bottom box 4, a first fixed column 8 and a second fixed column 9 are respectively fastened at the lower left end of the front end surface of the water lifting tank 1 and the lower right end of the front end surface and the rear end surface of the water lifting tank, a water inlet 6 and a water outlet 10 are respectively arranged at the top of the left end surface and the right end surface of the top end surface of the water lifting tank 1, the power cord 2 penetrates through the side surface of the bottom box 4, the switch door 3 is hinged at the bottom of the rear end surface of the bottom box 4, a bidirectional air pump 11 is locked at the middle part of the bottom end surface of the inner side of the bottom box 4, the first fixed column 8 movably extends into the inner side of an arc-, the second fixing column 9 movably extends into the inner sides of square grooves formed in the front and rear right parts of the inner side of the opening 5, the inner sides of the left and right output ends of the bidirectional air pump 11 are respectively and fixedly provided with an air pipe 12, the top of the air pipe 12 is connected to the bottom end of the inner side of the air bag 14, the air pipe 12 is provided with an electromagnetic valve 13, the air bag 14 is fixedly arranged at the middle and lower end of the inner side of the bottom box 4, the air bag 14 is tightly attached to the bottom end face of the fixing frame 15, the fixing frame 15 is conveniently driven to vertically move, the fixing frame 15 is locked in the middle of the bottom end.

Referring to fig. 4, the present invention provides a novel buoyancy lifting device for water conservancy and hydropower, wherein an adjusting mechanism 7 is disposed on the right side of a water lifting tank 1, the adjusting mechanism 7 is composed of a housing 71, an electric motor 72, a protective sealing mechanism 73, a bevel gear set 74, a half gear 75, a hollow plate 76, a guide frame 77, a pull plate 78, a transmission plate 79, a sealing sleeve 710, a discharge pipe 711 and a flexible hose 712, the housing 71 is locked on the middle upper end of the right end face of the water lifting tank 1, the electric motor 72 is mounted on the bottom end of the inner side of the housing 71, the bevel gear set 74 is mounted on an output shaft at the top of the electric motor 72, the protective sealing mechanism 73 is disposed outside the electric motor 72 for protecting the electric motor 72 and preventing damage caused by moisture infiltration, the half gear 75 is fastened in the middle of the rear end face of the bevel gear set 74, and the middle of the rear end face, the hollow plate 76 is slidably mounted on the inner side of the guide frame 77, the hollow plate 76 is meshed with the side surface of the half gear 75 through inner gear teeth distributed on the inner side wall, so that the hollow plate 76 can move horizontally, a smooth ceramic layer is arranged at the middle-lower end of the outer side of the hollow plate 76, the thickness of the ceramic layer is 0.2cm, the hollow plate 76 can move horizontally more quickly, the guide frame 77 is mounted at the middle-upper end of the inner side of the shell 71, the bottom end surface of the guide frame 77 is provided with an obliquely arranged reinforcing rib, the guide frame 77 is symmetrically provided with two middle-upper parts at the left end and the right end of the inner side of the shell 71, so that the guide frame 77 can stably support and guide the hollow plate 76, the upper end and the lower end of the pull plate 78 are respectively hinged to the bottom of the transmission plate 79 and the right end of the top plate of the hollow plate 76, the, the sealing sleeve 710 is embedded into the right end of the top end face of the shell 71, the inner ring of the sealing sleeve 710 is attached to the side surface of the transmission plate 79, the vertical distance between the top end face of the sealing sleeve 710 and the top end face of the shell 71 is 3cm, the sealing sleeve 710 is tightly attached to the top end face of the shell 71 in a cross shape, the sealing sleeve 710 is convenient to limit the maximum rotation angle of the discharge pipe 711, the discharge pipe 711 is fastened to the right end face of the telescopic hose 712, a groove is formed in the right end face of the discharge pipe 711, the position of the groove corresponds to the transmission plate 79, the telescopic hose 712 is fastened to the top of the right end face of the water lifting tank 1, the inner sides of the telescopic hose 712, the discharge pipe 711 and the water outlet 10 are consistent in size, the length of the discharge pipe 711 is 6.

Referring to fig. 5, the present invention provides a novel buoyancy lifting device for water conservancy and hydropower through improvement, wherein the protection sealing mechanism 73 is composed of a protection cover 731, sound absorbing cotton 732, an extension plate 733, heat dissipation holes 734 and an engagement tube 735, the protection cover 731 completely covers the outer end surface of the electric motor 72, the sound absorbing cotton 732 is adhered to the inner end surface of the protection cover 731, the extension plate 733 is integrally disposed at the bottom of the left and right ends of the protection cover 731, the extension plate 733 is locked to the inner bottom end surface of the housing 71, the heat dissipation holes 734 are disposed at the middle part of the bottom end surface of the housing 71, the heat dissipation holes 734 are disposed at equal intervals more than two on the bottom end surface of the housing 71, and the engagement tube 735 is disposed at the bottom of the housing 71 in corresponding number, so that the heat dissipation effect of the electric motor 72 is better, the engagement tube 735 is fastened to the bottom end surface of the housing 71, the engagement, and the inner diameter of the connecting tube 735 is consistent with that of the heat radiation hole 734, so as to prevent water from entering the inner side of the heat radiation hole 734 at the bottom.

Example two:

the utility model discloses an improve and provide a novel buoyancy lifting device for water conservancy water and electricity here, seted up on the rear end face of switch door 3 and opened the groove, be convenient for open under casing 4, gasbag 14 is provided with two in mount 15 bottom, and two gasbags 14 are the symmetric distribution, are convenient for stably drive mount 15 and carry out the displacement.

The utility model provides a novel buoyancy lifting device for water conservancy and hydropower through improvement, and the working principle is as follows;

firstly, the device is integrally arranged at a designated position, the power cord 2 is connected to an external controller, and then a certain amount of water is led into the water lifting tank 1 through the water inlet 6;

secondly, when the angle and the size of the drained water need to be adjusted, the electric motor 72 is used for electrifying the output shaft to drive the bevel gear set 73 to rotate, the bevel gear set 74 drives the half gear 75 to rotate, the half gear 75 drives the meshed hollow plate 76 to horizontally move in the guide frame 77, meanwhile, the hollow plate 76 pulls the driving plate 79 to vertically move through the pulling plate 78, the driving plate 79 drives the discharge pipe 711 and the telescopic hose 712 to rotate at the right end of the water outlet 10, the angle of the drained water in the water outlet 10 and the flow of the drained water after being buffered are adjusted, and the sealing protection and the noise reduction of the electric motor 72 are realized through the protective cover 731 and the sound absorption cotton 732 on the outer side of the electric motor 72;

thirdly, when water in the water lifting tank 1 needs to be lifted and discharged, gas can be poured into the gas pipe 12 through the bidirectional gas pump 11, the electromagnetic valve 13 is simultaneously opened, so that the gas enters the inner side of the gas bag 14 to ventilate and expand the gas bag 14, the gas bag 14 pushes the fixing frame 15 and the water lifting tank 1 to move upwards, the gas bag 14 on the right side is exhausted after the water lifting tank 1 reaches a certain height, the gas bag 14 on the left side is continuously ventilated, the gas bag 14 on the left side pushes the fixing frame 15 and the water lifting tank 1 to rotate clockwise, the first fixing column 8 slides in the arc-shaped guide rail 16, the spring 17 is stressed and stretched, and after the water lifting tank 1 rotates to a certain angle, the water in the water lifting tank 1 flows rightwards and is discharged through the water discharge port 10.

The utility model provides a novel buoyancy lifting device for water conservancy and hydropower through improvement, drive bevel gear set 73 through electric motor 72 circular telegram output shaft and rotate, and bevel gear set 74 drives half gear 75 and rotates, and half gear 75 then drives engaged hollow plate 76 and carries out horizontal migration in leading truck 77, hollow plate 76 pulls driving plate 79 through arm-tie 78 and carries out vertical migration simultaneously, realize that driving plate 79 drives discharge pipe 711 and flexible hose 712 and rotates in the right-hand member of outlet 10, thereby realize that the angle of the discharged water in outlet 10 and the volume of the discharged water flow volume of receiving the buffering are adjusted, and realize the sealed protection and the noise reduction to electric motor 72 through safety cover 731 and the sound absorption cotton 732 outside electric motor 72, reached and conveniently adjusted the size and the direction of discharged water fast, bring convenient beneficial effect for work, the bottom end face of the guide frame 77 is provided with the reinforcing ribs which are obliquely arranged, and the guide frame 77 is symmetrically provided with two middle upper parts at the left end and the right end of the inner side of the shell 71, so that the beneficial effect that the hollow plate 76 can slide horizontally more stably is achieved.

The basic principle and the main characteristics of the utility model and the advantages of the utility model have been shown and described above, and the utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the record of the description with the drawing, and the concrete connection mode of each part all adopts conventional means such as ripe bolt rivet among the prior art, welding, and machinery, part and equipment all adopt prior art, conventional model, and conventional connection mode in the prior art is adopted in addition to circuit connection, and the details are not repeated here.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A novel buoyancy lifting device for water conservancy and hydropower comprises a water lifting box (1), a power line (2) and a switch door (3), wherein the water lifting box (1) movably extends into the inner side of an opening (5) formed in the right upper end of the inner side of a bottom box (4), and a first fixing column (8) and a second fixing column (9) are respectively fastened at the left lower end of the front end face and the right lower end of the rear end face of the water lifting box (1);

the method is characterized in that: the water lifting box is characterized by further comprising an adjusting mechanism (7), the adjusting mechanism (7) is arranged on the right side of the water lifting box (1), the adjusting mechanism (7) is composed of a shell (71), an electric motor (72), a protective sealing mechanism (73), a bevel gear set (74), a half gear (75), a hollow plate (76), a guide frame (77), a pull plate (78), a transmission plate (79), a sealing sleeve (710), a discharge pipe (711) and a telescopic hose (712), the shell (71) is locked at the middle upper end of the right end face of the water lifting box (1), the electric motor (72) is installed at the bottom end of the inner side of the shell (71), the bevel gear set (74) is installed on an output shaft of the top of the electric motor (72), the protective sealing mechanism (73) is arranged on the outer side of the electric motor (72), the half gear (75) is fastened in the middle of the rear end face of the bevel gear set (74), and the middle of the rear end face of the half, the hollow plate (76) is slidably arranged on the inner side of the guide frame (77), the hollow plate (76) is meshed with the side surface of the half gear (75) through inner gear teeth distributed on the inner side wall, the guide frame (77) is arranged at the middle upper end of the inner side of the shell (71), the upper end and the lower end of the pull plate (78) are respectively hinged at the bottom of the transmission plate (79) and the right end of the top plate of the hollow plate (76), the transmission plate (79) vertically penetrates through the right end of the top end surface of the inner side of the shell (71), the top end of the outer side of the transmission plate (79) is hinged with the middle right end of the bottom of the discharge pipe (711), the sealing sleeve (710) is embedded into the right end of the top end face of the shell (71), and the inner ring of the sealing sleeve (710) is attached to the side surface of the transmission plate (79), the discharge pipe (711) is fastened on the right end surface of the telescopic hose (712), the telescopic hose (712) is fastened at the top of the right end face of the water lifting tank (1).

2. The novel buoyancy lifting device for water conservancy and hydropower of claim 1 is characterized in that: the water lifting box is characterized in that a water inlet (6) and a water outlet (10) are respectively formed in the top of the left end face and the right end face of the top end face of the water lifting box (1), the power line (2) penetrates through the side surface of the bottom box (4), the bottom of the rear end face of the bottom box (4) is hinged with a switch door (3), a bidirectional air pump (11) is locked in the middle of the bottom end face of the inner side of the bottom box (4), a first fixing column (8) movably extends into the inner side of an arc-shaped guide rail (16) formed in the left upper end of the front end face of the inner side of the bottom box (4), the left end face of the first fixing column (8) is connected to the left end of the inner side of the arc-shaped guide rail (16) through a spring (17), a second fixing column (9) movably extends into the inner sides of square grooves formed in the right portions of the front end and the rear end faces of the inner side, and the air pipe (12) is provided with an electromagnetic valve (13), the air bag (14) is fastened at the middle and lower ends of the inner side of the bottom box (4), the air bag (14) is tightly attached to the bottom end face of the fixing frame (15), the fixing frame (15) is locked in the middle of the bottom end face of the water lifting box (1), and the bidirectional air pump (11), the electromagnetic valve (13) and the electric motor (72) are electrically connected with the power line (2).

3. The novel buoyancy lifting device for water conservancy and hydropower of claim 1 is characterized in that: the protection sealing mechanism (73) is composed of a protection cover (731), sound absorption cotton (732), an extension plate (733), heat dissipation holes (734) and connection pipes (735), the protection cover (731) completely covers the end face of the outer side of the electric motor (72), the sound absorption cotton (732) is pasted on the end face of the inner side of the protection cover (731), the extension plate (733) is arranged at the bottoms of the left end and the right end of the protection cover (731) in an integrated structure, the extension plate (733) is locked on the end face of the inner side of the shell (71), the heat dissipation holes (734) are formed in the middle of the bottom face of the shell (71), the connection pipes (735) are fastened on the bottom face of the shell (71), and the connection pipes (735) penetrate through the inner side of.

4. The novel buoyancy lifting device for water conservancy and hydropower of claim 1 is characterized in that: the bottom end face of the guide frame (77) is provided with a reinforcing rib which is obliquely arranged, and the guide frame (77) is symmetrically provided with two middle upper parts at the left end and the right end of the inner side of the shell (71).

5. The novel buoyancy lifting device for water conservancy and hydropower of claim 1 is characterized in that: the inner sides of the flexible hose (712), the discharge pipe (711) and the water outlet (10) are the same in size, and the length of the discharge pipe (711) is 6 times of that of the flexible hose (712).

6. The novel buoyancy lifting device for water conservancy and hydropower of claim 1 is characterized in that: the middle right end of the bottom end face of the discharge pipe (711) is provided with a groove, and the size of the groove corresponds to the transmission plate (79).

7. The novel buoyancy lifting device for water conservancy and hydropower of claim 1 is characterized in that: the vertical distance between the top end surface of the sealing sleeve (710) and the top end surface of the shell (71) is 3cm, and the sealing sleeve (710) is in a cross shape and tightly attached to the top end surface of the shell (71).

8. The novel buoyancy lifting device for water conservancy and hydropower of claim 1 is characterized in that: the lower extreme is provided with smooth ceramic layer in the outside of cavity board (76), and the thickness of ceramic layer is 0.2 cm.

9. The novel buoyancy lifting device for water conservancy and hydropower of claim 3 is characterized in that: the heat dissipation holes (734) are provided with more than two bottom end faces of the shell (71) at equal intervals, and the connecting pipes (735) are provided with corresponding quantity at the bottom of the shell (71).

10. The novel buoyancy lifting device for water conservancy and hydropower of claim 3 is characterized in that: the bottom end surface of the connecting pipe (735) and the bottom end surface of the shell (71) form an included angle of 45 degrees, and the inner diameter of the connecting pipe (735) is consistent with that of the heat dissipation hole (734).

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