CN117948228A - Water conservancy surplus water power generation device - Google Patents

Abstract

The invention discloses a water conservancy and surplus water power generation device which comprises a fixed frame, a guide post, a buffer spring, a driving mechanism, a mounting plate, a floating body, a transmission mechanism, a generator, a deslagging mechanism, a drain pipe and a shunt pipe, wherein the driving mechanism is arranged in the fixed frame through the guide post, and the buffer spring is sleeved on the guide post; the outer side surface of the driving mechanism is fixed with a floating body through a mounting plate, and the outer side surface of the driving mechanism is fixed with a generator through a transmission mechanism, wherein the other end of the transmission mechanism is fixed with a deslagging mechanism; the lower side surface of the driving mechanism is fixedly provided with a drain pipe, and the outer side surface of the drain pipe is fixed with the driving mechanism through a shunt pipe. The invention solves the problems that the existing hydroelectric power generation device still exists due to unstable water flow at the water outlet of the power station, so that the water cannot work normally, and if floating matters exist, the floating matters can influence the rotation of the rotating wheel.

Description

Water conservancy surplus water power generation device

Technical Field

The invention relates to the technical field of hydroelectric power generation, in particular to a water conservancy surplus water power generation device.

Background

The hydroelectric power generation is a process of converting water energy into electric energy, potential energy in a water body is mainly utilized, the fall of natural water flow is concentrated through a building to form a water head, a reservoir is used for collecting and adjusting the flow of the natural water flow so as to maintain stable power generation conditions, basic equipment comprises a hydroelectric generating set, when the water flow passes through a water turbine, the water turbine is pushed by the water flow to rotate so as to drive a generator to generate power, in the process, the mechanical energy of the water turbine is converted into electric energy, and finally the electric power is transmitted to a user through the treatment of power transformation and power transmission and distribution equipment.

Meanwhile, after the current hydropower station generates electricity under the action of water flow, water is discharged through the water outlet and the channel which are inclined downwards, the discharged water still has larger kinetic energy and can be utilized, and the water can not be utilized at present, so that larger waste is caused.

The existing hydroelectric power generation device is unstable in water flow of a water outlet of a power station when the existing hydroelectric power generation device is used, if the water flow is large and the water level is too high, the rotating wheel can be completely submerged, so that the existing hydroelectric power generation device cannot work normally, and if a floater exists, the floater can influence the rotation of the rotating wheel.

Therefore, the invention of the water conservancy surplus water power generation device is very necessary.

Disclosure of Invention

The invention aims to provide a water conservancy surplus water power generation device, which aims to solve the problems that when the conventional water conservancy power generation device is used, because the water flow of a water outlet of a power station is unstable, if the water flow is large and the water level is too high, a rotating wheel is completely submerged, so that the rotating wheel cannot work normally, and if a floating object exists, the floating object can influence the rotation of the rotating wheel.

In order to achieve the above purpose, the present invention provides the following technical solutions: the device comprises a fixing frame, guide posts, buffer springs, a driving mechanism, a mounting plate, a floating body, a transmission mechanism, a generator, a deslagging mechanism, a drain pipe and a shunt pipe, wherein the fixing frame is fixed at the position of a water outlet of a power station through bolts, a plurality of the guide posts are fixed in the fixing frame, and the buffer springs are movably sleeved on the guide posts; the inside of the driving mechanism is slidably penetrated through a guide post, the outer side surface of the driving mechanism is fixedly provided with a plurality of mounting plates through bolts, and the lower side surface of each mounting plate is fixedly provided with a floating body through bolts; the upper side surface of the driving mechanism is fixed with a transmission mechanism through a bolt, the upper side surface of the transmission mechanism is fixed with a generator through a bolt, and the other end of the transmission mechanism is fixed with a deslagging mechanism; the output end of the generator is connected with an external power storage mechanism through a cable; the lower side of the driving mechanism is fixedly provided with a drain pipe through a joint, wherein the outer side of the drain pipe is fixedly provided with a shunt pipe through a joint, and the other end of the shunt pipe is fixed with the outer side of the upper end of the driving mechanism through a joint.

Further, the driving mechanism comprises a protective shell, a fixing frame, a water inlet, a rotating wheel and a drain pipe, wherein the plurality of fixing frames are fixedly arranged on the outer side surface of the protective shell through welding, and guide posts penetrate through the fixing frames in a sliding manner; a water inlet is formed in one end of the protective shell, a rotating wheel is rotatably arranged in the protective shell through a support bearing, and the upper end of the rotating wheel is fixed with the input end of the generator; a drain pipe is fixed on the outer side surface of the upper end of the protective shell through welding; the lower extreme of protecting crust has seted up the outlet, and wherein the outlet sets up in the runner downside, and the outlet is fixed with the drain pipe through the joint, and such setting can drive the generator and rotate through the kinetic energy of power station discharge water to, can discharge unnecessary rivers.

Further, the one end of bleeder is fixed mutually with the shunt tubes through the joint, and the lower extreme of bleeder and the high middle part parallel and level of protecting crust, and this kind of setting can make the inside unnecessary rivers of protecting crust pass through bleeder and shunt tubes, and the leading-in is inside the drain pipe.

Further, the rotating wheel comprises a top plate, blades, a bottom plate and a water outlet, wherein the top plate is rotationally connected with the protective shell through a support bearing, and the center position of the upper side surface of the top plate is fixed with the input end of the generator; the lower side surface of the top plate is fixedly provided with a plurality of blades through welding, wherein the lower ends of the blades are fixedly provided with a bottom plate through welding; the downside of bottom plate is rotatory to be linked to each other with the protecting crust through supporting bearing, and the inside of bottom plate has run through and has offered the delivery port, and wherein the delivery port sets up directly over the drain pipe, and such setting, rivers can exert pressure to the blade, drive the runner and wholly rotate, and wherein the runner is at rotatory in-process, can drive the generator and work, finally discharges the inside drain pipe with rivers through the delivery port.

Further, the transmission mechanism comprises a shell, a first bearing seat, a second bearing seat, a first transmission rod and a second transmission rod, wherein the shell is fixed on the upper side surface of the protective shell through bolts, and the first bearing seat and the second bearing seat are fixed in the shell through bolts; a first transmission rod is rotatably arranged in the first bearing seat through a support bearing, and one end of the first transmission rod is connected with the input end of the generator through the cooperation of two bevel gears; the other end of the first transmission rod is connected with the second transmission rod through the cooperation of the two bevel gears, wherein the other end of the second transmission rod is fixedly provided with a slag removing mechanism through a bolt, and the rotation of the input end of the generator can be transmitted to the slag removing mechanism through the arrangement.

Further, the slag removing mechanism comprises a positioning disc, a first rocker, a second rocker, a limiting disc, an inner cylinder, an expansion column and a supporting frame, wherein the positioning disc is fixed with the second transmission rod through bolts, and a plurality of first rockers are installed on the outer side surface of the positioning disc in a hinged and rotary mode; the other end of the first rocker is rotatably provided with a second rocker through a hinge, wherein the other end of the second rocker is rotatably connected with the limiting disc through a hinge; an inner cylinder is rotatably arranged in the limit disc through a support bearing, and the middle part of the inner cylinder passes through an expansion column through threaded engagement; one end of the expansion column is fixed with the positioning disc through welding, the other end of the expansion column is rotationally connected with the support frame through the support bearing, the support frame is fixed with the driving mechanism through the bolt, and large floaters in water flow can be pushed away through the arrangement, so that the floaters are prevented from obstructing the operation of the device.

Further, the floating bodies are arranged in a plurality, and the height of each floating body is equal to one half of the height of the driving mechanism; the outer edge of the floating body is processed by an arc, and the arrangement can enable one half of the driving mechanism to be arranged in water flow and the rest part of the driving mechanism to float on the water surface, so that the normal operation of the device can be ensured no matter how the water flow changes

Further, two buffer springs are movably sleeved on the guide post and are arranged on the upper side and the lower side of the driving mechanism, limiting of the limiting moving position of the driving mechanism can be achieved through the arrangement, the driving mechanism is prevented from impacting the fixing frame, and the service life of the device is prolonged.

Compared with the prior art, the invention has the following beneficial effects:

When the driving mechanism is used, water flow from the power station enters the inside of the protective shell from the water inlet, then the water flow is guided to the position of the rotating wheel under the action of the protective shell, the rotating wheel rotates under the action of the water flow, and finally the water flow is discharged into the drain pipe, wherein if the water flow is too large, redundant water flow enters the drain pipe, and then the water flow is discharged into the drain pipe through the shunt pipe.

When the electric power generator is used, the input end of the electric power generator rotates under the action of the driving mechanism, and then the first transmission rod is driven to rotate under the cooperation of the two bevel gears, wherein the first transmission rod drives the second transmission rod to rotate under the cooperation of the other two bevel gears in the rotating process, and the second transmission rod can drive the slag removing mechanism to rotate in the rotating process.

When the slag removing mechanism is arranged, the positioning disc can rotate under the action of the second transmission shaft, and then the first rocker, the second rocker, the limiting disc, the inner cylinder and the expansion column are respectively driven to rotate, wherein the first rocker and the second rocker push away larger floaters in water flow in the rotating process, so that the floaters are prevented from entering the driving mechanism, and meanwhile, the position of the limiting disc on the expansion column can be adjusted by manually rotating the inner cylinder, so that the application range of the water flow is adjusted.

The floating body is arranged, so that one half of the driving mechanism is arranged in water flow, and the other part of the driving mechanism floats on the water surface, thereby ensuring the normal operation of the device no matter how the water flow changes.

According to the invention, the buffer spring is arranged, when the driving mechanism moves up and down along the guide post, the buffer spring can limit the limit movement position of the driving mechanism, the driving mechanism is prevented from striking the fixing frame, and the service life of the device is prolonged.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of the driving mechanism of the present invention.

Fig. 3 is a schematic view of the structure of the rotor of the present invention.

Fig. 4 is a schematic structural view of the transmission mechanism of the present invention.

Fig. 5 is an enlarged schematic view of a portion of the invention at position a of fig. 4.

Fig. 6 is an enlarged schematic view of a portion of the invention at position B of fig. 4.

Fig. 7 is a schematic structural view of the deslagging mechanism of the invention.

In the figure:

The device comprises a 1-fixing frame, a 2-guide column, a 3-buffer spring, a 4-driving mechanism, a 41-protective shell, a 42-fixing frame, a 43-water inlet, a 44-rotating wheel, a 441-top plate, a 442-blade, a 443-bottom plate, a 444-water outlet, a 45-water drain pipe, a 5-mounting plate, a 6-floating body, a 7-driving mechanism, a 71-shell, a 72-first bearing seat, a 73-second bearing seat, a 74-first driving rod, a 75-second driving rod, an 8-generator, a 9-deslagging mechanism, a 91-positioning disc, a 92-first rocker, a 93-second rocker, a 94-limiting disc, a 95-inner cylinder, a 96-expansion column, a 97-support frame, a 10-drain pipe and a 11-shunt pipe.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1-7:

The invention provides a water conservancy and surplus water power generation device which comprises a fixing frame 1, guide posts 2, buffer springs 3, a driving mechanism 4, a mounting plate 5, a floating body 6, a transmission mechanism 7, a generator 8, a deslagging mechanism 9, a drain pipe 10 and a shunt pipe 11, wherein the fixing frame 1 is fixed at the position of a water outlet of a power station through bolts, a plurality of guide posts 2 are fixed in the fixing frame 1, and the buffer springs 3 are movably sleeved on the guide posts 2; the inside of the driving mechanism 4 slides through the guide post 2, and the outer side surface of the driving mechanism 4 is fixedly provided with a plurality of mounting plates 5 through bolts, wherein the lower side surface of the mounting plates 5 is fixedly provided with a floating body 6 through bolts; the upper side surface of the driving mechanism 4 is fixedly provided with a transmission mechanism 7 through a bolt, the upper side surface of the transmission mechanism 7 is fixedly provided with a generator 8 through a bolt, and the other end of the transmission mechanism 7 is fixedly provided with a deslagging mechanism 9; the output end of the generator 8 is connected with an external power storage mechanism through a cable; the lower side surface of the driving mechanism 4 is fixedly provided with a drain pipe 10 through a joint, wherein the outer side surface of the drain pipe 10 is fixedly provided with a shunt pipe 11 through a joint, and the other end of the shunt pipe 11 is fixedly connected with the outer side surface of the upper end of the driving mechanism 4 through a joint.

Specifically, the driving mechanism 4 comprises a protective shell 41, a fixed frame 42, a water inlet 43, a rotating wheel 44 and a drain pipe 45, wherein a plurality of fixed frames 42 are fixed on the outer side surface of the protective shell 41 through welding, and the inside of the fixed frame 42 slides through a guide post 2; a water inlet 43 is formed in one end of the protective shell 41, a rotating wheel 44 is rotatably arranged in the protective shell 41 through a support bearing, and the upper end of the rotating wheel 44 is fixed with the input end of the generator 8; the outer side surface of the upper end of the protective shell 41 is fixedly provided with a drain pipe 45 through welding; the lower extreme of protecting crust 41 has seted up the outlet, and wherein the outlet sets up in runner 44 downside, and the outlet is fixed with drain pipe 10 through the joint, and when using, the rivers that come out from the power station can get into inside protecting crust 41 from water inlet 43, then under the effect of protecting crust 41, will this rivers direction to runner 44 position for runner 44 rotates under the effect of rivers, finally, will rivers discharge into inside drain pipe 10, wherein, if rivers flow through big, unnecessary rivers can get into inside drain pipe 45, then discharge into drain pipe 10 through shunt tubes 45.

Specifically, one end of the drain pipe 45 is fixed to the shunt pipe 11 through a joint, and the lowest end of the drain pipe 45 is flush with the middle part of the height of the protective shell 41, so that when the drain pipe is used, redundant water flow in the protective shell 41 can be led into the drain pipe 10 through the drain pipe 45 and the shunt pipe 11, and a siphon effect can be generated along with the drainage of the shunt pipe 11 to the water flow, so that the drainage of the redundant water flow is quickened.

Specifically, the rotating wheel 44 includes a top plate 441, a blade 442, a bottom plate 443, and a water outlet 444, the top plate 441 is rotatably connected with the protective housing 41 through a support bearing, and the center position of the upper side surface of the top plate 441 is fixed with the input end of the generator 8; the lower side of the top plate 441 is fixed with a plurality of blades 442 by welding, wherein the lower ends of the blades 442 are fixed with a bottom plate 443 by welding; the underside of the bottom plate 443 is rotatably connected with the protective shell 41 through a support bearing, a water outlet 444 is formed in the bottom plate 443 in a penetrating manner, the water outlet 44 is arranged right above the drain pipe 10, when the water pump is used, water flow can exert pressure on the blades 442 to drive the rotating wheel 44 to integrally rotate, the rotating wheel 44 can drive the generator 8 to work in the rotating process, and finally the water flow is discharged into the drain pipe 10 through the water outlet 444.

Specifically, the transmission mechanism 7 includes a housing 71, a first bearing housing 72, a second bearing housing 73, a first transmission lever 74, and a second transmission lever 75, the housing 71 is fixed to the upper side surface of the shield case 41 by bolts, and the first bearing housing 72 and the second bearing housing 73 are fixed to the inside of the housing 71 by bolts; a first transmission rod 74 is rotatably installed in the first bearing seat 72 through a support bearing, wherein one end of the first transmission rod 74 is connected with the input end of the generator through the cooperation of two bevel gears; the other end of the first transmission rod 74 is connected with the second transmission rod 75 through the cooperation of two bevel gears, wherein the other end of the second transmission rod 75 is fixed with the deslagging mechanism 9 through a bolt, when the electric generator is used, the input end of the electric generator can rotate under the action of the driving mechanism 4, then the first transmission rod 74 is driven to rotate under the cooperation of two bevel gears, the first transmission rod 74 drives the second transmission rod 75 to rotate under the cooperation of the other two bevel gears in the rotating process, and the second transmission rod 75 can drive the deslagging mechanism 9 to rotate in the rotating process.

Specifically, the slag removing mechanism 9 comprises a positioning disc 91, a first rocker 92, a second rocker 93, a limiting disc 94, an inner cylinder 95, an expansion column 96 and a supporting frame 97, wherein the positioning disc 91 is fixed with the second transmission rod 75 through bolts, and a plurality of first rockers 92 are installed on the outer side surface of the positioning disc 91 through hinging rotation; the other end of the first rocker 92 is rotatably provided with a second rocker 93 through a hinge, wherein the other end of the second rocker 93 is rotatably connected with a limit disc 94 through a hinge; an inner cylinder 95 is rotatably arranged in the limit disc 94 through a support bearing, wherein the middle part of the inner cylinder 95 passes through an expansion column 96 through threaded engagement; one end of the expansion column 96 is fixed with the positioning disc 91 through welding, wherein the other end of the expansion column 96 is rotationally connected with the supporting frame 97 through a supporting bearing, the supporting frame 97 is fixed with the driving mechanism 4 through a bolt, when the expansion column is used, the positioning disc 91 can rotate under the action of the second transmission shaft 75 and then respectively drive the first rocker 92, the second rocker 93, the limiting disc 94, the inner cylinder 95 and the expansion column 96 to rotate, wherein the first rocker 92 and the second rocker 93 push away larger floating matters in water flow in the rotating process, the floating matters are prevented from entering the driving mechanism 4, and meanwhile, the inner cylinder 95 can be manually rotated, so that the position of the limiting disc 94 on the expansion column 96 is adjusted, and the action range of water flow is adjusted.

Specifically, the floating bodies 6 are provided in a plurality, and the height of the floating bodies 6 is equal to one half of the height of the driving mechanism 4; the outer edge of the floating body 6 is processed by an arc, and by the arrangement, one half of the driving mechanism 4 is arranged in water flow, and the rest part of the driving mechanism 4 floats on the water surface, so that the normal operation of the device can be ensured no matter how the water flow changes.

Specifically, two buffer springs 3 are movably sleeved on the guide post 2, the two buffer springs 3 are arranged on the upper side and the lower side of the driving mechanism 4, when the driving mechanism 4 moves up and down along the guide post 2, the buffer springs 3 can limit the limit movement position of the driving mechanism 4, the driving mechanism 4 is prevented from impacting the fixing frame 1, and the service life of the device is prolonged.

A method of using a water surplus power generation device as claimed in any one of claims 1 to 8, comprising the steps of:

in the preparation phase, the fixing frame 1 is fixed to the inside of the channel of the power station outlet by bolts.

In the power generation process, the kinetic energy of the water flow is converted into electric energy through the cooperation of the driving mechanism 4 and the generator,

In the deslagging process, in the working process of the driving mechanism 4, the deslagging mechanism 9 is driven to rotate through the transmission mechanism 7, so that larger floaters in water flow are pushed away, and the floaters are prevented from entering the driving mechanism 4.

The various components used in the document are standard components, the specific connection modes of the components adopt conventional means such as sewing and pasting which are mature in the prior art, and the structures adopt conventional materials in the prior art, so that the specific description is not made here.

To sum up: this surplus water power generation facility of water conservancy solves current hydroelectric power generation device through setting up buffer spring 3, actuating mechanism 4, body 6, drive mechanism 7 and deslagging mechanism 9, when using, because the discharge of power station outlet is unstable, if the water flow is too big and the water level is too high, can submerge the runner completely to lead to unable normal work, and, if there is the floater, this floater can cause the influence to the rotation of runner.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a surplus water power generation facility of water conservancy, includes mount (1), guide post (2), buffer spring (3), actuating mechanism (4), mounting panel (5), body (6), drive mechanism (7), generator (8), deslagging mechanism (9), drain pipe (10) and shunt tubes (11), its characterized in that: the fixing frame (1) is fixed at the water outlet position of the power station, a plurality of guide posts (2) are fixed in the fixing frame (1), and buffer springs (3) are movably sleeved on the guide posts (2); the inside of the driving mechanism (4) slides through the guide post (2), and the outer side surface of the driving mechanism (4) is fixedly provided with a plurality of mounting plates (5), wherein the lower side surface of the mounting plate (5) is fixedly provided with a floating body (6); a transmission mechanism (7) is fixed on the upper side surface of the driving mechanism (4), a generator (8) is fixed on the upper side surface of the transmission mechanism (7), and a deslagging mechanism (9) is fixed on the other end of the transmission mechanism (7); the output end of the generator (8) is connected with an external power storage mechanism through a cable; the lower side of the driving mechanism (4) is fixed with a drain pipe (10), wherein the outer side of the drain pipe (10) is fixed with a shunt pipe (11), and the other end of the shunt pipe (11) is fixed with the outer side of the upper end of the driving mechanism (4).

2. A water surplus water power generation device as claimed in claim 1, wherein: the driving mechanism (4) comprises a protective shell (41), a fixing frame (42), a water inlet (43), a rotating wheel (44) and a drain pipe (45), wherein a plurality of fixing frames (42) are fixed on the outer side surface of the protective shell (41), and guide posts (2) slide through the fixing frames (42); a water inlet (43) is formed in one end of the protective shell (41), a rotating wheel (44) is rotatably arranged in the protective shell (41), and the upper end of the rotating wheel (44) is fixed with the input end of the generator (8); a drain pipe (45) is fixed on the outer side surface of the upper end of the protective shell (41); the lower end of the protective shell (41) is provided with a water outlet, wherein the water outlet is arranged at the lower side of the rotating wheel (44), and the water outlet is fixedly provided with a water outlet pipe (10).

3. A water surplus water power generation device as claimed in claim 2, characterized in that: one end of the drain pipe (45) is fixed with the shunt pipe (11), and the lowest end of the drain pipe (45) is level with the middle part of the height of the protective shell (41).

4. A water surplus water power generation device as claimed in claim 2, characterized in that: the rotating wheel (44) comprises a top plate (441), blades (442), a bottom plate (443) and a water outlet (444), the top plate (441) is rotationally connected with the protective shell (41), and the center position of the upper side surface of the top plate (441) is fixed with the input end of the generator (8); the lower side surface of the top plate (441) is fixed with a plurality of blades (442), wherein the lower ends of the blades (442) are fixed with a bottom plate (443); the lower side of the bottom plate (443) is rotationally connected with the protective shell (41), and a water outlet (444) is formed in the bottom plate (443) in a penetrating manner, wherein the water outlet (44) is arranged right above the drain pipe (10).

5. A water surplus water power generation device as claimed in claim 2, characterized in that: the transmission mechanism (7) comprises a shell (71), a first bearing seat (72), a second bearing seat (73), a first transmission rod (74) and a second transmission rod (75), wherein the shell (71) is fixed on the upper side surface of the protective shell (41), and the first bearing seat (72) and the second bearing seat (73) are fixed inside the shell (71); a first transmission rod (74) is rotatably arranged in the first bearing seat (72), and one end of the first transmission rod (74) is connected with the input end of the generator; the other end of the first transmission rod (74) is connected with a second transmission rod (75), wherein the other end of the second transmission rod (75) is fixed with a deslagging mechanism (9).

6. A water surplus water power generation device as claimed in claim 5, wherein: the slag removing mechanism (9) comprises a positioning disc (91), a first rocker (92), a second rocker (93), a limiting disc (94), an inner cylinder (95), an expansion column (96) and a supporting frame (97), wherein the positioning disc (91) is fixed with a second transmission rod (75), and a plurality of first rockers (92) are rotatably arranged on the outer side surface of the positioning disc (91); the other end of the first rocker (92) is rotatably provided with a second rocker (93), wherein the other end of the second rocker (93) is rotatably connected with a limiting disc (94); an inner cylinder (95) is rotatably arranged in the limiting disc (94), and the middle part of the inner cylinder (95) is penetrated by an expansion column (96) through threaded engagement; one end of the expansion column (96) is fixed with the positioning disc (91), wherein the other end of the expansion column (96) is rotatably connected with the supporting frame (97), and the supporting frame (97) is fixed with the driving mechanism (4).

7. A water surplus water power generation device as claimed in claim 1, wherein: the floating bodies (6) are arranged in a plurality, and the height of each floating body (6) is equal to one half of the height of the driving mechanism (4); the outer edge of the floating body (6) is subjected to arc treatment.

8. A water surplus water power generation device as claimed in claim 1, wherein: two buffer springs (3) are movably sleeved on the guide post (2), and the two buffer springs (3) are arranged on the upper side and the lower side of the driving mechanism (4).