CN211479917U - Aerify cabinet mechanism of being qualified for next round of competitions - Google Patents

Abstract

The utility model discloses an aerify cabinet mechanism of being qualified for next round of competitions, including the front bezel, the back plate, the drive plate, the deciliter operating axis, be provided with energy storage subassembly and driving-disc on the deciliter operating axis, the energy storage subassembly includes the rolling disc, drive assembly, spacing axle, drive assembly includes the axis of rotation, the driving gear, driven gear, still be provided with an installation axle between front bezel and the back plate, install epaxial elastic pawl who meshes in driven gear that is provided with of installation, be provided with the pivoted driving piece on the front bezel, the driving-disc location is on the deciliter operating axis, gangbar one end and driving-disc fixed connection, still be provided with the actuating lever on the driving. The utility model has the advantages of it is following and effect: the quick rotation that strikes the piece is driven through energy storage spring, and then drives the quick rotation of whole root deciliter operating axis, realizes the deciliter operation of line mechanism, realizes the quick separating brake of deciliter operating axis simultaneously through the common cooperation of dwang, spacing axle and energy storage spring, reduces artificial application of force, reduces the operation degree of difficulty.

Description

Aerify cabinet mechanism of being qualified for next round of competitions

Technical Field

The utility model relates to an aerify technical field of cabinet, in particular to aerify cabinet mechanism of being qualified for next round of competitions.

Background

The gas-filled cabinet is also called indoor alternating-current high-voltage gas insulated metal-enclosed switchgear, the main switch can be a permanent magnet mechanism vacuum circuit breaker or a spring mechanism vacuum circuit breaker, the whole cabinet is combined with a sulfur hexafluoride gas compartment by adopting air insulation, and the gas-filled cabinet is compact and expandable and is suitable for distribution automation.

Chinese patent publication No. CN109326985A, "gas insulated switchgear load switch fuse combined electrical apparatus mechanism". The utility model discloses a combined electrical apparatus operating device, includes front bezel, back plate, combined floodgate spring, motor and deciliter energy storage turning arm welding wire outgoing mechanism, and this mechanism both ends are provided with front bezel and back plate respectively, front bezel and back plate are parallel arrangement. The combined electric appliance mechanism of the load switch fuse of the gas charging cabinet changes the transmission mode of the mechanism. The scheme requires manual force to compress the spring for operation regardless of opening or closing operation.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an aerify cabinet mechanism of being qualified for next round of competitions has laborsaving effect that resets.

The above technical purpose of the present invention can be achieved by the following technical solutions: the utility model provides an aerify cabinet mechanism of being qualified for next round of competitions, includes the front bezel, with the back plate of front bezel parallel arrangement, be located the back plate just is used for connecting rotor plate, rotation on aerifing the cabinet and installs the front bezel with deciliter operating axis on the back plate, deciliter operating axis is last to be provided with energy storage subassembly and driving-disc, the energy storage subassembly includes:

the rotating disc is sleeved and positioned on the opening and closing operation shaft and comprises rotating sheets positioned on the front side and the rear side, linkage rods arranged on the two rotating sheets and an energy storage spring inserted with a connecting plate, one end of the connecting plate is rotatably positioned on a positioning shaft arranged on the rotating sheets, and the other end of the connecting plate is slidably arranged on a positioning rod arranged between the front plate and the rear plate;

the driving assembly comprises a rotating shaft, a driving gear, a driven gear, a knocking block and an energy storage spring, wherein the rotating shaft is rotatably connected to the front plate and the rear plate, the driving gear is fixed on the opening and closing operating shaft, the driven gear is fixed on the rotating shaft, the knocking block is fixed on the rotating shaft, one end of the energy storage spring is positioned on the outer side of the rotating shaft through an energy storage connecting lever, the other end of the energy storage spring is positioned on a rotating rod arranged on the front plate, the upper end of the energy storage connecting lever is fixed with the rotating shaft, the lower end of the energy storage connecting lever is rotatably connected with the energy storage spring;

the limiting shaft is rotatably connected to the front plate and the rear plate, an arc-shaped convex block is convexly arranged on one side, close to the knocking block, of the rotating sheet, a guide groove for the arc-shaped convex block to slide is formed in the limiting shaft, the upper end of the arc-shaped convex block can be abutted to the inner end face of the guide groove, the other end of the arc-shaped convex block can be abutted to the outer wall of the limiting shaft after sliding out of the guide groove, a rotating plate for resetting the limiting shaft through a torsion spring is further arranged on the outer side of the front plate of the limiting shaft, an installation shaft is further arranged between the front plate and the rear plate, and an elastic pawl meshed with the driven gear is arranged on the installation shaft;

a driving piece for rotating the rotating plate is arranged on the front plate;

the driving disc is positioned on the opening and closing operation shaft, one end of the linkage rod is fixedly connected with the driving disc, and the driving disc is also provided with a driving rod for forcing the driving disc to rotate.

Through adopting above-mentioned technical scheme, when the manual rotation ground connection operation, deciliter operating axis rotates, drives the driving gear and rotates, and then drives driven gear. When the driven gear drives the axis of rotation and rotates, the piece of knocking that sets up in the axis of rotation on the one hand takes place to rotate, and on the other hand axis of rotation outer end sets up the energy storage turning arm and takes place to rotate, and then the pulling sets up the energy storage spring in the planking outside, and energy storage spring is stretched, begins the energy storage, and when energy storage spring was stretched the critical value, the elastic potential energy that the production that resets can provide sufficient pulling force and drive the axis of rotation and take place the rotation fast. The quick rotating shaft of the knocking block on the rotating shaft can generate enough knocking force, the linkage rod on the rotating disc does circular motion relative to the opening and closing operating shaft, and meanwhile, the driving disc fixed relative to the linkage rod rotates, and finally the rotating plate is driven. Be provided with the elasticity pawl on the installation axle for when needs stall or not connect the power, this elasticity pawl can fix a position driven gear, and need not to adopt other modes fixed deciliter operating axis, realizes often can temporary effect

An arc-shaped convex block is convexly arranged on one side, close to the rotating shaft, of the two rotating sheets on the rotating disc, and the upper end of the arc-shaped convex block abuts against the end face in the guide groove formed in the limiting shaft in the initial state. The limiting shaft is rotatably connected to the front plate and the rear plate, and the outer end of the limiting shaft is limited by a rotating plate with a torsion spring. When knocking the piece and driving the gangbar and take place to rotate, can drive the monoblock rotor plate simultaneously and rotate, can take place the position in the guide way when the rotor plate rotates, arc lug on the rotor plate is in the final sliding chute guide way, spacing axle resets owing to the setting of rotor plate this moment, the other end that leads to arc lug directly supports tightly at spacing off-axial wall, realize the unidirectional rotation of whole rolling disc, meanwhile, the rolling disc lower extreme is connected with an energy storage spring, fix a position through a connecting plate in the energy storage spring, avoid taking place deformation, force when the rolling disc is knocked the piece and take place to rotate the back, this energy storage spring is in by compression state.

When through the operation driving piece, will spacing axle rotate, in the one end of arc lug can enter into the guide way, the energy storage spring is released, and elastic potential energy can drive the reseing of whole rolling disc in the twinkling of an eye, and then drives rolling disc automatic re-setting, realizes the automatic re-setting of whole wire outlet mechanism, realizes need not the manual application of force and rotates the reseing, operates more convenient and fast.

The utility model discloses a further set up to: the driving piece comprises an elastic insertion rod positioned on the front plate, the rotating plate is L-shaped, and the elastic insertion rod is provided with a wedge-shaped surface abutting against the horizontal section of the rotating plate; the torsion spring is sleeved on the limiting shaft, one end of the torsion spring is abutted to the vertical section of the rotating plate, and the other end of the torsion spring is positioned on the front plate.

Through adopting above-mentioned technical scheme, the driving piece is for setting up the elasticity inserted bar on the front bezel, and through pressing down the elasticity inserted bar, the butt of different positions takes place for the wedge face of elasticity inserted bar front end and rotor plate, and then realizes the purpose of installation rotor plate, and then can drive whole spacing axle when the rotor plate rotates and take place to rotate, carries out the unblock to the arc lug on the rotor plate promptly. After the elastic insertion rod is loosened, the elastic insertion rod resets, and the rotating plate resets through the elastic potential energy of the torsion spring.

The utility model discloses a further set up to: the driving piece further comprises an electromagnet which is arranged on the front plate and located on one side of the vertical end of the rotating plate.

Through adopting above-mentioned technical scheme, the setting of electro-magnet realizes the rotation through this electro-magnet control rotating plate to realize the automatic re-setting function of mechanism that realizes spacing axle pivoted control.

The utility model discloses a further set up to: the locating lever is provided with an annular groove, one end of the connecting plate is provided with a mounting round hole sleeved on the locating shaft, the other end of the connecting plate is provided with a waist-shaped hole and is located at the upper end of the waist-shaped hole, the waist-shaped hole is limited in the annular groove, and the diameter of the sleeved round hole is the same as that of the locating lever.

Through adopting above-mentioned technical scheme, the energy storage spring passes through the connecting plate location on locating lever and location axle. Wherein the connecting plate upper end is established on the location axle through the installation round hole cover, and the lower extreme is established on the locating lever through cup jointing the round hole cover, and when removing on the ring channel simultaneously, the pull-up connecting plate is with waist type hole embedding to this ring channel in, realize that the connecting plate is spacing in the axial on the locating lever, can radially slide on the locating lever simultaneously to realize the state that the energy storage spring compressed.

The utility model discloses a further set up to: the energy storage device is characterized in that a first hanging plate and a second hanging plate are respectively arranged at two ends of the energy storage spring, and the upper end of the first hanging plate is rotatably connected to a pin shaft arranged at the outer end of the energy storage crank arm through a bearing.

Through adopting above-mentioned technical scheme, the first link plate of energy storage spring upper end passes through the bearing to be fixed at the round pin epaxial that the energy storage connecting lever outside set up to when the realization takes place to rotate when the energy storage connecting lever, can compress or tensile energy storage spring in order to realize when the energy storage connecting lever rotates the critical value, energy storage spring can stimulate the axis of rotation fast and rotate, and then makes the epaxial piece of knocking of axis of rotation drive whole rolling disc and rotate.

The utility model discloses a further set up to: the lower end of the second hanging plate is fixed on the rotating rod through an adjusting screw rod.

Through adopting above-mentioned technical scheme, second link plate lower extreme is fixed on the dwang through adjusting screw on the one hand for when energy storage connecting lever drives energy storage spring and rotates, energy storage spring lower extreme also can cooperate the rotation of upper end, makes energy storage spring tensile or compress more smoothly. On the other hand can adjust the interval between first link plate and the second link plate through adjusting screw's setting to realize adjusting energy storage spring's potential energy size, in order to satisfy the required external force of piece of strikeing, can also prolong the life of this energy storage spring after using many times simultaneously.

The utility model discloses a further set up to: the outer wall of the linkage rod is also provided with an annular sleeve for abutting against the outer end of the knocking block.

Through adopting above-mentioned technical scheme, the pipe diameter that the gangbar should be located can be increased to the annular cover that the gangbar outer wall set up for strike the piece and can more quick contact this gangbar, and then drive the gangbar rotation fast.

The utility model discloses a further set up to: and the front plate is also provided with a driving motor linked with the front end of the opening and closing operation shaft.

Through adopting above-mentioned technical scheme, driving motor's setting realizes the rotation to the operating axis, realizes automatic opening, realizes the automation of whole mechanism of being qualified for the next round of competitions with the electro-magnet together and opens and close.

To sum up, the utility model discloses following beneficial effect has: through the quick rotation of energy storage spring to driving the piece of knocking, and then drive the quick rotation of whole root operating axis, realize opening of line mechanism, realize the quick reset of operating axis simultaneously through the common cooperation of dwang, spacing axle and energy storage spring, reduce artificial application of force, reduce the operation degree of difficulty.

Drawings

FIG. 1 is a first schematic structural diagram of a wire outlet mechanism;

FIG. 2 is a schematic top view of the thread take-off mechanism;

FIG. 3 is a schematic view of the outlet mechanism with the front plate removed;

FIG. 4 is a schematic view of the attachment plate and stored energy spring assembly;

FIG. 5 is an enlarged schematic view of section A of FIG. 1;

FIG. 6 is a second schematic structural view of the wire-out mechanism;

FIG. 7 is an enlarged schematic view of section B of FIG. 6;

FIG. 8 is a schematic view of the outlet mechanism with the back plate removed;

fig. 9 is a third schematic structural diagram of the wire outlet mechanism.

In the figure: 1. a front plate; 1-1, rotating the rod; 2. a back plate; 3. a drive plate; 4. a separation and combination operating shaft; 5. a drive disc; 6. rotating the disc; 7. a rotating sheet; 8. a linkage rod; 9. an energy storage spring; 10. positioning the shaft; 11. positioning a rod; 12. a drive assembly; 13. a rotating shaft; 13-1, an energy storage crank arm, 14 and a driving gear; 15. a driven gear; 16. knocking the block; 17. an energy storage spring; 18. a limiting shaft; 19. an arc-shaped bump; 20. a guide groove; 21. a rotating plate; 22. a torsion spring; 23. a drive member; 24. a drive rod; 25. a sliding groove; 26. an arc-shaped slot; 27. an elastic insertion rod; 28. a wedge-shaped surface; 29. an electromagnet; 30. installing a shaft; 31. an elastic pawl; 32. an annular groove; 33. a connecting plate; 33-1, mounting round holes; 34. a kidney-shaped hole; 35. sleeving a round hole; 36. a first hanging plate; 37. a second hanging plate; 38. a pin shaft; 39. adjusting the screw rod; 40. an annular sleeve; 41. the motor is driven.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The utility model provides an aerify cabinet mechanism of being qualified for next round of competitions, refers to figure 1, includes front bezel 1 and back plate 2, fixes back both parallel arrangement through many stands between front bezel 1 and the back plate 2. A split-combination operating shaft 4 is fixed at the upper ends of the front plate 1 and the rear plate 2, and an energy storage assembly and a driving plate 5 are arranged between the front plate 1 and the rear plate 2 and on the split-combination operating shaft 4. The front end of the front plate 1 is provided with a driving motor 41, the driving motor 41 is communicated with the middle part of the opening and closing operation shaft 4 through a reduction gearbox, and the opening and closing operation shaft 4 can also rotate through the driving motor 41.

Referring to fig. 2, 3 and 4, the energy storage assembly comprises a group of rotating discs 6, each rotating disc 6 comprises two rotating sheets 7 sleeved on the split-combination operating shaft 4, the rotating sheets 7 are fixedly connected with each other through a cylinder, a positioning shaft 10 is arranged at the lower end of each rotating sheet 7, and a linkage rod 8 is arranged on the other side of each positioning shaft 10. The lower ends of the front plate 1 and the rear plate 2 on the same side of the separation and combination operating shaft 4 and the linkage rod 8 are provided with a positioning rod 11, a strip-shaped connecting plate 33 is connected between the positioning shaft 10 and the positioning rod 11, and the connecting plate 33 is obliquely arranged and is simultaneously sleeved with an energy storage spring 9. The upper end of the connecting plate 33 is provided with a mounting round hole 33-1 with the same diameter as the positioning shaft 10, so that the connecting plate 33 is sleeved on the positioning shaft 10, the lower end of the connecting plate is provided with a waist-shaped hole 34, the upper end of the waist-shaped hole 34 comprises a sleeving round hole 35, and the diameter of the sleeving round hole 35 is the same as the diameter of the positioning shaft 11. On the other hand, an annular groove 32 is formed in the positioning rod 11, after the connecting plate 33 is sleeved on the positioning rod 11 through the sleeving round hole 35, the connecting plate 33 slides, and then the waist-shaped hole 34 is embedded and limited in the annular groove 32, so that the purposes of radial sliding and axial limiting of the connecting plate 33 on the positioning rod 11 are achieved. The energy storage spring 9 is configured such that one end thereof abuts against the positioning lever 11 and the other end thereof abuts against the positioning shaft 10 via the connecting plate 33, and the energy storage spring 9 has a function of compressing or returning when the rotating piece 7 rotates with respect to the opening/closing operation shaft 4.

Referring to fig. 2 and 3, the energy storage assembly further includes a set of driving assembly 12, the driving assembly 12 includes a rotating shaft 13 fixed between the front plate 1 and the rear plate 2 through a bearing, the position of the rotating shaft 13 is preferably provided with one side of the linkage rod 8, and the front end of the rotating shaft 13 penetrates through the front plate 1. The clutch mechanism further comprises a driving gear 14 fixed on the opening and closing operation shaft 4 and a driven gear 15 fixed on the rotating shaft 13, wherein the driving gear 14 is meshed with the driven gear 15, so that the opening and closing operation shaft 4 rotates relative to the rotating shaft 13. A strip-shaped knocking block 16 is fixed on the rotating shaft 13, and on the other hand, a hard annular sleeve 40 is sleeved on the linkage rod 8, and the knocking block 16 and the annular sleeve 40 are preferably in the same plane. Therefore, when the rotating shaft 13 rotates, the knocking block 16 also rotates, the knocking block 16 can rotate to enter the lower part of the annular sleeve 40, the annular sleeve 40 is tangent to the knocking block 16 along with the continuous rotation of the knocking block 16, and finally the knocking block 16 can force the annular sleeve 40 to move, so that the linkage rod 8 and the rotating piece 7 on the annular sleeve 40 rotate relative to the opening and closing operating shaft 4.

Referring to fig. 5, one end of the rotating shaft 13 at the front side of the front plate 1 is further connected with an energy storage spring 17 which is obliquely arranged, the lower ends of the front plate 1 and the rear plate 2 are provided with a rotating rod 1-1 through a bearing, the other end of the energy storage spring 17 is connected to the rotating rod 1-1, the front end of the rotating shaft 13 is fixed with an energy storage crank arm 13-1, and the outer side of the energy storage crank arm 13-1 is provided with a pin shaft 38. The two ends of the energy storage spring 17 are respectively provided with a first hanging plate 36 and a second hanging plate 37, the first hanging plate 36 is positioned on a pin shaft 38 of the energy storage crank arm 13-1 through a bearing, and the lower end of the second hanging plate 37 is provided with an adjusting screw 39 which is positioned on the rotating rod 1-1. Adjusting screw 39 realizes the relative position of adjustment and second link plate 37 through the nut, and then adjusts energy storage spring 17 compression degree to satisfy subsequent functional requirement. On the other hand, referring to fig. 3, a mounting shaft 30 is further disposed between the front plate 1 and the rear plate 2, the position of the mounting shaft 30 does not interfere with the rotation around the striking block 16, and a set of elastic pawls 31 is further disposed on the side of the driven gear 15 of the mounting shaft 30, and the lower ends of the elastic pawls 31 can be engaged with the driven gear 15, so as to restrict the reverse rotation of the driven gear 15, and ensure that the energy storage spring 17 can stop rotating at any time when being compressed.

Referring to fig. 6 and 7, an arc-shaped protrusion 19 is integrally and convexly provided on one side of the rotating piece 7 close to the rotating shaft 13, a limiting shaft 18 is fixed on the upper side of the arc-shaped protrusion 19 of the front plate 1 and the rear plate 2 through a bearing, and a guide groove 20 is provided at the lower end of the limiting shaft 18 facing the rotating shaft 13. In the initial state of the wire outlet mechanism, the upper end of the arc-shaped projection 19 abuts against the guide groove 20, when the rotating sheet 7 is driven by the knocking block 16, the arc-shaped projection 19 can slide in the guide groove 20, and at the same time, the arc-shaped projection 19 is forced to slide out of the guide groove 20 after the limiting shaft 18 rotates, so that the rotation of the whole rotating disc 6 is realized. On the other hand, the limiting shaft 18 is provided with a rotating plate 21 on the outer wall of the front plate 1, the rotating plate 21 is provided with a torsion spring 22, and the torsion spring 22 can reset the limiting shaft 18 after the arc-shaped projection 19 slides out of the guide groove 20. The lower end of the arc-shaped projection 19 can only abut against the outer wall of the limiting shaft 18 and cannot enter the guide groove 20, so that the whole rotating disc 6 can be positioned after rotating.

The rotating plate 21 is arranged in an L shape, a middle corner is fixed on the limiting shaft 18 through a bolt, meanwhile, the torsion spring 22 is sleeved on the limiting shaft 18, one end of the torsion spring abuts against the vertical section of the rotating plate 21, the other end of the torsion spring is limited on an inserted rod arranged on the front plate 1, and the initial state of the limiting shaft 18 is achieved through the torsion spring 22. The front plate 1 is further provided with an elastic insertion rod 27 serving as a driving part 23 on one side of the rotating plate 21, the elastic insertion rod 27 can reciprocate on the front plate 1 through a spring, a wedge-shaped surface 28 is arranged at the front end of the elastic insertion rod 27, the wedge-shaped surface 28 abuts against the upper end surface of the horizontal section of the rotating plate 21, the rotating plate 21 is forced to rotate by pressing the elastic insertion rod 27, the limiting shaft 18 is driven to rotate, the opening of the guide groove 20 of the limiting shaft 18 is opened to the lower end of the arc-shaped bump 19, and the rotating sheet 7 is reset. The driving member 23 may be a button, and only the rotating plate 21 may be driven to rotate. The front plate 1 is provided with an electromagnet 29 at the other side of the vertical section of the rotating plate 21, and the electromagnet 29 can automatically unlock the limiting shaft 18 in the whole wire outlet mechanism.

Referring to fig. 8 and 9, the rotating sheet 7 is reset through the energy storage spring 9, when the knocking block 16 is rapidly rotated by the energy storage spring 17, the link rod 8 provided with the annular sleeve 40 is rapidly knocked, and the link rod 8 drives the whole rotating sheet 7 to rotate. On the one hand, the arc-shaped projection 19 on the rotating sheet 7 slides in the guide groove 20, and on the other hand, the positioning shaft 10 arranged at the lower end of the rotating sheet 7 compresses the energy storage spring 9. After the elastic inserting rod 27 is pressed, the limiting shaft 18 is unlocked, the elastic potential energy of the energy storage spring 9 is released, and then the energy storage spring can be quickly reset so as to reset the rotating sheet 7 again, and the arc-shaped convex block 19 is positioned in the guide groove 20 of the limiting shaft 18.

The tail end of the dividing and combining operation shaft 4 is fixed with a driving disc 5 through a bearing, one end of the driving disc 5 is fixedly arranged together with the linkage rod 8, the other end of the driving disc is provided with a driving rod 24, the driving rod 24 penetrates through the rear plate 2, an arc-shaped groove 26 formed in the rear plate 2 is used for the driving rod 24 to slide, and a sliding groove 25 for the driving rod 24 to be inserted is formed in the driving plate 3 in the outgoing line mechanism. The drive plate 3 is fixed on an operation switch arranged on the gas-filled cabinet, when the opening and closing operation shaft 4 rotates, the drive shaft 13 is driven to rotate, the knocking block 16 on the drive shaft 13 drives the linkage rod 8 on the rotating disc 6 to rotate, the linkage rod 8 drives the drive plate 5 to rotate, and finally the drive plate 5 drives the rotating plate 21 to rotate, so that the operation switch is opened. On the other hand, through the rotation unlocking of the rotating plate 21, the energy storage spring 9 drives the rotating disc 6 to reset rapidly, and further drives the driving disc 5 to rotate again, so that the disconnection of the operation switch is realized, wherein it needs to be described that the linkage mode of the driving disc 3 and the driving rod 24 is the prior art, and further, the explanation is not provided.

The specific embodiments are only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiments without inventive contribution as required after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (8)

1. The utility model provides an aerify cabinet mechanism of being qualified for next round of competitions, include front bezel (1), with front bezel (1) parallel arrangement's back plate (2), be located back plate (2) and be used for connecting drive plate (3) on aerifing the cabinet, rotate and install front bezel (1) with deciliter operating axis (4) on back plate (2), its characterized in that: be provided with energy storage subassembly and driving-disc (5) on deciliter operating shaft (4), the energy storage subassembly includes:

the rotating disc (6) is sleeved and positioned on the opening and closing operation shaft (4), the rotating disc (6) comprises rotating sheets (7) positioned on the front side and the rear side, linkage rods (8) arranged on the two rotating sheets (7) and an energy storage spring (9) inserted with a connecting plate (33), one end of the connecting plate (33) is rotatably positioned on a positioning shaft (10) arranged on the rotating sheets (7), and the other end of the connecting plate (33) is slidably arranged on a positioning rod (11) arranged between the front plate (1) and the rear plate (2);

the driving assembly (12) comprises a rotating shaft (13) which is rotatably connected to the front plate (1) and the rear plate (2), a driving gear (14) which is fixed to the opening and closing operation shaft (4), a driven gear (15) which is fixed to the rotating shaft (13), a knocking block (16) which is fixed to the rotating shaft (13), and an energy storage spring (17) of which one end is positioned on the rotating shaft (1) through an energy storage crank arm (13-1), the outer side of the rotating shaft (13) and the other end are positioned on a rotating rod (1-1) arranged on the front plate (1), the upper end of the energy storage crank arm (13-1) is fixed to the rotating shaft (13), the lower end of the energy storage spring (17) is rotatably connected, the outer end of the knocking block (16) can abut against the outer wall of the linkage rod (8) after the rotating shaft (13) rotates, and an installation shaft (30) is further arranged between the front plate (1), an elastic pawl (31) meshed with the driven gear (15) is arranged on the mounting shaft (30);

the limiting shaft (18) is rotatably connected to the front plate (1) and the rear plate (2), an arc-shaped convex block (19) is convexly arranged on one side, close to the knocking block (16), of the rotating sheet (7), a guide groove (20) for the arc-shaped convex block (19) to slide is formed in the limiting shaft (18), the upper end of the arc-shaped convex block (19) can abut against the inner end face of the guide groove (20), the other end of the arc-shaped convex block can abut against the outer wall of the limiting shaft (18) after sliding out of the guide groove (20), and a rotating plate (21) for resetting the limiting shaft (18) through a torsion spring (22) is further arranged on the outer side of the front plate (1) of the limiting shaft (18);

a driving piece (23) for rotating the rotating plate (21) is arranged on the front plate (1);

the driving disc (5) is positioned on the opening and closing operation shaft (4), one end of the linkage rod (8) is fixedly connected with the driving disc (5), and a driving rod (24) for forcing the driving disc (3) to rotate is further arranged on the driving disc (5).

2. The air inflation cabinet outlet mechanism of claim 1, wherein: the driving piece (23) comprises an elastic insertion rod (27) positioned on the front plate (1), the rotating plate (21) is L-shaped, and the elastic insertion rod (27) is provided with a wedge-shaped surface (28) abutted to the horizontal section of the rotating plate (21); the torsion spring (22) is sleeved on the limiting shaft (18), one end of the torsion spring is abutted to the vertical section of the rotating plate (21), and the other end of the torsion spring is positioned on the front plate (1).

3. The air inflation cabinet outlet mechanism of claim 2, wherein: the driving piece (23) further comprises an electromagnet (29) which is arranged on the front plate (1) and is positioned on one side of the vertical end of the rotating plate (21).

4. The air inflation cabinet outlet mechanism of claim 1, wherein: be provided with ring channel (32) on locating lever (11), connecting plate (33) one end is provided with the cover and connects installation round hole (33-1) on locating shaft (10), waist type hole (34) have been seted up to the connecting plate (33) other end and have been located waist type hole (34) upper end cup joints round hole (35), waist type hole (34) are spacing in ring channel (32), cup joint round hole (35) aperture with locating lever (11) pipe diameter is the same.

5. The air inflation cabinet outlet mechanism of claim 1, wherein: and a first hanging plate (36) and a second hanging plate (37) are respectively arranged at two ends of the energy storage spring (17), and the upper end of the first hanging plate (36) is rotatably connected to a pin shaft (38) arranged at the outer end of the energy storage crank arm (13-1) through a bearing.

6. The air inflation cabinet outlet mechanism of claim 5, wherein: the lower end of the second hanging plate (37) is fixed on the rotating rod (1-1) through an adjusting screw rod (39).

7. The air inflation cabinet outlet mechanism of claim 1, wherein: the outer wall of the linkage rod (8) is also provided with an annular sleeve (40) for abutting against the outer end of the knocking block (16).

8. The air inflation cabinet outlet mechanism of claim 1, wherein: and the front plate (1) is also provided with a driving motor (41) which is linked with the front end of the opening and closing operation shaft (4).

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