CN219366672U - Novel double-adjusting shock absorber - Google Patents

Abstract

The utility model relates to a novel double-adjusting shock absorber which mainly solves the problem of poor convenience in use caused by small adjusting amplitude of the shock absorber applied to a locomotive in the prior art.

Description

Novel double-adjusting shock absorber

Technical Field

The utility model relates to a novel double-adjusting shock absorber.

Background

The shock absorber is a common locomotive and automobile spare and accessory part. The shock absorber is required because the spring cannot be stabilized immediately, that is, the spring is repeatedly compressed and relaxed for a period of time after being compressed and released, so the shock absorber can absorb the shock caused by the road surface with concave and convex on the wheels, and the riding is comfortable. The conventional shock absorber generally comprises a pressure cylinder fixedly connected to a vehicle body, wherein damping oil with high viscosity is contained in the pressure cylinder, a piston is arranged in the pressure cylinder, one end of the pressure cylinder is penetrated by a connecting rod, one end of the connecting rod is fixedly connected to a wheel frame of a wheel, the other end of the connecting rod is fixedly connected with the piston in the pressure cylinder, and a spring is sleeved outside the connecting rod. When braking, the car body can drive the piston through the connecting rod to compress damping oil in the pressure cylinder, so as to obtain a buffering effect.

The applicant applied for a patent application number in 2019 and 21 and is 201920096657.0, the patent name is a shock absorber, and the detailed shock absorber comprises a base, a hydraulic cylinder and a cylinder are respectively arranged on the base, a flow channel for damping oil to flow is communicated between the hydraulic cylinder and the cylinder, an adjusting device for adjusting the sectional area of the flow channel is arranged on the flow channel, a piston rod is arranged in the hydraulic cylinder in a penetrating manner, a spring is sleeved outside the hydraulic cylinder, one end of the spring is arranged on the hydraulic cylinder, the other end of the spring is arranged at the outer end of the piston rod, a piston is arranged at the inner end of the piston rod, a buffer device for relieving the movable impact force of the tail end of the piston rod is arranged at one end of the piston rod, the buffer device comprises a buffer frame, the buffer frame comprises a lower support and an upper support frame which are fixed on the piston rod, the upper support and the lower support are in clearance fit with the inner surface of the hydraulic cylinder, a positioning block for preventing the upper support from sliding out is arranged on the lower support, a guide sleeve is arranged on the guide sleeve and penetrates through the guide sleeve, the guide sleeve is arranged between the guide sleeve and the guide sleeve, and the length of the guide sleeve is smaller than the guide sleeve. The sectional area of the throttle channel is adjusted through the adjusting device, so that after the piston rod is pressed, the damping oil in the hydraulic cylinder is extruded to flow into the cylinder, the hardness of the shock absorber is adjusted, when the stress of the piston rod is overlarge, the movable tail end of the piston rod is reduced through the buffer device, the impact effect of the damping oil after being discharged into the cylinder is improved, and the comfort level is improved.

In the test of the vehicle, it is found that the vibration of the shock absorber is eliminated by heat consumption by the flow of damping oil extruded by the piston, because the self weight of the locomotive is lighter, the bearing capacity of the shock absorber is increased when the riding person is increased from one adult to two adults, the flowing size of a runner matched with one adult by the adjusting device is not satisfactory, specifically, the compression stroke of the shock absorber is larger when the locomotive is ridden by the riding person in a non-running state, the energy consumption of the damping oil is smaller, the shock absorber is difficult to support, the shaking property and the comfort are reduced in the running process of the locomotive, and the shock absorber is easy to touch the bottom when the shaking is larger, so that the shock absorber is damaged; when the flow-through size of the flow channel matched with two adult riders is regulated by the regulating device, the hardness of the shock absorber is large in one adult ride, the shock absorbing effect is not obvious, repeated regulation is needed, the regulation of the regulating device needs special tools for regulation, and the use convenience is poor.

Disclosure of Invention

Therefore, in order to solve the problems, the utility model provides a novel double-adjusting shock absorber, which mainly solves the problems of poor use convenience caused by smaller adjusting amplitude of the shock absorber applied to a locomotive in the prior art.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a novel double-regulation shock absorber, includes mount pad, hydraulic cylinder, inner tube, gasbag device, two adjusting device, seal cover, hydraulic stem, piston, compression spring, first supporting seat and second supporting seat, the axial one end of hydraulic cylinder is located to the mount pad, the axial other end of hydraulic cylinder is located to the seal cover, forms first appearance chamber through mount pad, hydraulic cylinder and seal cover, the appearance intracavity is located to the inner tube to the axial both ends of inner tube are connected with mount pad and seal cover respectively, form first hydraulic chamber through mount pad, inner tube and seal cover, the lower part of inner tube is equipped with the first through-hole of a plurality of intercommunication appearance chamber and hydraulic chamber, each first through-hole is located the same circumference of inner tube, the middle part of inner tube is equipped with two at least second through-holes of a intercommunication appearance chamber and hydraulic cylinder, the hydraulic stem wears to locate in the inner tube, its lower extreme passes the seal cover and outwards extends, the inner end of hydraulic stem is located to the piston, the lateral wall of piston adheres to the interior surface of inner tube, the outer end of inner tube is located to the first supporting seat, the second supporting seat is located the outer end of inner tube, is equipped with a second through mount pad, is equipped with a compression runner and two first through-channel and two first and second supporting seat are equipped with the first through-hole, two first through-channels are equipped with the first through-hole in the second channel, two first and the second channel are equipped with the first channel and the second channel, two channel and the second channel are equipped with respectively, one and two channel and one side channel is connected respectively, the air bag device is arranged in the second mounting groove.

Further, the number of the second through holes is 3, namely a second through hole A, a second through hole B and a second through hole C, the second through hole A, the second through hole B and the second through hole C are sequentially distributed along the axial direction of the inner cylinder, and the ratio of the distance dimension of the center of the first through hole to the center of the second through hole A to the length dimension of the inner cylinder, which are positioned on the same straight line with the second through hole A, the second through hole B and the second through hole C, is 1:2.7-3.2.

Further, the ratio of the distance between the circle center of the second through hole A and the circle center of the second through hole B to the distance between the circle center of the second through hole B and the circle center of the second through hole C is 1:1-2.5, and the distance between the circle center of the second through hole A and the circle center of the second through hole B is 8-20 mm.

Further, the diameter size of the first through hole is larger than that of the second through hole.

Further, a first threaded hole for communicating the first runner with the outside is formed in the mounting seat, and a first bolt is connected to the first threaded hole in a threaded mode.

Further, a second threaded hole for communicating the second flow channel with the outside is formed in the mounting seat, and a second bolt is connected to the second threaded hole in a threaded mode.

Further, a third threaded hole for connecting the third runner with the outside is formed in the mounting seat, and a third bolt is connected to the third threaded hole in a threaded mode.

Further, adjusting device includes valve body, valve rod, valve block and first spring, be equipped with the valve opening on the valve body, the valve body includes first portion, second portion and the third portion of body coupling, the diameter size of second portion is less than the diameter size of first portion and the diameter size of third portion for the second portion forms the ring channel of indent, be equipped with the breach in the first portion and with the valve opening intercommunication, encircle the circumference surface of second portion is equipped with two at least first communication holes, each first communication hole communicates with the valve opening respectively, on the third portion and be located the week side of second portion and be equipped with a plurality of second intercommunicating pore, each second intercommunicating pore communicates with the ring channel respectively, the downside of third portion is located to valve block and first spring, makes the valve block cover in each second intercommunicating pore through first spring extrusion, the valve rod has the screw thread portion that is equipped with the external screw thread and one end has the toper portion that is the cone-shaped mechanism, the valve rod wears to locate in its screw thread portion and first portion, and cone-shaped portion extends to in the second portion, through rotating down driving its upper and lower drive its week side and be equipped with the toper portion and the valve opening.

Further, the bottom of the third part is concavely provided with a yielding groove, and the valve plate and the spring are distributed in the yielding groove.

By adopting the technical scheme, the utility model has the beneficial effects that: when the novel double-adjusting shock absorber is impacted, the impact force drives the piston rod to move inwards, so that the piston at the inner end of the piston rod extrudes damping oil at the upper part of the hydraulic cavity, part of damping oil overflows into the cavity through the second through holes by the extrusion of the piston at the initial stage of the inward movement of the piston rod, the other part of damping oil flows into the air bag device through the first flow passage and the third flow passage and enters into the cavity through the first flow passage and the second flow passage, and the damping oil in the cavity enters into the lower part of the hydraulic cavity through the first through holes, therefore, the damping oil at the upper part of the hydraulic cavity enters into the lower part of the hydraulic cavity through the second through holes, the cavity and the first through holes at the initial stage of the compression of the piston rod, the flow path length of the damping oil can be reduced, thereby reducing the energy loss of the damping oil, the damping oil with the structure has the advantages that the flowing size of the damping oil is increased, the movement reaction speed of the piston rod is high, the phenomenon that the damping oil is high in viscosity under the initial movement condition is avoided, the impact sense is generated, the comfort is improved, when the piston rod moves inwards further, the piston passes through the second through holes, the first through holes and the second through holes are distributed on the lower side of the piston, at the moment, the damping oil extruded by the piston on the upper part of the hydraulic cavity flows into the air bag device through the first flow channel and the third flow channel and enters the containing cavity through the first flow channel and the second flow channel, the damping oil in the containing cavity enters the lower part of the hydraulic cavity through the first through holes, the circulating flow of the damping oil is realized, and the energy consumption in the damping oil is caused by the multipath flow, so that the impact of the shock absorber is eliminated, the supporting effect is realized, and the use convenience is high.

Drawings

FIG. 1 is a schematic perspective view of a first embodiment of the present utility model;

FIG. 2 is a schematic perspective view of another view of the first embodiment of the present utility model;

FIG. 3 is an exploded view of a first embodiment of the present utility model;

FIG. 4 is a schematic perspective view of a mounting base according to a first embodiment of the present utility model;

FIG. 5 is a schematic perspective view of a mounting base according to another embodiment of the present utility model;

FIG. 6 is an exploded view of an adjusting device according to a first embodiment of the present utility model;

FIG. 7 is a schematic cross-sectional view of an adjusting device according to a first embodiment of the present utility model;

FIG. 8 is a flow pattern of damping oil at an initial stage of an impact force applied to a shock absorber according to the first embodiment of the present utility model;

FIG. 9 is a flow pattern of damping oil during a compression stage of a shock absorber according to a first embodiment of the present utility model;

FIG. 10 is a schematic cross-sectional view of a piston in accordance with a second embodiment of the present utility model;

FIG. 11 is a flow pattern of damping oil on a piston at an initial stage of an impact force applied to a shock absorber according to a second embodiment of the present utility model;

fig. 12 is a schematic top view of a piston according to a second embodiment of the present utility model.

Detailed Description

The utility model will now be further described with reference to the drawings and detailed description.

The embodiment of the utility model comprises the following steps:

referring to fig. 1, 2 and 3, a novel dual-adjusting shock absorber comprises a mounting seat 1, a hydraulic cylinder 2, an inner cylinder 3, an air bag device 4, two adjusting devices 5, a sealing cover 6, a hydraulic rod 7, a piston 8, a compression spring 9, a first supporting seat 10 and a second supporting seat 11, wherein the mounting seat 1 is arranged at one axial end of the hydraulic cylinder 2, the sealing cover 6 is arranged at the other axial end of the hydraulic cylinder 2, a containing cavity 12 is formed by the mounting seat 1, the hydraulic cylinder 2 and the sealing cover 6, the inner cylinder 3 is arranged in the containing cavity 12, the two axial ends of the inner cylinder 3 are respectively connected with the mounting seat 1 and the sealing cover 6, a hydraulic cavity 13 is formed by the mounting seat 1, the inner cylinder 3 and the sealing cover 6, six first through holes 14 which are communicated with the containing cavity 12 and the hydraulic cavity 13 are arranged at the lower part of the inner cylinder 3, each first through hole 14 is positioned at the same circumference of the inner cylinder 3, the middle part of the inner cylinder 3 is provided with at least two second through holes 15 which are communicated with a containing cavity 12 and a hydraulic cylinder 13, the hydraulic rod 7 penetrates through the inner cylinder 2, the lower end of the hydraulic rod penetrates through a sealing cover 6 to extend outwards, the piston 8 is arranged at the inner end of the hydraulic rod 7, the side wall of the piston 8 is attached to the inner surface of the inner cylinder 3, the first supporting seat 10 is arranged at the outer end of the piston rod 7, the second supporting seat 11 is fixedly arranged on the outer surface of the hydraulic cylinder 2, the compression spring 9 is sleeved on the hydraulic cylinder 2, the two ends of the compression spring 9 respectively lean against the first supporting seat 10 and the second supporting seat 11, the mounting seat 1 is provided with two first mounting grooves 16 and one second mounting groove 17, the hydraulic cavity 13 is communicated with one first mounting groove 16 to be provided with a first flow channel 18, the containing cavity 12 is communicated with the other first mounting groove 16 to be provided with a second flow channel 19, the middle parts of the two first mounting grooves 16 are penetrated, the two first mounting grooves 16 are communicated with the second mounting groove 17 and are provided with a third flow passage 20, the two adjusting devices 5 are respectively arranged in the two first mounting grooves 16, and the air bag device 4 is arranged in the second mounting groove 17.

In the novel double-adjusting shock absorber, referring to fig. 8, when the shock absorber is impacted, the impact force drives the piston rod 7 to move inwards, so that the piston 8 at the inner end of the piston rod 7 presses damping oil at the upper part of the hydraulic cavity 13, at the initial stage of the inward movement of the piston rod 7, part of damping oil overflows into the cavity through the second through hole 15 by pressing of the piston 8, the other part of damping oil flows into the air bag device 4 through the first flow passage 18 and the third flow passage 20 and enters into the cavity 12 through the first flow passage 18 and the second flow passage 19, the damping oil in the cavity 12 enters into the lower part of the hydraulic cavity 13 through the first through hole 14, therefore, in the initial stage of the compression of the piston rod 7, the damping oil at the upper part of the hydraulic cavity 13 forms an overflow passage through the second through hole 15, the cavity 13 and the first through hole 14 and enters into the lower part of the hydraulic cavity 13, the flow path length of the damping oil can be reduced, thereby reducing the energy loss of the damping oil, increasing the flowing size of the damping oil with the structure, leading the movement reaction speed of the piston rod 7 to be high, avoiding the generation of larger impact feeling due to larger viscosity of the damping oil in the initial movement condition, improving the comfort, and when the piston rod 7 moves further inwards, referring to fig. 9, the piston 8 passes through the second through hole 15, so that the first through hole 14 and the second through hole 15 are distributed on the lower side of the piston 8, at the moment, the damping oil extruded by the piston 8 on the upper part of the hydraulic cavity 13 flows into the air bag device 4 through the first flow channel 18 and the third flow channel 20 and enters into the containing cavity 12 through the first flow channel 18 and the second flow channel 19, the damping oil in the containing cavity 12 enters into the lower part of the hydraulic cavity 13 through the first through hole 14, thus realizing the circulating flow of the damping oil and the multipath flow, the energy consumption in the damping oil is caused, so that the impact on the shock absorber is eliminated, and the supporting effect is achieved;

in the initial stage of rebound of the piston rod 7, the piston rod 7 drives the piston 8 to extrude damping oil at the lower part of the hydraulic cavity 13, the damping oil enters the cavity 12 through the first through hole 14 and the second through hole 15, then enters the upper part of the hydraulic cavity 13 through the first flow channel 18 and the second flow channel 19, damping oil in the air bag device 4 enters the upper part of the hydraulic cavity 13 through the first flow channel 18 and the third flow channel 20, multipath reflux is realized, when the piston rod 7 rebounds further, the piston 8 passes through the second through hole 19, the first through hole 14 and the second through hole 15 are separated, namely, the first through hole 14 is distributed at the lower part of the hydraulic cavity 13, the second through hole 15 is distributed at the upper part of the hydraulic cavity 13, part of the damping oil in the cavity 12 enters the upper part of the hydraulic cavity 13 through the second through hole 15, and the other part of the damping oil in the cavity 13 through the first flow channel 18 and the second flow channel 19, the damper of the structure is matched with the setting of the first through hole 14 and the second through hole 15 on the hydraulic cylinder 2, 3 and the inner cylinder 15 and the adjusting device 4, the automatic size adjustment device 4 is realized, the automatic size adjustment of the damper is realized, the amplitude of the damper is convenient to realize the automatic adjustment, the amplitude adjustment is realized, the automatic adjustment of the amplitude is realized, the amplitude is convenient under the automatic adjustment of the amplitude adjustment of the damper is realized, and the amplitude is realized, and the automatic adjustment of the amplitude is compared with the size adjustment of the damper is realized, and the amplitude adjustment of the damper.

And referring to fig. 3, 8 and 9, the number of the second through holes 15 is 3, namely, a second through hole a151, a second through hole B152 and a second through hole C153, the second through hole a151, the second through hole B152 and the second through hole C153 are sequentially distributed along the axial direction of the inner cylinder, the ratio of the distance between the center of the first through hole 14 and the center of the second through hole a151 and the length of the inner cylinder 3, preferably 1:3, of one of the second through holes a151, the second through hole B152 and the second through hole C153, which are positioned on the same straight line, is 1:1-2.5, preferably 1:2, the ratio of the distance between the center of the second through hole a151 and the center of the second through hole B152 and the center of the second through hole C153 is 8 mm-20 mm, preferably 15mm, the diameter size of the first through hole 14 is larger than the diameter size of the second through hole 15, so that relatively stable adjustment change can be kept in the motion of the initial stage of compression of the piston rod 7 and the back end stage of rebound of the piston rod 7, large-amplitude adjustment of damping oil flowing through the size is avoided, abrupt sense is generated, the comfort of use is improved, the ratio of the distance size of the center of the first through hole 14 to the center of the second through hole A151 to the length size of the inner barrel 3 is 1:2.7-3.2 in the same straight line with the second through hole A151, the second through hole B152 and the second through hole C153, the situation of locomotive bearing capacity change under most environments can be used, the piston 8 is kept between the first through hole 14 and the second through hole 15, the automatic adjustment effect is realized, and meanwhile, the ratio of the circle center distance between the second through hole A151 and the circle center distance between the second through hole B152 and the circle center distance between the second through hole C153 is 1:1-2.5, and the compression spring 9 is matched, so that the relatively stable operation can be maintained.

Referring to fig. 4 and 5, the mounting seat 1 is provided with a first threaded hole 21 for communicating the first flow channel 18 with the outside, a first bolt 22 is screwed on the first threaded hole 21, the mounting seat 1 is provided with a second threaded hole 23 for communicating the second flow channel 19 with the outside, the second threaded hole 23 is screwed with a second bolt 24, the mounting seat 1 is provided with a third threaded hole 25 for connecting the third flow channel 20 with the outside, the third threaded hole 25 is screwed with a third bolt 26, the joint of the two first mounting grooves 16 is provided with a fourth threaded hole 27 communicated with the outside, and the fourth threaded hole 27 is screwed with a fourth bolt 28, so that damping oil can be replaced conveniently through the arranged first threaded hole 21, the second threaded hole 23, the third threaded hole 25 and the fourth threaded hole 27, and the maintenance, dredging and maintenance of the shock absorber are facilitated, and the maintenance cost of the shock absorber is reduced.

In this embodiment, referring to fig. 6 and 7, the adjusting device 5 includes a valve body 51, a valve rod 52, a valve plate 53, and a first spring 54, where the valve body 51 is provided with a valve hole 55, the valve body 51 includes a first portion 511, a second portion 512, and a third portion 513 that are integrally connected, the diameter size of the second portion 512 is smaller than the diameter size of the first portion 511 and the diameter size of the third portion 513, so that the second portion 512 forms a concave annular groove 56, a notch 57 is provided on the first portion 511 and in communication with the valve hole 55, at least two first communication holes 58 are provided around the circumferential outer surface of the second portion 512, each of the first communication holes 58 is respectively in communication with the valve hole 55, a plurality of second communication holes 59 are provided on the third portion 513 and on the circumferential side of the second portion 512, each of the second communication holes 59 is respectively in communication with the annular groove 56, the valve plate 53 and the first spring 54 are provided on the lower side of the third portion 513, the valve rod 52 is provided with a threaded part 521 provided with external threads and a conical part 522 with a conical mechanism at one end, the valve rod 52 is penetrated in the valve hole 55, the threaded part 521 is in threaded connection with the first part 511, the conical part 522 extends into the second part 512, the valve rod 52 is driven to move up and down by rotating, the conical part 522 regulates the flow rate of oil passing through the valve hole 55 and the first communication hole 58, the valve rod 52 is provided with a clamping groove 60 at one end far away from the conical part 522, the bottom of the third part 513 is provided with a yielding groove 61 in an inward concave manner, the valve plate 53 and the first spring 54 are distributed in the yielding groove 61, the valve rod 52 is clamped on the clamping groove 60 by external equipment such as a knob or screwing, and the valve rod 52 is enabled to move up and down along the axial direction of the valve hole 55 by rotating the valve rod 52, the conical part 522 of the valve rod 52 is used for adjusting the flow rate of oil passing through the valve hole 55 and the first flow hole 58, the mode can achieve larger adjustment when the valve rod 52 moves to a smaller stroke, the damping effect on the flow of damping oil is reduced, the flow rate of the oil is improved, in particular, in the compression process of the shock absorber, the damping oil enters the annular groove 56 through the valve hole 55 and the first flow hole 58 to achieve the effect of flowing from one cavity to the other cavity, at the moment, the oil is in a compression state, the valve plate 53 is abutted against the valve body 51 to cover the second flow hole 59, in the rebound process of the shock absorber, one part of the oil enters the valve hole 55 through the annular groove 56 and the second flow hole 59, and the other part of the oil flows through the second flow hole 59, so that the quick rebound is achieved, the sufficient supporting property is achieved, the aftershock generated by the shock is further reduced, the use effect is improved, and the notch 57 arranged on the first part 511 is convenient for the disassembly and the installation of the valve rod 52, and the adjustment are simple in structure; further, the yielding groove 60, the valve plate 53 and the first spring 54 arranged on the third portion 513 are distributed in the yielding groove 60, so as to play a role in positioning and guiding, prevent the valve plate 53 from shifting, and improve the reliability and stability of use.

Further, in the above embodiment, the flowing size of the damping oil is automatically adjusted only through the second through hole a151, the second through hole B152 and the second through hole C153, the adjusting range is relatively small, namely, the damping oil can be adapted to the more gentle road surface riding, and under the condition of large impact force, the piston 8 is blocked by the damping oil, the reaction speed is relatively slow, so that the damper generates a wall collision feeling, and the experience feeling is poor, therefore, the comfort of use is improved through the following design:

referring to fig. 10 and 12, the piston 8 includes a piston seat 81 fixedly disposed at an upper end of the piston rod 7, a sliding seat 82 sleeved on the piston seat 81, a fixing plate 83, a locking nut 84, and a second spring 85, the piston seat 81 includes a sleeve body 811 sleeved on the piston rod 7 and in locking connection with the piston rod 7, and a closed body 812 disposed at a lower end of the sleeve body 811, the sleeve body 811 is integrally connected with the closed body 812, a first curved surface structure 86 is disposed at a connection position between the sleeve body 811 and the closed body 812, a raised line 87 distributed along an axial direction is disposed on an outer surface of the sleeve body 811, a mounting hole is disposed in a middle portion of the sliding seat 82, a sliding groove 88 is disposed on a surface of the mounting hole, a depth dimension of the sliding groove 88 is smaller than a height dimension of the raised line 87, so that when the sliding seat 82 is sleeved on the sleeve body 811, a connecting flow passage 89 is formed between the sliding seat 82 and the sleeve body 811, a second curved surface structure 90 matched with the first curved surface structure 86 is disposed at a lower portion of the sliding seat 82, the fixing plate 83 is fixedly disposed on the piston rod 7, a second curved surface structure 86 is disposed at a lower portion of the mounting hole, and the sliding seat 82 is disposed at least on a lower end of the second curved surface of the sliding seat 82, and the sliding seat 82 is preferably in contact with the second groove 85, and the sliding seat is disposed at least one side of the second groove 84, and the sliding groove 84 is disposed at the lower end of the sliding seat 82.

Referring to fig. 11, when the piston rod is greatly impacted, the sliding seat of the piston is blocked by damping oil, the reaction speed is relatively slow, and therefore, the piston extrudes the second spring to move inwards, so that the sliding seat and the piston rod move relatively, the sliding seat is separated from the locking nut, the connecting flow passage is opened, the upper part and the lower part of the hydraulic cylinder are communicated, and therefore, the flowing size of the damping oil is improved, and the flowing efficiency of the damping oil is improved; when the impact force reduces, under the effect of the second spring, the upper end of the sliding seat is pushed to be propped against the locking nut, and the locking nut cover is arranged on the connecting runner, so that the connecting runner is closed, damping oil is adjusted and regulated through the second through hole and the regulating device, the adjusting path of the primary section of the shock absorber is increased, and the comfort of the shock absorber is improved.

While the utility model has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (9)

1. A novel double-adjusting shock absorber, which is characterized in that: comprises a mounting seat, a hydraulic cylinder, an inner cylinder, an air bag device, two adjusting devices, a sealing cover, a hydraulic rod, a piston, a compression spring, a first supporting seat and a second supporting seat, wherein the mounting seat is arranged at one axial end of the hydraulic cylinder, the sealing cover is arranged at the other axial end of the hydraulic cylinder, a containing cavity is formed by the mounting seat, the hydraulic cylinder and the sealing cover, the inner cylinder is arranged in the containing cavity, the two axial ends of the inner cylinder are respectively connected with the mounting seat and the sealing cover, a hydraulic cavity is formed by the mounting seat, the inner cylinder and the sealing cover, a plurality of first through holes which are communicated with the containing cavity and the hydraulic cavity are arranged at the lower part of the inner cylinder, each first through hole is positioned at the same circumference of the inner cylinder, at least two second through holes which are communicated with the containing cavity and the hydraulic cylinder are arranged in the middle part of the inner cylinder, the hydraulic rod penetrates through the inner cylinder, the lower end of the hydraulic rod extends outwards through the sealing cover, the piston is arranged at the inner end of the hydraulic rod, the side wall of the piston is attached to the inner surface of the inner cylinder, the first supporting seat is arranged at the outer end of the piston rod, the second supporting seat is fixedly arranged on the outer surface of the hydraulic cylinder, the compression spring is sleeved on the hydraulic cylinder, two ends of the compression spring respectively lean against the first supporting seat and the second supporting seat, two first mounting grooves and one second mounting groove are arranged on the mounting seat, the hydraulic cavity is communicated with one first mounting groove and is provided with a first runner, the cavity is communicated with the other first mounting groove and is provided with a second runner, the middle parts of the two first mounting grooves are penetrated, the two first mounting grooves are communicated with the second mounting groove and are provided with a third runner, the two adjusting devices are respectively arranged in the two first mounting grooves, the air bag device is arranged in the second mounting groove, the joint of the two first mounting grooves is communicated with the outside and is provided with a fourth threaded hole, and a fourth bolt is connected to the fourth threaded hole in a threaded manner.

2. The novel dual tuned absorber as claimed in claim 1, wherein: the number of the second through holes is 3, namely a second through hole A, a second through hole B and a second through hole C, the second through hole A, the second through hole B and the second through hole C are sequentially distributed along the axial direction of the inner cylinder, and the ratio of the distance size of the center of the first through hole to the center of the second through hole A to the length size of the inner cylinder on the same straight line with the second through hole A, the second through hole B and the second through hole C is 1:2.7-3.2.

3. The novel dual tuned absorber as claimed in claim 2, wherein: the ratio of the distance between the circle center of the second through hole A and the circle center of the second through hole B to the distance between the circle center of the second through hole B and the circle center of the second through hole C is 1:1-2.5, and the distance between the circle center of the second through hole A and the circle center of the second through hole B is 8-20 mm.

4. A novel dual tuned absorber as claimed in claim 3, wherein: the diameter size of the first through hole is larger than that of the second through hole.

5. The novel dual tuned absorber as claimed in claim 1, wherein: the mounting seat is provided with a first threaded hole communicated with the first runner and the outside, and a first bolt is connected to the first threaded hole in a threaded manner.

6. The novel dual tuned absorber as claimed in claim 1, wherein: the mounting seat is provided with a second threaded hole communicated with the second flow channel and the outside, and a second bolt is connected to the second threaded hole in a threaded manner.

7. The novel dual tuned absorber as claimed in claim 1, wherein: the mounting seat is provided with a third threaded hole for connecting the third runner with the outside, and a third bolt is connected to the third threaded hole in a threaded manner.

8. The novel dual tuned absorber as claimed in any one of claims 1 to 7, wherein: the regulating device comprises a valve body, a valve rod, a valve block and a first spring, wherein a valve hole is formed in the valve body, the valve body comprises a first part, a second part and a third part which are integrally connected, the diameter of the second part is smaller than that of the first part and that of the third part, the second part forms an indent annular groove, a notch is formed in the first part and communicated with the valve hole, at least two first communication holes are formed in the circumferential outer surface of the second part in a surrounding mode, each first communication hole is communicated with the valve hole respectively, a plurality of second communication holes are formed in the third part and located on the periphery of the second part, each second communication hole is communicated with the annular groove respectively, the valve block and the first spring are arranged on the lower side of the third part, the valve block is covered on each second communication hole through extrusion of the first spring, the valve rod is provided with a threaded part provided with external threads, one end of the valve rod is provided with a conical part which is arranged in the valve hole in a penetrating mode, the threaded part of the first part is connected with the first part, the conical part extends into the second part, the conical part is driven to move upwards through rotation, and the valve rod is provided with a conical flow rate which is far away from the first end of the valve rod through the conical valve hole.

9. The novel dual tuned absorber as set forth in claim 8, wherein: the bottom of the third part is concavely provided with a yielding groove, and the valve plate and the spring are distributed in the yielding groove.