CN110723417A

CN110723417A - Long-range transportation shock attenuation equipment

Info

Publication number: CN110723417A
Application number: CN201911096861.3A
Authority: CN
Inventors: 刘锦钢
Original assignee: Qingdao Junping Damping Technology Co Ltd
Current assignee: Yueqing Tiancheng Enterprise Management Consulting Co ltd
Priority date: 2019-11-11
Filing date: 2019-11-11
Publication date: 2020-01-24
Anticipated expiration: 2039-11-11
Also published as: CN110723417B; JP6810859B1; JP2021076240A

Abstract

The invention discloses a shock-absorbing device for remote transportation, which comprises a device body, wherein the device body comprises a transmission cavity, a supporting mechanism for supporting the device when falling is arranged in the transmission cavity, fixed blocks are symmetrically arranged on the left end wall and the right end wall in the transmission cavity, a first rotating shaft is rotatably arranged on the inner side of each fixed block, a reel is fixedly arranged on the first rotating shaft positioned on the front side of each fixed block, and a torsion spring is arranged between the front end surface of each reel and the transmission cavity. Has higher integration degree, simple operation and safe and rapid process.

Description

Long-range transportation shock attenuation equipment

Technical Field

The invention relates to the field of shock absorption, in particular to a remote transportation shock absorption device.

Background

As is well known, fragile objects such as ceramics need special attention during transportation, because such objects are easy to vibrate when contacting with small impact to cause the condition of cracking or overall crushing, due to the development of the express delivery industry at present, the independent transportation cost of one object is too high, if the objects can be transported collectively, valuables are protected, the energy cost is greatly reduced, and therefore, a remote transportation damping device needs to be designed to solve the problems.

Disclosure of Invention

The invention aims to provide a remote transportation damping device which can completely digest unexpected impact force generated in the transportation process so as to protect internal articles and is efficient and integrated, sensitive in response and rich in functions.

The invention is realized by the following technical scheme.

A remote transportation shock absorption device comprises a machine body, wherein the machine body comprises a transmission cavity;

the supporting mechanism for supporting equipment when falling is contained in the transmission cavity, the left end wall and the right end wall of the transmission cavity are symmetrically provided with fixed blocks, the inner sides of the fixed blocks are rotatably provided with first rotating shafts, reels are fixedly arranged on the first rotating shafts on the front sides of the fixed blocks, torsional springs are arranged between the front end faces of the reels and the transmission cavity, rotating wheels are fixedly arranged on the first rotating shafts on the rear sides of the fixed blocks, fan blades are arranged on the rotating wheels, first buffer blocks which are bilaterally symmetrical are fixedly arranged on the top end face of the machine body, first sliding grooves are arranged in the first buffer blocks, first sliding blocks are slidably arranged in the first sliding grooves, first connecting rods are arranged on the top end faces of the first sliding blocks, first supporting blocks are fixedly arranged on the top end faces of the first connecting rods, bearing blocks are arranged on the upper sides of the first supporting blocks, and first springs are arranged between the bearing blocks, a second sliding groove is symmetrically arranged on the left and right of the first sliding groove, a second sliding block is arranged in the second sliding groove in a sliding manner, a second supporting block is fixedly arranged on the top end face of the second sliding block, a second spring is connected between the second supporting block and the bearing block, a third sliding groove is arranged on the outer side of the second sliding groove, and a third sliding block fixedly connected with the bearing block is arranged in the third sliding groove in a sliding manner;

bearing block top face is equipped with the second buffer block, be equipped with the cushion chamber in the second buffer block, the buffer intracavity contains the buffer gear who receives the impact force minimizing with the article of inside storage, be equipped with the storage piece in the cushion chamber, the cushion chamber with it is equipped with the third spring to connect between the storage piece, storage piece bottom wall is equipped with the fourth spout, it is equipped with the fourth slider to slide in the fourth spout, be equipped with the through-hole in the fourth slider, be equipped with the ascending storing groove of opening in the storage piece.

Further, the supporting mechanism comprises a transmission cavity, a supporting cavity is arranged in the end wall of the outer side of the transmission cavity, a second rotating shaft is arranged in the supporting cavity in a rotating mode, a rotating block is arranged on the second rotating shaft, a fifth sliding groove is formed in the rotating block, a fifth sliding block is arranged in the fifth sliding groove, a fourth spring is arranged between the fifth sliding block and the fifth sliding groove, a bending rod is fixedly arranged on the end face of the outer side of the fifth sliding block, a blocking block is arranged at the outer end of the fifth sliding groove, a sixth sliding groove is arranged on the end wall of the top end of the supporting cavity, a sixth sliding block is arranged in the sixth sliding groove in a sliding mode, and a T-shaped block in contact with the rotating block is fixedly arranged on.

Further, the sixth slider with it is equipped with the fifth spring to connect between the sixth spout top face, sixth slider inboard is equipped with first open slot, and it is equipped with the stopper to slide in the first open slot of speaking, the stopper with it is equipped with the line to connect between the reel, first spout with it is equipped with hydraulic pressure pipeline to connect between the second spout, contain hydraulic oil in the hydraulic pressure pipeline.

Further, buffer gear includes the storing groove, be equipped with the shrink gasbag in the storing groove, be equipped with vent pipe in the storing piece bottom end wall, fourth slider can block vent pipe, vent pipe with the shrink gasbag intercommunication, the storing piece bottom is equipped with downwardly extending's control duct.

Further, the fixed external piece that is equipped with on the second buffer block bottom face, be equipped with the second open slot in the external piece, be equipped with the connecting rod in the second open slot, the articulated bellows pole that is equipped with on the connecting rod, the bellows pole with the intercommunication is equipped with bellows between the control duct, the fixed block that is equipped with of transmission chamber top wall, contain the reaction tank in the fixed block, be equipped with chemical in the reaction tank, the control duct with the reaction tank intercommunication is equipped with the check valve.

Further, the elastic force of the first spring is larger than that of the second spring.

The invention has the beneficial effects that: the equipment of the invention reduces the oscillation degree until the oscillation degree disappears by matching the parts in the supporting mechanism and applying too many times of unloading force to the oscillation generated when the equipment is impacted, thereby protecting the articles in the equipment from being broken, and simultaneously, the buffer mechanism in the equipment slightly expands the air bag carried by the equipment by generating gas through chemical reaction when the impact occurs, so that the articles can be protected when the articles move, the equipment has complete functions, sensitive reaction and higher integration degree, and simultaneously, the operation is simple, and the process is safe and quick.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a mechanical schematic of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of A in FIG. 1;

FIG. 3 is a schematic diagram of B-B of FIG. 1;

fig. 4 is an enlarged schematic view of C in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Combine fig. 1-4 a long-range transportation shock attenuation equipment, including fuselage 64, fuselage 64 includes transmission chamber 39, the supporting mechanism 90 of supporting device when falling is contained in transmission chamber 39, the end wall symmetry is equipped with fixed block 34 about in the transmission chamber 39, fixed block 34 inboard is rotated and is equipped with first pivot 36, is located fixed block 34 front side the fixed reel 37 that is equipped with on the first pivot 36, the preceding terminal surface of reel 37 with be equipped with torsional spring 35 between the transmission chamber 39, be located fixed block 34 rear side the fixed rotating wheel 33 that is equipped with on the first pivot 36, be equipped with fan blade 38 on the rotating wheel 33, the fixed first buffer block 48 that is equipped with bilateral symmetry of fuselage 64 top terminal surface, be equipped with first spout 50 in the first buffer block 48, it is equipped with first slider 51 to slide in the first spout 50, first slider 51 top terminal surface is equipped with first connecting rod 52, a first supporting block 43 is fixedly arranged on the top end face of the first connecting rod 52, a bearing block 40 is arranged on the upper side of the first supporting block 43, a first spring 42 is arranged between the bearing block 40 and the first supporting block 43, second sliding grooves 49 are symmetrically arranged on the left and right of the first sliding groove 50, a second sliding block 46 is arranged in the second sliding groove 49 in a sliding manner, a second supporting block 45 is fixedly arranged on the top end face of the second sliding block 46, a second spring 41 is connected between the second supporting block 45 and the bearing block 40, a third sliding groove 47 is arranged on the outer side of the second sliding groove 49, and a third sliding block 44 fixedly connected with the bearing block 40 is arranged in the third sliding groove 47 in a sliding manner;

bearing block 40 top terminal surface is equipped with second buffer block 14, be equipped with cushion chamber 10 in the second buffer block 14, contain the buffer gear 91 that receives the impact force minimizing with the article of inside storage in the cushion chamber 10, be equipped with storage piece 12 in the cushion chamber 10, cushion chamber 10 with it is equipped with third spring 29 to connect between the storage piece 12, storage piece 12 bottom wall is equipped with fourth spout 32, it is equipped with fourth slider 30 to slide in the fourth spout 32, be equipped with through-hole 31 in the fourth slider 30, be equipped with the ascending storing groove 15 of opening in the storage piece 12.

The supporting mechanism 90 includes the transmission cavity 39, a supporting cavity 55 is arranged in an end wall of an outer side of the transmission cavity 39, a second rotating shaft 63 is rotatably arranged in the supporting cavity 55, a rotating block 62 is arranged on the second rotating shaft 63, a fifth sliding chute 61 is arranged in the rotating block 62, a fifth sliding block 59 is arranged in the fifth sliding chute 61, a fourth spring 60 is arranged between the fifth sliding block 59 and the fifth sliding chute 61, a bending rod 57 is fixedly arranged on an end face of an outer side of the fifth sliding block 59, a blocking block 56 is arranged at an outer end of the fifth sliding chute 61, a sixth sliding chute 65 is arranged on a top end wall of the supporting cavity 55, a sixth sliding block 67 is slidably arranged in the sixth sliding chute 65, a T-shaped block 53 contacting with the rotating block 62 is fixedly arranged on a bottom end face of the sixth sliding block 67, a fifth spring 66 is connected between the sixth sliding block 67 and the top end face of the sixth sliding chute 65, a first open slot 68 is arranged on, slide in the first open slot 68 of speaking and be equipped with stopper 69, stopper 69 with it is equipped with line 70 to connect between the reel 37, first spout 50 with it is equipped with hydraulic pressure pipeline 72 to connect between the second spout 49, contain hydraulic oil in the hydraulic pressure pipeline 72.

The buffer mechanism 91 comprises the storage groove 15, a contraction air bag 13 is arranged in the storage groove 15, the bottom end wall of the storage block 12 is provided with an air duct 16, the fourth slide block 30 can block the air duct 16, the air duct 16 is communicated with the contraction air bag 13, the bottom end of the storage block 12 is provided with a control duct 17 extending downwards, an external connecting block 18 is fixedly arranged on the bottom end face of the second buffer block 14, a second open slot 19 is arranged in the external connecting block 18, a connecting rod 21 is arranged in the second opening groove 19, an air box rod 23 is hinged on the connecting rod 21, an air box 22 is communicated between the air box rod 23 and the control pipeline 17, a fixed block 24 is fixedly arranged on the top end wall of the transmission cavity 39, the fixed block 24 is internally provided with a reaction tank 25, the reaction tank 25 is internally provided with chemicals 26, and the control pipeline 17 is communicated with the reaction tank 25 and is provided with a one-way valve 27.

Sequence of mechanical actions of the whole device:

1. when the equipment is impacted, the fan blade 38 feels wind power to rotate, the fan blade 38 rotates to drive the first rotating shaft 36 to rotate, the first rotating shaft 36 rotates to drive the reel 37 to rotate, the reel 37 rotates to drive the limiting block 69 to slide inwards through the line 70, the limiting block 69 slides inwards to enable the sixth sliding block 67 to slide downwards under the action of the fifth spring 66, the sixth sliding block 67 slides downwards to drive the rotating block 62 to rotate through the T-shaped block 53, the rotating block 62 rotates to enable the fifth sliding block 59 to slide under the action of the fourth spring 60, and the fifth sliding block 59 slides to enable the bending rod 57 to support the ground and unload a part of force

2. The bearing block 40 slides downwards due to impact, the bearing block 40 extrudes the first supporting block 43 through the first spring 42, the first supporting block 43 is extruded to enable the first sliding block 51 to slide downwards through the first connecting rod 52, the first sliding block 51 slides downwards to extrude hydraulic oil, the hydraulic oil is extruded to enable the second sliding block 46 to slide upwards through the hydraulic pipeline 72, the second sliding block 46 slides upwards to drive the second supporting block 45 to slide upwards, and the second supporting block 45 slides upwards to unload the force on the bearing plate 40 through the second spring 41.

3. The second buffer block 14 is impacted to enable the external block 18 to move downwards, the external block 18 moves downwards to enable the air box rod 23 to move to drive the air box 22 to generate wind power, the generated wind power enables the chemicals 26 in the reaction tank 25 to enter the ventilation pipeline 16 through the control pipeline 17, and the degree of integration of the equipment is high;

4. when the storage block 12 is impacted, the storage block moves downwards, at the moment, the fourth sliding block 30 slides upwards relative to the storage block 12, the fourth sliding block 30 drives the through hole 31 to move upwards to enable the vent pipeline 16 to be communicated, the chemical 26 enters the compression air bag 13 through the vent pipeline 16, the compression air bag 13 is mixed with the chemical 26 to generate gas, the compression air bag 13 slightly expands, valuable articles in the device are protected, the automation degree of the device is high, transmission matching of all mechanisms is tight, and the utilization rate of kinetic energy is high.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a long-range transportation shock attenuation equipment, includes the fuselage, its characterized in that: the machine body comprises a transmission cavity;

2. The telematic shock absorbing device of claim 1, wherein: the supporting mechanism comprises a transmission cavity, a supporting cavity is arranged in the end wall of the outer side of the transmission cavity, a second rotating shaft is arranged in the supporting cavity in a rotating mode, a rotating block is arranged on the second rotating shaft, a fifth sliding groove is formed in the rotating block, a fifth sliding block is arranged in the fifth sliding groove, a fourth spring is arranged between the fifth sliding block and the fifth sliding groove, a bending rod is fixedly arranged on the end face of the outer side of the fifth sliding block, a blocking block is arranged at the outer end of the fifth sliding groove, a sixth sliding groove is formed in the end wall of the top end of the supporting cavity, a sixth sliding block is arranged in the sixth sliding groove in a sliding mode, and a T-shaped block in contact with the rotating block is fixedly.

3. The telematic shock absorbing device of claim 2, wherein: sixth slider with it is equipped with the fifth spring to connect between the sixth spout top face, sixth slider inboard is equipped with first open slot, and it is equipped with the stopper to slide in the first open slot of speaking, the stopper with it is equipped with the line to connect between the reel, first spout with it is equipped with hydraulic pressure pipeline to connect between the second spout, contain hydraulic oil in the hydraulic pressure pipeline.

4. The telematic shock absorbing device of claim 1, wherein: the buffer mechanism comprises the storage groove, a contraction air bag is arranged in the storage groove, an air duct is arranged in the bottom end wall of the storage block, the fourth sliding block can block the air duct, the air duct is communicated with the contraction air bag, and a control duct extending downwards is arranged at the bottom end of the storage block.

5. The telematic shock absorbing device of claim 4, wherein: the fixed external block that is equipped with on the second buffer block bottom face, be equipped with the second open slot in the external block, be equipped with the connecting rod in the second open slot, the articulated bellows pole that is equipped with on the connecting rod, the bellows pole with the intercommunication is equipped with bellows between the control duct, the fixed block that is equipped with of transmission chamber top wall, contain the reaction tank in the fixed block, be equipped with chemical in the reaction tank, the control duct with the reaction tank intercommunication is equipped with the check valve.

6. The telematic shock absorbing device of claim 1, wherein: the elastic force of the first spring is larger than that of the second spring.