CN106337578A - Parking equipment - Google Patents

Abstract

The invention discloses parking equipment, comprising an upright frame and a parking frame, wherein the parking frame is driven by a chain; the circulating parking equipment comprises a set of kinetic energy recovery device, and the kinetic energy recovery device comprises a gear set, a generator driven by the gear set and an accumulator; a convex rack corresponding to the gear set is arranged on the parking frame; the surface of the convex rack is coated with a lubricant; and the lubricant comprises the following components in parts by weight: 1-50 parts of fullerene, 1-50 parts of nano carbon fiber tubes, 1-50 parts of graphene, 100-200 parts of a dispersant and 1-50 parts of a modifier. The parking equipment has the beneficial effects that the convex rack made of an alloy with higher strength has higher impact tolerance; compared with the traditional convex rack, the service life of the convex rack in the scheme is prolonged; the convex rack has higher tensile strength after thermal treatment; and the running safety factor of the overall equipment is improved while the energy is recovered and the running power and running cost of the parking equipment are reduced.

Description

A kind of parking apparatus

Technical field

The present invention relates to a kind of parking apparatus.

Background technology

City space is not enough so that multi-storied garage is using more and more extensive.Existing circulation parking apparatus adopt and ground Do vertical direction to do shuttling movement and reach the purpose of access vehicle, using space frame structure, by rotating mechanism, drive chain Bar moves, and arranges parking frame, this circulation pick-up mode floor space is little, can park cars many, take in fixing unit distance The car time is short, flexible arrangement, but installed power is big, and the speed of service is too fast, and one vehicle of access needs all in whole framework Bicycle parking is moved together, and its energy resource consumption is huge, there is the very big waste in pole.

Therefore, there is certain Improvement requirement in this kind of circulation parking apparatus.

Inventor develops a kind of circulation parking apparatus (Chinese patent literature cn 205135039 u) according to this present situation, Including vertical frame and bicycle parking framework, bicycle parking framework passes through chain drive, and described circulation parking apparatus comprise a set of kinetic energy and reclaim Device, this kinetic energy recovery device comprises a gear train, an electromotor by gear set drive and an electrical storage device；Described deposit Frame is provided with convex tooth strips corresponding with gear train.Circulation parking apparatus overall operation weight is larger, makees in weight acceleration With under, chain descending side kinetic energy increase, therefore arrange a kinetic energy recovery device.Kinetic energy is set up using the program and potential energy returns Energy is simultaneously switched to electric energy storage by receiving apparatus, fully reclaims the energy loss that vertical circulating parking equipment produces, and reduction stops The operation power of vehicle device and operating cost, improve the economic benefit of society.

But inventor finds, because the convex tooth strips use environment in the program is more special, impulsive force suffered by end is relatively Greatly although having adopted the steel of Nitrizing Treatment, but its service life is not still long, there is tooth inordinate wear and even comes off, makes Become puzzlement.

Content of the invention

For solving disadvantages mentioned above, the present invention provides a kind of circulation parking apparatus, using the alloy of special handling, and adopts Special flank profil has good bearing capacity and anti-impact force, can meet the use requirement of above-mentioned circulation parking apparatus.

Technical scheme: a kind of parking apparatus, including vertical frame and bicycle parking framework, bicycle parking framework passes through chain Transmission, described circulation parking apparatus comprise a set of kinetic energy recovery device, this kinetic energy recovery device comprise a gear train, one by The electromotor of gear set drive and an electrical storage device；Described bicycle parking framework is provided with convex tooth strips corresponding with gear train；Its feature The material being described convex tooth strips is alloy, and alloy mass percent composition is as follows:

Carbon c:0.37～0.44%

Silicon si:0.6～0.8%

Manganese mn:1.60～1.80%

Chromium cr:3.2～15%

Nickel ni:1.05～1.20%

Molybdenum mo:0.5～2.5%

Balance of ferrum fe.This parking apparatus can be realized circulation and stop.

Further, alloy mass percent composition is as follows:

Carbon c:0.38～0.42%,

Silicon si:0.63～0.7%,

Manganese mn:1.68～1.76%,

Chromium cr:3.0～12%,

Nickel ni:1.00～1.05%,

Molybdenum mo:0.6～2.3%,

Balance of ferrum fe.

Further, alloy mass percent composition is as follows:

Carbon c:0.39%,

Silicon si:0.65%,

Manganese mn:1.73%,

Chromium cr:10%,

Nickel ni:1.03%,

Molybdenum mo:1.9%,

Balance of ferrum fe.

Further, alloy mass percent composition is as follows:

Carbon c:0.37%,

Silicon si:0.66%,

Manganese mn:1.73%,

Chromium cr:9%,

Nickel ni:1.01%,

Molybdenum mo:1.8%,

Balance of ferrum fe.

The alloy of this programme, with respect to steel such as 40crnimoa, has higher intensity, and being embodied in convex tooth strips is more Good ductile fracture resistance and resisting fatigue are destroyed.Formed using vaccum sensitive stove refinery.

Further, through Overheating Treatment, heat treatment is selected from one or more of normalizing, quenching and tempering to this programme alloy Combination.

Further, through Quenching Treatment, the composition of quenching liquid is described alloy:

Quenching liquid is made up of waterglass, sodium chloride and water, and the mass fraction of waterglass is 10～15%, the quality of sodium chloride Fraction is 10～14%, balance of water.Alloy rigidity after quenching is moderate, and interior tissue form uniformly, does not have quenching to split Stricture of vagina.

Further, described quenching liquid also contains phytic acid 2%～5%.

Further, this programme alloy must enter surface treatment, carries out sulfonitriding or sulfocarbonitriding.

Sulfonitriding: nh3+h2s gas method, 570～590 DEG C, 1～2 hour, the reaction of traditional nh3+h2s gas method Temperature is 540～560 DEG C, and inventor finds, this reaction temperature is difficult to permeate the alloy of this programme.

Sulfocarbonitriding: processed using carbamide, sodium carbonate and sodium sulfide.

Further, described kinetic energy recovery device is located at the descending side of described chain.

Further, described kinetic energy recovery device is located at the up side of described chain, described electromotor reversion.

Further, described circulation parking apparatus also include a set of potential energy recovery device, and this potential energy recovery device comprises one Gear train, a motor by gear set drive and an electrical storage device；Described bicycle parking framework is provided with corresponding with gear train convex Tooth bar；, located at vertical frame both sides chain upward position, potential energy recovery device is located at vertical frame two for described kinetic energy recovery device Side chain bar downstream position.The position that the quality of object is bigger, relative is higher, work is more, so that the gravity that object has Potential energy becomes big, and circulation parking apparatus overall operation weight is larger, rises certain altitude, has great potential energy, and setting potential energy returns Receiving apparatus are beneficial to energy-conservation.

Further, described vertical frame is provided with upright slide rail, described kinetic energy recovery device and/or potential energy recovery device On support, described support can slide up and down with respect to upright slide rail.

Further, described convex tooth strips surface application of lubricating, the weight portion content of the component of this lubricant is as follows:

As preferably a kind of mode, dispersant can be microcrystalline wax, and modifying agent is amylopectin.

Kinetic energy due to circulating parking apparatus is larger, can produce instantaneous high-temperature with convex tooth strips surface, in addition when gear is contacted Instantaneous impact is larger, and general lubricant is difficult to be competent at such use environment.This programme, can in the form of solid lubrication To provide perfect lubrication strategies.

Kinetic energy and potential energy recovery device are set up using this programme and energy switched to electric energy storage, reclaimed and entirely set The potential energy that standby upper parking stall framework produces when up, it is also possible to extension set reclaims the descending kinetic energy of parking stall framework, fully reclaims and follows The energy loss that ring parking apparatus produce, reduces operation power and the operating cost of parking apparatus, improves the economic effect of society Benefit.

Beneficial effects of the present invention:

1st, convex tooth strips of the present invention adopt the alloy of higher intensity, have higher shock resistance tolerance level；

2nd, compared with traditional convex tooth strips, this programme increases the service life more than 30%；

3rd, after cooperation Technology for Heating Processing, there is higher tensile strength；

4th, this programme is reclaiming the energy, the operation power reducing parking apparatus and operating cost simultaneously, improves and entirely sets The safety coefficient of received shipment row.

Brief description

Fig. 1 is the side schematic view of circulation parking apparatus.

Fig. 2 is the front schematic view of circulation parking apparatus.

In figure, 1. vertical frame, 2. bicycle parking framework, 3, circulation parking apparatus gear train, 4. chain, 5. kinetic energy reclaim dress Put, 6. convex tooth strips, 7. potential energy recovery device, 51. first gear groups, 52. first electromotors, 71. second gear groups, 72 second Motor, 8. support, 9. vehicle, 10. circulates parking apparatus motor, 11. accumulators.

Specific embodiment

Embodiment 1

As shown in Figure 1-2, parking apparatus are mainly made up of vertical frame 1 and multiple bicycle parking framework 2, on each storing framework Park cars 9, whole equipment is passed through to circulate parking apparatus mair motor 10 provides power, and circulation parking apparatus gear train 3 drives chain Bar 4 is picked up the car to realize entirely circulating stopping.Increase a kinetic energy recovery device 5 on this basis, be arranged on chain down direction, I.e. in figure arrow down direction, bicycle parking framework 2 arranges convex tooth strips 6, and kinetic energy recovery device 5 includes being correspondingly arranged with convex tooth strips 6 First gear group 51, the first electromotor 52 being connected with this first gear group, and lay in this electromotor 52 generation electric energy Electrical storage device 11.

Kinetic energy recovery device 5 is preferably provided on vertical frame 1 it is also possible to set up support 8 to dispose on ground.Can be Upright slide rail is arranged on vertical frame, described kinetic energy recovery device is on upright slide rail, upper and lower in upright slide rail by support 8 Slide and to adjust high and low position on vertical frame 1 for the kinetic energy recovery device 5.

Kinetic energy recovery device 5 can be arranged on chain up direction with electromotor reversion, i.e. in figure arrow up direction, car The direction moved on.

In addition it is provided with kinetic energy recovery device 5 in chain down direction, increase potential energy in chain up direction simultaneously and reclaim Device 7, potential energy recovery device 7 is by the second gear group 61 being correspondingly arranged with convex tooth strips 6, the second electromotor 62 and accumulator 11.

As a kind of preferential mode, first gear group and/or second gear are rented and can be adopted using less teeth difference transmission Mode, bearing capacity is bigger.Can also the gear corresponding with convex tooth strips on gear train be helical gears, described convex Tooth bar is diagonal-cut rack, and registration when contacting with each other between rack and pinion is higher, and stationarity is also more preferable.

Embodiment 2

The material of convex tooth strips is alloy as different from Example 1, and alloy mass percent composition is as follows:

Carbon c:0.37%

Silicon si:0.6%

Manganese mn:1.60%

Chromium cr:3.2%

Nickel ni:1.05%

Molybdenum mo:0.5%

Balance of ferrum fe.

The alloy of this programme, with respect to steel such as 40crnimoa, has higher intensity, and being embodied in convex tooth strips is more Good ductile fracture resistance and resisting fatigue are destroyed.Formed using vaccum sensitive stove refinery.

Embodiment 3

The material of convex tooth strips is alloy as different from Example 1, and alloy mass percent composition is as follows:

Carbon c:0.44%

Silicon si:0.8%

Manganese mn:1.80%

Chromium cr:15%

Nickel ni:1.20%

Molybdenum mo:2.5%

Balance of ferrum fe.

Embodiment 4

The material of convex tooth strips is alloy as different from Example 1, and alloy mass percent composition is as follows:

Carbon c:0.4%

Silicon si:0.7%

Manganese mn:1.7%

Chromium cr:5%

Nickel ni:1.1%

Molybdenum mo:1.5%

Balance of ferrum fe.

Embodiment 5

The material of convex tooth strips is alloy as different from Example 1, and alloy mass percent composition is as follows:

Carbon c:0.38%

Silicon si:0.65%

Manganese mn:1.65%

Chromium cr:10%

Nickel ni:1.1%

Molybdenum mo:1%

Balance of ferrum fe.

Embodiment 6

The material of convex tooth strips is alloy as different from Example 1, and alloy mass percent composition is as follows:

Carbon c:0.39%

Silicon si:0.68%

Manganese mn:1.75%

Chromium cr:14%

Nickel ni:1.15%

Molybdenum mo:2%

Balance of ferrum fe.

Embodiment 7

The material of convex tooth strips is alloy as different from Example 1, and alloy mass percent composition is as follows:

Carbon c:0.42%

Silicon si:0.75%

Manganese mn:1.75%

Chromium cr:7%

Nickel ni:1.2%

Molybdenum mo:2.1%

Balance of ferrum fe.

Embodiment 8

This programme alloy is surface-treated on the basis of embodiment 7, sulfonitriding.

Sulfonitriding: nh3+h2s gas method, 570～590 DEG C, 1～2 hour, the reaction of traditional nh3+h2s gas method Temperature is 540～560 DEG C, and inventor finds, this reaction temperature is difficult to permeate the alloy of this programme.

Embodiment 9

This programme alloy carries out sulfocarbonitriding on the basis of embodiment 7: using conventional carbamide, sodium carbonate and sulfuration Sodium is processed.

Embodiment 10

Alloy described in embodiment 1-7 can be through Quenching Treatment, and the composition of quenching liquid is:

Quenching liquid is made up of waterglass, sodium chloride and water, and the mass fraction of waterglass is 10～15%, the quality of sodium chloride Fraction is 10～14%, balance of water.Alloy rigidity after quenching is moderate, and interior tissue form uniformly, does not have quenching to split Stricture of vagina.

Embodiment 11

As different from Example 10, described quenching liquid also contains phytic acid 2%～5%.

Embodiment 12

Convex tooth strips surface application of lubricating described in embodiment 1-11, the weight portion content of the component of this lubricant is as follows:

Wherein dispersant is microcrystalline wax, and modifying agent is amylopectin.

Embodiment 13

Convex tooth strips surface application of lubricating described in embodiment 1-11, the weight portion content of the component of this lubricant is as follows:

Wherein dispersant is microcrystalline wax, and modifying agent is amylopectin.

Embodiment 14

Convex tooth strips surface application of lubricating described in embodiment 1-11, the weight portion content of the component of this lubricant is as follows:

Wherein dispersant is Polyethylene Glycol, and modifying agent is amylopectin.

Embodiment 15

Convex tooth strips surface application of lubricating described in embodiment 1-11, the weight portion content of the component of this lubricant is as follows:

Wherein dispersant is barium stearate, and modifying agent is amylopectin.

Embodiment 12-15 is the lubricant formulations adapting under different use environments, extends alloy convex tooth strips after use Life-span 5%～10%.

Classification	Embodiment 12	Embodiment 13	Embodiment 14	Embodiment 15	Not using lubricant
						Friction factor	0.35	0.25	0.18	0.22	0.4
Life-span	1.05	1.06	1.07	1.10	1
						Load limitation (t)	10.9	10.8	11	10.5	10

Claims (10)

1. a kind of parking apparatus, including vertical frame and bicycle parking framework, bicycle parking framework passes through chain drive, and described circulation is stopped and set For comprising a set of kinetic energy recovery device, this kinetic energy recovery device comprises a gear train, an electromotor by gear set drive With an electrical storage device；Described bicycle parking framework is provided with convex tooth strips corresponding with gear train；It is characterized in that, described convex tooth strips surface Application of lubricating, the component of this lubricant and weight portion content are as follows:

2. parking apparatus according to claim 1 it is characterised in that described convex tooth strips material be alloy, described alloy The mass percent of each component is as follows:

Carbon c:0.37～0.44%,

Silicon si:0.6～0.8%,

Manganese mn:1.60～1.80%,

Chromium cr:3.2～15%,

Nickel ni:1.05～1.20%,

Molybdenum mo:0.5～2.5%,

Balance of ferrum fe.

3. it is characterised in that described alloy is through Overheating Treatment, heat treatment is just selected from parking apparatus according to claim 2 The combination of one or more of fire, quenching and tempering.

4. the parking apparatus according to Claims 2 or 3 are it is characterised in that described alloy is through Quenching Treatment, quenching liquid by Waterglass, sodium chloride and water composition, the mass fraction of waterglass is 10～15%, and the mass fraction of sodium chloride is 10～14%, Balance of water.

5. parking apparatus according to claim 4 are it is characterised in that described quenching liquid also contains phytic acid 2%～5%.

6. parking apparatus according to claim 1, it is characterised in that described alloy must enter surface treatment, carry out sulfur nitrogen Permeation or sulfocarbonitriding.

7. parking apparatus according to claim 1 are it is characterised in that described kinetic energy recovery device is descending located at described chain Side.

8. parking apparatus according to claim 1 are it is characterised in that described circulation parking apparatus also include a set of potential energy returns Receiving apparatus, this potential energy recovery device comprises a gear train, a motor by gear set drive and an electrical storage device；Described deposit Frame is provided with convex tooth strips corresponding with gear train；Described kinetic energy recovery device line position on the chain of vertical frame both sides Put, potential energy recovery device is located at vertical frame both sides chain downstream position.

9. parking apparatus according to claim 1 are it is characterised in that be provided with upright slide rail on described vertical frame, institute State kinetic energy recovery device and/or potential energy recovery device on support, described support can slide up and down with respect to upright slide rail.

10. parking apparatus according to claim 1 are it is characterised in that the gear corresponding with convex tooth strips on gear train For helical gears, described convex tooth strips are diagonal-cut rack.