CN208907329U - A kind of intelligent carrier - Google Patents

Abstract

This application discloses a kind of intelligent carriers, intelligent carrier includes carrier main body, first tire clamping device, first driving device, the second driving device and third driving device, carrier main body includes the first level transport establishment and the second horizontal transport mechanism for being located at two sides and being parallel to each other, and the interconnecting piece of both connections, first level transport establishment and the second horizontal transport mechanism are used for vehicle；First tire clamping device is connect with carrier subject activity；First driving device is for driving carrier bulk motion, second driving device is for driving first tire clamping device close to or far from carrier main body, for driving first level transport establishment and the second horizontal transport mechanism to move, first driving device, the second driving device and third driving device are detachably mounted on interconnecting piece third driving device.The application can reduce intelligent carrier manufacturing cost and improve the stability of intelligent carrier work.

Description

A kind of intelligent carrier

Technical field

The application relates to vehicle carrier field, more particularly to a kind of intelligent carrier.

Background technique

The problem of vehicle is nowhere parked be the society in city, economy, transport development generate to a certain extent as a result, three-dimensional The development of parking apparatus is at abroad, especially have nearly 30~40 years history in Japan, no matter technically or empirically Success is obtained.China also begins one's study the beginning of the nineties and develops mechanical solid parking apparatus, away from the present existing recent two decades Course.Since the proportion of resident and parking stall is 1:1 in many newly-built communities, in order to solve parking stall occupied area and resident quotient With the contradiction of area, mechanical three-dimensional parking device is with its small unique property of bicycle occupied area that is averaged, by users Receive.With the rapid growth of vehicle guaranteeding organic quantity, Transport Vehicle becomes an important factor for restricting development of solid garage, and vehicle The height of intelligent carrier performance then determines Transport Vehicle efficiency.

Current intelligent vehicle carrier needs multiple driving devices to control various pieces, and driving device Quantity is excessive and placement location is unreasonable, increases the cost of manufacture of intelligent carrier, and reduces intelligent carrier work Stability.

Summary of the invention

The application provides a kind of intelligent carrier, can reduce intelligent carrier manufacturing cost and improve intelligent carrier work The stability of work.

In order to solve the above technical problems, the technical solution that the application uses is: a kind of intelligent carrier is provided, it is described Intelligent carrier includes that carrier main body, first tire clamping device, first driving device, the second driving device and third are driven Dynamic device, the carrier main body include positioned at two sides and the first level transport establishment being parallel to each other and the second level conveyor The interconnecting piece of both structure, and connection, the first level transport establishment and second horizontal transport mechanism are used for carrying vehicle ?；The first tire clamping device is connect with the carrier subject activity, to clamp or unclamp the tire of vehicle；Described One driving device is for driving the carrier bulk motion, and second driving device is for driving the first tire to clamp Device is close to or far from the carrier main body, and the third driving device is for driving the first level transport establishment and institute The movement of the second horizontal transport mechanism is stated, the first driving device, the second driving device and third driving device are dismountable It is fixed on the interconnecting piece.

The beneficial effect of the application is: being in contrast to the prior art, the application provides a kind of intelligent carrier, intelligence Carrier includes carrier main body, first tire clamping device, first driving device, the second driving device and third driving dress It sets, carrier main body includes the first level transport establishment and the second horizontal transport mechanism for being located at two sides and being parallel to each other, and The interconnecting piece of the two is connected, first level transport establishment and the second horizontal transport mechanism are used for vehicle；First tire clamping Device is connect with carrier subject activity；For driving carrier bulk motion, the second driving device is used for first driving device Drive first tire clamping device close to or far from carrier main body, third driving device is for driving first level transport establishment It is moved with the second horizontal transport mechanism, first driving device, the second driving device and third driving device are removably fixed On interconnecting piece.The application can reduce intelligent carrier manufacturing cost and improve the stability of intelligent carrier work.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of one embodiment of the application intelligent carrier；

Floor map when Fig. 2 is Fig. 1 intelligent carrier carrying vehicle；

Fig. 3 is the schematic diagram of internal structure of Fig. 1 intelligent carrier；

Fig. 4 is partial structural diagram of Fig. 1 intelligent carrier at first driving device；

Fig. 5 is the schematic diagram of internal structure of the first conveyer belt in Fig. 1 intelligent carrier；

Fig. 6 is the schematic diagram of internal structure of third conveyer belt in Fig. 1 intelligent carrier；

Fig. 7 is partial structural diagram of Fig. 1 intelligent carrier at the second driving device；

Fig. 8 is the schematic diagram of internal structure of first tire clamping device in Fig. 1 intelligent carrier；

Fig. 9 is partial structural diagram of Fig. 1 intelligent carrier at third driving device.

Specific embodiment

Below in conjunction with the attached drawing in the embodiment of the present application, technical solutions in the embodiments of the present application carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of embodiments of the present application, instead of all the embodiments.It is based on Embodiment in the application, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment belongs to the range of the application protection.

Refering to fig. 1, Fig. 2 and Fig. 3, Fig. 1 are the structural schematic diagrams of one embodiment of the application intelligent carrier；Fig. 2 is Floor map when Fig. 1 intelligent carrier carrying vehicle；Fig. 3 is the schematic diagram of internal structure of Fig. 1 intelligent carrier.

In present embodiment, intelligent carrier 1 includes carrier main body 2, first tire clamping device 3 and the second tire Clamping device 4.First tire clamping device 3 and the second tire clamping device 4 are located at the both ends of carrier main body 2, and divide It is not flexibly connected with carrier main body 2.Carrier main body 2 is to vehicle 5, first tire clamping device 3 and the second tire Clamping device 4 is to cooperate with carrier main body 2 vehicle 5 to be carried in carrier main body 2.It should be noted that this reality It applies in mode, the both ends of carrier main body 2 are respectively arranged with first tire clamping device 3 and the second tire clamping device 4, the One tire clamping device 3 and the second tire clamping device 4 are symmetrical, and intelligent carrier 1 can be clamped by first tire Vehicle 5 is carried to carrier main body 2 from the side of first tire clamping device 3 by the cooperation of device 3 and carrier main body 2, Can by the cooperation of the second tire clamping device 4 and carrier main body 2 by vehicle 5 from the side of the second tire clamping device 4 It is carried to carrier main body 2, i.e. vehicle 5 can enter from the either end of intelligent carrier 1, and intelligent carrier 1 is avoided to adjust position The waste of time caused by setting, improves the efficiency of intelligent carrier 1.In another embodiment, intelligent carrier 1 only includes Carrier main body 2 and first tire clamping device 3 are not provided with the second tire clamping device 4.I.e. vehicle 5 can only be from carrier master The side of body 2 enters, but due to having lacked a tire clamping device, can reduce the volume of intelligent carrier 1.In other implementations In mode, the number of tire clamping device and position determine that the application is not construed as limiting this according to the actual situation.

In present embodiment, carrier main body 2 includes the first level transport establishment for being located at the left and right sides and being parallel to each other With the second horizontal transport mechanism, first level transport establishment and the second horizontal transport mechanism are used for vehicle 5.First level fortune Transfer mechanism includes the first conveyer belt 21, and the second horizontal transport mechanism includes the second conveyer belt 22, the first conveyer belt 21 and the second fortune The transporting direction of defeated band 22 is parallel with the direction of vehicles while passing intelligent carrier 1.First conveyer belt 21 and the second conveyer belt 22 can Think the devices such as conveyer belt or crawler belt, the application is not construed as limiting this.First tire clamping device 3 is in the side of the first conveyer belt 21 It abuts up close or remote from carrier main body 2.Further, the two sides of tire clamping device 3 are equipped with clamping limb 31, clamping limb 31 Position it is corresponding with the first conveyer belt 21 and the second conveyer belt 22.Two clamping limbs 31 first tire clamping device 3 it is close or When far from carrier main body 2, respectively close to or far from remove the first conveyer belt 21 and the second conveyer belt 22, cooperate to clamp or unclamp The two sides tire 51 of vehicle 5.In two clamping limbs 31 and the cooperation of the first conveyer belt 21 and the second conveyer belt 22 to clamp tire Afterwards, first tire clamping device 3 and carrier main body 2 are close to each other, by two clamping limbs 31 and the first conveyer belt 21 and The cooperation of second conveyer belt 22, tire 51 is carried on the first conveyer belt 21 and the second conveyer belt 22.Second tire clamping dress Set 4 structure it is similar with first tire clamping device 3 with working method, details are not described herein.

In present embodiment, the first conveyer belt 21 includes identical first conveyer belt 211 of length and the second conveyer belt 212, The direction of transfer of first conveyer belt 211 and the second conveyer belt 212 is located at same straight line, and the first conveyer belt 211 is located at the second transmission Side with 212 close first tire clamping device 3.Second conveyer belt 22 includes identical 221 He of third conveyer belt of length The direction of transfer of 4th conveyer belt 222, third conveyer belt 221 and the 4th conveyer belt 222 is located at same straight line, third conveyer belt 221 are located at the 4th conveyer belt 222 close to the side of first tire clamping device 3.In present embodiment, the first conveyer belt 21 difference It is made of two conveyer belts, is then by when vehicle 5 enters carrier main body 2 from first tire clamping device 3 therefore Vehicle 5 is carried to carrier main body 2 by the cooperation of one tire clamping device 3 and the first conveyer belt 211 and third conveyer belt 221 On.It is then by the second tire clamping device 4 and when vehicle 5 enters carrier main body 2 from the second tire clamping device 4 Vehicle 5 is carried in carrier main body 2 by the cooperation of two conveyer belts 212 and the 4th conveyer belt 222.Due to every conveyer belt point It is not made of, is can be avoided due to single conveyer belt too long the case where being easily broken off two conveyer belts, and due to two transmission belts Stress is independent of each other, and is broken caused by concentrating so as to avoid 2 middle part stress of carrier main body, has better stress performance. In other embodiments, the first conveyer belt 21 and the second conveyer belt 22 can also respectively include 1,3 or more a plurality of biography Band is sent, the application is not construed as limiting this.

In present embodiment, interconnecting piece 23 in parallel is equipped between the first conveyer belt 21 and the second conveyer belt 22, even Socket part 23 is used to connect the first conveyer belt 21 and the second conveyer belt 22 of two sides.Intelligent carrier 1 include the second driving device 6, First driving device 7, third driving device 8 and fourth drive device 9.Second driving device 6, first driving device 7, third Driving device 8 and fourth drive device 9 are motor or other power devices, can be more specifically servo motor or stepping electricity Machine, the application are not construed as limiting this.Second driving device 6 is for driving first tire clamping device 3 close to or far from carrier Main body 2, first driving device 7 is for driving carrier main body 2 to move, and third driving device is for driving 21 He of the first conveyer belt The rotation of second conveyer belt 22, fourth drive device 9 is for driving the second tire clamping device 4 close to or far from carrier main body 2. Second driving device 6, first driving device 7, third driving device 8 and fourth drive device 9 are detachably mounted to connect In portion 23.In other embodiments, intelligent carrier 1 can not also in the case where being not provided with the second tire clamping device 4 Fourth drive device 9 is set, is determined according to the actual situation.Second driving device 6, first driving device 7, third driving dress Set 8 and fourth drive device 9 be installed among carrier main body 2, can prevent 1 centre-of gravity shift of intelligent carrier initiation incline Cover risk.Secondly, the second driving device 6, first driving device 7, third driving device 8 and the installation of fourth drive device 9 are torn open It unloads conveniently.Finally, only needing 3-4 driving device that can provide all driving forces for intelligent carrier 1, and it is not present each other It influences each other, reduces the cost of manufacture of intelligent carrier 1, and improve the harmony of the work of intelligent carrier 1.

In present embodiment, the lower section of the first conveyer belt 21 and the second conveyer belt 22 is equipped with bearing frame 24, bearing frame 24 It is used to support the first conveyer belt 21 and the second conveyer belt 22.Interconnecting piece 23 includes a plurality of is parallel to each other and perpendicular to the first conveyer belt The crossbeam 231 of 21 transporting directions, the both ends of crossbeam 231 are connected to holding for the first conveyer belt 21 and 22 bottom of the second conveyer belt On weight frame 24.Second driving device 6, first driving device 7, third driving device 8 and fourth drive device 9 are located at crossbeam Between 231, and it is fixed on crossbeam 231 by way of being spirally connected or being clamped.

In present embodiment, the number of bearing frame 24 is 4, and be located at the first conveyer belt 211, the second conveyer belt 212, The bottom of third conveyer belt 221 and the 4th conveyer belt 222, to support the first conveyer belt 211, the second conveyer belt 212, third to pass Send band 221 and the 4th conveyer belt 222, it is hinged between the bearing frame 24 of 212 bottom of the first conveyer belt 211 and the second conveyer belt, It is hinged between the bearing frame 24 of 222 bottom of third conveyer belt 221 and the 4th conveyer belt, it can be with by the bearing frame 24 of two-part Avoiding concentrating due to stress causes bearing frame 24 to be broken.

In present embodiment, the second driving device 6, first driving device 7 and third driving device 8 are located at the first transmission Between band 211 and third conveyer belt 221.Second driving device 6 is located at first driving device 7 close to first tire clamping device 3 Side, third driving device 8 is located at side of the first driving device 7 far from the second driving device 6.

In present embodiment, the second tire clamping device 4 is located at carrier main body 2 far from first tire clamping device 3 Side.Fourth drive device 9 is located at the second conveyer belt 212 and the 4th conveyer belt 222 between, and is detachably mounted to connect In portion 23.Specifically, fourth drive device 9 is detachably mounted to crossbeam 231.The bottom of second tire clamping device 4 is equipped with Third tourelle 32.

In present embodiment, the first conveyer belt 211 is equipped with the first belt driving shaft close to one end of the second conveyer belt 212 2111, the first belt driving shaft 2111 drives the rotation of the first conveyer belt 211.Third conveyer belt 221 is close to the 4th conveyer belt 222 One end is equipped with third belt driving shaft 2211, and third belt driving shaft 2211 drives third conveyer belt 221 to rotate.First belt master Moving axis 2111 and third belt driving shaft 2211 are located at same axis, and the output end of third driving device 8 passes through the first transmission group Part 81 is connect with the first belt driving shaft 2111 and third belt driving shaft 2211.Third driving device 8 drives the first transmission group Part 81 rotates, and then the first belt driving shaft 2111 and third belt driving shaft 2211 is driven to rotate.

In present embodiment, the second conveyer belt 212 is equipped with the second belt driving shaft close to one end of the first conveyer belt 211 2121, the second belt driving shaft 2121 drives the rotation of the second conveyer belt 212.4th conveyer belt 222 is close to third conveyer belt 221 One end is equipped with the 4th belt driving shaft 2221, and the 4th belt driving shaft 2221 drives the rotation of the 4th conveyer belt 222.Second belt master Moving axis 2121 and the 4th belt driving shaft are located at same axis, and the output end of third driving device 8 passes through the second transmission component 82 It is connect with the second belt driving shaft 2121 and the 4th belt driving shaft 2221.

Further, the first conveyer belt 211 is equipped with the first belt driven shaft 2111 far from one end of the second conveyer belt 212, First belt driving shaft 2111 is connected with the first belt driven shaft 2112 by belt, and the first belt driving shaft 2111 passes through first Belt drives the rotation of the first belt driven shaft 2112, and then drives the rotation of the first conveyer belt 211.Pass through the first conveyer belt 211 The tire 51 of vehicle 5 can be lifted by rotating the cooperation with clamping limb 31.Second conveyer belt 212 is far from the first conveyer belt 211 One end be equipped with the second belt driven shaft 2122, third conveyer belt 221 far from the 4th conveyer belt 222 one end be equipped with third belt from Moving axis 2212, the 4th conveyer belt 222 are equipped with the 4th belt driven shaft 2222 far from one end of third conveyer belt 221.Second transmission Similar with the working method of the first conveyer belt 211 with 212, third conveyer belt 221, the 4th conveyer belt 222, this will not be repeated here.

In present embodiment, crossbeam 231 is connected by coil holder 232, and coil holder 232 is perpendicular to crossbeam 231, and the two of coil holder 232 End is respectively articulated with or is screwed on crossbeam 231.It can be improved the globality of carrier 1 and steady by 232 connecting cross beam 231 of coil holder It is qualitative, avoid carrier 1 from damaging.

In order to illustrate the working method that the application first driving device 7 drives carrier main body 2 to move, refering to Fig. 4 and figure 5.Fig. 4 is partial structural diagram of Fig. 1 intelligent carrier at first driving device；Fig. 5 is first in Fig. 1 intelligent carrier The schematic diagram of internal structure of conveyer belt.

In present embodiment, carrier main body 2 includes the first transmission shaft 72, second driving shaft 73 and third transmission shaft 75, the first transmission shaft 72, second driving shaft 73 and third transmission shaft 75 are parallel, and the first transmission shaft 72 and interconnecting piece 23 are hinged, Second driving shaft 73 and third transmission shaft 75 and bearing frame 24 are hinged；First transmission shaft 72 receives the offer of first driving device 7 Single driving force is to rotate；First transmission shaft 72 is connect with second driving shaft 73, and second driving shaft 73 and third transmission shaft 75 connect It connects, second driving shaft 73 and third transmission shaft 75 are equipped with the first tourelle 734, and the first transmission shaft 72 drives second driving shaft 73 rotations, second driving shaft 73 drive third transmission shaft 75 to rotate, and second driving shaft 73 and third transmission shaft 75 drive the first rolling Dynamic device 734 rotates so that intelligent carrier 1 moves.

In present embodiment, carrier main body 2 includes positioned at the left and right sides and the bearing frame 24 being parallel to each other and load-bearing Interconnecting piece 23 between frame 24, interconnecting piece 23 connect bearing frame 24, and bearing frame 24 prolongs along the direction of vehicles while passing intelligent carrier 1 It stretches.The number of second driving shaft 73 is two, and two second driving shafts 73 are symmetrically distributed in the two sides of interconnecting piece 23, the of two sides Two transmission shafts 73 are hinged with the bearing frame 24 of two sides respectively, and perpendicular to bearing frame 24.The number of third transmission shaft 75 is two, Two third transmission shafts 75 are symmetrically distributed in 23 two sides of interconnecting piece, the third transmission shaft 75 of the two sides bearing frame 24 with two sides respectively Hingedly, and perpendicular to bearing frame 24, the first transmission shaft 72 is arranged on interconnecting piece 23.

It originally is that first driving device 7 and second driving shaft 73 are located at the two sides of the first transmission shaft 72 in embodiment.First The output end of driving device 7 is equipped with the first sprocket wheel 71, and the two sides of interconnecting piece 23 are equipped with supporting beam 26, the both ends of the first transmission shaft 72 Hinged with the supporting beam 26 of two sides respectively, the middle part of the first transmission shaft 72 is equipped with the second sprocket wheel 721, the first sprocket wheel 71 and the second chain Wheel 721 is connected by the first chain (not identifying).For first chain perpendicular to the first transmission shaft 72, first driving device 7 passes through the The rotation of one the first transmission shaft of chain drive 72, and then second driving shaft 73 is driven to rotate.

In present embodiment, the middle part of the first transmission shaft 72 is equipped with the 7th sprocket wheel 722, and the second tourelle 742 is located at the Two one end of transmission shaft 73 far from interconnecting piece 23, second driving shaft 73 extend in interconnecting piece 23 close to one end of interconnecting piece 23, And it is hinged with interconnecting piece 23, second driving shaft 73 extends to one end in interconnecting piece 23 equipped with the 4th sprocket wheel 731, the 4th sprocket wheel 731 and the 7th sprocket wheel 722 connected by the second chain (not identifying), the second chain is parallel to the first chain.

In present embodiment, the number of second driving shaft 73 is two, is parallel to each other between second driving shaft 73 and symmetrically It is distributed in the two sides of interconnecting piece 23, the number of third transmission shaft 75 is two, is parallel to each other between third transmission shaft 75 and symmetrically The two sides of interconnecting piece 23 are distributed in, second driving shaft 73 and third transmission shaft 75 are equipped with the 5th sprocket wheel 732.Positioned at interconnecting piece 23 The 5th sprocket wheel 732 on ipsilateral second driving shaft 73 and third transmission shaft 75 is connected by third chain (not identifying), so that Two second driving shafts 73 and two third transmission shafts 75 rotate synchronously.Since the power of second driving shaft 73 is all from and first Transmission shaft 72 is connected between second driving shaft 73 and third transmission shaft 75 by chain syn-chro-step, therefore, second driving shaft 73 and the Three transmission shafts 75 rotate synchronously.It should be noted that in present embodiment, 75 structure phase of second driving shaft 73 and third transmission shaft Together, positional symmetry.In other embodiments, second driving shaft 73 and third transmission shaft 75 can also be different, and need to only guarantee the Three transmission shafts 75 receive the power synchronous rotation that second driving shaft 73 exports, and the application is not construed as limiting this.

In another embodiment, second driving shaft 73 drives third transmission shaft 75 to rotate in such a way that axis is driven.

Further, intelligent carrier 1 includes multiple the 4th transmission shafts 74 being parallel to each other, second driving shaft 73 and third 75 scattering device of transmission shaft and bearing frame 24, the 4th transmission shaft 74 is hinged with bearing frame 24, and the 4th transmission shaft 74 is in bearing frame 24 On be distributed along the extending direction of bearing frame 24, the 4th transmission shaft 74 is symmetrically distributed in the two sides of interconnecting piece 23, and is located at second and passes 75 liang of opposite outsides of moving axis 73 and third transmission shaft.Pass through synchronous belt between the 4th transmission shaft 74 ipsilateral positioned at interconnecting piece 23 Connection, and at least one the 4th transmission shaft 74 is connect with second driving shaft 73 by synchronous belt (not identifying).Specifically, second passes Moving axis 73 is equipped with the first synchronous card slot 733, and the 4th transmission shaft 74 is equipped with the second synchronous card slot 741, the first synchronous card slot 733 Card slot 741 synchronous with second passes through synchronous band connection, so that second driving shaft 73 and the 4th transmission shaft 74 rotate synchronously.By more The 4th transmission shaft 74 being parallel to each other and second driving shaft 73 of a dispersion carry bearing frame 24, so that the load of bearing frame 24 is equal On even distributional drive axis, the load that drive bearing is received can be reduced, and improve the stability that carrier 1 travels.In addition, multiple 4th transmission shaft 74 each other by synchronous band connection, and at least one with second driving shaft 73 by synchronous band connection, therefore, institute The 4th transmission shaft 74 and the second driving shaft 73 having rotate synchronously.

In present embodiment, the length of the 4th transmission shaft 74 is less than the length of second driving shaft 73, the 4th transmission shaft 74 One end close to interconnecting piece 23 is not extend in interconnecting piece 23, and the 4th transmission shaft 74 is equipped with the second tourelle 742.Second rolling Dynamic device 742 is located at the 4th one end of transmission shaft 74 far from interconnecting piece 23, the second tourelle 742 and the first tourelle 734 Rolling route it is parallel.It should be noted that the second tourelle 742 and the first tourelle 734 can be located at same straight line, Same straight line can not also be located at, the application is not construed as limiting this.The length of 4th transmission shaft 74 is less than second driving shaft 73 Length enables to the 4th transmission shaft 74 to be entirely located in the range of bearing frame 24, is not extend in interconnecting piece 23, to not account for With the space of interconnecting piece 23, and then reduce the volume of entire carrier 1.

In a specific embodiment, intelligent carrier 1 includes crawler belt (not shown), 742 He of the second tourelle First tourelle 734 is the equal gear of diameter, and the rolling route of the second tourelle 742 and the first tourelle 734 is Same straight line, crawler belt coat the second tourelle 742 and the first tourelle 734.By crawler belt, the second tourelle 742 with And first tourelle 734 cooperation be intelligent carrier 1 advance.In another particular embodiment of the invention, it second rolls Device 742 and the first tourelle 734 are the equal idler wheel of diameter, idler wheel and the first transmission shaft 72, second driving shaft 73 and Third transmission shaft 75 is coaxially disposed, and idler wheel is with turn for stating the first transmission shaft 72, second driving shaft 73 and third transmission shaft 75 It moves and rotates, the rolling route of idler wheel is located at same straight line, and idler wheel is located at bottom of the bearing frame 24 far from 23 side of interconnecting piece.Rolling Wheel is relatively fixed with transmission shaft, rotates together in company with transmission shaft.Due to all 4th transmission shafts 74 and second driving shaft 73 with And third transmission shaft 75 rotates synchronously, the second tourelle 742 and the also fully synchronized rotation of the first tourelle 734, thus Avoid carrier 1 causes carrier 1 to deviate travel route etc. since each tourelle is asynchronous during the motion.

Fig. 6 is further regarded to, Fig. 6 is the schematic diagram of internal structure of third conveyer belt in Fig. 1 intelligent carrier.

In conjunction with Fig. 1-6, carrier main body 2 includes conveyer belt support component 10, and conveyer belt support component 10 includes bearing frame 24, the top of bearing frame 24 is equipped with bearing plate 27.Bearing frame 24 is used to support the first conveyer belt 211, the second conveyer belt 212, Three conveyer belts 221 and the 4th conveyer belt 222.Bearing plate 27 is equipped with multiple first through hole 271, by 27 lower part of bearing plate Section components exposure.It should be noted that due to the first conveyer belt 211, the second conveyer belt 212, third conveyer belt 221 and Four conveyer belts 222 are mutually symmetrical, and 10 structure of conveyer belt support component of bottom is also symmetrical, and therefore, the application is only to the The conveyer belt support component 10 of 221 bottom of one conveyer belt 211 and third conveyer belt is described, to the biography of other conveyer belt bottoms Band support component 10 is sent to repeat no more.

In present embodiment, the conveyer belt support component 10 includes positioned at rib bearing frame 24 two sides and be parallel to each other The both ends of beam 25 and supporting beam 26, supporting beam 26 and rib beam 25 protrude the both ends of bearing frame 24, supporting beam 26 and rib respectively The both ends of beam 25 are used to carry the third belt driving shaft 2211 and third belt driven shaft 2212 of third conveyer belt 221.

In present embodiment, bearing frame 24 includes orthogonal girder 241 and secondary beam 242, and supporting beam 26 is perpendicular to master Beam 241.It is equipped with and multiple its parallel first transmission shafts 72 and second driving shaft 73 between girder 241.First transmission shaft, 72 He Second driving shaft 73 is respectively used to driving, and tourelle rotates thereon, and then bearing frame 24 is driven to translate, 72 He of the first transmission shaft Second driving shaft 73 and secondary beam 242 are hinged, and first through hole 271 is located at the first transmission shaft 72 and second driving shaft 73 and secondary beam 242 The top of hinged place, by the exposure of the hinged place of the first transmission shaft 72 and second driving shaft 73 and secondary beam 242.

In present embodiment, the first synchronous card slot 733 and are respectively equipped on the first transmission shaft 72 and second driving shaft 73 Two synchronous card slots 742.First, which synchronizes the card slot 742 synchronous with second of card slot 733, passes through synchronous belt (not identifying) connection.First through hole 271 are located at the first top for synchronizing the card slot 742 synchronous with second of card slot 733, by the first synchronous card slot 733 and the second sync card The exposure of slot 742.In present embodiment, the synchronization card slot on adjacent transmission shaft passes through synchronous band connection, and first through hole 271 is located at The top of synchronous card slot will synchronize card slot exposure.In other embodiments, it is also possible to same on non-conterminous transmission shaft It walks card slot and passes through synchronous band connection, only need to guarantee that multiple transmission shafts are able to drive carrier main body 1 and move synchronously.

In present embodiment, the lower section of synchronous belt is equipped with roller 262, and roller 262 is used to support the synchronous belt, and first is logical Hole 271 is located at the top of roller 262.Further, roller 262 is perpendicular to girder 241, and both ends are respectively hinged at adjacent time On beam 242, roller 262 is rotated around its wheel shaft.Roller 262 supports synchronous belt when synchronous belt moves, to prevent synchronous belt sag into And influence the transmission effect of transmission shaft.In addition, roller 262 rotates the frictional force that can reduce synchronous belt movement.On roller 262 First through hole 271 is set, can be that roller 262 carries out the maintenance works such as upper lubricating oil and cleaning by first through hole 271, with Keep the normal work of synchronous belt.

In present embodiment, bearing frame 24 is equipped with multiple lug bosses 243 close to the side of bearing plate 27, and bearing plate 27 is close The side of bearing frame 24 is equipped with multiple groove (not shown) corresponding with lug boss 243, and lug boss 243 is embedded in groove.By recessed Bearing plate 27 and bearing frame 24 are tightly fastened togather by the cooperation of slot and lug boss 243, limit the horizontal fortune of bearing plate 27 It is dynamic, when conveyer belt is when opposite bearing plate 27 move, it is unlikely to so that translation and then damage conveyer belt occur for bearing plate 27.

In present embodiment, bearing plate 27 is equipped with multiple barrel (not shown), and the roller bearing of barrel is hinged on load-bearing On plate 27, the surface of barrel is parallel to bearing plate 27, and barrel is used to reduce the friction between bearing plate 27 and conveyer belt.

In present embodiment, the two sides of bearing plate 27 are connect by way of being spirally connected with rib beam 25 and supporting beam 26, are held Weight plate 27 is equipped with the second through-hole 272, and bearing plate 27 is threadedly coupled by the second through-hole 272 with bearing frame 24.Pass through bearing plate 27 are threadedly coupled with bearing frame 24, limit the movement of bearing plate 27, improve stability when bearing plate 27 works.

Further, the height of rib beam 25 and supporting beam 26 is higher than the upper surface of bearing plate 27.Rib beam 25 and support Beam 26 can prevent vehicle 5 from skidding off conveyer belt when moving on a moving belt.

In present embodiment, first driving device 7 drives the working method of the movement of intelligent carrier 1 are as follows: the first driving dress The rotation of 7 the first sprocket wheels of driving 71 is set, the first sprocket wheel 71 is rotated by first the second sprocket wheel of chain-driving 721.Second sprocket wheel, 721 band Dynamic first transmission shaft 72 rotation, and then the third sprocket wheel 722 at 72 both ends of the first transmission shaft is driven to rotate.The third sprocket wheel at both ends 722 drive the second driving shaft 73 of two sides to rotate by the second chain and the 4th sprocket wheel 731.Second driving shaft 73 and third transmission It is rotated between the 5th sprocket wheel 732 on axis 75 by third chain syn-chro-step.Second driving shaft 73 and third transmission shaft 75 pass through same Step band drives the 4th transmission shaft 74 to rotate synchronously, and rotates synchronously between multiple 4th transmission shafts 74 also by synchronous belt.So far, Second driving shaft 73, third transmission shaft 75 and the 4th transmission shaft 74 being distributed on bearing frame 24 rotate synchronously, i.e., second passes The first tourelle 734 on moving axis 73 and the second tourelle 742 on the 4th transmission shaft 74 rotate synchronously, so that intelligence It can the whole steady advance of carrier 1.

The working method for driving first tire clamping device 3 to move in order to illustrate the second driving device of the application 6.Refering to figure 7 and Fig. 8, Fig. 7 are partial structural diagram of Fig. 1 intelligent carrier at the second driving device, and Fig. 8 is Fig. 1 intelligent carrier The schematic diagram of internal structure of middle first tire clamping device.

In conjunction with Fig. 1-8, in present embodiment, the bottom of first tire clamping device 3 is equipped with third tourelle 32.Third Tourelle 32 only can need to guarantee first tire clamping device 3 in opposite ground moving for idler wheel, crawler belt or sprocket wheel etc. Resistance is smaller.The output end of second driving device 6 is connect by the 5th transmission shaft 62 with first tire clamping device 3, the Five transmission shafts 62 and first tire clamping device 3 are hinged, and the second driving device 6 driving first tire clamping device 3 passes through third Tourelle 32 is translated with respect to carrier main body 2.

In present embodiment, the second driving device 6 is parallel to crossbeam 231, on the output end 61 of 6 one end of the second driving device Equipped with the 5th sprocket wheel 611, the 5th sprocket wheel 611 is coaxially disposed with output end 61.Output end 61 is driven when second driving device 6 works And the 5th sprocket wheel 611 rotation on output end 61, and then first tire clamping device 3 is driven to move.

In the present embodiment, the second driving device 6 can be direct current generator or alternating current generator, drive in other embodiments Motor can also drive first tire clamping device 3 to move for cylinder, hydraulic device etc. using cylinder, hydraulic and other modes Device, this will not be repeated here.

In the present embodiment, the 5th transmission shaft 62 is equipped with the 7th sprocket wheel 621.7th sprocket wheel 621 and the 5th transmission shaft 62 coaxial arrangements, the setting of the 7th sprocket wheel 621 are located at the position opposite with the 5th sprocket wheel 611 at 62 middle part of the 5th transmission shaft.? When second driving device 6 drives the rotation of the 5th sprocket wheel 611, the rotation of the 7th sprocket wheel 621 is driven by the 4th chain (not shown), into And drive 62 synchronous rotary of the 5th transmission shaft.

In the present embodiment, the kinetic energy of the second driving device 6 output in a manner of chain drive being transferred to the 5th On transmission shaft 62.In other embodiments, the 5th transmission shaft 62 and the output end of the second driving device 6 can also by belt or Shaft coupling connection only needs the second driving device 6 to be able to drive the rotation of the 5th transmission shaft 62 at work, does not limit herein It is fixed.

Further, first tire clamping device is able to drive in order to convert the power for driving the 5th transmission shaft 62 to rotate to 3 edges are parallel to the power that the direction of the first conveyer belt 211 moves.Carrier main body 2 further includes at least two the 6th transmission shafts 63, In, the 6th transmission shaft 63 is located at the 5th transmission shaft 62 close to the side of first tire clamping device 3, and the second driving device 6 is located at Between 5th transmission shaft 62 and the 6th transmission shaft 63.

In present embodiment, 62 both ends of the 5th transmission shaft are and hinged close to the first conveyer belt 211 and third conveyer belt 221 In carrier main body 2.5th transmission shaft, 62 both ends are respectively arranged at least one the 8th sprocket wheel 622.8th sprocket wheel 622 is nested On the 5th transmission shaft 62, and the 8th sprocket wheel 622 and the 5th transmission shaft 62 are coaxially disposed.

In the present embodiment, the 6th transmission shaft 63 is intervally installed, and every one the 6th transmission shaft 63 is equipped at least one A 9th sprocket wheel 631, the 6th transmission shaft 63 and the 9th sprocket wheel 631 are coaxially disposed, and the 9th chain on every one the 6th transmission shaft 63 It is equal with 622 quantity of the 8th sprocket wheel of 62 one end of the 5th transmission shaft to take turns 631 quantity, every one the 9th sprocket wheel 631 and every one the 8th chain Wheel 622 is opposite to each other.

In the present embodiment, the 8th sprocket wheel 622 and the 9th sprocket wheel 631 on the other side pass through the 5th chain (not shown) Connection.In other embodiments, the 8th sprocket wheel 622 can also be connected with the 9th sprocket wheel 631 on the other side by rack gear.Into one Step, sprocket wheel can be also not provided on the 5th transmission shaft 62 and the 6th transmission shaft 63, the 5th transmission shaft 62 and the 6th transmission shaft 63 are logical Belt connection is crossed, only needs the 5th transmission shaft 62 to be able to drive the rotation of the 6th transmission shaft 63, it is not limited here.

In the present embodiment, the quantity of the 6th transmission shaft 63 is two, and there are two for setting on every 1 the 6th transmission shaft 63 Nine sprocket wheels 631, correspondingly, 62 both ends of the 5th transmission shaft are respectively set there are two the 8th sprocket wheel 622, the 8th chain positioned at the same end It is spaced a distance between wheel 622, the distance between the 9th sprocket wheel 631 in the distance and same 6th transmission shaft 63 phase Deng.

In other embodiments, the 9th sprocket wheel 631 can also be only set on the 6th transmission shaft 63, correspondingly, the The 8th sprocket wheel 622 is respectively set in six transmission shafts, 63 both ends, connects the 8th sprocket wheel 622 and the 9th sprocket wheel 631 by chain.Together Sample, 63 quantity of the 6th transmission shaft may be four, be provided with the 9th sprocket wheel 631 on each 6th transmission shaft 63, often One the 8th sprocket wheel 622 on one the 9th sprocket wheel 631 and the 6th transmission shaft 63 is opposite, the quantity and the 9th sprocket wheel of the 6th transmission shaft 63 631 quantity is also possible to other quantity, only needs the 5th transmission shaft 62 to be able to drive the rotation of the 6th transmission shaft 63, herein not It limits.

In the present embodiment, carrier 1 includes drive rod 65 and fixing seat 64, fixing seat 64 close to the 5th chain one Side is fixed on the 5th chain.Fixing seat 64 is equipped with groove (not identifying) close to the side of first tire clamping device, drive rod 65 are placed in groove close to one end of fixing seat 64, the one end of drive rod 65 far from fixing seat 64 and first tire clamping device 3 is hinged.Drive rod 65 is connect by hinged mode with fixing seat 64, and drive rod 65 can fix seat 64 relatively and turn on vertical plane It is dynamic.

In the present embodiment, the quantity of fixing seat 64 is two, is located at the two sides of the second driving device 6, and solid Reservation 64 is located at the 5th transmission shaft 62 close to the side of the second driving device 6, distance phase of the fixing seat 64 to the 5th transmission shaft 62 Deng.In other embodiments, the distance of fixing seat 64 to the 5th transmission shaft 62 can also be unequal, only need to be in the second driving device When 6 work, fixing seat 64 is able to drive the mobile identical distance of drive rod 65, it is not limited here.

In the present embodiment, it is applied to pressure on the 5th chain in order to mitigate fixing seat 64, keeps the 5th chain-driving solid Reservation 64 is translated along the direction for being parallel to the first conveyer belt 211.Carrier main body 2 further includes sliding rail 66, and fixing seat 64, which is located at, to be slided The inside relative to each other of rail 66.In the work of the second driving device 6, fixing seat 64 is under the drive of the 5th chain on sliding rail 66 Along the direction translation for being parallel to the first conveyer belt 211.

In the present embodiment, the second driving device 6 can be direct current generator or alternating current generator, drive in other embodiments Motor can also drive first tire clamping device 3 to move for cylinder, hydraulic device etc. using cylinder, hydraulic and other modes Device, this will not be repeated here.

In the present embodiment, the kinetic energy of the second driving device 6 output in a manner of chain drive being transferred to the 5th On transmission shaft 62.In other embodiments, the 5th transmission shaft 62 and the output end of the second driving device 6 can also by belt or Shaft coupling connection only needs the second driving device 6 to be able to drive the rotation of the 5th transmission shaft 62 at work, does not limit herein It is fixed.

The bottom of second tire clamping device 4 is equipped with third tourelle 32, and the output end of fourth drive device 9 passes through biography Moving axis is connect with the second tire clamping device 4.Fourth drive device 9 drives the second tire clamping device 4 to roll by third and fills 32 opposite carrier main bodys 2 are set to translate.Fourth drive device 9 drives the mode of the second tire clamping device 4 to fill with the second driving The mode for setting 6 driving first tire clamping devices 3 is similar, and details are not described herein.

In present embodiment, drive rod 65 includes the first drive rod 651 and the second drive rod 652.Second driving device 6 It is fixed on interconnecting piece 23, the second driving device 6 is located at first driving device 7 close to the side of first tire clamping device 3；The The direction for being axially parallel to vehicles while passing intelligent carrier 1 of one drive rod 651 and the second drive rod 652.Second driving dress 6 are set by the first drive rod 651 of driving and the second drive rod 652 along its axial movement, and then drives first tire clamping dress 3 are set close to or far from interconnecting piece 23.The second tire clamping device 4 due to first tire clamping device 3 and positioned at its opposite side is Therefore the identical tire clamping device of structure repeats no more the structure of the second tire clamping device 4.

In present embodiment, first tire clamping device 3 is pressed from both sides including the actuating arm 36, two of clamping device main body 35, two Gripping arm 31 and connector 33, two actuating arms 36 and two clamping limbs 31 are symmetrically distributed in the two sides of connector 33, two drives 36, two each one end of clamping limb 31 of swing arm are hinged with clamping device main body 35 respectively, and each other end is flexibly connected.First drive rod 651 and second each one end of drive rod 652 connect with clamping device main body 35 towards 23 side of interconnecting piece；First drive rod 651 and second each other end of drive rod 652 be flexibly connected with the output end of the second driving device 6；And 651 He of the first drive rod Second drive rod 652 is equal to two actuating arms 36 and clamping device main body 35 at a distance from the tie point of clamping device main body 35 Hinge joint is equidistant.Two actuating arms 36 at a distance from the hinge joint of clamping device main body 35 less than two clamping limbs 31 with The distance of the hinge joint of clamping device main body 35.The first end of connector 33 is hinged with two actuating arms 36 respectively, and connector 33 are greater than two actuating arms 36 at a distance from the hinge joint of clamping device main body 35 at a distance from the hinge joint of two actuating arms 36, Hole (not identifying) is set in carrier main body 2, the first end of connector 33 passes through hole and interconnecting piece on interconnecting piece 23 23 are flexibly connected.In other embodiments, the company of the first drive rod 651 and the second drive rod 652 and clamping device main body 35 The distance of contact can not also be equidistant with two actuating arms 36 and the hinge joint of clamping device main body 35, and the application is to this It is not construed as limiting.

The second end of connector 33 is equipped with blocking portion 334, and blocking portion 334 is driven in the second driving device 6 by driving first Lever 651 and the second drive rod 652 move along its axis, and conflict when driving first tire clamping device 3 far from interconnecting piece 23 Hole edge generates pulling force to connector 33, pushes the actuating arm 36 connecting with connector 33 to rotate, and then drive clamping limb 31 Rotation, so that clamping limb 31 protrudes into the vehicle bottom.

In present embodiment, the first end and clamping device main body 35 of actuating arm 36 are hinged, and connector 33 includes successively connecting First connecting rod 331, drawhead 332 and the second connecting rod 333 connect.The middle part of drawhead 332 and first connecting rod 331 First end is fixedly connected, the second end of first connecting rod 331 and carrier main body 2 can it is separate/be closely flexibly connected, drawhead 332 both ends pass through the second connecting rod 333 respectively and connect with actuating arm 36, one end and the actuating arm 36 of the second connecting rod 333 Middle part is hinged, and the end of the other end and drawhead 332 is hinged.Pulling force or thrust keep clamping device main body 35 and connector 33 opposite It moves, and then make 333 one end of the second connecting rod act on actuating arm 36 to make its rotation.Specifically, the middle part of drawhead 332 and the For the first end of one connecting rod 331 by being spirally connected, being clamped, weld or integrally formed mode connects, the application is not construed as limiting this. Active force is acted on the middle part of actuating arm 36 by drawhead 332 and the second connecting rod 333 by first connecting rod 331, to make It obtains actuating arm 36 to rotate around its first end, and then provides driving force to clamping limb 31.

Further, first connecting rod 331 passes through hole and is flexibly connected by hole with carrier main body 2, and first connects The second end of extension bar 331 is equipped with blocking portion 334, and blocking portion 334 is when clamping device main body 35 is far from carrier main body 2 with first Connecting rod 331 moves, and keeps first connecting rod 331 static with respect to carrier main body 2 when contradicting hole.Specifically, blocking portion 334 be a cross bar, and cross bar is perpendicular to first connecting rod 331, and the middle part of cross bar and the second end of first connecting rod 331 are by being spirally connected Or the mode of welding connects, the length of cross bar is greater than the aperture of hole.Driving device drives clamping device main body 35 far from carrying When device main body 2, first connecting rod 331 is first in company with clamping device main body 35 far from carrier main body 2.In other embodiments In, blocking portion 334 or disk or angle steel etc. need to only guarantee that blocking portion 334 can prevent first connecting rod 331 integrally sliding Hole out.When blocking portion 334 contradicts hole, since blocking portion 334 is a cross bar, and the length of cross bar is greater than hole Aperture, blocking portion 334 can not pass through hole, so that first connecting rod 331 is static with respect to carrier main body 1.Blocking portion 334 Pulling force is generated to first connecting rod 331 when contradicting hole, pulling force relatively moves clamping device main body 35 and connector 33, into And so that 333 one end of the second connecting rod is acted on actuating arm 36 makes its rotation.First connecting rod 331 is the same as carrier main body 1 together phase Clamping device main body 35 is moved.And actuating arm 36 is moved with clamping device main body 35, is driven so that first connecting rod 331 is opposite Arm 36 moves, and first connecting rod 331 is acted on active force in actuating arm 36 by drawhead 332 and the second connecting rod 333 Portion so that actuating arm 36 is rotated around its first end, and then provides driving force to clamping limb 33.Due to first connecting rod 331 The power acted on actuating arm 36 is the power source since clamping device main body 35 and 2 relative motion of carrier main body generate From in the driving device of driving clamping device main body 35 and 2 relative motion of carrier main body, do not need that driving device is separately provided, Manufacturing cost can be reduced and improve the harmony that tire clamping limb driving equipment 1 works.

Further, first tire clamping device includes return unit 34, and return unit 43 is hydraulic stem, one end of return unit 34 Hinged with clamping device main body 35, the middle part of the other end and actuating arm 36 of return unit 34 is hinged, and return unit 34 is in the second posture For lower stress to store potential energy, actuating arm 36 is maintained at the first posture in the active force revocation of connector 33 by return unit 34.By It is derived from the driving device of driving clamping device main body 35 and 2 relative motion of carrier main body in the power of connector 33, is resetted The power of part 34 does not need additional driving device from connector 33, therefore, saves cost of manufacture.In other implementations In mode, return unit 34 is also possible to spring or other elastic devices.

The work side of the first conveyer belt 21 and the movement of the second conveyer belt 22 is driven in order to illustrate the application third driving device 8 Formula is partial structural diagram of Fig. 1 intelligent carrier at third driving device refering to Fig. 9, Fig. 9.

In conjunction with 1-9, in present embodiment, the output end of third driving device 8 passes through the first transmission component 81 and the first skin Band driving shaft 2111 and third belt driving shaft 2211 connect.Third driving device 8 drives the rotation of the first transmission component 81, in turn The first belt driving shaft 2111 and third belt driving shaft 2211 is driven to rotate.The output end of third driving device 8 passes through second Transmission component 82 is connect with the second belt driving shaft 2112 and the 4th belt driving shaft 2212.The driving of third driving device 8 second Transmission component 82 rotates, and then drives the second belt driving shaft 2112 and the 4th belt driving shaft 2212.

Carrier main body 2 includes deceleration shaft 83, and deceleration shaft 83 receives the power that third driving device 8 is transmitted, and is driven First transmission component 81 and the rotation of the second transmission component 82, to drive the first belt driving shaft 2111, third belt driving shaft 2211, the second belt driving shaft 2112 and the rotation of the 4th belt driving shaft 2212.The power of third driving device 8 can be by subtracting Fast shaft 83, which is divided, is transferred to the first transmission component 81 and the second transmission component 82, the first transmission component 81 and the second transmission component 82 both ends can be respectively with a belt active axis connection, and then the first transmission component 81 and the second transmission component 82 are acceptable single The power of one third driving device 8 drives multiple belt driving shafts to rotate simultaneously, so that conveyer belt rotates, from mechanical structure The upper synchronism for guaranteeing each conveyer belt.Deceleration shaft 83, the first transmission component 81 and the second transmission component 82 can be respectively set On different crossbeams 231, as long as it can be realized transmission.

In present embodiment, third driving device 8 is installed on a crossbeam 231, and ipsilateral with deceleration shaft 83, Jin Erli In reducing third driving device 8 and the occupied space of deceleration shaft 83, so that the structure of intelligent carrier 1 is compact, layout is closed Reason.Between third driving device 8 and deceleration shaft 83, deceleration shaft 83 and the first transmission component 81 and the second transmission component 82 Power transmission mode is, for example, chain conveyer or V belt translation.Optionally, the window passed through for chain or belt is also set on crossbeam 231.

In turn, the first transmission component 81 and the second transmission component 82 receive the driving force from third driving device 8, and will Driving force is passed to simultaneously on two groups of belt driving shafts connected to it, therefore two belt driving shafts are simultaneously operable, and is protected Their synchronism is held, in order to which the first conveyer belt 211 and third conveyer belt 221 and first tire add the folder on clamping device 3 Vehicle 5 is carried in carrier main body 2 by the cooperation of gripping arm 31.

In present embodiment, the shaft of third driving device 8 is equipped with the tenth sprocket wheel 84, and deceleration shaft 83 is equipped with 11st sprocket wheel 831, the tenth sprocket wheel 84 are connect with the 11st sprocket wheel 831 by chain.Wherein, the size of the tenth sprocket wheel 84 is less than The size of 11st sprocket wheel 831, and then the angular speed of deceleration shaft 83 is less than the angular speed of the shaft of third driving device 8.Cause And deceleration transmission can be achieved between the shaft of third driving device 8 and deceleration shaft 83, what raising was exported through deceleration shaft 83 Torque.

Meanwhile the 12nd sprocket wheel 832 is additionally provided in deceleration shaft 83, the first power shaft 811 is equipped with the 13rd sprocket wheel 813, the 12nd sprocket wheel 832 is connect with the 13rd sprocket wheel 813 by chain.Wherein, the size of the 12nd sprocket wheel 832 is less than the tenth The size of one sprocket wheel 831 further increases the torque of the output of deceleration shaft 83.The size of 12nd sprocket wheel 832 is also less than The size of 13rd sprocket wheel 813 increases the received torque of the first power shaft 811.

Further, the first power shaft 811 passes through the first connector 812 and the first belt driving shaft 2111 and third skin Band driving shaft 2211 connects.For example, the first power shaft 811 and the first belt driving shaft 2111 and third belt driving shaft 2211 Not coaxial line needs to carry out transition using connector at this time.First connector 812 is, for example, shaft coupling, can more specifically be adopted With Hooks coupling universal coupling to solve the first power shaft 811 and the first belt driving shaft 2111 and third belt driving shaft 2211 not The problem of coaxial line is driven.First power shaft 811 can also be with the first belt driving shaft 2111 and third belt driving shaft 2211 coaxial lines, and then the first power shaft 811 can be direct with the first belt driving shaft 2111 and third belt driving shaft 2211 Connection is connected by the first connector 812 good certainly.

In present embodiment, the 14th sprocket wheel 833, the second power of the second transmission component 82 are additionally provided in deceleration shaft 83 Shaft 821 is equipped with the 15th sprocket wheel 823, and the 14th sprocket wheel 833 is connected with the 15th sprocket wheel 823 by chain with output driving Power.Between chain and the 12nd sprocket wheel 832 and the 13rd sprocket wheel 813 between 14th sprocket wheel 833 and the 15th sprocket wheel 823 Chain mutually staggers.Second power shaft 821 passes through the second connector 822 and the second belt driving shaft 2121 and the 4th belt master Moving axis 2221 connects.First transmission component 81 is similar with the structure of the second transmission component 82, and the kind of drive is similar, herein not superfluous It states.

In present embodiment, the first power shaft 811 and the second power shaft 821 pass through attachment base two crossbeams 231 of rotation Between, deceleration shaft 83 is located therein the side that a crossbeam 231 deviates from the first power shaft 811, third driving device 8 and deceleration Shaft 83 is ipsilateral and is set on same crossbeam 231.

In present embodiment, third driving device 8 drives the mode of the first conveyer belt 21 and the movement of the second conveyer belt 22 are as follows: 8 output driving power of third driving device rotates the tenth sprocket wheel 84, and the tenth sprocket wheel 84 passes through in chain-driving deceleration shaft 83 The 11st sprocket wheel 831 rotation, and then drive deceleration shaft 83 rotate.Deceleration shaft 83 passes through the 12nd sprocket wheel 832 and the tenth Four sprocket wheels 833 drive the 13rd sprocket wheel 813 and the 15th sprocket wheel 823 to rotate respectively, and then drive the first power shaft 811 and the The rotation of two power shafts 821.First power shaft 811 drives 2211 turns of the first belt driving shaft 2111 and third belt driving shaft It is dynamic, and then the first transmission belt 211 and third conveyer belt 221 is driven to rotate；Second power shaft 821 drives the second belt driving shaft 2121 and the 4th belt driving shaft 2221 rotate, and then drive the second transmission belt 212 and the 4th conveyer belt 222 rotation.So far, One transmission belt 211, the second transmission belt 212, third conveyer belt 221 and the fully synchronized rotation of the 4th conveyer belt 222.

It is in contrast to the prior art, the application provides a kind of intelligent carrier, and intelligent carrier includes carrier master Body, first tire clamping device, first driving device, the second driving device and third driving device, carrier main body include Positioned at the interconnecting piece of both two sides and the first level transport establishment and the second horizontal transport mechanism that are parallel to each other, and connection, First level transport establishment and the second horizontal transport mechanism are used for vehicle；First tire clamping device and carrier main body are living Dynamic connection；First driving device is for driving carrier bulk motion, and the second driving device is for driving first tire clamping dress It rests against close or remote from carrier main body, third driving device is for driving first level transport establishment and the second horizontal transport mechanism Movement, first driving device, the second driving device and third driving device are detachably mounted on interconnecting piece.The application energy Enough reduce intelligent carrier manufacturing cost and improves the stability of intelligent carrier work.

The above is only embodiments herein, are not intended to limit the scope of the patents of the application, all to be said using the application Equivalent structure or equivalent flow shift made by bright book and accompanying drawing content is applied directly or indirectly in other relevant technology necks Domain similarly includes in the scope of patent protection of the application.

Claims (20)

1. a kind of intelligent carrier, which is characterized in that the intelligent carrier includes carrier main body, first tire clamping dress It sets, first driving device, the second driving device and third driving device,

The carrier main body includes the first level transport establishment and the second horizontal transport mechanism for being located at two sides and being parallel to each other, And the interconnecting piece of both connections, the first level transport establishment and second horizontal transport mechanism are used for vehicle；

The first tire clamping device is connect with the carrier subject activity, to clamp or unclamp the tire of vehicle；

The first driving device is for driving the carrier bulk motion, and second driving device is for driving described the One tire clamping device is close to or far from the carrier main body, and the third driving device is for driving the first level to transport Transfer mechanism and the movement of second horizontal transport mechanism, the first driving device, the second driving device and third driving dress It sets and is detachably mounted on the interconnecting piece.

2. intelligent carrier according to claim 1, which is characterized in that the first level transport establishment includes the first fortune Defeated band, second horizontal transport mechanism include the second conveyer belt, and the interconnecting piece includes a plurality of is parallel to each other and perpendicular to institute State the crossbeam of the first conveyer belt transporting direction, and the load-bearing positioned at the lower section of first conveyer belt and second conveyer belt Frame, the bearing frame are used to support first conveyer belt and second conveyer belt, and the both ends of the crossbeam are connected to On first conveyer belt and the bearing frame of second conveyer belt bottom.

3. intelligent carrier according to claim 2, which is characterized in that the first driving device, the second driving device And third driving device is motor, the first driving device, the second driving device and third driving device are located at described Between crossbeam, and it is fixed on the crossbeam by way of being spirally connected or being clamped.

4. intelligent carrier according to claim 2, which is characterized in that first conveyer belt includes length identical One conveyer belt and the second conveyer belt, first conveyer belt and second conveyer belt are located at same straight line, first transmission Band is located at second conveyer belt close to the side of the first tire clamping device；Second conveyer belt includes that length is identical Third conveyer belt and the 4th conveyer belt, the third conveyer belt and the 4th conveyer belt are located at same straight line, the third Conveyer belt is located at the 4th conveyer belt close to the side of the first tire clamping device.

5. intelligent carrier according to claim 4, which is characterized in that the number of the bearing frame is 4, and is located at The bottom of first conveyer belt, second conveyer belt, the third conveyer belt and the 4th conveyer belt, to support State the first conveyer belt, second conveyer belt, the third conveyer belt and the 4th conveyer belt, first conveyer belt and It is hinged between the bearing frame of second conveyer belt bottom, the institute of the third conveyer belt and the 4th conveyer belt bottom It states hinged between bearing frame.

6. intelligent carrier according to claim 4, which is characterized in that the first driving device, the second driving device And third driving device, between first conveyer belt and the third conveyer belt, second driving device is located at institute First driving device is stated close to the side of the first tire clamping device, the third driving device is located at first driving Side of the device far from second driving device.

7. intelligent carrier according to claim 6, which is characterized in that the carrier main body include the first transmission shaft, Second driving shaft and third transmission shaft, first transmission shaft, the second driving shaft and the third transmission shaft are parallel, And the second driving shaft and third transmission shaft are hinged with the bearing frame；First transmission shaft receives driving force, so that The first transmission shaft rotation；The second driving shaft and the first transmission axis connection, the second driving shaft and described the Three are driven axis connections, and it is described steadily to carry to be equipped with the first tourelle on the second driving shaft and the third transmission shaft Bearing frame, first transmission shaft drive the second driving shaft rotation, and the second driving shaft drives the third transmission shaft First tourelle is driven to rotate for rotation, the second driving shaft and the third transmission shaft so that the bearing frame is transported It is dynamic, so that the carrier bulk motion.

8. intelligent carrier according to claim 7, which is characterized in that the second driving shaft, the third transmission shaft For scattering device in the bearing frame, the carrier main body includes multiple the 4th transmission shafts being parallel to each other, the 4th transmission Axis and the bearing frame are hinged, and multiple 4th transmission shafts are parallel to the second driving shaft, the 4th transmission shaft with The second driving shaft is located at same level, and the 4th transmission shaft is on the bearing frame along the extension side of the bearing frame To distribution, and the two sides of the interconnecting piece are symmetrically distributed in, while being located at the second driving shaft, the third transmission shaft two-phase The outside of back, by synchronous band connection between the 4th transmission shaft ipsilateral positioned at the interconnecting piece, and described at least one 4th transmission shaft passes through synchronous band connection with the second driving shaft.

9. intelligent carrier according to claim 7, which is characterized in that the second driving shaft and the third transmission shaft Between connected by chain, the second driving shaft passes through the rotation of third transmission shaft described in chain drive.

10. intelligent carrier according to claim 7, which is characterized in that the side that the second driving shaft is driven by axis Formula drives the third transmission shaft rotation.

11. intelligent carrier according to claim 6, which is characterized in that the bottom of the first tire clamping device is set There is the second tourelle, to carry the first tire clamping device, the carrier main body includes drive rod, the drive rod It is parallel to the transporting direction of first conveyer belt, one end of the drive rod is connect with the first tire clamping device, institute The other end for stating drive rod is flexibly connected with the output end of second driving device, and second driving device drives the drive Lever moves along its axis the first tire clamping device, so that the first tire clamping device is rolled by described second The relatively described carrier main body translation of device.

12. intelligent carrier according to claim 6, which is characterized in that first conveyer belt is passed close to described second One end of band is sent to be equipped with the first belt driving shaft, the first belt driving shaft drives the first conveyer belt rotation；Described Three conveyer belts are equipped with third belt driving shaft close to one end of the 4th conveyer belt, described in third belt driving shaft driving The rotation of third conveyer belt；The first belt driving shaft and the third belt driving shaft are located at same axis, and the third is driven The output end of dynamic device passes through the first transmission component and the first belt driving shaft and the third belt active axis connection.

13. intelligent carrier according to claim 12, which is characterized in that second conveyer belt is passed close to described first One end of band is sent to be equipped with the second belt driving shaft, the second belt driving shaft drives the second conveyer belt rotation；Described Four conveyer belts are equipped with the 4th belt driving shaft close to one end of the third conveyer belt, described in the 4th belt driving shaft driving The rotation of 4th conveyer belt；The second belt driving shaft and the 4th belt driving shaft are located at same axis, and the third is driven The output end of dynamic device passes through the second transmission component and the second belt driving shaft and the 4th belt active axis connection.

14. intelligent carrier according to claim 13, which is characterized in that the bearing frame is equipped with bearing plate, described Functional unit is provided in bearing frame, the functional unit is at least covered by the bearing plate part, and the bearing plate covers institute The position for stating functional unit is equipped with opening, at least partly to expose the functional unit.

15. intelligent carrier according to claim 14, which is characterized in that the bearing frame close to the bearing plate one Side is equipped with multiple lug bosses, and the bearing plate is equipped with multiple corresponding with the lug boss recessed close to the side of the bearing frame Slot, the lug boss are embedded in the groove, and the bearing frame two sides are equipped with the rib beam being parallel to each other and supporting beam, the rib Beam is located at side of the bearing frame far from the interconnecting piece, and the supporting beam is located at the bearing frame close to the interconnecting piece Side, the rib beam is vertical with first conveyer belt, and the both ends of the rib beam and the supporting beam are respectively along mutual back From the prominent bearing frame in direction both ends, to support the belt driving shaft and the belt driven axle.

16. intelligent carrier according to claim 15, which is characterized in that the bearing plate is equipped with multiple barrels, The roller bearing of the barrel is hinged on the bearing plate, and the surface of the barrel is parallel to the bearing plate, the roller Body is used to reduce the friction between the bearing plate and the conveyer belt.

17. intelligent carrier according to claim 16, which is characterized in that the two sides of the bearing plate and the rib beam Connected by way of being spirally connected with the supporting beam, the bearing plate be equipped with through-hole, the bearing plate by the through-hole with And bolt is threadedly coupled with the bearing frame, the rib beam and the upper table for supporting depth of beam to be higher than the bearing plate Face.

18. intelligent carrier according to claim 13, which is characterized in that the intelligent carrier includes the 4th driving dress It sets and is located at the carrier main body with the second tire clamping device, second tire clamping device and is pressed from both sides far from the first tire The side of device is held, the fourth drive device is and detachable between second conveyer belt and the 4th conveyer belt Be fixed on the interconnecting piece, the output end of the fourth drive device is flexibly connected with second tire clamping device, The fourth drive device drives the relatively described carrier main body translation of second tire clamping device.

19. intelligent carrier according to claim 18, which is characterized in that the crossbeam is connected by coil holder, the line Frame is respectively articulated with or is screwed on the crossbeam perpendicular to the crossbeam, the both ends of the coil holder.

20. intelligent carrier according to claim 3, which is characterized in that the motor is servo motor or stepper motor Any one of.