CN207876634U - telescopic machine hump mechanism - Google Patents

Abstract

The utility model discloses a kind of telescopic machine hump mechanisms, it is arranged on telescopic machine ontology, support plate including being symmetricly set on telescopic machine ontology both sides, rotation is provided with guide plate between two support plates, the tail portion of the guide plate sets gradually the direction-changing of restricted belt height of arch and conveying mechanism corresponding with slope-climbing machine height, the joining place of the direction-changing and the conveying mechanism is equipped with transmission mechanism so that direction-changing links with conveying mechanism.The height that belt empties is reduced by direction-changing first so that cargo thereon runs more stable stabilization, and extends the service life of belt.And by the conveying mechanism of deflecting come coordinate slope-climbing machine height convey, cargo can be delivered on slope-climbing machine, so solve in the prior art belt empty it is excessive caused by harmful effect.

Description

Telescopic machine hump mechanism

Technical field

The utility model is related to the conveying device field of logistic industry more particularly to a kind of humps on telescopic machine Mechanism.

Background technology

For current existing telescopic machine when carrying out cargo transfer, front end, which stretches to, carries out cargo carrying, tail in lorry End is adapted with slope-climbing machine, and cargo is guided to slope-climbing machine.In order to save place space, existing mode is the rack that will climb It is located on telescopic machine ontology so that be just directly entered on slope-climbing machine in the middle part of telescopic machine.However, belt can rise in above process Sky influences the service life of the steady conveying and belt of cargo on telescopic machine ontology.

Utility model content

To overcome disadvantages mentioned above, the purpose of this utility model is to provide a kind of telescopic machine hump mechanisms, reduce belt and rise Empty height, and realize and to be docked with slope-climbing machine.

In order to reach object above, the technical solution adopted in the utility model is：A kind of telescopic machine hump mechanism, setting exist On telescopic machine ontology, including it is symmetricly set on the support plate of telescopic machine ontology both sides, setting is rotated between two support plates Have a guide plate, the tail portion of the guide plate set gradually restricted belt height of arch direction-changing and with slope-climbing machine height pair The joining place of the conveying mechanism answered, the direction-changing and the conveying mechanism is equipped with transmission mechanism so that direction-changing with it is defeated Mechanism is sent to link.

The utility model reduces the height that belt empties first by direction-changing so that cargo operation thereon is more flat It is steadily fixed, and extend the service life of belt.And coordinate slope-climbing machine height to convey by the conveying mechanism of deflecting, it can Cargo is delivered on slope-climbing machine, so solve in the prior art belt empty it is excessive caused by harmful effect.

Preferably, the direction-changing includes Coupling Shaft, the first roll shaft and the second roll shaft, and the Coupling Shaft is resisted against guiding The tail portion of plate, and be fixed on telescopic machine ontology by supporting rack of transferring；First roll shaft against to conveying mechanism side, and Horizontally rotate and is arranged in two support plates；Being horizontally disposed between first roll shaft and Coupling Shaft has the of support belt operation One engagement plate；Second roll shaft horizontally rotates and is arranged in two support plates between Coupling Shaft and the first roll shaft；Skin Band returns to after guide plate, Coupling Shaft, the first engagement plate, the first roll shaft, the second roll shaft on telescopic machine ontology successively.By turning Spindle changes the trend that belt tilts upward so that belt operates in the first engagement plate, and pass through the first roll shaft, the second roll shaft Steering detour and reduce the operation height of belt, so that it is come back in the operation height of telescopic machine ontology.

It is further improved, the conveying mechanism is fixed or is rotatably arranged in two support plates.Conveying mechanism can pass through work Dynamic or fixed mode is arranged on the supporting plate.

Preferably, the conveying mechanism includes the third roll shaft for being resisted against the first roll shaft side, docked with slope-climbing machine Four roll shafts, are wound with independent belt between the third roll shaft and the 4th roll shaft, the third roll shaft, the both ends of the 4th roll shaft are equal Horizontally rotate and is arranged in two support plates；The second of the independent belt of support is provided between the third roll shaft, the 4th roll shaft Engagement plate.It is fixed on the supporting plate, in order to enable independent belt is connected with first by the rotation of third roll shaft and the 4th roll shaft Belt on plate can preferably be connected so that cargo thereon is stable.The high settings such as the first roll shaft and third roll shaft, and Angle between independent belt and the first engagement plate is between 160 °~180 °.

Preferably, the conveying mechanism includes the third roll shaft for being resisted against the first roll shaft side, docked with slope-climbing machine Four roll shafts are wound with independent belt between the third roll shaft and the 4th roll shaft；It is arranged between the third roll shaft, the 4th roll shaft There is the second engagement plate for supporting independent belt；The third roll shaft both ends horizontal is rotatably arranged in two support plates；Described The both ends of four roll shafts are arranged on bearing block, and the bearing block is fixedly linked with the second engagement plate；In support plate described in two It is symmetrically arranged with limiting slot, second engagement plate is fixedly linked by lock piece and the limiting slot.Pass through the second engagement plate It is fixedly linked with bearing block so that the 4th roll shaft can be moved with the lifting of the second engagement plate, can match difference Slope-climbing machine requirement for height.Certainly, in order to which better independent belt is connected with the belt on the first engagement plate, the limit of limiting slot Angle between parallactic angle degree and horizontal plane is 1 °~20 °, and by the high settings such as the first roll shaft and third roll shaft.

Preferably, the transmission mechanism includes being arranged in the drive sprocket of first roll shaft one end and setting in third roll shaft The driven sprocket of one end, the drive sprocket are located at homonymy with the driven sprocket and are connected between the two by chain.

Preferably, the transmission mechanism includes being arranged in the active synchronization belt wheel of first roll shaft one end and setting in third The driven synchronous pulley of roll shaft one end, the active synchronization belt wheel are located at homonymy with the driven synchronous pulley and lead between the two Synchronous belt is crossed to be connected.

Preferably, the front end both sides of the guide plate are both provided with directive wheel.Directive wheel uses so that telescopic machine is preceding After when moving guide plate will not be prevented to guide plate and telescopic machine main body destruction with telescopic machine ontology friction.

It is provided with slope board diagonally downward on guide plate where being preferably located between two directive wheels.Slope board is set Cargo can be entered guide plate driving guiding function by setting, during avoiding cargo transport

Description of the drawings

Fig. 1 is the structural front view that the utility model embodiment 1 is placed on telescopic machine；

Fig. 2 is the structure top view that the utility model embodiment 1 is placed on telescopic machine；

Fig. 3 is the structural schematic diagram of the utility model embodiment 1；

Fig. 4 is the structural schematic diagram of the utility model embodiment 2.

In figure：

1- telescopic machine ontologies；2- guide plates；3- conveying mechanisms；31- third roll shafts；The 4th roll shafts of 32-；33- independence skins Band；The second engagement plates of 34-；4- support plates；5- direction-changings；51- Coupling Shafts；The first roll shafts of 52-；The second roll shafts of 53-；54- One engagement plate；6- transmission mechanisms；7- directive wheels；8- slope boards.

Specific implementation mode

The preferred embodiment of the utility model is described in detail below in conjunction with the accompanying drawings, so that the advantages of the utility model It can be easier to be readily appreciated by one skilled in the art with feature, it is apparent clear to be made to the scope of protection of the utility model Define.

Embodiment 1

Shown in 1~Fig. 3 of attached drawing, a kind of telescopic machine hump mechanism in the present embodiment is arranged in telescopic machine ontology 1 On, including it is symmetricly set on the support plate 4 of 1 both sides of telescopic machine ontology, it is rotated between two support plates 4 and is provided with guide plate 2, the tail portion of the guide plate 2 sets gradually the direction-changing 5 of restricted belt height of arch and corresponding with slope-climbing machine height The joining place of conveying mechanism 3, the direction-changing 5 and the conveying mechanism 3 is equipped with transmission mechanism 6 so that direction-changing 5 with Conveying mechanism 3 links.

Specifically, the direction-changing 5 includes Coupling Shaft 51, the first roll shaft 52 and the second roll shaft 53, the Coupling Shaft 51 are resisted against the tail portion of guide plate 52, and are fixed on telescopic machine ontology 1 by supporting rack of transferring.First roll shaft 52 supports By to 3 side of conveying mechanism, and horizontally rotates and be arranged in two support plates 4；Between first roll shaft 52 and Coupling Shaft 51 Horizontally disposed the first engagement plate 54 for having support belt operation；Second roll shaft 53 is located at Coupling Shaft 51 and the first roll shaft 52 Between, and horizontally rotate and be arranged in two support plates 4；Belt successively pass through guide plate 2, Coupling Shaft 51, the first engagement plate 54, It is returned on telescopic machine ontology 1 after first roll shaft 52, the second roll shaft 53.By the height for changing the first roll shaft 52, the second roll shaft 53 Position is spent, and the height of Coupling Shaft 51 matches with the first roll shaft 52, and then the height that belt empties is reduced on the whole so that Cargo thereon runs more stable stabilization, and extends the service life of belt.

Conveying mechanism 3 described in the present embodiment is fixed in two support plates 4.Specifically, the conveying mechanism 3 Including the third roll shaft 31 for being resisted against 52 side of the first roll shaft, the 4th roll shaft 32 docked with slope-climbing machine, the third roll shaft 31 Be wound with independent belt 33 between the 4th roll shaft 32, the third roll shaft 31, the 4th roll shaft 32 both ends horizontally rotate and set It sets in two support plates 4；The second linking for supporting independent belt 33 is provided between the third roll shaft 31, the 4th roll shaft 32 Plate 34.

Transmission mechanism 6 described in the present embodiment includes being arranged in the drive sprocket of 52 one end of the first roll shaft and setting the The driven sprocket of three roll shafts, 31 one end, the drive sprocket are located at homonymy with the driven sprocket and pass through chain phase between the two Even.Can certainly 52 one end of the first roll shaft active synchronization belt wheel and the driven synchronous belt in 31 one end of third roll shaft is set Wheel, active synchronization belt wheel are located at homonymy with driven synchronous pulley and are connected between the two by synchronous belt.It is tied by above-mentioned linkage Structure can realize that rotating mechanism 5 drives conveying mechanism 3 to run.

The front end both sides of guide plate 2 described in the present embodiment are both provided with directive wheel 7.The place between two directive wheels simultaneously Guide plate 2 on be provided with slope board 8 diagonally downward.It can be good at cargo being delivered to by slope board 8, directive wheel 7 and lead To on plate 2, prevents height increase suddenly in cargo operational process and cause harmful effect.

The utility model is in order to enable independent belt can preferably be connected with the belt on the first engagement plate so that thereon Cargo it is stable.The high settings such as the first roll shaft 52 and third roll shaft 31, and by independent belt 33 and the first engagement plate 54 it Between angle be in 160 °~180 ° between (or between the angle between independent belt 33 and horizontal plane is 0~20 °).

Embodiment 2

As shown in figure 4, the present embodiment and the structure of embodiment 1 are substantially the same, the difference is that the conveying mechanism 3 It is rotatably arranged in two support plates 4.The conveying mechanism 3 include be resisted against 52 side of the first roll shaft third roll shaft 31, with 4th roll shaft 32 of slope-climbing machine docking, is wound with independent belt 33 between 31 and the 4th roll shaft 32 of the third roll shaft；Described The second engagement plate 34 for supporting independent belt is provided between three roll shafts 31, the 4th roll shaft 32；31 both ends water of the third roll shaft It is flat to be rotatably arranged in two support plates 4；The both ends of 4th roll shaft 32 are arranged on bearing block, the bearing block and the Two engagement plates 34 are fixedly linked；Limiting slot 41 is symmetrically arranged in support plate 4 described in two, second engagement plate 34 passes through Lock piece is fixedly linked with the limiting slot 41.Certainly as in embodiment 1, in order to which better independent belt 34 and first is held in the mouth Belt linking on fishplate bar 54, the angle between the limit angle and horizontal plane of limiting slot 41 is 1 °~20 °, and by the first roll shaft The high settings such as 52 and third roll shaft 31.It is not susceptible to run when cargo is delivered to from the first engagement plate 54 on independent belt 34 in this way It winnows with a dustpan, helps to improve the stability of cargo operation.It is height-adjustable using one end of conveying mechanism simultaneously so that conveying mechanism energy Enough it is adapted to different types of slope-climbing machine.

Embodiment of above is only the technical concepts and features for illustrating the utility model, and its object is to allow be familiar with this skill The people of art understands the content of the utility model and is implemented, and can not limit the scope of protection of the utility model with this, all According to the equivalent change or modification that the spirit of the present invention is substantially done, should all cover within the protection scope of the present utility model.

Claims (9)

1. a kind of telescopic machine hump mechanism is arranged on telescopic machine ontology (1), including is symmetricly set on telescopic machine ontology (1) two The support plate (4) of side, between two support plates (4) rotation be provided with guide plate (2), it is characterised in that：The guide plate (2) tail portion sets gradually the direction-changing (5) of restricted belt height of arch and conveying mechanism corresponding with slope-climbing machine height (3), the joining place of the direction-changing (5) and the conveying mechanism (3) is equipped with transmission mechanism (6) so that direction-changing (5) with Conveying mechanism (3) links.

2. telescopic machine hump according to claim 1 mechanism, it is characterised in that：The direction-changing (5) includes Coupling Shaft (51), the first roll shaft (52) and the second roll shaft (53), the Coupling Shaft (51) are resisted against the tail portion of guide plate (2), and by turning Supporting rack is connect to be fixed on telescopic machine ontology (1)；First roll shaft (52) horizontal turns against to conveying mechanism (3) side It is dynamic to be arranged on two support plates (4)；Being horizontally disposed between first roll shaft (52) and Coupling Shaft (51) has support belt fortune Capable the first engagement plate (54)；Second roll shaft (53) is located between Coupling Shaft (51) and the first roll shaft (52), and horizontal turn It is dynamic to be arranged on two support plates (4)；Belt passes through guide plate (2), Coupling Shaft (51), the first engagement plate (54), first successively It is returned on telescopic machine ontology (1) after roll shaft (52), the second roll shaft (53).

3. telescopic machine hump according to claim 2 mechanism, it is characterised in that：The conveying mechanism (3) is fixed or rotates It is arranged on two support plates (4).

4. telescopic machine hump according to claim 3 mechanism, it is characterised in that：The conveying mechanism (3) includes being resisted against The third roll shaft (31) of the first roll shaft (52) side, the 4th roll shaft (32) docked with slope-climbing machine, the third roll shaft (31) with Independent belt (33) is wound between 4th roll shaft (32), the third roll shaft (31), the both ends of the 4th roll shaft (32) are horizontal It is rotatably arranged on two support plates (4)；The independent belt of support is provided between the third roll shaft (31), the 4th roll shaft (32) (33) the second engagement plate (34).

5. telescopic machine hump according to claim 3 mechanism, it is characterised in that：The conveying mechanism (3) includes being resisted against The third roll shaft (31) of the first roll shaft (52) side, the 4th roll shaft (32) docked with slope-climbing machine, the third roll shaft (31) with It is wound with independent belt (33) between 4th roll shaft (32)；It is provided with branch between the third roll shaft (31), the 4th roll shaft (32) Support the second engagement plate (34) of independent belt；Third roll shaft (31) both ends horizontal is rotatably arranged on two support plates (4)； The both ends of 4th roll shaft (32) are arranged on bearing block, and the bearing block is fixedly linked with the second engagement plate (34)；Two Limiting slot (41) is symmetrically arranged in the support plate (4), second engagement plate (34) passes through lock piece and the limit Slot (41) is fixedly linked.

6. telescopic machine hump according to claim 4 or 5 mechanism, it is characterised in that：The transmission mechanism (6) includes setting It sets in the drive sprocket of the first roll shaft (52) one end and setting in the driven sprocket of third roll shaft (31) one end, the drive sprocket It is located at homonymy with the driven sprocket and is connected between the two by chain.

7. telescopic machine hump according to claim 4 or 5 mechanism, it is characterised in that：The transmission mechanism (6) includes setting Set the first roll shaft (52) one end active synchronization belt wheel and setting third roll shaft (31) one end driven synchronous pulley, it is described Active synchronization belt wheel is located at homonymy with the driven synchronous pulley and is connected between the two by synchronous belt.

8. telescopic machine hump according to claim 1 mechanism, it is characterised in that：The front end both sides of the guide plate (2) are equal It is provided with directive wheel (7).

9. telescopic machine hump according to claim 8 mechanism, it is characterised in that：Guiding where between two directive wheels Slope board (8) is provided on plate (2) diagonally downward.