Utility model content
In view of this, the utility model provides a kind of conveyer, the impulse force excessive technical matters easily causing damage when main purpose is that in solution prior art, material is carried from high to lower.
For achieving the above object, the utility model mainly provides following technical scheme:
Embodiment of the present utility model provides a kind of conveyer, comprises frame, and described conveyer also comprises the first driving device and buffering pay-off;
Described first driving device, is arranged at described frame, and described first driving device comprises inlet point and discharging opening, and the feed inlet end of described first driving device is not less than the height of described discharge port end;
Described buffering pay-off, be arranged at described frame, described buffering pay-off comprises inlet point and discharging opening, described buffering pay-off is for receiving the material of the discharging opening of described first driving device, and described material is slowed down, be sent to setting regions with setting speed from the discharging opening of described buffering pay-off to make described material.
The purpose of this utility model and solve its technical matters and also can be applied to the following technical measures to achieve further.
Aforesaid conveyer, also comprises the first attaching parts and arrangement for adjusting height;
Described first attaching parts is rotatably installed on described frame, and described first driving device is arranged at described first attaching parts, and described first driving device is arranged at described frame by described first attaching parts;
Arrangement for adjusting height, is arranged at described frame, and described arrangement for adjusting height is connected with described first attaching parts, and described arrangement for adjusting height is used for, by described first attaching parts, the feed inlet end of described first driving device is adjusted to setting height.
Aforesaid conveyer, described arrangement for adjusting height is hydraulic actuating cylinder or cylinder, and the cylinder barrel of described hydraulic actuating cylinder or described cylinder is connected with described frame, the piston rod of described hydraulic actuating cylinder or described cylinder and one end of described first attaching parts hinged.
Aforesaid conveyer, described first driving device comprises the first motor, the first driving wheel, the first flower wheel and the first belt conveyor:
Described first driving wheel and described first flower wheel are all installed on described first attaching parts, and the output shaft of described first motor drives with described first driving wheel and is connected, and described first driving wheel is connected by described first belt-driven with described first flower wheel;
Described first driving wheel comprises the first wheel shaft, and described frame is provided with the first axis hole, described first wheel shaft to be assemblied in described first axis hole and with the hole wall normal-running fit of described first axis hole;
Described first attaching parts is rotatably installed on described frame by described first wheel shaft.
Aforesaid conveyer, described buffering pay-off comprises the second driving device, and described second driving device comprises the described inlet point of described buffering pay-off and described discharging opening, and the direction of transfer of described second driving device is contrary with the direct of travel of described material.
Aforesaid conveyer, described buffering pay-off also comprises the second attaching parts and registration device:
Described second attaching parts is rotatably installed on described frame, and described second driving device is arranged at described second attaching parts;
Described registration device is connected with described second attaching parts, and described registration device is used for locating relative to the position after described gantry rotation described second attaching parts, keeps relative fixing to make described second attaching parts and described frame.
Aforesaid conveyer, described second driving device comprises the second motor, the second driving wheel, the second flower wheel and the second belt conveyor:
Described second driving wheel and described second flower wheel are all installed on described second attaching parts, and the output shaft of described second motor drives with described second driving wheel and is connected, and described second driving wheel is connected by described second belt-driven with described second flower wheel;
Described second driving wheel comprises the second wheel shaft, and described frame is provided with the second axis hole, described second wheel shaft to be assemblied in described second axis hole and with the hole wall normal-running fit of described second axis hole;
Described second attaching parts is rotatably installed on described frame by described second wheel shaft.
Aforesaid conveyer, described registration device comprises locating dowel pin and is arranged at multiple first knock holees of described frame, described second attaching parts is provided with the second knock hole passed for described locating dowel pin, and described locating dowel pin inserts in described first knock hole and described second knock hole after described second attaching parts rotates set angle relative to described frame.
Aforesaid conveyer, described buffering pay-off comprises the first actuating device, and described first driving device comprises the second actuating device, and described first actuating device and described second actuating device are same actuating device.
By technique scheme, the utility model conveyer at least has following advantages:
Because the conveyer that the utility model embodiment provides comprises buffering pay-off, this buffering pay-off can receive the material of the discharging opening of the first driving device, and material is slowed down, to make material be delivered to setting regions with setting speed from the discharging opening of buffering pay-off, thus material can be effectively avoided to damage because impulse force is excessive when discharging.
Above-mentioned explanation is only the general introduction of technical solutions of the utility model, in order to better understand technological means of the present utility model, and can be implemented according to the content of specification sheets, coordinates accompanying drawing to be described in detail as follows below with preferred embodiment of the present utility model.
Detailed description of the invention
For further setting forth the utility model for the technological means reaching predetermined utility model object and take and effect, below in conjunction with accompanying drawing and preferred embodiment, to according to the detailed description of the invention of the utility model application, structure, feature and effect thereof, be described in detail as follows.In the following description, the not necessarily same embodiment that different " embodiment " or " embodiment " refers to.In addition, special characteristic, structure or feature in one or more embodiment can be combined by any suitable form.
As depicted in figs. 1 and 2, a kind of conveyer that an embodiment of the present utility model proposes, comprises frame 3, first driving device 100 and buffering pay-off 200.
First driving device 100 is arranged at frame 3, and the feed inlet end that the first driving device 100 comprises inlet point 11 and discharging opening 12, first driving device 100 is not less than the height of discharge port end.Material, under the transmission of the first driving device 100, has a larger impulse force when discharge port end discharging.
Buffering pay-off 200 is arranged at frame 3, buffering pay-off 200 comprises inlet point 21 and discharging opening 22, buffering pay-off 200 is for receiving the material of the discharging opening 12 of the first driving device 100, and material is slowed down, be sent to setting regions with setting speed from the discharging opening 22 of buffering pay-off 200 to make material.
Wherein, by the buffering pay-off 200 arranged, buffering pay-off 200 can slow down to the material on it, material is made to be delivered to setting regions with the speed of setting from the discharging opening 22 of buffering pay-off 200, relative to prior art, the conveyer that the utility model embodiment provides can effectively avoid material to damage because impulse force is excessive when discharging.
Further, in order to make the Height Adjustable of the feed inlet end of the first driving device 100, the utility model also provides following embodiment: aforesaid conveyer also comprises the first attaching parts 1 and arrangement for adjusting height 4.First attaching parts 1 is rotatably installed on frame 3, and the first driving device 100 is arranged at the first attaching parts 1, first driving device 100 and is arranged at frame 3 by the first attaching parts 1.
Arrangement for adjusting height 4 is arranged at frame 3, and arrangement for adjusting height 4 is connected with the first attaching parts 1, and arrangement for adjusting height 4 is for being adjusted to setting height by the first attaching parts 1 by the feed inlet end of the first driving device 100.Particularly, arrangement for adjusting height 4 can be regulated by the height of the first attaching parts 1 to the first driving device 100 feed inlet end, makes material can from the smooth charging of the feed inlet end of this setting height.Arrangement for adjusting height 4, first attaching parts 1 and frame 3 form regulations and parameters mechanism, first attaching parts 1 can rotate around frame 3, arrangement for adjusting height 4 is connected with the first attaching parts 1, and the height at the first attaching parts 1 two ends can be regulated, and then the feed inlet end of the first driving device 100 on the first attaching parts 1 can be adjusted to setting height, to make material can from the smooth charging of the feed inlet end of this setting height.
Further, in order to realize the function of aforementioned height control apparatus 4, as depicted in figs. 1 and 2, the utility model also provides following embodiment: arrangement for adjusting height 4 is hydraulic actuating cylinder or cylinder, the cylinder barrel of hydraulic actuating cylinder or cylinder is connected with frame 3, the piston rod of hydraulic actuating cylinder or cylinder and one end of the first attaching parts 1 hinged.Particularly, the piston rod of hydraulic actuating cylinder or cylinder can automatic telescopic, thus can regulate the height of one end of the first attaching parts 1, and then can regulate the height of feed inlet end of the first driving device 100 on the first attaching parts 1.
Certainly, in other embodiments, arrangement for adjusting height 4 also can be an expansion link, one end of expansion link is connected with frame 3, the other end of expansion link is connected with one end of the first attaching parts 1, user can the height of manual regulation expansion link as required, and then can regulate the height of feed inlet end of the first driving device 100 on the first attaching parts 1.
Further, in order to realize the function of above-mentioned first driving device 100, as shown in Figure 2, the utility model also provides following embodiment: the first driving device 100 comprises the first motor (not indicating in figure), the first driving wheel (not indicating in figure), the first flower wheel (not indicating in figure) and the first belt conveyor (not indicating in figure).
The output shaft that first driving wheel and the first flower wheel are all installed on the first attaching parts 1, first motor drives with the first driving wheel and is connected, and the first driving wheel is connected by the first belt-driven with the first flower wheel.Particularly, the output shaft of the first motor directly can be driven with the wheel shaft of the first driving wheel by coupler and be connected, also can be that the output shaft of the first motor is indirectly driven with the wheel shaft of the first driving wheel by gear reduction or belt speed reducer structure etc. and is connected, wherein, specifically can arrange according to the actual demand of user.
In the present embodiment, the first driving device 100 is belt-driving.Wherein, in another embodiment, the first driving device 100 can be also chain gear etc., specifically can arrange according to the actual demand of user.
First driving wheel comprises the first wheel shaft, and frame 3 is provided with the first axis hole, the first wheel shaft to be assemblied in the first axis hole and with the hole wall normal-running fit of the first axis hole.Because the first driving wheel is installed on the first attaching parts 1, first driving wheel and the first attaching parts 1 form an entirety, first attaching parts 1 can be rotated relative to the first axis hole by the first wheel shaft, thus the first attaching parts 1 is rotatably installed on frame 3 by the first wheel shaft, and then realize the function that aforesaid first attaching parts 1 is rotatably installed on frame 3.Wherein, the first wheel shaft of the first driving wheel is the rotating shaft that the first attaching parts 1 rotates relative to frame 3.
Further, in order to the stress reduced on the first attaching parts 1 is concentrated, as shown in Figure 1, the utility model also provides following embodiment: aforesaid conveyer also comprises the 3rd attaching parts 6, one end and the frame 3 of the 3rd attaching parts 6 are hinged, can rotate to make the 3rd attaching parts 6 relative to frame 3; The other end and first attaching parts 1 of the 3rd attaching parts 6 are hinged, can rotate to make the 3rd attaching parts 6 relative to the first attaching parts 1.First attaching parts 1 is connected with arrangement for adjusting height 4 by the 3rd attaching parts 6.Particularly, arrangement for adjusting height 4 applies power to the first attaching parts 1 indirectly by the 3rd attaching parts 6, thus the stress reducing the first attaching parts 1 junction is concentrated.
Further, in order to realize the function of aforementioned buffering pay-off 200, as shown in Figure 1, the utility model also provides following embodiment: buffering pay-off 200 comprises the second driving device, and the second driving device comprises inlet point and discharging opening.The inlet point of the second driving device and discharging opening are exactly inlet point and the discharging opening of aforementioned buffering pay-off 200.The direction of transfer of the second driving device is contrary with the direct of travel of material, and by this kind of mode, the second driving device slows down to the material on it, and material is exported with the speed of setting.
Further, cushion pay-off 200 and also comprise the second attaching parts 2 and registration device 5.Second attaching parts 2 is rotatably installed on frame 3.Second driving device is arranged at the second attaching parts 2, can rotate to make the second driving device with the second attaching parts 2.Registration device 5 is arranged at frame 3, and registration device 5 is connected with the second attaching parts 2.Registration device 5, for locating relative to the position after frame 3 rotation the second attaching parts 2, keeps relative to make the second attaching parts 2 with frame 3 and fixes.
Wherein, particularly, the feed inlet end of the first driving device 100 is higher than discharge port end, and when being carried from high to lower by material, material is from having a downward impulse force during discharge port end discharging of the first driving device 100 under the effect of inertia; Now, the angle that the second attaching parts 2 can be regulated to rotate relative to frame 3 by registration device 5, the buffering pay-off 200 on the second attaching parts 2 is made to accept material on the first driving device 100 with a milder angle, and material is gently delivered to setting regions, thus material can be effectively avoided to damage because impulse force is excessive when discharging.
Further, in order to realize the function of above-mentioned second driving device, the utility model also provides following embodiment: the second driving device comprises the second motor (not indicating in figure), the second driving wheel (not indicating in figure), the second flower wheel (not indicating in figure) and the second belt conveyor (not indicating in figure).
The output shaft that second driving wheel and the second flower wheel are all installed on the second attaching parts 2, second motor drives with the second driving wheel and is connected, and the second driving wheel is connected by the second belt-driven with the second flower wheel.Particularly, the output shaft of the second motor directly can be driven with the wheel shaft of the second driving wheel by coupler and be connected, also can be that the output shaft of the second motor is indirectly driven with the wheel shaft of the second driving wheel by gear reduction or belt speed reducer structure etc. and is connected, wherein, specifically can arrange according to the actual demand of user.
In the present embodiment, the second driving device is belt-driving.Wherein, in another embodiment, the second driving device can be also chain gear etc., specifically can arrange according to the actual demand of user.
Second driving wheel comprises the second wheel shaft (not indicating in figure), and frame 3 is provided with the second axis hole (not indicating in figure), the second wheel shaft to be assemblied in the second axis hole and with the hole wall normal-running fit of the second axis hole.Because the second driving wheel is installed on the second attaching parts 2, second driving wheel and the second attaching parts 2 form an entirety, second attaching parts 2 can be rotated relative to the second axis hole by the second wheel shaft, thus the second attaching parts 2 is rotatably installed on frame 3 by the second wheel shaft, and then realize the function that aforesaid second attaching parts 2 is rotatably installed on frame 3.Wherein, the second wheel shaft of the second driving wheel is the rotating shaft that the second attaching parts 2 rotates relative to frame 3.
Further, in order to realize the function of aforesaid registration device 5, as shown in Figure 1, the utility model also provides following embodiment: registration device 5 comprises locating dowel pin (not indicating in figure) and is arranged at multiple first knock holees (not indicating in figure) of frame 3, second attaching parts 2 is provided with the second knock hole (not indicating in figure) passed for locating dowel pin, and the position of the second knock hole is corresponding with the position of aforesaid multiple first knock hole.Locating dowel pin inserts in the first knock hole and the second knock hole after the second attaching parts 2 rotates set angle relative to frame 3, thus realizes positioning the first attaching parts 1.
Certainly, in other embodiments, registration device 5 also can be hydraulic actuating cylinder or cylinder, the cylinder barrel of hydraulic actuating cylinder or cylinder is connected with frame 3, piston rod and second attaching parts 2 of hydraulic actuating cylinder or cylinder are hinged, and wherein, the piston rod of hydraulic actuating cylinder or cylinder is retractable member, after the second attaching parts 2 rotates to an angle relative to frame 3, the piston rod of hydraulic actuating cylinder or cylinder can be located the second attaching parts 2.
Further, in order to simplify the structure of conveyer, save cost, the utility model also provides following embodiment: buffering pay-off 200 comprises the first actuating device (not indicating in figure), first driving device 100 comprises the second actuating device (not indicating in figure), and the second actuating device and the first actuating device are same actuating device.First driving device 100 and buffering pay-off 200 are driven by same actuating device, greatly can simplify the structure of conveyer, save cost.
The above, it is only preferred embodiment of the present utility model, not any pro forma restriction is done to the utility model, the any simple modification done above embodiment according to technical spirit of the present utility model, equivalent variations and modification, all still belong in the scope of technical solutions of the utility model.