CN105236114A - Rock wool turnover machine - Google Patents
Rock wool turnover machine Download PDFInfo
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- CN105236114A CN105236114A CN201510788884.6A CN201510788884A CN105236114A CN 105236114 A CN105236114 A CN 105236114A CN 201510788884 A CN201510788884 A CN 201510788884A CN 105236114 A CN105236114 A CN 105236114A
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Abstract
The invention relates to a rock wool turnover machine which comprises a rack, a servo motor, a rock wool turnover mechanism, a material blocking mechanism and a rock wool conveying mechanism, wherein the servo motor, the rock wool turnover mechanism, the material blocking mechanism and the rock wool conveying mechanism are arranged on the rack; the servo motor is used for inputting power; the rock wool turnover mechanism is used for turning over rock wool and transmitting the power to the material blocking mechanism and the rock wool conveying mechanism at the same time; the rock wool conveying mechanism is used for sequentially conveying the rock wool to the rock wool turnover mechanism from left to right; and the material blocking mechanism is used for blocking and releasing the rock wool conveyed from left to right. The rock wool turnover machine can realize automation control of the whole turnover process by one-point control, so that the equipment cost is reduced and in addition, the equipment quality is improved.
Description
Technical field
The present invention relates to rock wool production line, specifically refer to a kind of rock wool positioning machine.
Background technology
Rock wool positioning machine is the major equipment of rock wool production line, the rock wool of cutting slivering is mainly used to overturn 90 °, existing rock wool positioning machine complex structure, electrical equipment kind is many, switching process not easily reaches the Automated condtrol of split hair caccuracy, backgauge is then use cylinder, two processes not easily realize perfect linking, in actual production, rock wool switching mechanism is a cyclic process walking to stop to walk to stop, prior art with the whole process of a spot control, can not will certainly reduce the automation level of this equipment, and then affect production efficiency and economic benefit.The many costs that easily improve equipment of electrical equipment simultaneously.
Summary of the invention
For the problems referred to above that prior art exists, the object of this invention is to provide a kind of with the whole switching process of a spot control, realize the rock wool positioning machine of actuation cycle.
For achieving the above object, the present invention adopts following technical scheme: a kind of rock wool positioning machine, comprise frame, it is characterized in that: also comprise power input mechanism servomotor, rock wool switching mechanism, stock stop and Rock wool conveyor structure, servomotor and rock wool switching mechanism, stock stop and Rock wool conveyor structure are arranged in frame;
Rock wool switching mechanism: comprise two main driving axles in left and right, one end of right main driving axle is connected with the power take-off shaft of servomotor, the two ends of right main driving axle fix the first right hinge wheel and the second right hinge wheel respectively, the two ends of left main driving axle are fixed with the first left hinge wheel and the second left hinge wheel respectively, and the two ends of left main driving axle are also fixed with the first left minor sprocket and the second left minor sprocket respectively;
First right hinge wheel and the first left hinge wheel are arranged with the first chain, second right hinge wheel and the second left hinge wheel are arranged with the second chain, be provided with many baffle plates be parallel to each other between first chain and the second chain, the two ends of every bar baffle plate are separately fixed on the first chain and the second chain;
Rock wool conveyor structure: comprise co-axially fixed quick transportation sprocket and high speed transmitting power sprocket wheel, also comprises the 3rd transmission transmission chain upper driving device and underdrive device;
Upper driving device comprises active high speed sprocket wheel, upper active major axis, the upper nylon wheel of many groups and multiple rock wool upper conveyor belt; Described active high speed sprocket wheel is installed on active major axis, on many groups, nylon wheel is arranged along upper active long axis length direction, the upper nylon wheel wherein often organized in upper nylon wheel is installed on active major axis, on another often in the upper nylon wheel of group, nylon wheel is fixed in frame by upper driven minor axis, and upper active major axis and upper driven minor axis are parallel to each other; An often sheathed rock wool upper conveyor belt on the upper nylon wheel of group, under the drive of upper active major axis, rock wool upper conveyor belt contacts with the upper surface of rock wool and drives rock wool to move right;
Underdrive device comprises lower active high speed sprocket wheel, lower active major axis, the lower nylon wheel of many groups and multiple rock wool lower conveyor belt; Described active high speed sprocket wheel is installed on lower active major axis, under many groups, nylon wheel is arranged along lower active long axis length direction, a lower nylon wheel often in the lower nylon wheel of group is installed on lower active major axis, another lower nylon wheel often in the lower nylon wheel of group is fixed in frame by lower driven minor axis, and lower active major axis and lower driven minor axis are parallel to each other; An often sheathed rock wool lower conveyor belt on the lower nylon wheel of group, under the drive of lower active major axis, rock wool lower conveyor belt contacts with the lower surface of rock wool and drives rock wool to move right;
The 4th transmission transmission chain is arranged with between second left minor sprocket and quick transportation sprocket;
3rd transmission transmission chain is set on high speed transmitting power sprocket wheel, upper active high speed sprocket wheel and lower dynamic high speed sprocket wheel, active high speed sprocket wheel and lower dynamic high speed sprocket rotation in drive;
When described every bar baffle plate is in horizontality, it flushes with rock wool lower conveyor belt, and the free end of every bar baffle plate and rock wool lower conveyor belt offset;
Stock stop: comprise co-axially fixed backgauge head sprocket and backgauge power chain, also comprises eccentric wheel, connecting rod and L shape backgauge arm;
First left minor sprocket and backgauge head sprocket are arranged with the first power transmission chains bar;
Backgauge power chain and eccentric wheel are arranged with the second power transmission chains bar, and one end of connecting rod is connected with eccentric wheel, and the upper end of the other end and L shape backgauge arm is rotatably connected;
The lower end of L shape backgauge arm is provided with catch pawl, and this catch pawl moves up and down along with the motion of L shape backgauge arm, and when catch pawl is in lower limit position, catch pawl stops that the level of rock wool moves right.
As optimization, described Rock wool conveyor structure also comprises idler sprocket, the installation shaft of the installation shaft of idler sprocket and the installation shaft of high speed transmitting power sprocket wheel, lower active high speed sprocket wheel is not on same straight line, and described 3rd transmission transmission chain is also set on idler sprocket simultaneously.
As optimization, described underdrive device also comprises multiple lower tensioning nylon wheel, and each rock wool lower conveyor belt is set in one group and often organizes on lower nylon wheel and a lower tensioning nylon wheel; The wherein installation shaft of each lower tensioning nylon wheel and lower active longer axis parallel, and the below being positioned at lower active major axis and corresponding lower driven minor axis.
Relative to prior art, tool of the present invention has the following advantages:
1. select electrical equipment few, with regard to a servomotor, the equipment cost by techniques save.
2. control program is simple, to design program control servomotor, realize whole mechanical movement according to parameters.
3. after rock wool upset, positional precision is high, is beneficial to and produces high quality color-steel composite board.
4. mechanical movement is simply coherent, avoids adopting human assistance upset, and skin contact rock wool can cause human body not accommodate injury.
5. the whole switching process of a spot control, mechanical automation is strong, is applicable to the development of machinery industry now.
Accompanying drawing explanation
Fig. 1 is the front view of rock wool positioning machine of the present invention.
Fig. 2 is the birds-eye view of Fig. 1.
Fig. 3 is the constructional drawing of Rock wool conveyor structure in rock wool positioning machine of the present invention.
Fig. 4 is the constructional drawing of stock stop in rock wool positioning machine of the present invention.
Fig. 5 is the birds-eye view of upper driving device.
Fig. 6 is the birds-eye view of underdrive device.
Detailed description of the invention
Below in conjunction with accompanying drawing, the present invention is described in further detail.
In describing the invention, it will be appreciated that, term " on ", D score, "left", "right", " level ", the orientation of the instruction such as " vertically " or position relationship be based on orientation shown in the drawings or position relationship, only the present invention for convenience of description and simplified characterization, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as limitation of the present invention.
In addition, term " first ", " second ", " the 3rd " only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technical characteristic.Thus, be limited with " first ", " second ", the feature of " the 3rd " can express or impliedly comprise one or more these features.In describing the invention, the implication of " multiple " is two or more, unless otherwise expressly limited specifically.
See Fig. 1 to Fig. 6, a kind of rock wool positioning machine, comprise frame, power input mechanism servomotor 10, rock wool switching mechanism, stock stop and Rock wool conveyor structure, servomotor 10 and rock wool switching mechanism, stock stop and Rock wool conveyor structure are arranged in frame.
Rock wool switching mechanism: comprise the two main driving axle 20a in left and right, 20b, one end of right main driving axle 20b is connected with the power take-off shaft of servomotor 10, the first right hinge wheel 20b-1 and the second right hinge wheel 20b-2 is fixed at the two ends of right main driving axle 20b respectively, the two ends that the two ends of left main driving axle 20a are fixed with the first left hinge wheel 20a-1 and the second left hinge wheel 20a-2, left main driving axle 20a respectively are also fixed with the first left minor sprocket 20a-3 and the second left minor sprocket 20a-4 respectively.
First right hinge wheel 20b-1 and the first left hinge wheel 20a-1 is arranged with the first chain 21, second right hinge wheel 20b-2 and the second left hinge wheel 20a-2 is arranged with the second chain, many the baffle plates be parallel to each other 23 are provided with between first chain 21 and the second chain, the two ends of every bar baffle plate 23 are separately fixed on the first chain 21 and the second chain, and spacing between adjacent two baffle plates 23 is equal.
The two main driving axle 20a in left and right, 20b is fixed in frame respectively by bearing, and two, left and right main driving axle 20a, 20b is parallel to each other, convenient installation.
The power of servomotor 10 is inputted by the right main driving axle 20b be connected with its power take-off shaft, right main driving axle 20b drives the first right hinge wheel 20b-1 fixed thereon and the second right hinge wheel 20b-2 to rotate while rotating, then by the first chain 21 be set on the first right hinge wheel 20b-1 and the first left hinge wheel 20a-1, power is reached the first left hinge wheel 20a-1, power is reached the second left hinge wheel 20a-2 by the second chain simultaneously by being set in the second right hinge wheel 20b-2 and the second left hinge wheel 20a-2.First left hinge wheel 20a-1 and the second left hinge wheel 20a-2 rotates and drives left main driving axle 20a to rotate, thus drive is fixed on the first left minor sprocket 20a-3 at left main driving axle 20a two ends and the second left minor sprocket 20a-4 rotates.
Rock wool conveyor structure: comprise co-axially fixed quick transportation sprocket 40 and high speed transmitting power sprocket wheel 41, also comprises the 3rd transmission transmission chain 43 upper driving device and underdrive device.
Upper driving device comprises active high speed sprocket wheel 45a, upper active major axis 45a-1, the upper nylon wheel 45a-3 and multiple rock wool upper conveyor belt 45c of many groups; Described active high speed sprocket wheel 45a is installed on active major axis 45a-1, on many groups, nylon wheel 45a-3 arranges along upper active major axis 45a-1 length direction, the upper nylon wheel 45a-3 wherein often organized in upper nylon wheel 45a-3 is installed on active major axis 45a-1, on another often in the upper nylon wheel 45a-3 of group, nylon wheel 45a-3 is fixed in frame by upper driven minor axis 45a-2, and upper active major axis 45a-1 and upper driven minor axis 45a-2 is parallel to each other; An often sheathed rock wool upper conveyor belt 45c on the upper nylon wheel 45a-3 of group, under the drive of upper active major axis 45a-1, rock wool upper conveyor belt 45c contacts with the upper surface of rock wool 60 and drives rock wool 60 to move right.
Upper driving device preferably also comprises multiple upper tensioning nylon wheel, and each rock wool upper conveyor belt 45c cover to arrange on one group on a nylon wheel 45a-3 and upper tensioning nylon wheel; Wherein the installation shaft of each upper tensioning nylon wheel is parallel with upper active major axis 45a-1, and is positioned at the top of active major axis 45a-1 and corresponding driven minor axis 45a-2.The quantity of upper tensioning nylon wheel is equal with the quantity of rock wool upper conveyor belt 45c, is namely all equipped with a upper tensioning nylon wheel to be used for its tensioning to every bar rock wool upper conveyor belt 45c.
The belt of same upper driving device also needs tensioner, and nylon wheel 45b also can regulate, and can play tensioner effect.
Underdrive device comprises lower active high speed sprocket wheel 47a, lower active major axis 47a-1, the lower nylon wheel 47a-3 and multiple rock wool lower conveyor belt 47c of many groups; Described active high speed sprocket wheel 47a is installed on lower active major axis 47a-1, under many groups, nylon wheel 47a-3 arranges along lower active major axis 47a-1 length direction, a lower nylon wheel 47a-3 often in the lower nylon wheel 47a-3 of group is installed on lower active major axis 47a-1, another lower nylon wheel 47a-3 often in the lower nylon wheel 47a-3 of group is fixed in frame by lower driven minor axis 47a-2, and lower active major axis 47a-1 and lower driven minor axis 47a-2 is parallel to each other; An often sheathed rock wool lower conveyor belt 47c on the lower nylon wheel 47a-3 of group, under the drive of lower active major axis 47a-1, rock wool lower conveyor belt 47c contacts with the lower surface of rock wool 60 and drives rock wool 60 to move right.
Underdrive device preferably also comprises multiple lower tensioning nylon wheel 46, under each rock wool lower conveyor belt 47c is set in one group on a nylon wheel 47a-3 and lower tensioning nylon wheel 46; Wherein the installation shaft of each lower tensioning nylon wheel 46 is parallel with lower active major axis 47a-1, and is positioned at the below of lower active major axis 47a-1 and corresponding lower driven minor axis 47a-2.The quantity of lower tensioning nylon wheel 46 is equal with the quantity of rock wool lower conveyor belt 47c, is namely all equipped with a lower tensioning nylon wheel 46 to every bar rock wool lower conveyor belt 47c and is used for its tensioning.Each rock wool lower conveyor belt 47c long-term work may be slight stretching elongated, now can carry out tensioner belt by regulating expansion tightening wheel 46, and then to deal with problems.During installation, under the installation shaft of each lower tensioning nylon wheel 46 and corresponding with it one group in nylon wheel 47a-3 the anchor shaft of two lower nylon wheel 47a-3 (anchor shaft is lower active major axis 47a-1, another anchor shaft is the lower driven minor axis 47a-2 parallel with lower active major axis 47a-1) installation site triangularity, thus tension is played to the rock wool lower conveyor belt 47c that cover is arranged on nylon wheel 47a-3 under a group and corresponding lower tensioning nylon wheel 46.
The 4th transmission transmission chain is arranged with between second left minor sprocket 20a-4 and quick transportation sprocket 40.The power of the second left minor sprocket 20a-4 transfers to quick transportation sprocket 40 by the 4th power transmission chains article, quick transportation sprocket 40 drive is fixed it and is rotated with the axle of backgauge power chain 31, thus drives the high speed transmitting power sprocket wheel 41 be fixed on equally on this axle to rotate.
3rd transmission transmission chain 43 is set on high speed transmitting power sprocket wheel 41, upper active high speed sprocket wheel 45a and lower dynamic high speed sprocket wheel 47a, and in drive, initiatively high speed sprocket wheel 45a and lower dynamic high speed sprocket wheel 47a rotates.High speed transmitting power sprocket wheel 41 rotates through the 3rd transmission transmission chain 43 and drives initiatively high speed sprocket wheel 45a and lower dynamic high speed sprocket wheel 47a to rotate respectively, thus by rock wool 60 horizontal feed from left to right between rock wool upper conveyor belt 45c and rock wool lower conveyor belt 47c.
Rock wool conveyor structure preferably also comprises idler sprocket 42, the installation shaft of the installation shaft of idler sprocket 42 and the installation shaft of high speed transmitting power sprocket wheel 41, lower active high speed sprocket wheel 47a is not on same straight line, and described 3rd transmission transmission chain 43 is also set on tension wheel 42 simultaneously.The mechanical movement of high speed feedway up and down can be driven with chain by one simultaneously.
When described every bar baffle plate 23 is in horizontality, it flushes with rock wool lower conveyor belt 47c, and the free end of every bar baffle plate 23 and rock wool lower conveyor belt 47c offset.
Stock stop: comprise co-axially fixed backgauge head sprocket 30 and backgauge power chain 31, also comprises eccentric wheel 33, connecting rod 35 and L shape backgauge arm 37.
First left minor sprocket 20a-3 and backgauge head sprocket 30 are arranged with the first power transmission chains bar.The power of the first left minor sprocket 20a-3 transfers to backgauge head sprocket 30 by the first power transmission chains bar, and backgauge head sprocket 30 drive is fixed it and rotated with the axle of backgauge power chain 31, thus drives the backgauge power chain 31 be fixed on equally on this axle to rotate.
Backgauge power chain 31 and eccentric wheel 33 are arranged with the second power transmission chains bar, and one end of connecting rod 35 is connected with eccentric wheel 33, and the upper end of the other end and L shape backgauge arm 37 is rotatably connected.The bending place of L shape backgauge arm 37 is fixed by anchor shaft, better can stablize L shape backgauge arm 37 and move, make it move reciprocatingly under the drive of connecting rod 35, and do not produce swing by anchor shaft; Anchor shaft is fixed in frame by bearing, and this anchor shaft and two, left and right main driving axle 20a, 20b is parallel.
The lower end of L shape backgauge arm 37 is provided with catch pawl 37a, and this catch pawl 37a moves up and down along with the motion of L shape backgauge arm 37, and when catch pawl 37a is in lower limit position, catch pawl 37a stops that the level of rock wool 60 moves right.The power of backgauge power chain 31 transfers to eccentric wheel 33 by the second power transmission chains bar, band movable eccentric wheel 33 rotates, eccentric wheel 33 drives the connected connecting rod 35 in one end to move reciprocatingly, connecting rod 35 drives L shape backgauge arm 37 to move, thus the catch pawl 37a being arranged on L shape backgauge arm 37 lower end moves up and down along with the motion of L shape backgauge arm 37.
When eccentric wheel 33 drivening rod 35 moves in the process of right-most position, connecting rod 35 drives end motion on L shape backgauge arm 37, the catch pawl 37a being now fixed on L shape backgauge arm 37 underarm moves down, when eccentric wheel 33 drivening rod 35 moves to right-most position, catch pawl 37a moves to lowermost position and puts, i.e. lower limit position, now catch pawl 37a by from left side to the right the rock wool 60 of parallel motion block, stop it to move.
When eccentric wheel 33 drivening rod 35 moves in the process of left-most position, connecting rod 35 drives end motion on L shape backgauge arm 37, the catch pawl 37a being now fixed on the underarm of L shape backgauge arm 37 then moves up, when eccentric wheel 33 drivening rod 35 moves to left-most position, catch pawl 37a moves to uppermost position in fig-ure, i.e. upper extreme position, now catch pawl 37a decontrols by the rock wool 60 stopped, rock wool 60 is moved smoothly from left to right.
Catch pawl 37a blocks rock wool 60 and decontrols the action of rock wool 60 movement from left to right along with the crank motion of connecting rod 35 repeats.
The principle of work of rock wool positioning machine of the present invention:
The power of servomotor 10 is inputted by the right main driving axle 20b be connected with its power take-off shaft, be fixed on the first right hinge wheel 20b-1 on right main driving axle 20b and be fixed on by the first chain 21 transferring power between the first left hinge wheel 20a-1 on left main driving axle 20a, the second right hinge wheel 20b-2 be fixed on right main driving axle 20b leans on the second chain transferring power with the second left hinge wheel 20a-2 be fixed on left main driving axle 20a.First left hinge wheel 20a-1 and the second left hinge wheel 20a-2 rotates and drives left main driving axle 20a to rotate, thus drive is fixed on the first left minor sprocket 20a-3 at left main driving axle 20a two ends and the second left minor sprocket 20a-4 rotates.
The power of the second left minor sprocket 20a-4 transfers to quick transportation sprocket 40 by the second power transmission chains bar, quick transportation sprocket 40 drives high speed transmitting power sprocket wheel 41 to rotate, the power of high speed transmitting power sprocket wheel 41 drives initiatively high speed sprocket wheel 45a and lower dynamic high speed sprocket wheel 47a to rotate by the 3rd transmission transmission chain 43 respectively, in upper active high speed sprocket wheel 45a drive, initiatively major axis 45a-1 rotates, and upper active major axis 45a-1 drives a upper nylon wheel 45a-3 fixed thereon to rotate; In like manner lower dynamic high speed sprocket wheel 47a drives lower initiatively major axis 47a-1 to rotate, and lower active major axis 47a-1 drives a lower nylon wheel 47a-3 fixed thereon to rotate; Thus the rock wool 60 between rock wool upper conveyor belt 45c and rock wool lower conveyor belt 47c is carried from left to right.
The power of the first left minor sprocket 20a-3 transfers to backgauge head sprocket 30 by the first power transmission chains bar, and backgauge head sprocket 30 drive is fixed it and rotated with the axle of backgauge power chain 31, thus drives the backgauge power chain 31 be fixed on equally on this axle to rotate.Backgauge power chain 31 is rotated by the second power transmission chains band movable eccentric wheel 33, eccentric wheel 33 drives the connected connecting rod 35 in one end to move reciprocatingly, connecting rod 35 drives L shape backgauge arm 37 to move, while the motion of L shape backgauge arm 37, the catch pawl 37a be fixed on bottom it pumps, when catch pawl 37a is in lower limit position, the rock wool 60 just in time blocked between rock wool upper conveyor belt 45c and rock wool lower conveyor belt 47c is moved from left to right, when catch pawl 37a is in upper extreme position, rock wool 60 between rock wool upper conveyor belt 45c and rock wool lower conveyor belt 47c continues mobile from left to right.When rock wool 60 moves to the low order end of rock wool lower conveyor belt 47c, baffle plate 23 is just in time in horizontality, and baffle plate 23 is in the baffle plate 23 of level on the effect of inertia is glided.Along with the movement of the first chain 21 and the second chain, the baffle plate 23 that two ends are fixed on the first chain 21 and the second chain also along with together with move, the baffle plate 23 placing rock wool 60 is in vertical state along with the movement of the first chain 21 and the second chain, and rock wool 60 cw be now placed on baffle plate 23 has overturn 90 °; Again along with the movement of the first chain 21 and the second chain, baffle plate 23 is in horizontality again, and the rock wool 60 now on baffle plate 23 again cw has overturn 90 °; Continue the movement along with the first chain 21 and the second chain, baffle plate 23 is in vertical state again, now be placed on rock wool 60 on baffle plate 23 again cw overturn 90 °, along with the effect of gravity, rock wool 60 comes off from baffle plate 23, carry out ensuing process, and baffle plate 23 continues the movement along with the first chain 21 and the second chain, constantly repeat to overturn rock wool 60.
What finally illustrate is, above embodiment is only in order to illustrate technical scheme of the present invention and unrestricted, although with reference to preferred embodiment to invention has been detailed description, those of ordinary skill in the art is to be understood that, can modify to technical scheme of the present invention or equivalent replacement, and not departing from aim and the scope of technical solution of the present invention, it all should be encompassed in the middle of right of the present invention.
Claims (3)
1. a rock wool positioning machine, comprise frame, it is characterized in that: also comprise power input mechanism servomotor (10), rock wool switching mechanism, stock stop and Rock wool conveyor structure, servomotor (10) and rock wool switching mechanism, stock stop and Rock wool conveyor structure are arranged in frame;
Rock wool switching mechanism: comprise the two main driving axle (20a in left and right, 20b), one end of right main driving axle (20b) is connected with the power take-off shaft of servomotor (10), the two ends of right main driving axle (20b) fix the first right hinge wheel (20b-1) and the second right hinge wheel (20b-2) respectively, the two ends of left main driving axle (20a) are fixed with the first left hinge wheel (20a-1) and the second left hinge wheel (20a-2) respectively, the two ends of left main driving axle (20a) are also fixed with the first left minor sprocket (20a-3) and the second left minor sprocket (20a-4) respectively,
First right hinge wheel (20b-1) and the first left hinge wheel (20a-1) are arranged with the first chain (21), second right hinge wheel (20b-2) and the second left hinge wheel (20a-2) are arranged with the second chain, be provided with many baffle plates be parallel to each other (23) between first chain (21) and the second chain, the two ends of every bar baffle plate (23) are separately fixed on the first chain (21) and the second chain;
Rock wool conveyor structure: comprise co-axially fixed quick transportation sprocket (40) and high speed transmitting power sprocket wheel (41), also comprises the 3rd transmission transmission chain (43) upper driving device and underdrive device;
Upper driving device comprises active high speed sprocket wheel (45a), upper active major axis (45a-1), the upper nylon wheel (45a-3) of many groups and multiple rock wool upper conveyor belt (45c); Described active high speed sprocket wheel (45a) is installed on active major axis (45a-1), on many groups, nylon wheel (45a-3) is arranged along upper active major axis (45a-1) length direction, the upper nylon wheel (45a-3) wherein often organized in upper nylon wheel (45a-3) is installed on active major axis (45a-1), on another often in the upper nylon wheel (45a-3) of group, nylon wheel (45a-3) is fixed in frame by upper driven minor axis (45a-2), and upper active major axis (45a-1) and upper driven minor axis (45a-2) are parallel to each other; The often upper sheathed rock wool upper conveyor belt (45c) of the upper nylon wheel (45a-3) of group, under the drive of upper active major axis (45a-1), rock wool upper conveyor belt (45c) contacts with the upper surface of rock wool (60) and drives rock wool (60) to move right;
Underdrive device comprises lower active high speed sprocket wheel (47a), lower active major axis (47a-1), the lower nylon wheel (47a-3) of many groups and multiple rock wool lower conveyor belt (47c); Described active high speed sprocket wheel (47a) is installed on lower active major axis (47a-1), under many groups, nylon wheel (47a-3) is arranged along lower active major axis (47a-1) length direction, a lower nylon wheel (47a-3) often in the lower nylon wheel (47a-3) of group is installed on lower active major axis (47a-1), another lower nylon wheel (47a-3) often in the lower nylon wheel (47a-3) of group is fixed in frame by lower driven minor axis (47a-2), and lower active major axis (47a-1) and lower driven minor axis (47a-2) are parallel to each other; The often upper sheathed rock wool lower conveyor belt (47c) of the lower nylon wheel (47a-3) of group, under the drive of lower active major axis (47a-1), rock wool lower conveyor belt (47c) contacts with the lower surface of rock wool (60) and drives rock wool (60) to move right;
The 4th transmission transmission chain is arranged with between second left minor sprocket (20a-4) and quick transportation sprocket (40);
3rd transmission transmission chain (43) is set on high speed transmitting power sprocket wheel (41), upper active high speed sprocket wheel (45a) and lower dynamic high speed sprocket wheel (47a), and in drive, initiatively high speed sprocket wheel (45a) and lower dynamic high speed sprocket wheel (47a) are rotated;
When described every bar baffle plate (23) is in horizontality, it flushes with rock wool lower conveyor belt (47c), and the free end of every bar baffle plate (23) and rock wool lower conveyor belt (47c) offset;
Stock stop: comprise co-axially fixed backgauge head sprocket (30) and backgauge power chain (31), also comprises eccentric wheel (33), connecting rod (35) and L shape backgauge arm (37);
First left minor sprocket (20a-3) and backgauge head sprocket (30) are arranged with the first power transmission chains bar;
Backgauge power chain (31) and eccentric wheel (33) are arranged with the second power transmission chains bar, one end of connecting rod (35) is connected with eccentric wheel (33), and the upper end of the other end and L shape backgauge arm (37) is rotatably connected;
The lower end of L shape backgauge arm (37) is provided with catch pawl (37a), this catch pawl (37a) moves up and down along with the motion of L shape backgauge arm (37), when catch pawl (37a) is in lower limit position, catch pawl (37a) stops that the level of rock wool (60) moves right.
2. rock wool positioning machine as claimed in claim 1, it is characterized in that: described Rock wool conveyor structure also comprises idler sprocket (42), the installation shaft of the installation shaft of idler sprocket (42) and the installation shaft of high speed transmitting power sprocket wheel (41), lower active high speed sprocket wheel (47a) is not on same straight line, and described 3rd transmission transmission chain (43) is also set on idler sprocket (42) simultaneously.
3. rock wool positioning machine as claimed in claim 1, it is characterized in that: described underdrive device also comprises multiple lower tensioning nylon wheel (46), each rock wool lower conveyor belt (47c) is set in one group and often organizes on lower nylon wheel (47a-3) and a lower tensioning nylon wheel (46);
Wherein the installation shaft of each lower tensioning nylon wheel (46) is parallel with lower active major axis (47a-1), and is positioned at the below of lower active major axis (47a-1) and corresponding lower driven minor axis (47a-2).
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| CN201510788884.6A CN105236114B (en) | 2015-11-17 | 2015-11-17 | Rock wool turnover machine |
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| CN201510788884.6A CN105236114B (en) | 2015-11-17 | 2015-11-17 | Rock wool turnover machine |
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| CN105236114B CN105236114B (en) | 2017-04-26 |
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Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105645090A (en) * | 2016-03-31 | 2016-06-08 | 佛山市松川机械设备有限公司 | Material conveying and overturning device |
| CN108069245A (en) * | 2017-12-20 | 2018-05-25 | 中国电子科技集团公司第四十八研究所 | A kind of automatic blanking device for being used to convey cell piece |
| CN109969774A (en) * | 2019-04-09 | 2019-07-05 | 马宁 | A kind of test mineral asbestos product fibre shedding automatic collecting device |
| CN111116035A (en) * | 2020-02-14 | 2020-05-08 | 宁夏领航保温材料有限公司 | Rock wool production line is advancing device for location adjustment |
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Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN105645090A (en) * | 2016-03-31 | 2016-06-08 | 佛山市松川机械设备有限公司 | Material conveying and overturning device |
| CN108069245A (en) * | 2017-12-20 | 2018-05-25 | 中国电子科技集团公司第四十八研究所 | A kind of automatic blanking device for being used to convey cell piece |
| CN108069245B (en) * | 2017-12-20 | 2020-04-17 | 中国电子科技集团公司第四十八研究所 | Automatic blanking device for conveying battery pieces |
| CN109969774A (en) * | 2019-04-09 | 2019-07-05 | 马宁 | A kind of test mineral asbestos product fibre shedding automatic collecting device |
| CN109969774B (en) * | 2019-04-09 | 2024-03-08 | 马宁 | Automatic collecting device for testing fiber shedding of mineral rock wool product |
| CN111116035A (en) * | 2020-02-14 | 2020-05-08 | 宁夏领航保温材料有限公司 | Rock wool production line is advancing device for location adjustment |
| CN111116035B (en) * | 2020-02-14 | 2022-03-18 | 宁夏领航岩棉科技有限公司 | Rock wool production line is advancing device for location adjustment |
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