CN211867525U - Semi-automatic material spreading machine discharging mechanism - Google Patents

Abstract

The utility model provides a blanking mechanism of a semi-automatic material spreading machine, which comprises a stirring motor, a material bin and a packing auger, the bin cover is hinged with the blanking support disc, the packing auger is arranged in the bin, the stirring motor is connected with the packing auger through the blanking coupler, the outer wall of the storage bin is provided with a vibration motor, the first power source is fixedly connected with the storage bin through a first vibration base, the outlet end below the storage bin is fixedly connected with an annular storage bin through a connecting plate, the outer wall of the annular storage bin is provided with a second power source, the second vibration motor is connected with the annular bin through the second vibration base, the utility model can center the mould through the material spreading of the grinding wheel by the centering mechanism, the mould is rotated by the rotating mechanism, the blanking mechanism performs blanking and the pressing mechanism performs pressing, thereby solving the problem of uneven manual spreading and reducing the spreading time, thereby reducing the benefit reduction of a factory.

Description

Semi-automatic material spreading machine discharging mechanism

Technical Field

The utility model relates to a emery wheel manufacturing technology field, concretely relates to semi-automatic stand material machine unloading mechanism.

Background

The material is spread in the manual work in the in-process of producing the emery wheel, because the material causes emery wheel raw materials to lose much and the quality that the material was spread to the inhomogeneous final emery wheel that causes of material is spread to the manual work, and the manual work is long in the time of spreading the material and is causing the benefit of company to reduce, consequently need design an automatic material machine that spreads of emery wheel so that reduce the material time of spreading and solve the inhomogeneous problem of material of spreading.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is that artifical stand material is inhomogeneous and reduce the stand material time, for solving above-mentioned problem, the utility model provides a semi-automatic stand material machine unloading mechanism.

The purpose of the utility model is realized with the following mode:

the utility model provides a semi-automatic material spreading machine unloading mechanism, includes agitator motor, unloading shaft coupling, cang gai, feed bin and auger, the cang gai is articulated with unloading flange, passes through unloading flange fixed connection agitating unit at unloading flange upper end middle part, and unloading flange lower extreme fixed connection feed bin, the auger is settled to feed bin inside, agitator motor is equipped with vibrating motor through unloading shaft coupling auger at the outer wall of feed bin, first power supply passes through first vibration base fixed connection feed bin, passes through connecting plate fixed connection annular feed bin at the exit end of feed bin below, the outer wall of annular feed bin is equipped with the second power supply, the second vibrating motor passes through second vibration base and connects annular feed bin.

The cross section of the annular bin is Y-shaped, and an outlet end below the annular bin is matched with the mold for use.

The stirring device is a stirring motor.

The first power source and the second power source are both stirring motors.

Compared with the prior art, the utility model discloses the shakeout material that can the emery wheel passes through centering mechanism to the mould, rotates the mould through slewing mechanism, and unloading mechanism carries out the unloading, pushes down the mechanism and suppresses to thereby it is inhomogeneous and reduce the benefit reduction that the shakeout material time reduced the mill to solve artifical shakeout material.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an enlarged schematic view of a in fig. 1.

Fig. 3 is a schematic view of the installation of the stirring motor of the blanking mechanism.

Fig. 4 is a schematic structural view of an annular silo.

Fig. 5 is a schematic structural view of the pressing mechanism.

Fig. 6 is a schematic structural view of the buffer assembly.

Fig. 7 is a sectional view taken along the direction B in fig. 6.

Fig. 8 is a schematic view of the installation of the mold.

Fig. 9 is a schematic structural view of the centering mechanism.

Fig. 10 is a schematic structural view of the rotating mechanism.

Fig. 11 is a schematic view of the installation of the lifting device.

Fig. 12 is an enlarged schematic view of C in fig. 1.

Wherein, 1, a frame, 2, a working platform, 3, a controller, 4, a movable turntable, 5, a movable sliding block, 6, a lifting device, 61, a lifting motor, 62, a second lifting sliding block, 63, a lifting screw, 7, a movable base, 71, a movable sliding rail, 8, a movable screw, 9, a pressing support column, 901, a lifting sliding rail, 10, a lifting platform, 101, a transverse sliding rail, 11, a blanking mechanism, 1101, a stirring motor, 1102, a blanking coupler, 1103, a blanking connecting flange, 1104, a blanking supporting disc, 1105, a bin cover, 1106, a bin, 1107, a packing auger, 1108, a first vibrating motor, 1109, an annular bin, 1110, a second vibrating motor, 1111, a discharge pipe, 12, a first lifting sliding block, 13, a die, 14, a centering mechanism, 1401, a centering turntable, 1402, a centering screw, 1403, a centering plate, 1405, a centering bearing, a centering connecting plate, 1406, and a centering connecting plate, 1407. the automatic scraper comprises a centering support, 1408 centering screws, 1410 centering sliders, 1411 centering slide rails, 15 scrapers, 16 scraping supports, 17 pressing mechanisms, 1701 pressing motors, 1702 eccentric wheels, 1704 pressing connecting plates, 1705 pressing support plates, 1706 pressing sliders, 1707 buffer components, 1708 pressing sliding plates, 1709 pressing fixing plates, 1710 fixing sliders, 1711 pressing blocks, 1712 upper connecting plates, 1713 upper connecting shafts, 1714 lower connecting pipes, 1715 lower connecting plates, 1716 buffer springs, 1717 sliding slide rails, 19 balls, 20 rotating mechanisms, 201 rotating motors, 202 rotating couplers, 203 rotating supports and 204 rotating discs.

Detailed Description

As shown in the accompanying drawings 1 to 12, a blanking mechanism of a semi-automatic material spreader comprises a frame 1, a movable base 7 is arranged above the frame 1, a movable slider 5 is arranged above the movable base 7, the movable slider 5 is in sliding fit with the movable base 7, a lifting device 6 is arranged on one side of the movable slider 5, a lifting platform 10 is fixedly connected on one side of the lifting device 6, a blanking mechanism 11 is arranged on the lifting platform 10, a blanking support plate 1104 of the blanking mechanism 11 is fixedly connected with the lifting platform 10 in a bolt connection mode, one end of the lifting platform 10, which is far away from the lifting device 6, is in sliding connection with a pressing mechanism 17, a pressing support plate 1705 of the pressing mechanism 17 is provided with a pressing slider 101, the lifting platform 10 is provided with a transverse slide rail 101, the pressing slider 1706 is matched with the transverse slide rail 101, one side of the pressing mechanism 17, which is far away from the lifting platform 10, is, the utility model discloses a blanking machine, including unloading mechanism 11, push down support column 9, lifting platform 10, lifting device 6, lifting device 10, lifting device 901, lifting device 10, first lifting slider 12 is fixed in lifting platform 10 below, and lifting slider 901 is equipped with lift slide rail 901 on push down support column 9, and lifting platform 10 keeps away from the one end of lifting device 6 and is equipped with first lift slider 12, lift slide rail 901 and the cooperation of first lift slider 12 are used, are equipped with slewing mechanism 20 at the lower extreme of unloading mechanism 11, and mould 13 is placed to slewing mechanism 20's rotation platform top, is equipped.

The movable base 7 is provided with a movable slide rail 71, the movable slider 5 is connected with the movable slide rail 71 in a sliding manner, the middle of the movable slide rail 71 is provided with a movable screw 8, the movable screw 8 is hinged to the movable slide rail 71, one end of the movable screw 8 is provided with a movable turntable 4, the movable turntable 4 is fixedly connected with the movable screw 8, the movable slider 5 is connected with the movable screw 8 through threads, the movable screw 8 drives the movable slider 5 to move on the movable slide rail 71, and the movable screw 8 and the movable slider 5 are in a ball screw pair connection mode.

Unloading mechanism 11 still includes agitator motor 1101, unloading shaft coupling 1102, cang gai 1105, feed bin 1106 and auger 1107, cang gai 1105 is articulated with unloading branch dish 1104, passes through unloading flange 1103 fixed connection agitator motor 1101 in unloading branch dish 1104 upper end middle part, and unloading branch dish 1104 lower extreme fixed connection feed bin 1106, the inside auger 1107 of settling of feed bin 1106, agitator motor 1101 passes through unloading shaft coupling 1102 and connects auger 1107, is equipped with vibrating motor at the outer wall of feed bin 1106, first vibrating motor 1108 passes through first vibration base fixed connection feed bin 1106, passes through connecting plate fixed connection annular feed bin 1109 at the exit end of feed bin 1106 below, the outer wall of annular feed bin 1109 is equipped with second vibrating motor 1110, second vibrating motor 1110 passes through second vibration base and connects annular feed bin 1109.

The cross section of the annular bin 1109 is Y-shaped, and an outlet end below the annular bin 1109 is matched with the radian of the die 13 for use.

The pressing mechanism 17 further comprises a pressing motor 1701, an eccentric wheel 1702 and a buffer assembly 1707, the pressing motor 1701 is arranged at the upper end of the pressing plate 1705, the working end of the pressing motor 1701 is connected with the eccentric wheel 1702, a pressing connection plate 1704 is arranged at the lower end of the pressing plate 1705, one end of the pressing connection plate 1704 is hinged to the eccentric wheel 1702, the other end of the pressing connection plate 1704 is hinged to the buffer assembly 1707, the lower end of the buffer assembly 1707 is hinged to a pressing sliding plate 1708, the lower end of the pressing sliding plate 1708 is hinged to a pressing block 1711, a pressing fixing plate 1709 is arranged on one side of the pressing connection plate 1704, the pressing fixing plate 1709 is fixed at the lower end of the pressing plate 1705 through bolts, a fixing slide block 1710 is arranged on one side of the pressing fixing plate 1709, a sliding slide rail 1717 is arranged on the pressing sliding plate 1708, and the pressing sliding plate 1708 is connected with the.

The buffer assembly 1707 comprises an upper connecting plate 1712 and a lower connecting plate 1715, the lower end of the upper connecting plate 1712 is fixedly connected with an upper connecting shaft 1713, the upper end of the lower connecting plate 1715 is fixedly connected with a lower connecting pipe 1714, the upper connecting shaft 1713 is sleeved in the lower connecting pipe 1714, and a buffer spring 1716 is fixedly connected between the upper connecting plate 1712 and the lower connecting plate 1715.

The upper end of the upper connecting plate 1712 is hinged with the lower pressing connecting plate 1704, and the lower end of the lower connecting plate 1715 is hinged with the lower pressing sliding plate 1708.

The lifting device 6 comprises a lifting motor 61, a lifting screw 63 and a second lifting slider 62, the lifting motor 61 is fixed at the upper end of the movable slider 5, the working end of the lifting motor 61 is connected with the lifting screw 63 through a coupler, the lifting screw 63 is hinged with the movable slider 5, the second lifting slider 62 is connected with the lifting screw 63 through a ball screw pair in a matching manner, and the second lifting slider 62 is fixedly connected with the lifting platform 10.

Slewing mechanism 20 includes rotating motor 201, rolling disc 204 and rotation support 203, rolling disc 204 sets up in the work platform 2 middle part of frame 1, and the discharging pipe 1111 below of clamp plate and annular feed bin 1109 promptly, and the rolling disc 204 lower extreme passes through rotating shaft coupling 202 and connects rotating motor 201, rotating motor 201 passes through rotation support 203 and fixes in the below of work platform 2.

The centering mechanism 14 comprises centering plates 1403 which are oppositely arranged, the centering plates 1403 are in sliding fit with the working platform 2, a centering connecting plate 1406 is arranged below the working platform 2, the centering connecting plate 1406 is fixedly connected with the centering plates 1403 through a centering straight plate 1405, a centering chute is arranged at the upper end of the working platform 2, the centering straight plate 1405 is inserted into the centering chute, the centering connecting plate 1406 is fixedly connected with a centering nut 1408, the centering nut 1408 is in threaded connection with a centering screw 1402, the centering screw 1402 is hinged with the working platform 2 through a centering support 1407, the centering screw 1402 is a positive and negative screw rod, the centering nut 1408 and the centering screw 1402 are in ball screw pair matching connection, one side of the centering connecting plate 1406 is fixedly connected with a centering slide block 1410, the centering slide block 1410 is in sliding connection with a centering slide rail 1411, the centering slide rail 1411 is fixed below the working platform 2, and centering bearings 1404 are hinged, a centering rotary disc 1401 is arranged on one side of the centering screw 1402, and the centering rotary disc 1401 is fixedly connected with the centering screw 1402.

Still be equipped with controller 3 on work platform 2, 3 line connection of controller pushes down motor 1701, agitator motor 1101, elevator motor 61 and rotate the work of motor 201, and controller 3 is PLC or single chip controller 3, and whole device is even by the outside power supply that provides, and controller 3 connects the power, and then controls the work of whole device, is equipped with a plurality of ball 19 on work platform 2, and the mould 13 of being convenient for removes on work platform 2, is equipped with the scraper blade in mould 13 top week side, the scraper blade is through scraping material support 16 and connecting work platform 2, scrapes material support 16 and be the L type, scrapes material support 16 and passes through threaded connection and fix on work platform 2.

The working process of the utility model is as follows: firstly, a mold 13 is placed on a rotating disc 204 of a rotating mechanism 20, a centering rotary disc 1401 is manually rotated, the centering rotary disc 1401 drives a centering screw 1402 to work, two centering nuts 1408 are connected to the centering screw 1402 in a threaded manner, the centering screw 1402 drives the two centering nuts 1408 to do opposite movement, the centering nuts 1408 are fixedly connected to a centering connecting plate 1406, the centering connecting plate 1406 is fixedly connected to a centering straight plate 1405, the centering straight plate 1405 is fixedly connected to a centering plate 1403, so that the centering nut 1408 drives the centering plate 1403 to move towards the rotating disc 204 until a centering bearing 1404 on the centering plate 1403 clamps the mold 13, the centering plate 1403 is a V-shaped plate or an arc-shaped plate, the centering bearing 1404 on the centering plate 1403 plays a role in centering and clamping the mold 13, and the centering operation is completed,

the controller 3 starts the lifting motor 61 to work, the lifting motor 61 drives the lifting screw 63 through the lifting coupler, the lifting screw 63 drives the second lifting slide block 62 to ascend or descend, the second lifting slide block 62 drives the lifting platform 10 to ascend or descend, the lifting platform 10 is provided with the blanking mechanism 11 and the pressing mechanism 17, the lifting platform 10 drives the blanking mechanism 11 and the pressing mechanism 17 to ascend or descend, meanwhile, the first lifting slide block 12 ascends or descends along the pressing support column 9 to reinforce the lifting platform 10 to prevent the ascending or descending from inclining, the positions of the blanking mechanism 11 and the pressing mechanism 17 are adjusted to enable the pressing plate and the discharging pipe 1111 of the annular bin 1109 to be in the mold 13, the discharging pipe 1111 and the pressing plate uniform mold 13 are matched for use, different discharging pipes 1111 and pressing plates are matched for use by molds 13 with different radians, if the blanking mechanism 11 and the pressing mechanism 17 are not concentric with the mold 13, manually rotating the movable turntable 4, driving the movable screw 8 to rotate by the movable turntable 4, driving the movable slider 5 to slide along the movable slide rail 71 by the movable screw 8, driving the lifting platform 10 to move by the movable slider 5 until the blanking mechanism 11 is concentric with the mold 13, then manually pushing the pressing support plate 1705, and sliding the pressing slider 1706 below the pressing support plate 1705 along the transverse slide rail 101, so that the pressing support plate 1705 drives the whole pressing mechanism 17 to slide on the transverse guide rail of the lifting platform 10 until the pressing mechanism 17 is concentric with the mold 13;

the controller 3 starts the rotating motor 201, the stirring motor 1101, the pushing motor 1701, the first vibrating motor 1108 and the second vibrating motor 1110 to work simultaneously, the stirring motor 1101 drives the auger 1107 to work through the blanking coupler 1102, the auger 1107 stirs materials, the first vibrating motor 1108 vibrates the bin 1106 to prevent the materials from adhering to the inner wall of the bin 1106 and accelerate the stirring of the materials, the stirred materials enter the annular bin 1109 under the action of gravity, the materials pass through the discharge pipe 1111 and then enter the die 13 under the action of the second vibrating motor 1110 and the gravity, the rotating motor 201 drives the rotating disc 204 through the rotating coupler 202, the die 13 is driven to rotate by the rotating disc 204, the centering bearing 1404 on the centering plate 1403 enables the die 13 to be always in the middle of the rotating disc 204 during rotation, the central line of the die 13 is always coincident with the central line of the rotating disc 204, the pushing motor 1701 drives the eccentric 1702 to rotate, eccentric wheel 1702 drives and pushes down connecting plate 1704 up-and-down motion, it pushes down connecting plate 1704 and drives through buffer assembly 1707 and pushes down sliding plate 1708 and reciprocate on slide rail 1717, thereby it drives the clamp plate and reciprocate to push down sliding plate 1708, the clamp plate carries out intermittent type nature suppression to the material in the mould 13, buffer assembly 1707 includes upper junction plate 1712 and lower connecting plate 1715, upper junction plate 1713 is connected to upper junction plate 1712 lower extreme fixed connection, connecting pipe 1714 under the lower connecting plate 1715 upper end fixed connection, upper junction plate 1713 cup joints in connecting pipe 1714 down, fixed connection buffer spring 1716 between upper junction plate 1712 and lower connecting plate 1715, when upper junction plate 1712 atress, buffer spring 1716 can compress and prevent hard pushing down.

While the preferred embodiments of the present invention have been described, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the general inventive concept, and it is intended to cover all such changes and modifications as fall within the true spirit and scope of the invention.

Claims (4)

1. The utility model provides a semi-automatic material spreading machine unloading mechanism, includes agitator motor, unloading shaft coupling, cang gai, feed bin and auger, its characterized in that: the utility model discloses a material loading bin, including bin cover, feed bin coupling, vibrating motor, material receiving bin, connecting plate fixed connection annular feed bin, the outer wall of annular feed bin is equipped with the second power supply, the bin cover is articulated with lower material supporting disk, passes through unloading flange fixed connection agitating unit at lower material supporting disk upper end middle part, and unloading supporting disk lower extreme fixed connection feed bin, the auger is settled to the feed bin inside, stirring motor passes through the unloading coupling joint auger, is equipped with vibrating motor at the outer wall of feed bin, connect the material receiving bin to pass through the first power supply of first vibration base fixed connection, pass through connecting plate fixed connection annular feed bin at the exit end.

2. The semi-automatic material spreader blanking mechanism of claim 1, wherein: the cross section of the annular bin is Y-shaped, and an outlet end below the annular bin is matched with the mold for use.

3. The semi-automatic material spreader blanking mechanism of claim 1, wherein: the stirring device is a stirring motor.

4. The semi-automatic material spreader blanking mechanism of claim 1, wherein: the first power source and the second power source are both stirring motors.

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