CN220115744U - A flat material device - Google Patents

Abstract

The utility model discloses a flat material device. First rails parallel to each other are fixed on the inner walls of both sides of the silo below the chute. A second rail perpendicular to the first rail is provided on the two first rails. A fixed frame is moved on the second track, a hydraulic cylinder is fixed on the fixed frame, and an iron rake is fixed on the telescopic end of the hydraulic cylinder. The advantages of this utility model are: this utility model has a simple structure and is easy to implement. It does not require the use of a loader and reduces the labor intensity of the driver. At the same time, by pressing each control button by the operator, it can realize the function of leveling the stacking of materials in the silo and prevent the chute from collapsing. The discharge port is blocked by material, which in turn causes parking, which effectively improves the production efficiency of the enterprise.

Description

Material flattening device

Technical field:

the utility model relates to a material leveling machine, in particular to a material leveling device.

The background technology is as follows:

at present, the loading mode of the kaolin storage bin is that kaolin is conveyed to a chute above the storage bin through a belt conveyor, then the kaolin falls into the storage bin along a top opening of the storage bin along the chute, the problem of stacking can occur along with the increase of time, the stacking is leveled at present through a loader, but a driver of the loader operates for a long time, fatigue can occur, the material cannot be leveled in time, and further the problem that a discharge hole below the chute is blocked by the stacking is extremely easy to occur, so that equipment stops running, and the production efficiency of enterprises is affected.

The utility model comprises the following steps:

the utility model aims to provide a material leveling device which is simple in structure, realizes leveling of stacking materials in a storage bin and improves production efficiency.

The utility model is implemented by the following technical scheme: the purpose of this patent provides a flat material device, is fixed with the first track of being parallel to each other at the feed bin both sides inner wall of chute below, two first track direct movement be provided with first track mutually perpendicular's second track the removal is provided with the mount on the second track be fixed with the pneumatic cylinder on the mount the flexible end of pneumatic cylinder is fixed with the iron rake.

Further, a side face of the second track is rotatably hinged with two track wheels matched with the first track, the track wheels are respectively rotatably arranged on the first track, the two track wheels are connected through a connecting shaft, and one track wheel is in transmission connection with the output end of the first driving motor.

Further, a travelling wheel is rotatably hinged to one side face of the fixing frame and is rotatably arranged on the second track, and the travelling wheel is in transmission connection with the output end of the second driving motor.

Further, a first limit switch and a second limit switch are respectively arranged at two ends of the first track, and a third limit switch and a fourth limit switch are respectively arranged at two ends of the second track.

Further, the electric power generation device further comprises a first forward rotation contactor, a first reverse rotation contactor, a first forward rotation button switch, a first reverse rotation button switch, a main switch and a first thermal relay; the first forward button switch, the normally closed contact of the first relay, the normally closed contact of the first reverse contactor and the first forward contactor are connected in series to form a first series circuit, the first reverse button switch, the normally closed contact of the second relay, the normally closed contact of the first forward contactor and the first reverse contactor are connected in series to form a second series circuit, the first series circuit and the second series circuit are connected in parallel and then are connected in series with the normally closed contact of the first thermal relay to form a third series circuit, the first limit switch and the first relay are connected in series to form a fourth series circuit, the second limit switch and the second relay are connected in series to form a fifth series circuit, and the normally open contact of the first thermal relay and the first indicator lamp are connected in series to form a sixth series circuit; one end of the third series circuit, the fourth series circuit, the fifth series circuit and the sixth series circuit are connected in parallel and then connected with an alternating current power supply, the other end of the third series circuit, the fourth series circuit, the fifth series circuit and the sixth series circuit are connected with one end of the master switch, and the other end of the master switch is connected with the alternating current power supply; the first driving motor, the first thermal relay, the first positive-switching contactor and the main switch are connected in series on a power supply circuit, and the first reverse-switching contactor is connected with the first positive-switching contactor in parallel.

Further, the electric motor further comprises a second forward rotation contactor, a second reverse rotation contactor, a second forward rotation button switch, a second reverse rotation button switch and a second thermal relay; the second forward rotating button switch, the normally closed contact of the third relay, the normally closed contact of the second reverse rotating contactor and the second forward rotating contactor are connected in series to form a first series circuit, the second reverse rotating button switch, the normally closed contact of the fourth relay, the normally closed contact of the second forward rotating contactor and the second reverse rotating contactor are connected in series to form a second series circuit, the first series circuit and the second series circuit are connected in parallel and then are connected in series with the normally closed contact of the second thermal relay to form a third series circuit, the third limit switch and the third relay are connected in series to form a fourth series circuit, the fourth limit switch and the fourth relay are connected in series to form a fifth series circuit, and the normally open contact of the second thermal relay and the second indicator lamp are connected in series to form a sixth series circuit; one end of the third series circuit, the fourth series circuit, the fifth series circuit and the sixth series circuit are connected in parallel and then connected with an alternating current power supply, the other end of the third series circuit, the fourth series circuit, the fifth series circuit and the sixth series circuit are connected with one end of the master switch, and the other end of the master switch is connected with the alternating current power supply; the second driving motor, the second thermal relay, the second forward rotating contactor and the main switch are connected in series on a power supply circuit, and the second reverse rotating contactor is connected with the second forward rotating contactor in parallel.

Further, the device also comprises an extension contactor, a contraction contactor, an extension button switch, a contraction button switch and a third thermal relay; the push button switch, the normally closed contact of the fifth relay, the normally closed contact of the contraction contactor and the extension contactor are connected in series to form a first series circuit, the normally closed contact of the contraction push button switch, the normally closed contact of the sixth relay, the normally closed contact of the extension contactor and the contraction contactor are connected in series to form a second series circuit, the first series circuit is connected in parallel with the second series circuit and then is connected in series with the normally closed contact of the third thermal relay to form a third series circuit, the far-end limit switch of the hydraulic cylinder is connected in series with the fifth relay to form a fourth series circuit, the near-end limit switch of the hydraulic cylinder is connected in series with the sixth relay to form a fifth series circuit, and the normally open contact of the third thermal relay is connected in series with a third indicator lamp to form a sixth series circuit; one end of the third series circuit, the fourth series circuit, the fifth series circuit and the sixth series circuit are connected in parallel and then connected with an alternating current power supply, the other end of the third series circuit, the fourth series circuit, the fifth series circuit and the sixth series circuit are connected with one end of the master switch, and the other end of the master switch is connected with the alternating current power supply; the hydraulic motor of the hydraulic cylinder, the third thermal relay, the extending contactor and the master switch are connected in series on a power supply circuit, and the contracting contactor is connected with the extending contactor in parallel.

The utility model has the advantages that: the device has a simple structure, is easy to realize, does not need to use a loader after the device is used, reduces the labor intensity of a driver, simultaneously realizes the function of leveling the stacking in the storage bin by pressing each control button by an operator, prevents the blocking of a discharge hole of a chute, further stops the vehicle, and effectively improves the production efficiency of enterprises.

Description of the drawings:

in order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a partial enlarged view of a portion a in fig. 1.

FIG. 3 is a schematic cross-sectional view of portion B-B of FIG. 1.

Fig. 4 is a schematic diagram of a connection structure of the second track, the third limit switch and the fourth limit switch.

Fig. 5 is a control circuit diagram of the present utility model.

Fig. 6 is a circuit diagram of the first driving motor.

Fig. 7 is a circuit diagram of a second drive motor.

Fig. 8 is a circuit diagram of a hydraulic motor of the hydraulic cylinder.

Chute 1, silo 2, first track 3, second track 4, rail wheel 5, connecting axle 6, mount 7, walking wheel 8, rake 9, first driving motor M1, second driving motor M2, pneumatic cylinder M3, first limit switch K1, second limit switch K2, third limit switch K3, fourth limit switch K4, first forward button switch SB1, first relay KA1, first reverse contactor KMR1, first forward contactor KMF1, first reverse button switch SB2, second relay KA2, first thermal relay FR1, first indicator lamp HL1, master switch QF, second forward button switch SB3, third relay KA3, second reverse contactor KMR2, second forward button switch KMF2, second button switch SB4, fourth relay KA4, second indicator lamp HL2, extension button switch 355, fifth relay 84, extension button switch 3 FR3, sixth relay KA6, third relay KA3, and third relay KA6, and third relay SB6 at the distal end.

The specific embodiment is as follows:

as shown in fig. 1-4, in the material leveling device, first rails 3 parallel to each other are fixed on the inner walls of two sides of a storage bin 2 below a chute 1, two first rails 3 are directly and movably provided with second rails 4 perpendicular to the first rails 3, two rail wheels 5 matched with the first rails 3 are rotatably hinged on one side surface of the second rails 4, the rail wheels 5 are respectively and rotatably arranged on the first rails 3, the two rail wheels 5 are connected through a connecting shaft 6, and one rail wheel 5 is in transmission connection with the output end of a first driving motor M1; a fixed frame 7 is movably arranged on the second track 4, a travelling wheel 8 is rotatably hinged to one side surface of the fixed frame 7, the travelling wheel 8 is rotatably arranged on the second track 4, and the travelling wheel 8 is in transmission connection with the output end of the second driving motor M2; a hydraulic cylinder M3 is fixed on the fixed frame 7, a manufacturer of the hydraulic cylinder M3 is manufactured by Sharp-Tex hydraulic machinery Co., yangzhou, the model is DYTZWI300-60, and a rake 9 is fixed at the telescopic end of the hydraulic cylinder M3; the two ends of the first track 3 are respectively provided with a first limit switch K1 and a second limit switch K2, so that the second track 4 is prevented from being separated from the first track 3, and the two ends of the second track 4 are respectively provided with a third limit switch K3 and a fourth limit switch K4, so that the fixing frame 7 is prevented from being separated from the second track 4.

As shown in fig. 5 to 8, the first forward button switch SB1, the normally closed contact of the first relay KA1, the normally closed contact of the first reverse contactor KMR, and the first forward contactor KMF1 are connected in series to form a first series circuit, the first reverse button switch SB2, the normally closed contact of the second relay KA2, the normally closed contact of the first forward contactor KMF1, and the first reverse contactor KMR1 are connected in series to form a second series circuit, the first series circuit is connected in parallel with the second series circuit and then is connected in series with the normally closed contact of the first thermal relay FR1 to form a third series circuit, the first limit switch K1 is connected in series with the first relay KA1 to form a fourth series circuit, the second limit switch K2 is connected in series with the second relay KA2 to form a fifth series circuit, and the normally open contact of the first thermal relay FR1 is connected in series with the first indicator lamp HL1 to form a sixth series circuit; one end of the third series circuit, the fourth series circuit, the fifth series circuit and the sixth series circuit after being connected in parallel is connected with an alternating current power supply, the other end of the third series circuit, the fourth series circuit, the fifth series circuit and the sixth series circuit is connected with one end of a main switch QF, and the other end of the main switch QF is connected with the alternating current power supply; the first driving motor M1, the first thermal relay FR1, the first forward contactor KMF1, and the main switch QF are connected in series on the power supply circuit, and the first reverse contactor KMR1 is connected in parallel with the first forward contactor KMF 1.

The second forward rotation button switch SB3, the normally closed contact of the third relay KA3, the normally closed contact of the second reverse rotation contactor KMR and the second forward rotation contactor KMF2 are connected in series to form a first series circuit, the second reverse rotation button switch SB4, the normally closed contact of the fourth relay KA4, the normally closed contact of the second forward rotation contactor KMF2 and the second reverse rotation contactor KMR are connected in series to form a second series circuit, the first series circuit is connected in parallel with the second series circuit and then is connected in series with the normally closed contact of the second thermal relay FR2 to form a third series circuit, the third limit switch K3 is connected in series with the third relay KA3 to form a fourth series circuit, the fourth limit switch K4 is connected in series with the fourth relay KA4 to form a fifth series circuit, and the normally open contact of the second thermal relay FR2 is connected in series with the second indicator lamp HL2 to form a sixth series circuit; one end of the third series circuit, the fourth series circuit, the fifth series circuit and the sixth series circuit after being connected in parallel is connected with an alternating current power supply, the other end of the third series circuit, the fourth series circuit, the fifth series circuit and the sixth series circuit is connected with one end of a main switch QF, and the other end of the main switch QF is connected with the alternating current power supply; the second driving motor M2, the second thermal relay FR2, the second forward rotation contactor KMF2, and the main switch QF are connected in series on the power supply circuit, and the second reverse rotation contactor KMR is connected in parallel with the second forward rotation contactor KMF 2.

The push button switch SB5 stretches out, the normally closed contact of the fifth relay KA5, the normally closed contact of the shrinkage contactor KMR and the stretching contactor KMF3 are connected in series to form a first series circuit, the push button switch SB6, the normally closed contact of the sixth relay KA6, the normally closed contact of the stretching contactor KMF3 and the shrinkage contactor KMR are connected in series to form a second series circuit, the first series circuit is connected in parallel with the second series circuit and then connected in series with the normally closed contact of the third thermal relay FR3 to form a third series circuit, the far-end limit switch K5 of the hydraulic cylinder M3 is connected in series with the fifth relay KA5 to form a fourth series circuit, the near-end limit switch K6 of the hydraulic cylinder M3 is connected in series with the sixth relay KA6 to form a fifth series circuit, and the normally open contact of the third thermal relay FR3 is connected in series with the third indicator lamp HL3 to form a sixth series circuit; one end of the third series circuit, the fourth series circuit, the fifth series circuit and the sixth series circuit after being connected in parallel is connected with an alternating current power supply, the other end of the third series circuit, the fourth series circuit, the fifth series circuit and the sixth series circuit is connected with one end of a main switch QF, and the other end of the main switch QF is connected with the alternating current power supply; the hydraulic motor of the hydraulic cylinder M3, the third thermal relay FR3, the extension contactor KMF3, and the main switch QF are connected in series on the power supply circuit, and the retraction contactor KMR3 is connected in parallel with the extension contactor KMF 3.

Working principle: when the material is required to be flattened, an operator presses the first forward rotation button switch SB1, the first reverse rotation button switch SB2, the second forward rotation button switch SB3 or the second reverse rotation button switch SB4 respectively to realize forward and reverse rotation of the first driving motor M1 or the second driving motor M2, further realize left and right forward and backward movement of the fixing frame 7, after moving to a certain position, the operator presses the stretching button switch SB5 or the contracting button switch SB6 to realize stretching and contracting of the telescopic end of the hydraulic cylinder M3, further drive the iron rake 9 to move back and forth, realize flattening of the material piled in the material bin 2, prevent material blocking of a discharge port of the chute 1, further cause parking, and effectively improve the production efficiency of enterprises; meanwhile, a loader is not required, and the labor intensity of a driver is reduced.

The operator presses the first forward rotation button switch SB1, the first reverse rotation contactor KMR is powered on, the normally closed contact of the first reverse rotation contactor KMR is opened, the second series circuit is ensured to be in a power-off state, and the first reverse rotation button switch SB2 is prevented from being pressed by mistake; when the first driving motor M1 starts to move before steering and moves to the first limit switch K1, the first limit switch K1 is closed, the first relay KA1 is powered on, the normally closed contact of the first relay KA1 is opened, and the first driving motor M1 is powered off and stops moving; the operator presses the first reverse button switch SB2 in the same way, the first forward contact KMF1 is electrified, the normally closed contact of the first forward contact KMF1 is opened, the first series circuit is ensured to be in a power-off state, and the first forward button switch SB1 is prevented from being pressed by mistake; when the first driving motor M1 starts to reversely rotate and moves backwards, the second limit switch K2 is closed when the first driving motor M1 moves to the second limit switch K2, the second relay KA2 is powered on, the normally closed contact of the second relay KA2 is opened, the first driving motor M1 is powered off and stops moving, when overload occurs, the normally closed contact of the first thermal relay FR1 is opened, the first driving motor M1 is powered off and stops moving, the normally open contact of the first thermal relay FR1 is closed, and the first indicator lamp HL1 is on and gives an alarm.

The control process of the second driving motor M2 and the hydraulic cylinder M3 is the same as that of the first driving motor M1.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (7)

1. The utility model provides a flat material device, its characterized in that is fixed with the first track of mutual parallel at the feed bin both sides inner wall below the chute, at two first track direct movement be provided with first track mutually perpendicular's second track move on the second track be provided with the mount be fixed with the pneumatic cylinder on the mount the telescopic end of pneumatic cylinder is fixed with the iron rake.

2. The material leveling device according to claim 1, wherein two rail wheels matched with the first rail are rotatably hinged to one side surface of the second rail, the rail wheels are rotatably arranged on the first rail respectively, the two rail wheels are connected through a connecting shaft, and one rail wheel is in transmission connection with the output end of the first driving motor.

3. A material leveling device according to claim 1 or 2, wherein a travelling wheel is rotatably hinged to one side of the fixing frame, the travelling wheel is rotatably arranged on the second track, and the travelling wheel is in transmission connection with an output end of the second driving motor.

4. A material leveling device according to claim 3, wherein a first limit switch and a second limit switch are respectively arranged at two ends of the first rail, and a third limit switch and a fourth limit switch are respectively arranged at two ends of the second rail.

5. The material leveling device of claim 4, further comprising a first forward contactor, a first reverse contactor, a first forward button switch, a first reverse button switch, a master switch, and a first thermal relay; the first forward button switch, the normally closed contact of the first relay, the normally closed contact of the first reverse contactor and the first forward contactor are connected in series to form a first series circuit, the first reverse button switch, the normally closed contact of the second relay, the normally closed contact of the first forward contactor and the first reverse contactor are connected in series to form a second series circuit, the first series circuit and the second series circuit are connected in parallel and then are connected in series with the normally closed contact of the first thermal relay to form a third series circuit, the first limit switch and the first relay are connected in series to form a fourth series circuit, the second limit switch and the second relay are connected in series to form a fifth series circuit, and the normally open contact of the first thermal relay and the first indicator lamp are connected in series to form a sixth series circuit; one end of the third series circuit, the fourth series circuit, the fifth series circuit and the sixth series circuit are connected in parallel and then connected with an alternating current power supply, the other end of the third series circuit, the fourth series circuit, the fifth series circuit and the sixth series circuit are connected with one end of the master switch, and the other end of the master switch is connected with the alternating current power supply; the first driving motor, the first thermal relay, the first positive switching contactor and the main switch are connected in series on a power supply circuit, and the first reverse contactor is connected with the first positive switching contactor in parallel.

6. The material leveling device of claim 5, further comprising a second forward contactor, a second reverse contactor, a second forward button switch, a second reverse button switch, and a second thermal relay; the second forward rotating button switch, the normally closed contact of the third relay, the normally closed contact of the second reverse rotating contactor and the second forward rotating contactor are connected in series to form a first series circuit, the second reverse rotating button switch, the normally closed contact of the fourth relay, the normally closed contact of the second forward rotating contactor and the second reverse rotating contactor are connected in series to form a second series circuit, the first series circuit and the second series circuit are connected in parallel and then are connected in series with the normally closed contact of the second thermal relay to form a third series circuit, the third limit switch and the third relay are connected in series to form a fourth series circuit, the fourth limit switch and the fourth relay are connected in series to form a fifth series circuit, and the normally open contact of the second thermal relay and the second indicator lamp are connected in series to form a sixth series circuit; one end of the third series circuit, the fourth series circuit, the fifth series circuit and the sixth series circuit are connected in parallel and then connected with an alternating current power supply, the other end of the third series circuit, the fourth series circuit, the fifth series circuit and the sixth series circuit are connected with one end of the master switch, and the other end of the master switch is connected with the alternating current power supply; the second driving motor, the second thermal relay, the second forward rotating contactor and the main switch are connected in series on a power supply circuit, and the second reverse rotating contactor is connected with the second forward rotating contactor in parallel.

7. The material leveling device of claim 6, further comprising an extension contactor, a retraction contactor, an extension push button switch, a retraction push button switch, and a third thermal relay; the push button switch, the normally closed contact of the fifth relay, the normally closed contact of the contraction contactor and the extension contactor are connected in series to form a first series circuit, the normally closed contact of the contraction push button switch, the normally closed contact of the sixth relay, the normally closed contact of the extension contactor and the contraction contactor are connected in series to form a second series circuit, the first series circuit is connected in parallel with the second series circuit and then is connected in series with the normally closed contact of the third thermal relay to form a third series circuit, the far-end limit switch of the hydraulic cylinder is connected in series with the fifth relay to form a fourth series circuit, the near-end limit switch of the hydraulic cylinder is connected in series with the sixth relay to form a fifth series circuit, and the normally open contact of the third thermal relay is connected in series with a third indicator lamp to form a sixth series circuit; one end of the third series circuit, the fourth series circuit, the fifth series circuit and the sixth series circuit are connected in parallel and then connected with an alternating current power supply, the other end of the third series circuit, the fourth series circuit, the fifth series circuit and the sixth series circuit are connected with one end of the master switch, and the other end of the master switch is connected with the alternating current power supply; the hydraulic motor of the hydraulic cylinder, the third thermal relay, the extending contactor and the master switch are connected in series on a power supply circuit, and the contracting contactor is connected with the extending contactor in parallel.