CN217554811U - Component disc discharging and warehousing device based on sintering furnace - Google Patents

Abstract

A component tray discharging and warehousing device based on a sintering furnace comprises a discharging mechanism, a warehousing mechanism and a component tray warehouse. The utility model discloses component dish ejection of compact warehouse entry device based on sintering furnace can be through discharge mechanism's play flitch with the component dish propelling movement in groups that superposes together to the receipts flitch of warehouse entry mechanism on, and through the vertical conveying subassembly on the adjustment warehouse entry mechanism, height adjustment subassembly and horizontal conveying subassembly, will lift the component dish that superposes together on receiving the flitch, the successive layer is placed on the shelf in component dish storehouse, export the component dish from sintering furnace kiln discharge gate to the component dish and put into component dish storehouse and provide a full automatization technical solution, the technical scheme of optimization is further for improving again the utility model discloses a stability and convenience provide technical means. The utility model has the characteristics of job stabilization is reliable, effectual.

Description

Component disc discharging and warehousing device based on sintering furnace

Technical Field

The utility model relates to an automation equipment field specifically indicates a component dish ejection of compact device of putting in storage based on sintering furnace kiln.

Background

The powder metallurgy pressed component needs to be sintered in a sintering furnace, the component is arranged in an orderly manner in a component disc, and a plurality of component discs can be stacked together and sent into the sintering furnace for sintering due to a base foot at the bottom of the component disc. After the sintering of the element is finished, the element disc is output from a discharge hole of the sintering furnace kiln by a conveyer belt, and at the moment, the element disc needs to be placed into an element disc warehouse for storage. In the conventional apparatus, the inventors have not found an automatic transfer apparatus for feeding out the component trays from the discharge port of the sintering furnace to the component tray magazine, and have not found such an apparatus described in the text.

Disclosure of Invention

The utility model aims at the above technical problem, provide a component dish ejection of compact warehouse entry device based on sintering furnace kiln that is used for the component dish to put into component dish storehouse from sintering furnace kiln discharge gate output to the component dish.

The purpose of the utility model is realized like this: the utility model discloses a component dish ejection of compact warehouse entry device based on sintering furnace kiln, it includes discharge mechanism, warehouse entry mechanism and component dish storehouse, above-mentioned discharge mechanism is a gantry structure form, two seat feet set up respectively in the both sides of sintering furnace kiln discharge gate, gantry support bridge joint is on above-mentioned two seat feet, wherein, be connected with first slide rail through first spout between gantry support and the seat frame of one side, be connected through first slip table cylinder removal between gantry support and the seat foot of the opposite side, the direction of motion of first slip table cylinder is unanimous or opposite with sintering furnace kiln ejection of compact direction, gantry support is connected with ejection of compact board through second slip table cylinder up-and-down; the warehousing mechanism comprises a longitudinal conveying assembly, a height adjusting assembly and a transverse conveying assembly; the longitudinal conveying assembly comprises a first sliding table linear module and a first motor, the first motor controls the first sliding table to move longitudinally through the first sliding table linear module, and the longitudinal movement direction is consistent with or opposite to the discharging direction of the sintering furnace kiln; the height adjusting assembly comprises a second sliding table linear module and a second motor, and the second motor controls the second sliding table to move up and down through the second sliding table linear module to adjust the height; the transverse conveying assembly comprises a horizontal support and a material receiving plate, a transmission unit consisting of a third motor, two belt wheels and a transmission belt is arranged on the horizontal support, and the material receiving plate is connected to the material receiving plate support; the material receiving plate support and the horizontal support are movably connected through a second sliding rail fixed on the horizontal support and a second sliding groove fixed on the material receiving plate support, the second sliding groove and the transmission belt are fixed through a connecting piece, and the material receiving plate moves on the second sliding rail on the horizontal support under the traction of the transmission belt when the third motor rotates; the horizontal bracket is fixedly connected to the second sliding table; the second sliding table linear module is fixedly connected to the first sliding table.

The optimization scheme is as follows: the discharge plate pushes the component disc forwards, and a separation fence of the component disc is arranged.

The optimization scheme is as follows: the component coil warehouse is a multi-layer and multi-column shelf structure, and the number of columns is the same as that of component coils arranged in a sintering furnace.

The optimization scheme is as follows: and two ends of the second slide rail are provided with limiting blocks.

The optimization scheme is as follows: the component warehouse and the warehouse entry mechanism are fixed on a flat plate moving rack.

Through the technical scheme, the utility model discloses component dish ejection of compact storage device based on sintering furnace kiln can be through discharge mechanism's play flitch with the component dish propelling movement in groups that superposes together to put in storage mechanism receive the flitch on to vertical conveying subassembly, height adjustment subassembly and horizontal conveying subassembly on putting in storage mechanism through the adjustment, will lift the component dish that superposes together on receiving the flitch, the successive layer is placed on the shelf in component dish storehouse, the utility model discloses a component dish is put into component dish storehouse from sintering furnace kiln discharge gate output to the component dish and is provided a full automatization technical solution, the utility model discloses the technical scheme of optimization is further for improving again the utility model discloses a stability and convenience provide technical means. The utility model has the characteristics of job stabilization is reliable, effectual.

Drawings

Fig. 1 is a schematic structural diagram of the component tray discharging and warehousing device based on the sintering furnace.

Fig. 2 is a schematic structural diagram of the discharging mechanism of the present invention.

Fig. 3 is a schematic structural diagram of the warehousing mechanism of the present invention.

Fig. 4 is a detailed structural schematic diagram of the warehousing mechanism of the present invention.

In the attached drawings, 1, a component disc library; 2. sintering furnace kiln; 3. a discharging mechanism; 31. a first chute; 32. a first slide rail; 33. a seat leg; 34. a gantry support; 35. a second sliding table cylinder; 36. a discharge plate; 37. a first sliding table cylinder; 4. A component tray; 5. a component tray; 6. A second horizontal movement mechanism; 61. a transverse transport assembly; 611. a third motor; 612. a pulley; 613. a transmission belt; 614. a horizontal support; 615. a second slide rail; 616. a limiting block; 617. a material receiving plate bracket; 618. a material collecting plate; 619. a connecting member; 6110. a second chute; 62. a height adjustment assembly; 621. a second sliding table; 622. a second sliding table linear module; 623. a second motor; 63. a longitudinal transport assembly; 631. a first sliding table; 632. a first sliding table linear module; 633 a first motor; 7. the flat plate moves the frame.

Detailed Description

The invention will be further explained by the embodiments with reference to the drawings:

as shown in fig. 1, the utility model discloses a component dish ejection of compact warehouse entry device based on sintering furnace, it includes discharge mechanism 3, warehouse entry mechanism 6 and component dish storehouse 1.

The component tray magazine 1 is a shelf structure with multiple layers and multiple rows, and the number of the rows is the same as that of the rows of the component trays 4 arranged in the sintering furnace 2.

The component magazine 1 and the magazine mechanism 6 are fixed to a flat plate moving frame 7.

As shown in fig. 1 and 2, the discharging mechanism 3 is in a gantry structure, two base feet 33 are respectively arranged at two sides of a discharging port of the sintering furnace kiln 2, a gantry support 34 is bridged on the two base feet 33, wherein the gantry support 34 is movably connected with the base frame 33 at one side through a first chute 31 and a first slide rail 32, the gantry support 34 is movably connected with the base foot 33 at the other side through a first sliding table cylinder 37, the moving direction of the first sliding table cylinder 37 is the same as or opposite to the discharging direction of the sintering furnace kiln 2, and the gantry support 34 is movably connected with a discharging plate 36 up and down through a second sliding table cylinder 35.

As shown in fig. 1 and 2, the discharge plate 36 pushes the component tray 4 forward, and the partition fence 5 of the component tray 4 is provided.

As shown in fig. 3, the warehousing mechanism 6 includes a longitudinal transport unit 63, a height adjustment unit 62, and a lateral transport unit 61.

As shown in fig. 4, the longitudinal conveying assembly 63 includes a first sliding table linear module 632 and a first motor 633, wherein the first motor 633 controls the first sliding table 631 to move longitudinally through the first sliding table linear module 632, and the longitudinal moving direction is the same as or opposite to the discharging direction of the sintering furnace 2; the height adjusting assembly 62 comprises a second sliding table linear module 622 and a second motor 623, and the second motor 623 controls the second sliding table 621 to move up and down through the second sliding table linear module 622 to adjust the height; the transverse conveying assembly 61 comprises a horizontal bracket 614 and a material receiving plate 618, a transmission unit consisting of a third motor 611, two belt wheels 612 and a transmission belt 613 is arranged on the horizontal bracket 614, and the material receiving plate 618 is connected to a material receiving plate bracket 617; the material receiving plate support 617 is movably connected with the horizontal support 614 through a second slide rail 615 fixed on the horizontal support 614 and a second chute 6110 fixed on the material receiving plate support 617, the second chute 6110 is fixed with the transmission belt 613 through a connecting piece 619, and the material receiving plate 618 moves on the second slide rail 615 on the horizontal support 614 under the traction of the transmission belt 613 when the third motor 611 rotates; the horizontal bracket 614 is fixedly connected to the second sliding table 621; the second sliding linear module 622 is fixedly connected to the first sliding table 631.

The two ends of the second slide rail 615 are provided with limit blocks 616.

Claims (5)

1. A component disc discharging and warehousing device based on a sintering furnace comprises a discharging mechanism (3), a warehousing mechanism (6) and a component disc warehouse (1), wherein the discharging mechanism (3) is in a gantry structure form, two seat legs (33) are respectively arranged on two sides of a discharging port of the sintering furnace (2), a gantry support (34) is bridged on the two seat legs (33), the gantry support (34) and the seat leg (33) on one side are movably connected with a first sliding rail (32) through a first sliding chute (31), the gantry support (34) and the seat leg (33) on the other side are movably connected through a first sliding table cylinder (37), the moving direction of the first sliding table cylinder (37) is consistent with or opposite to the discharging direction of the sintering furnace (2), and the gantry support (34) is connected with a discharging plate (36) in an up-down moving mode through a second sliding table cylinder (35); the warehousing mechanism (6) comprises a longitudinal conveying assembly (63), a height adjusting assembly (62) and a transverse conveying assembly (61); the longitudinal conveying assembly (63) comprises a first sliding table linear module (632) and a first motor (633), the first motor (633) controls the first sliding table (631) to move longitudinally through the first sliding table linear module (632), and the longitudinal movement direction is consistent with or opposite to the discharging direction of the sintering furnace (2); the height adjusting assembly (62) comprises a second sliding table linear module (622) and a second motor (623), and the second motor (623) controls the second sliding table (621) to move up and down through the second sliding table linear module (622) to adjust the height; the transverse conveying assembly (61) comprises a horizontal support (614) and a material receiving plate (618), a transmission unit consisting of a third motor (611), two belt wheels (612) and a transmission belt (613) is arranged on the horizontal support (614), and the material receiving plate (618) is connected to a material receiving plate support (617); the receiving plate bracket (617) is movably connected with the horizontal bracket (614) through a second slide rail (615) fixed on the horizontal bracket (614) and a second slide groove (6110) fixed on the receiving plate bracket (617), the second slide groove (6110) is fixed with the transmission belt (613) through a connecting piece (619), and the receiving plate (618) moves on the second slide rail (615) on the horizontal bracket (614) under the traction of the transmission belt (613) when the third motor (611) rotates; the horizontal bracket (614) is fixedly connected to the second sliding table (621); the second sliding table linear module (622) is fixedly connected to the first sliding table (631).

2. The device according to claim 1, wherein the discharge plate (36) pushes the component tray (4) forward, and a partition (5) of the component tray (4) is provided.

3. The component tray discharging and warehousing device based on the sintering furnace kiln as claimed in claim 1 is characterized in that the component tray warehouse (1) is a shelf structure with multiple layers and multiple rows, and the number of rows is the same as that of the component trays (4) arranged in the sintering furnace kiln (2).

4. The device according to claim 1, wherein the second slide rail (615) has a stopper (616) at each end.

5. The component tray discharging and warehousing device based on the sintering furnace kiln as claimed in claim 1, characterized in that the component tray warehouse (1) and the warehousing mechanism (6) are fixed on a flat moving frame (7).

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