CN216159612U - Automatic branch device of bearing roller guipure stove ejection of compact - Google Patents

Abstract

The utility model discloses a carrier roller mesh belt furnace discharging automatic direction dividing device which comprises a conveying fixed bottom plate, wherein a motor chamber is arranged at the top end of the conveying fixed bottom plate, a servo motor is arranged in the motor chamber, a material direction dividing plate is arranged outside the top end of the motor chamber, the material direction dividing plate is of a round barrel structure, the top end of the servo motor is connected with a fixed bearing through a coupling, the fixed bearing penetrates through the top of a feeding platform, the outer wall of the fixed bearing is connected with a direction dividing baffle through a threaded structure, the diameter of the direction dividing baffle is equal to the inner diameter of the material direction dividing plate, and when the outer walls of two ends of the direction dividing baffle are respectively attached to a first limiting baffle and a second limiting baffle, the inner walls of two ends of the direction dividing baffle are respectively superposed with the inner walls of the top ends of a first discharging chute and a second discharging chute. This automatic branch device of bearing roller guipure stove ejection of compact can be convenient can the material carry out automatic branch material when the ejection of compact to directly divide into two with the material, save the process, improve the efficiency of aftertreatment.

Description

Automatic branch device of bearing roller guipure stove ejection of compact

Technical Field

The utility model relates to the technical field of carrier roller mesh belt furnaces, in particular to an automatic material-discharging direction-dividing device for a carrier roller mesh belt furnace.

Background

Heat treatment refers to a hot metal working process in which a material is heated, held and cooled in the solid state to achieve a desired texture and properties. The carrier roller mesh belt furnace is a machine which is common in heat treatment processing, the carrier roller mesh belt furnace uses a carrier roller as power to transport materials, and the mesh belt furnace generally adopts a mesh belt protected by a muffle to realize a sintering furnace for continuously conveying parts in the furnace. The method is mainly used for sintering powder metallurgy products, reducing metal powder and pre-sintering, sintering or heat treatment of electronic products in protective atmosphere or air.

The ejection of compact mode of current bearing roller guipure stove is the single-point and directly goes out, when assembly line production, often need divide into the both sides transportation with the part and carry out the aftertreatment, needs the ejection of compact back to divide the material once more, and is comparatively loaded down with trivial details.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an automatic discharging direction dividing device for a carrier roller mesh belt furnace, and aims to solve the problem that the discharging mode of the carrier roller mesh belt furnace in the background technology is single-point direct discharging, parts are often required to be divided into two sides for transportation and post-treatment during production of a production line, and the parts are required to be divided again after discharging, so that the problem is complicated.

In order to achieve the purpose, the utility model provides the following technical scheme: a carrier roller mesh belt furnace discharging automatic direction dividing device comprises a conveying fixing bottom plate, wherein a motor chamber is installed at the top end of the conveying fixing bottom plate, a servo motor is arranged in the motor chamber, a material direction dividing table is installed outside the top end of the motor chamber, the material direction dividing table is of a circular barrel structure, the top end of the servo motor is connected with a fixed bearing through a coupling, the fixed bearing penetrates through the top of a feeding platform, the material direction dividing table is provided with the feeding platform outside the side edge of the table, the feeding platform is connected with a material conveying belt, two sides of the far feeding platform on the outer wall of the material direction dividing table are respectively connected with a first discharging chute and a second discharging chute, a first material collecting basket and a second material collecting basket are respectively arranged below the outer ends of the first discharging chute and the second discharging chute, the first material collecting basket and the second material collecting basket are located above the conveying fixing bottom plate, and a first limit baffle and a second limit baffle are respectively installed on two sides of the inner wall above the table by the material direction dividing table, and first limit baffle and second limit baffle all are located between first ejection of compact chute and the second ejection of compact chute, the fixed bearing outer wall is connected with to the baffle through helicitic texture, and divide to the diameter of baffle and equal to the material to the platform internal diameter, when dividing to the outer wall of baffle both ends respectively with first limit baffle and second limit baffle laminating, divide to the inner wall of baffle both ends respectively with first ejection of compact chute and the coincidence of second ejection of compact chute top inner wall.

Preferably, the rotary rod shafts are arranged on two sides of the top of the fixed transportation bottom plate at intervals, and the axes of the rotary rod shafts are parallel to the axis of the material conveying belt.

Preferably, the first collecting basket and the second collecting basket are placed at the tops of the rotating rod shafts, and the handle through holes are formed in the outer walls of the two sides of the first collecting basket and the outer walls of the two sides of the second collecting basket.

Preferably, the width of the middle part of the directional baffle is larger than the width of the two sides of the directional baffle, and the cambered surface of the outer end of the directional baffle and the cambered surface of the inner wall of the directional platform are overlapped.

Preferably, the width of the material conveying belt is not more than the diameter of the material dividing table, and the height of the top surface of the material dividing table is not higher than the height of the top surface of the dividing baffle.

Compared with the prior art, the utility model has the beneficial effects that: this automatic branch device of bearing roller guipure stove ejection of compact can be convenient can the material carry out automatic branch material when the ejection of compact to directly divide into two with the material, save the process, improve the efficiency of aftertreatment. The material on the material conveyer belt of this automatic branch device of bearing roller guipure stove ejection of compact can fall to the material branch inside to the platform, then through to the baffle just reversing with the leading-in to first ejection of compact chute or second ejection of compact chute inside of material, then fall into first collecting basket and second collecting basket automatically and divide the material, improve and divide material efficiency.

Drawings

FIG. 1 is a schematic structural view of a carrier roller mesh belt furnace discharging automatic direction-dividing device in a front view;

fig. 2 is a schematic sectional structure view A-A in fig. 1 of the automatic discharging direction dividing device of the carrier roller mesh belt furnace.

In the figure: 1. first collecting basket, 2, rotation rod axle, 3, transportation fixed baseplate, 4, handle through-hole, 5, first ejection of compact chute, 6, first limit baffle, 7, material branch to the platform, 8, divide to the baffle, 9, fixing bearing, 10, second limit baffle, 11, second ejection of compact chute, 12, second collecting basket, 13, feeding platform, 14, material conveyer belt, 15, motor room, 16, servo motor, 17, heat dissipation through-hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution: a carrier roller mesh belt furnace discharging automatic direction dividing device comprises a transportation fixing bottom plate 3, a motor chamber 15 is installed at the top end of the transportation fixing bottom plate 3, a servo motor 16 is arranged in the motor chamber 15, rotating rod shafts 2 are installed on two sides of the top of the transportation fixing bottom plate 3 at intervals, the axes of the rotating rod shafts 2 are parallel to the axis of a material conveying belt 14, a user can convey divided materials along the conveying direction of the material conveying belt 14 through the rotating rod shafts 2 on the transportation fixing bottom plate 3 by the aid of the structure, a first collecting basket 1 and a second collecting basket 12 are placed on the top of the rotating rod shafts 2, handle through holes 4 are formed in the outer walls of the two sides of the first collecting basket 1 and the second collecting basket 12, the user can conveniently move the first collecting basket 1 and the second collecting basket 12 for loading the materials by the aid of the rotating rod shafts 2, force application of the handle through holes 4 is facilitated for the user, the material direction-dividing table 7 is arranged outside the top end of the motor chamber 15, the material direction-dividing table 7 is of a circular barrel structure, the top end of a servo motor 16 is connected with a fixed bearing 9 through a coupler, the fixed bearing 9 penetrates to the top of a feeding platform 13, a feeding platform 13 is arranged outside the side edge of the material direction-dividing table 7, a material conveying belt 14 is connected onto the feeding platform 13, the width of the material conveying belt 14 is not larger than the diameter of the material direction-dividing table 7, the height of the top surface of the material direction-dividing table 7 is not higher than the height of the top surface of a direction-dividing baffle plate 8, the top surface of the direction-dividing baffle 8 is higher than the top surface of the material direction-dividing table 7 by the structure, the situation that the material cannot be shielded by the direction-dividing baffle 8 is avoided, a first discharging chute 5 and a second discharging chute 11 are respectively connected onto two sides of the end, far from the feeding platform 13, of the outer wall of the material direction-dividing table 7, and a first collecting basket 1 and a second collecting basket 12 are respectively arranged below the outer ends of the first discharging chute 5 and the second discharging chute 11, and the first collecting basket 1 and the second collecting basket 12 are positioned above the conveying fixed bottom plate 3, the two sides of the inner wall above the platform 7 are respectively provided with a first limit baffle 6 and a second limit baffle 10, the first limit baffle 6 and the second limit baffle 10 are both positioned between the first discharge chute 5 and the second discharge chute 11, the outer wall of the fixed bearing 9 is connected with a diversion baffle 8 through a thread structure, the diameter of the diversion baffle 8 is equal to the inner diameter of the material diversion platform 7, the width of the middle part of the diversion baffle 8 is greater than the width of the two sides of the diversion baffle 8, and the cambered surfaces of the outer ends of the diversion baffle 8 and the cambered surfaces of the inner wall of the diversion platform 7 are mutually superposed, the structure ensures that the material diverting the middle part of the baffle 8 can slide to the two ends of the baffle 8 along the inclined plane diverting baffle 8, the material can conveniently enter the first discharge chute 5 or the second discharge chute 11, and the outer walls of the two ends of the diversion baffle 8 are respectively jointed with the first limit baffle 6 and the second limit baffle 10, divide to baffle 8 both ends inner wall respectively with first ejection of compact chute 5 and 11 top inner walls coincidence in second ejection of compact chute, this structure makes the material on the material conveyer belt 14 can fall to inside the material branch platform 7, then through dividing baffle 8 just reversing with the leading-in to first ejection of compact chute 5 or second ejection of compact chute 11 inside with the material, then fall into first collecting basket 1 and second collecting basket 12 automatically and divide the material, improve branch material efficiency.

The working principle is as follows: when the automatic discharging direction-dividing device of the carrier roller mesh belt furnace is used, firstly, a user can place a conveying fixed bottom plate 3 on the stable ground, then hold the conveying fixed bottom plate on a handle through hole 4 to place a first collecting basket 1 and a second collecting basket 12 on rotating roller shafts 2 below a first discharging chute 5 and a second discharging chute 11 respectively, when materials on a feeding platform 13 slide down from a material conveying belt 14, the materials fall into a material direction-dividing platform 7, then a servo motor 16 is started to drive a fixed bearing 9 to rotate, then the direction-dividing baffle plate 8 rotates towards the first discharging chute 5 until the side of the direction-dividing baffle plate 8 is shielded and limited by a first limiting baffle plate 6, at the moment, the materials enter the first discharging chute 5 along the direction-dividing baffle plate 8 to fall into the first collecting basket 1, then the fixed bearing 9 is reversed, so that the direction-dividing baffle plate 8 can rotate towards the direction of the second discharging chute 11, until the second limit baffle 10 stops the diverter baffle 8, the material drops along the second chute 11 inside the second collecting basket 12, completing the series of work.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the utility model can be made, and equivalents and modifications of some features of the utility model can be made without departing from the spirit and scope of the utility model.

Claims (5)

1. The utility model provides an automatic branch device of bearing roller guipure stove ejection of compact, includes transportation PMKD (3), its characterized in that: the top end of the transportation fixing bottom plate (3) is provided with a motor chamber (15), a servo motor (16) is arranged inside the motor chamber (15), the outside of the top end of the motor chamber (15) is provided with a material distribution platform (7), the material distribution platform (7) is of a circular barrel structure, the top end of the servo motor (16) is connected with a fixing bearing (9) through a coupling, the fixing bearing (9) penetrates through the top of the feeding platform (13), the material distribution platform (13) is arranged outside the side edge of the platform (7), the feeding platform (13) is connected with a material conveying belt (14), two sides of the end of the far feeding platform (13) on the outer wall of the platform (7) are respectively connected with a first discharging chute (5) and a second discharging chute (11), and the lower parts of the outer ends of the first discharging chute (5) and the second discharging chute (11) are respectively provided with a first collecting basket (1) and a second collecting basket (12), and first collecting basket (1) and second collecting basket (12) are located transportation PMKD (3) top, first limit baffle (6) and second limit baffle (10) are installed respectively to platform (7) top inner wall both sides to the material, and just first limit baffle (6) and second limit baffle (10) all are located between first ejection of compact ramp (5) and second ejection of compact ramp (11), fixing bearing (9) outer wall is connected with branch baffle (8) through helicitic texture, and divides to the diameter of baffle (8) and equals the material branch to platform (7) internal diameter, when dividing baffle (8) both ends outer wall respectively with first limit baffle (6) and second limit baffle (10) laminating, divide to baffle (8) both ends inner wall coincide with first ejection of compact ramp (5) and second ejection of compact ramp (11) top inner wall respectively.

2. The automatic branch device of carrier roller mesh belt furnace discharge according to claim 1, characterized in that: the rotary rod shafts (2) are arranged on two sides of the top of the fixed transportation bottom plate (3) at equal intervals, and the axes of the rotary rod shafts (2) are parallel to the axes of the material conveying belt (14).

3. The automatic branch device of carrier roller mesh belt furnace discharge according to claim 2, characterized in that: first collecting basket (1) and second collecting basket (12) are all taken and are put at rotation rod axle (2) top, and handle through-hole (4) have all been seted up to first collecting basket (1) and second collecting basket (12) both sides outer wall inside.

4. The automatic branch device of carrier roller mesh belt furnace discharge according to claim 1, characterized in that: divide to baffle (8) middle part width be greater than divide to baffle (8) both sides width, and divide to baffle (8) outer end cambered surface and material to divide to platform (7) inner wall cambered surface coincidence each other.

5. The automatic branch device of carrier roller mesh belt furnace discharge according to claim 1, characterized in that: the width of the material conveying belt (14) is not more than the diameter of the material dividing table (7), and the height of the top surface of the material dividing table (7) is not higher than the height of the top surface of the dividing baffle (8).

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