CN212481855U - Vacuum drying equipment for copper-based powder material - Google Patents

Abstract

The utility model discloses a vacuum drying device for copper-based powder materials, which relates to the technical field of copper powder and comprises a drying cylinder, wherein a stirring structure is arranged in the drying cylinder; the stirring structure comprises a positioning frame arranged on the inner interlayer, a second servo motor arranged on the conical surface of the drying cylinder and a through pipe penetrating through the heating cavity, an output shaft of the second servo motor penetrates through the through pipe and extends into the drying cylinder, the output shaft of the second servo motor is connected with the conical teeth, a vertical rotating rod is arranged on the positioning frame, a first stirring rod is arranged at one end of the rotating rod, a second stirring rod is arranged at the other end of the rotating rod, a positioning net is further arranged on the rotating rod, and a second toothed ring meshed with the conical teeth is arranged on the positioning net; the utility model has the advantages of convenient use, good drying effect, high efficiency and the like.

Description

Vacuum drying equipment for copper-based powder material

Technical Field

The utility model relates to the technical field of copper powder, in particular to copper base powder material vacuum drying equipment.

Background

The copper-based powder material comprises six major types of electrolytic copper powder, low-apparent-density water atomized copper powder, copper alloy powder, copper oxide powder, nano copper powder, antioxidant gold-imitating copper alloy powder for spraying and the like;

in the manufacturing process of statistics components of a whole that can function independently material, need use vacuum drying equipment, current vacuum drying equipment is mainly vacuum drying machine, all be provided with the stirring structure in current vacuum drying machine, but current vacuum drying machine's stirring equipment is setting up in vibration drying machine's one end, because vacuum drying machine also can rotate in the stirring, consequently when the material removes to the other end, the stirring structure just can't stir, this reduction that has just led to the stirring effect, need spend more time and stir.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a copper base powder material vacuum drying equipment for solve among the prior art vacuum mixing equipment inefficiency, the poor problem of effect that describe in the background art.

In order to achieve the above object, the present invention provides the following technical solutions: the vacuum drying equipment for the copper-based powder material comprises a drying cylinder, wherein two rotating shafts with back-facing positions are arranged on the outer circumferential wall of the drying cylinder, the rotating shafts are rotatably connected with a rack, the upper end and the lower end of the drying cylinder are both conical, a feeding pipe is arranged at the upper end of the drying cylinder, a valve is arranged on the feeding pipe, a discharging port is arranged at the lower end of the drying cylinder, and a door plate is hinged to the discharging port of the drying cylinder; the inner wall of the drying cylinder is provided with an inner interlayer, the inner interlayer and the inner wall of the drying cylinder form a heating cavity, the side wall of the drying cylinder is provided with two connecting pipes communicated with the heating cavity, the drying cylinder is connected with a vacuum pump through an exhaust pipe, the exhaust pipe penetrates through the heating cavity and a rotating shaft, a stirring structure is arranged in the drying cylinder, the side wall of the drying cylinder is also provided with a material guide pipe penetrating through the heating cavity, and the material guide pipe penetrates through the other rotating shaft; stirring structure is including setting up the locating rack on the interior intermediate layer, setting up second servo motor on the toper face of drying cylinder and running through the siphunculus in heating the chamber, second servo motor's output shaft runs through the siphunculus and stretches into in the drying cylinder, second servo motor's output shaft and tapered tooth are connected, be provided with vertical dwang on the locating rack, the one end of dwang is provided with first puddler, the other end of dwang is provided with the second puddler, still be provided with the net of location on the dwang, be provided with the second ring gear with tapered tooth meshing on the net of location.

Preferably: the drying machine is characterized in that a first servo motor is arranged on the rack, a gear is arranged on an output shaft of the first servo motor, and a first toothed ring meshed with the gear is arranged on a rotating shaft on the drying cylinder.

Preferably: the door plate is provided with a sealing ring, and the sealing ring is used for sealing a gap between the door plate and the discharge hole.

Preferably: the automatic control system is characterized in that an electric cabinet is arranged on the rack, an industrial personal computer and a control panel are arranged on the electric cabinet, and the industrial personal computer is electrically connected with the control panel, the valve, the first servo motor, the second servo motor and the vacuum pump respectively.

The beneficial effect of adopting above technical scheme is:

this application can drive the axis of rotation through the first ring gear of gear cooperation on the first servo motor that sets up and rotate, nearly and drive a drying cylinder and rotate, second servo motor through setting up can drive the rotation of tapered tooth, nearly and drive second ring gear and location net and rotate, the location net drives the dwang and rotates on the locating rack, nearly and drive first puddler and second puddler and rotate, can realize all stirring drying cylinder both ends, can increase the efficiency and the effect of stirring.

Drawings

FIG. 1 is a front view of a vacuum drying apparatus for copper-based powder material according to the present invention.

Fig. 2 is a front view of a portion of the components of the present invention.

Fig. 3 is a schematic structural diagram of the drying cylinder of the present invention.

Wherein: the drying device comprises a rack 10, a first servo motor 11, a gear 12, a first toothed ring 13, a drying cylinder 20, a feeding pipe 21, a valve 22, a discharging port 23, a door plate 24, a rotating shaft 25, a vacuum pump 30, an air suction pipe 31, a connecting pipe 40, an inner interlayer 41, a heating cavity 42, a stirring structure 50, a second servo motor 51, a through pipe 52, a conical tooth 53, a positioning frame 54, a rotating rod 55, a positioning net 56, a second toothed ring 57, a first stirring rod 58, a second stirring rod 59, a material guide pipe 60 and an electric cabinet 70.

Detailed Description

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

In the embodiment, as shown in fig. 1 to 3, in the embodiment, a vacuum drying apparatus for copper-based powder material includes a drying cylinder 20, two rotating shafts 25 are disposed on an outer circumferential wall of the drying cylinder 20, the rotating shafts 25 are rotatably connected to a frame 10, upper and lower ends of the drying cylinder 20 are both tapered, an upper end of the drying cylinder 20 is provided with a feeding pipe 21, the feeding pipe 21 is provided with a valve 22, a lower end of the drying cylinder 20 is provided with a discharging port 23, and the discharging port 23 of the drying cylinder 20 is hinged to a door panel 24; an inner interlayer 41 is arranged on the inner wall of the drying cylinder 20, a heating cavity 42 is formed by the inner interlayer 41 and the inner wall of the drying cylinder 20, two connecting pipes 40 communicated with the heating cavity 42 are arranged on the side wall of the drying cylinder 20, the drying cylinder 20 is connected with a vacuum pump 30 through an air exhaust pipe 31, the air exhaust pipe 31 penetrates through the heating cavity 42 and a rotating shaft 25, a stirring structure 50 is arranged in the drying cylinder 20, a material guide pipe 60 penetrating through the heating cavity 42 is further arranged on the side wall of the drying cylinder 20, and the material guide pipe 60 penetrates through the other rotating shaft 25; stirring structure 50 is including setting up locating rack 54 on interior intermediate layer 41, setting up second servo motor 51 on the conical surface of drying cylinder 20 and running through the siphunculus 52 of heating chamber 42, second servo motor 51's output shaft runs through siphunculus 52 and stretches into in the drying cylinder 20, second servo motor 51's output shaft and tapered tooth 53 are connected, be provided with vertical dwang 55 on the locating rack 54, the one end of dwang 55 is provided with first puddler 58, the other end of dwang 55 is provided with second puddler 59, still be provided with positioning net 56 on the dwang 55, be provided with the second ring gear 57 with tapered tooth 53 meshing on positioning net 56.

Preferably: the frame 10 is provided with a first servo motor 11, an output shaft of the first servo motor 11 is provided with a gear 12, and a rotating shaft 25 on the drying cylinder 20 is provided with a first toothed ring 13 engaged with the gear 12.

Preferably: the door plate 24 is provided with a sealing ring, and the sealing ring is used for sealing a gap between the door plate 24 and the discharge hole 23.

Preferably: the automatic control system is characterized in that an electric cabinet 70 is arranged on the rack 10, an industrial personal computer and a control panel are arranged on the electric cabinet 70, and the industrial personal computer is electrically connected with the control panel, the valve 22, the first servo motor 11, the second servo motor 51 and the vacuum pump 30 respectively.

The specific implementation manner of this embodiment:

this application is when using, open valve 22 earlier, send into the material in the drying cylinder 20 through inlet pipe 21, then close valve 22, then start first servo motor 11 and second servo motor 51, first servo motor 11 passes through gear 12 and drives axis of rotation 25 reciprocating rotation 360 with the cooperation of first ring gear 13, nearly and drive drying cylinder 20 and rotate, second servo motor 51 drives second ring gear 57 through tapered tooth 53 and rotates, second ring gear 57 drives positioning net 56 and rotates, positioning net 56 drives dwang 55 and rotates on locating rack 54, nearly and drive first puddler 58, second puddler 59 rotates, pivoted drying cylinder 20 can make the material removal in the drying cylinder 20, can make the material continuously stirred through first puddler 58 and the second puddler 59 that set up, dry efficiency and effect have been improved.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, many modifications and improvements can be made without departing from the inventive concept, and all of them belong to the protection scope of the present invention.

Claims (4)

1. The vacuum drying equipment for the copper-based powder material comprises a drying cylinder, wherein two rotating shafts with back-facing positions are arranged on the outer circumferential wall of the drying cylinder, the rotating shafts are rotatably connected with a rack, the upper end and the lower end of the drying cylinder are both conical, a feeding pipe is arranged at the upper end of the drying cylinder, a valve is arranged on the feeding pipe, a discharging port is arranged at the lower end of the drying cylinder, and a door plate is hinged to the discharging port of the drying cylinder; the inner wall of drying cylinder is provided with interior intermediate layer, interior intermediate layer forms a heating chamber with the drying cylinder inner wall, the lateral wall of drying cylinder is provided with two and heats the connecting pipe of chamber intercommunication, the drying cylinder passes through exhaust tube and vacuum pump connection, and the exhaust tube runs through heating chamber and a rotation axis, its characterized in that: a stirring structure is arranged in the drying cylinder, a material guide pipe penetrating through the heating cavity is further arranged on the side wall of the drying cylinder, and the material guide pipe penetrates through the other rotating shaft; stirring structure is including setting up the locating rack on the interior intermediate layer, setting up second servo motor on the toper face of drying cylinder and running through the siphunculus in heating the chamber, second servo motor's output shaft runs through the siphunculus and stretches into in the drying cylinder, second servo motor's output shaft and tapered tooth are connected, be provided with vertical dwang on the locating rack, the one end of dwang is provided with first puddler, the other end of dwang is provided with the second puddler, still be provided with the net of location on the dwang, be provided with the second ring gear with tapered tooth meshing on the net of location.

2. The vacuum drying equipment for the copper-based powder material according to claim 1, wherein a first servo motor is arranged on the frame, a gear is arranged on an output shaft of the first servo motor, and a first toothed ring meshed with the gear is arranged on a rotating shaft on the drying cylinder.

3. The vacuum drying equipment for the copper-based powder material according to claim 2, wherein the door plate is provided with a sealing ring, and the sealing ring is used for sealing a gap between the door plate and the discharge hole.

4. The vacuum drying equipment for the copper-based powder material according to claim 3, wherein an electric cabinet is arranged on the rack, an industrial personal computer and a control panel are arranged on the electric cabinet, and the industrial personal computer is electrically connected with the control panel, the valve, the first servo motor, the second servo motor and the vacuum pump respectively.

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