CN115560564B - Quick dehydration drying equipment of ox bone peptide powder - Google Patents

Abstract

A quick dehydration drying device for bovine bone peptide powder relates to the technical field of drying, and is used for providing a drying device with a simple structure, and is used for drying the bovine bone peptide powder. The drying device comprises a rack and a fan, wherein a flexible drying pipe is arranged above the rack, one end of the drying pipe is rotatably arranged in a fixed support frame, the other end of the drying pipe is rotatably arranged in a movable support frame, the fixed support frame is fixedly connected with the rack, a lifting mechanism is arranged between the movable support frame and the rack, the lifting mechanism drives the movable support frame to move up and down, the drying pipe is in a V-shaped structure when the movable support frame is positioned at the highest point, and the drying pipe is in an inclined straight line state when the movable support frame is positioned at the lowest point; the rack is provided with a driving mechanism for driving the drying pipe to rotate around the axis of the rack; the fan is located the rack top, is equipped with the tuber pipe on the fan, and the one end of drying tube stretches into in the tuber pipe. The method can be used for rapidly drying the bovine bone peptide powder.

Description

Quick dehydration drying equipment of ox bone peptide powder

Technical Field

The invention relates to the technical field of drying, in particular to a quick dehydration and drying device for bovine bone peptide powder.

Background

The crushed bovine bone can be used for preparing bovine bone peptide. After the bovine bone is crushed to obtain bovine bone peptide powder, the bovine bone peptide powder needs to be dried so as to facilitate the subsequent processing. The main drying modes of the conventional drying equipment are electric heating drying and convection drying. The electric heating drying mode consumes large energy, and the powder is easy to fly when being dried by the convection drying mode.

Disclosure of Invention

The invention aims to provide a quick dehydration drying device for bovine bone peptide powder, which is used for providing a drying device with a simple structure and is used for drying bovine bone peptide powder.

The technical scheme adopted for solving the technical problems is as follows: the quick dehydration and drying equipment for bovine bone peptide powder comprises a rack and a fan, wherein a flexible drying pipe is arranged above the rack, one end of the drying pipe is rotatably arranged in a fixed support frame, the other end of the drying pipe is rotatably arranged in a movable support frame, the fixed support frame is fixedly connected with the rack, a lifting mechanism is arranged between the movable support frame and the rack, the lifting mechanism drives the movable support frame to move up and down, the drying pipe is in a V-shaped structure when the movable support frame is positioned at the highest point, and the drying pipe is in an inclined straight line state when the movable support frame is positioned at the lowest point; the rack is provided with a driving mechanism for driving the drying pipe to rotate around the axis of the rack; the fan is located the rack top, be equipped with the tuber pipe on the fan, in the one end of drying tube stretched into the tuber pipe, the fan during operation is bloied or is induced drafted through the tuber pipe, the end cover is installed to the other end detachable of drying tube.

Further, one end of the drying pipe is a driving end, and the driving end is rotationally connected with the fixed supporting frame through a bearing.

Further, the driving mechanism comprises a motor fixed on the rack, a worm positioned at the output end of the motor, a worm wheel meshed with the worm, and a driving gear coaxially arranged with the worm wheel, wherein the outer wall of the driving end is provided with a gear ring, and the gear ring is meshed with the driving gear.

Further, the lifting mechanism comprises a lifting cylinder and a fixed cylinder, a cylinder barrel of the lifting cylinder is hinged with a supporting leg at the bottom of the rack, and a piston rod of the lifting cylinder is hinged with the movable supporting frame; the landing leg is provided with a cross rod, a fixed cylinder is arranged between the cross rod and the lifting cylinder, a piston rod of the fixed cylinder is connected with a cylinder barrel of the lifting cylinder in a hinged mode, and a cylinder barrel of the fixed cylinder is connected with the cross rod in a hinged mode.

Further, the inner wall of the drying pipe is provided with a plurality of poking sheets which are uniformly arranged along the circumferential direction.

Further, the inner side of the drying pipe is provided with a spiral poking plate, the outer wall of the poking plate is fixed with the inner wall of the drying pipe in a contact manner, and the poking plate is a flexible piece.

Further, the bottom of the movable supporting frame is provided with an ear plate which is hinged with a piston rod of the lifting cylinder.

Further, a dust removing cloth bag is arranged on the end cover.

The beneficial effects of the invention are as follows:

(1) Turning the bovine bone peptide powder in the drying tube in the rotating process of the drying tube, and then carrying out convection drying under the action of air flow;

(2) The drying tube is of a V-shaped structure, most of the bovine bone peptide powder in the drying tube is concentrated at the bent angle of the drying tube when the drying tube rotates, and the bovine bone peptide powder can be prevented from flying under the action of air flow when the air flow is introduced;

(3) The lifting mechanism drives the drying pipe to move up and down, and the drying pipe is placed in a state of drying bovine bone peptide powder and a discharging state, so that the bovine bone peptide powder is conveniently dried.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a schematic view of a paddle disposed within a drying tube;

FIG. 4 is a schematic view of a dial plate disposed within a drying tube;

FIG. 5 is a schematic diagram of the airflow in a drying duct according to the present invention;

FIG. 6 is a schematic view of the drying tube after tilting;

FIG. 7 is an axial schematic view of an end cap;

In the figure: 1 bench, 11 landing leg, 12 horizontal pole, 2 drying tube, 21 drive end, 22 plectrum, 23 plectrum, 24 ring gear, 3 fixed support frame, 31 bearing, 32 driving gear, 33 worm wheel, 34 worm, 35 motor, 4 movable support frame, 41 otic placode, 5 fan, 51 tuber pipe, 6 lifting cylinder, 61 fixed cylinder, 7 end cover, 71 dust removal sack, 8 ox bone peptide powder.

Detailed Description

As shown in fig. 1 to 7, the present invention mainly includes a rack 1, a drying duct 2, a fixed support 3, a movable support 4, and a blower 5, and is described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 7, a rapid dehydration and drying device for bovine bone peptide powder comprises a rack 1 and a fan 5, wherein a flexible drying tube 2 is arranged above the rack 1, one end of the drying tube 2 is rotatably arranged in a fixed support frame 3, the other end of the drying tube 2 is rotatably arranged in a movable support frame 4, the fixed support frame 3 is fixedly connected with the rack 1, a lifting mechanism is arranged between the movable support frame 4 and the rack 1, the lifting mechanism drives the movable support frame 4 to move up and down, the drying tube 2 is in a V-shaped structure when the movable support frame 4 is positioned at the highest point, and the drying tube 2 is in a straight line when the movable support frame 4 is positioned at the lowest point; the rack 1 is provided with a driving mechanism for driving the drying pipe 2 to rotate around the axis of the rack; the fan 5 is located rack 1 top, is equipped with tuber pipe 51 on the fan 5, and in the tuber pipe 51 was stretched into to the one end of drying tube 2, and fan 5 during operation was bloied or induced draft through tuber pipe 51, and the end cover 7 was installed to the other end detachable of drying tube 2. When the cattle bone peptide powder drying device is used, the end cover 7 is opened, cattle bone peptide powder to be dried is added into the drying tube 2, the driving mechanism is started to enable the drying tube 2 to rotate, and the cattle bone peptide powder can be turned over and thrown when the drying tube 2 rotates. The air is blown or sucked into the air duct 51 by the blower 5, and the air flow flows in the drying duct 2. As shown in fig. 5, when the blower 5 blows air, the air flows in the drying pipe 22 to the side where the end cover 7 is located, the bovine bone peptide powder is turned over under the action of the drying pipe, and the turned bovine bone peptide powder is subjected to convection drying under the action of the air flow.

Specifically, one end of the drying tube 2 is a driving end 21, and as shown in fig. 2, the driving end 21 is rotatably connected with the fixed support frame 3 through a bearing 31. The driving mechanism comprises a motor 35 fixed on the rack 1, a worm 34 positioned at the output end of the motor 35, a worm wheel 33 meshed with the worm 34, and a driving gear 32 coaxially arranged with the worm wheel 33, wherein the outer wall of the driving end 21 is provided with a gear ring 24, and the gear ring 24 is meshed with the driving gear 32. When the motor 35 works, the worm 34 is driven to rotate, the worm wheel 33 is driven to rotate, the driving gear 32 is driven to rotate, the gear ring 24 is driven to rotate, the driving end 21 is driven to rotate, the drying pipe 2 is driven to rotate, and the bovine bone peptide powder is turned and thrown when the drying pipe 2 rotates.

Specifically, as shown in fig. 2 and 5, the lifting mechanism comprises a lifting cylinder 6 and a fixed cylinder 61, a cylinder barrel of the lifting cylinder 6 is hinged with a supporting leg 11 at the bottom of the rack 1, and a piston rod of the lifting cylinder 6 is hinged with the movable supporting frame 4; the cross rod 12 is arranged between the supporting legs 11, the fixed air cylinder 61 is arranged between the cross rod 12 and the lifting air cylinder 6, a piston rod of the fixed air cylinder 61 is hinged with a cylinder barrel of the lifting air cylinder 6, and the cylinder barrel of the fixed air cylinder 61 is hinged with the cross rod 12. The bottom of the movable supporting frame 4 is provided with an ear plate 41, and the ear plate 41 is hinged with a piston rod of the lifting cylinder 6, so that the movable supporting frame 4 is connected with the lifting cylinder 6.

Specifically, as shown in fig. 3, the inner wall of the drying duct 2 has a plurality of paddles 22 uniformly arranged in the circumferential direction, and the paddles 22 are located at the bent corners of the drying duct 6. When the plectrum 22 rotates along with the drying pipe 2, the plectrum 2 brings up the bovine bone peptide powder and throws down, so that the bovine bone peptide powder is turned over and thrown. As shown in fig. 4, a spiral shifting plate 23 can be further arranged on the inner side of the drying pipe 2, the outer wall of the shifting plate 23 is fixed in contact with the inner wall of the drying pipe 2, and the shifting plate 23 is a flexible piece. The dial plate 23 may be bent in response to the bending of the drying duct 2. When the drying tube 2 rotates, the bovine bone peptide powder can be driven to roll in the drying tube 2, and under the action of gravity, the bovine bone peptide powder can pass through a gap of the poking plate to roll towards the bent angle of the drying tube 2, so that the drying tube 2 with the V-shaped structure can prevent the bovine bone peptide powder from rolling out of the drying tube, and plays a certain limiting role on the bovine bone peptide powder. When the drying tube 2 is straightened under the action of the lifting cylinder 6, the other end of the drying tube 2 faces downwards, as shown in fig. 6, and the bovine bone peptide powder after the drying treatment in the drying tube 2 can be poured out.

Specifically, the end cover 7 is provided with a dust removing cloth bag 71, and the dust removing cloth bag 71 is arranged so that air flow can pass through the dust removing cloth bag, and the bovine bone peptide powder 8 cannot pass through the dust removing cloth bag 71. In this way, under the precondition of ensuring convection, the bovine bone peptide powder 8 can be prevented from moving out of the drying tube 2.

The beneficial effects of the invention are as follows: turning the bovine bone peptide powder in the drying tube in the rotating process of the drying tube, and then carrying out convection drying under the action of air flow; the drying tube is of a V-shaped structure, most of the bovine bone peptide powder in the drying tube is concentrated at the bent angle of the drying tube when the drying tube rotates, and the bovine bone peptide powder can be prevented from flying under the action of air flow when the air flow is introduced; the lifting mechanism drives the drying pipe to move up and down, and the drying pipe is placed in a state of drying bovine bone peptide powder and a discharging state, so that the bovine bone peptide powder is conveniently dried.

Claims (5)

1. The quick dehydration and drying equipment for bovine bone peptide powder is characterized by comprising a rack and a fan, wherein a flexible drying pipe is arranged above the rack, one end of the drying pipe is rotatably arranged in a fixed support frame, the other end of the drying pipe is rotatably arranged in a movable support frame, the fixed support frame is fixedly connected with the rack, a lifting mechanism is arranged between the movable support frame and the rack, the lifting mechanism drives the movable support frame to move up and down, the drying pipe is in a V-shaped structure when the movable support frame is positioned at the highest point, and the drying pipe is in an inclined straight line state when the movable support frame is positioned at the lowest point; the lifting mechanism comprises a lifting cylinder and a fixed cylinder, a cylinder barrel of the lifting cylinder is hinged with a supporting leg at the bottom of the rack, and a piston rod of the lifting cylinder is hinged with the movable supporting frame; a cross rod is arranged between the supporting legs, a fixed cylinder is arranged between the cross rod and the lifting cylinder, a piston rod of the fixed cylinder is hinged with a cylinder barrel of the lifting cylinder, and the cylinder barrel of the fixed cylinder is hinged with the cross rod; the rack is provided with a driving mechanism for driving the drying pipe to rotate around the axis of the rack; one end of the drying pipe is a driving end, the driving end is rotationally connected with the fixed supporting frame through a bearing, the driving mechanism comprises a motor fixed on the rack, a worm positioned at the output end of the motor, a worm wheel meshed with the worm, and a driving gear coaxially arranged with the worm wheel, the outer wall of the driving end is provided with a gear ring, and the gear ring is meshed with the driving gear; the fan is located the rack top, be equipped with the tuber pipe on the fan, in the one end of drying tube stretched into the tuber pipe, the fan during operation is bloied or is induced drafted through the tuber pipe, the end cover is installed to the other end detachable of drying tube.

2. The rapid dehydration drying apparatus for bovine bone peptide powder according to claim 1, wherein the inner wall of the drying tube is provided with a plurality of paddles uniformly arranged along the circumferential direction.

3. The rapid dehydration drying device for bovine bone peptide powder according to claim 1, wherein the inner side of the drying tube is provided with a spiral poking plate, the outer wall of the poking plate is fixed in contact with the inner wall of the drying tube, and the poking plate is a flexible piece.

4. The rapid dehydration drying device for bovine bone peptide powder according to claim 1, wherein the bottom of the movable supporting frame is provided with an ear plate, and the ear plate is hinged with a piston rod of the lifting cylinder.

5. The rapid dehydration drying apparatus for bovine bone peptide powder according to claim 1, wherein the end cover is provided with a dust removing cloth bag.