CN110800861A

CN110800861A - Preparation device of bone-increasing protein powder

Info

Publication number: CN110800861A
Application number: CN201911150685.7A
Authority: CN
Inventors: 毛跃生
Original assignee: Taizhou Huangyan Boyou Intelligent Technology Co Ltd
Current assignee: Taizhou Huangyan Boyou Intelligent Technology Co Ltd
Priority date: 2019-11-21
Filing date: 2019-11-21
Publication date: 2020-02-18
Also published as: JP2021078489A

Abstract

The invention discloses a preparation device of bone-strengthening protein powder, which comprises a machine body, wherein symmetrical blocks are fixedly arranged on the top surface of the machine body in a bilateral symmetry mode, a working cavity is arranged in the machine body, a drying device for drying whey is arranged between the working cavity and the symmetrical blocks, a rear wall motor is reversely turned on firstly, so that a rear wall motor shaft and a motor gear are driven to rotate, and a rack rod and an extrusion plate are driven to move rightwards.

Description

Preparation device of bone-increasing protein powder

Technical Field

The invention relates to the field of food processing, in particular to a preparation device of bone-strengthening protein powder.

Background

Protein is the most important nutrient for ensuring the health of the body, is necessary for maintaining and repairing the body and cell growth, not only affects the growth of body tissues such as muscle, but also participates in the aspects of hormone production, oxygen transfer, hemoglobin generation, blood coagulation and the like, the required amount of athletes and bodybuilders engaged in great intensity is more than twice of that of ordinary brainworkers, because high-intensity sports can destroy muscle cells to different degrees, cause the decomposition of muscle protein, the timely supplement of protein can reduce muscle, and the existing bodybuilding fans like to use some protein powder capable of increasing bone to assist the self-exercise;

in the process of obtaining high-quality whey protein extraction, whey needs to be dried to remove water in the whey so as to be dehydrated into protein powder, the general drying process is only simply heated to remove water, the removing mode can only remove a certain amount of water, and some cold and hot alternating water removing modes can only remove water by cold and hot alternating once and cannot remove water by cold and hot alternating repeatedly.

Disclosure of Invention

The invention aims to provide a preparation device of bone-strengthening protein powder, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a preparation device of bone-strengthening protein powder comprises a machine body, symmetrical blocks are symmetrically and fixedly arranged on the top surface of the machine body in a bilateral mode, a working cavity is formed in the machine body, a drying device used for drying whey is arranged between the working cavity and the symmetrical blocks, the drying device comprises an air cooler fixedly arranged on the left side of the symmetrical blocks and a hot air heater fixedly arranged on the right side of the symmetrical blocks, an air inlet communicated with the air cooler is formed in one side surface of each symmetrical block, air inlet pipelines are symmetrically and bilaterally arranged on the top wall of the working cavity, the air inlet pipeline on the left side is communicated with the air cooler on the left side, the air inlet pipeline on the right side is communicated with the hot air heater, a transverse moving chute is formed between the air inlet pipelines, a sliding plate is connected in a transverse moving manner, switch ports capable of being communicated with the air inlet pipelines are symmetrically and formed in the transverse moving sliding plate, the bottom wall of the transverse sliding chute is provided with a pulling block sliding chute communicated with the working cavity, the bottom surface of the transverse sliding chute is fixedly provided with a pulling block which is in sliding connection with the pulling block sliding chute, the rear side wall of the working cavity is provided with a feeding hole, the right side surface of the machine body is fixedly provided with a fixed plate, the fixed plate is provided with a power cavity, the right side wall of the working cavity is provided with an open cavity, a driving device for changing a drying mode is arranged between the working cavity and the power cavity, the bottom wall of the working cavity is provided with a rope groove, the bottom wall of the working cavity is also provided with a feed opening, the right side wall of the feed opening is provided with a reset sliding chute, the reset sliding chute is communicated with one side of the rope groove, a switch device for controlling the switch of the feed opening is arranged between the reset sliding chute and the rope groove, the left wall of the working cavity is provided, be equipped with down the glassware between the fuselage, the diapire of feed opening still is equipped with the pipeline that drops, the right side that drops the pipeline is equipped with the drive chamber, the left side that drops the pipeline is equipped with the interlock chamber, be equipped with the sieving mechanism who is used for the albumen powder screening in the interlock chamber, the rear side in interlock chamber is equipped with the back wall chamber.

On the basis of the technical scheme, the driving device comprises a fixed mounting and is arranged on a rear wall motor of the rear side wall of the power cavity, a rear wall motor shaft is connected with power in the rear wall motor, a motor gear is fixedly arranged on the rear wall motor shaft, the left side wall and the right side wall of the power cavity are slidably connected with rack rods through top walls of the opening cavity, the rack rods are meshed with the motor gear, a driven plate capable of being slidably connected with the opening cavity is fixedly arranged on the bottom surface of each rack rod, and a squeezing plate capable of being abutted to the pulling block is fixedly arranged on the left side of each rack rod.

On the basis of the technical scheme, the switch device comprises a spring plate which is slidably installed in the rope groove, the spring plate can be abutted against the driven plate, a connecting spring is connected between the spring plate and the rope groove, a baffle is slidably connected in the reset sliding groove, a strong spring is connected between the baffle and the reset sliding groove, and a long rope is connected between the baffle and the spring plate.

On the basis of the technical scheme, the air outlet device comprises a long shaft which is rotatably arranged on the bottom wall of the evaporation pipeline and the upper and lower side walls of the linkage cavity, a universal joint is fixedly arranged on the top side of the long shaft, a supporting plate is fixedly arranged on the bottom wall of the evaporation pipeline, a fan shaft is rotatably connected in the supporting plate, the right side of the fan shaft is connected with the universal joint, an air suction fan is fixedly arranged on the left side of the fan shaft, and a filter screen is fixedly arranged in the evaporation pipeline.

On the basis of the technical scheme, the screening device comprises a top wall motor fixedly installed on the top wall of the linkage cavity, the bottom side of the top wall motor is in power connection with a short shaft, a large gear is fixedly arranged on the bottom side of the short shaft, a penetrating shaft is rotatably connected between the bottom wall of the feed opening and the top wall of the linkage cavity, a screw is fixedly arranged in the dropping pipeline by the penetrating shaft, symmetrical gears are symmetrically arranged in the linkage cavity by the penetrating shaft and the long shaft in the linkage cavity, ratchet mechanisms in opposite installation directions are symmetrically connected between the symmetrical gears and the long shaft and between the symmetrical gears and the penetrating shaft, the large gear can drive the long shaft to rotate through the symmetrical gear on the left side and the ratchet mechanism on the left side when rotating forwards, and the large gear can drive the penetrating shaft to rotate through the symmetrical gear and the ratchet mechanism on the right side when rotating backwards, the front side wall and the rear side wall of the rear wall cavity are bilaterally and symmetrically and rotatably connected with extension shafts, each extension shaft is respectively and fixedly provided with a symmetrical belt pulley, a connecting belt is connected between the two symmetrical belt pulleys, the two extension shafts extend forwards to penetrate through the front side wall of the rear wall cavity and respectively enter the linkage cavity and the extension shafts, the extension shaft on the left side is rotatably connected with the rear side wall of the linkage cavity, the extension shaft on the left side is fixedly provided with a first bevel gear, the bottom side of the penetration shaft is fixedly provided with a second bevel gear meshed with the first bevel gear, the extension shaft on the right side is rotatably connected with the rear side wall of the driving cavity, the extension shafts are respectively and fixedly provided with a disc, the discs are respectively and hingedly connected with a hinged rod, the hinged rods are hinged with pulling plates, the left side wall and the right side wall of the falling pipeline are symmetrically provided with transverse sliding chutes, and each pulling plate is vertically and, the diapire of pipeline that drops is equipped with the bottom chamber.

On the basis of the technical scheme, the front side wall of the falling pipeline is provided with an openable door.

In conclusion, the beneficial effects of the invention are as follows: the device can remove moisture in the whey solution by a cold-hot alternating method, and meanwhile compared with a traditional heating evaporation mode, the evaporation efficiency of the method is higher, compared with a single cold-hot alternating one-time method, the device can circularly evaporate cold and hot alternately, so that the evaporated moisture is more thorough, the device is also provided with a fan, the discharge of water vapor is accelerated, and therefore the working efficiency is improved, and meanwhile, the device can automatically screen protein powder after the evaporation is finished, so that impurities are separated from the protein powder, and the protein powder with higher purity is obtained, and the quality of products is improved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic view of the overall full-section structure of a bone-strengthening protein powder preparation apparatus according to the present invention;

FIG. 2 is an enlarged view of a portion of the invention at A in FIG. 1;

FIG. 3 is a cross-sectional view taken along line B-B of FIG. 1 in accordance with the present invention;

FIG. 4 is a front cross-sectional view of the rear side of FIG. 1 in accordance with the present invention;

fig. 5 is a front view of the front side of fig. 1 in accordance with the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

Any feature disclosed in this specification (including any accompanying claims, abstract and drawings), may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, front and rear directions described below correspond to the front, back, left, right, top and bottom directions of the view direction of fig. 1, fig. 1 is a front view of the apparatus of the present invention, and the directions shown in fig. 1 correspond to the front, back, left, right, top and bottom directions of the apparatus of the present invention.

Referring to fig. 1-5, an embodiment of the present invention is shown: a preparation device of bone-strengthening protein powder comprises a machine body 21, symmetrical blocks 23 are fixedly arranged on the top surface of the machine body 21 in a bilateral symmetry mode, a working cavity 68 is arranged in the machine body 21, a drying device 101 for drying whey is arranged between the working cavity 68 and the symmetrical blocks 23, the drying device 101 comprises an air cooler 24 fixedly arranged on the left side of the symmetrical blocks 23 and a hot air fan 30 fixedly arranged on the right side of the symmetrical blocks 23, an air inlet 22 communicated with the air cooler 24 is respectively arranged on one side surface of each symmetrical block 23, air inlet pipes 26 are symmetrically arranged on the top wall of the working cavity 68 in the bilateral symmetry mode, the air inlet pipe 26 on the left side is communicated with the air cooler 24 on the left side, the air inlet pipe 26 on the right side is communicated with the hot air fan 30, a transverse moving chute 29 is arranged between the air inlet pipes 26, a transverse moving slide plate 28 is slidably connected in the transverse moving slide plate 29, switch ports 27 capable of being communicated with, a return spring 36 is connected between the traverse sliding plate 28 and the traverse sliding groove 29, a pulling block sliding groove 35 communicated with the working chamber 68 is arranged on the bottom wall of the traverse sliding groove 29, a pulling block 34 slidably connected with the pulling block sliding groove 35 is fixedly arranged on the bottom surface of the traverse sliding groove 29, a feeding port 90 is arranged on the rear side wall of the working chamber 68, a fixing plate 40 is fixedly arranged on the right side surface of the machine body 21, a power chamber 37 is arranged in the fixing plate 40, an opening chamber 91 is arranged on the right side wall of the working chamber 68, a driving device 102 for changing a drying mode is arranged between the working chamber 68 and the power chamber 37, a rope groove 45 is arranged on the bottom wall of the working chamber 68, a discharging port 42 is further arranged on the bottom wall of the working chamber 68, a return sliding groove 44 is arranged on the right side wall of the discharging port 42, the return sliding groove 44 is communicated with one side of the rope groove 45, a switch device 103 for controlling the opening and closing of the discharging port 42 is arranged, the left wall of working chamber 68 is equipped with evaporating pipe 95, be equipped with air-out device 104 in the evaporating pipe 95, be equipped with down glassware 66 between the fuselage 21, the diapire of feed opening 42 still is equipped with the pipeline 56 that drops, the right side of the pipeline 56 that drops is equipped with drive chamber 52, the left side of the pipeline 56 that drops is equipped with interlock chamber 60, be equipped with the sieving mechanism 105 who is used for the albumen powder screening in the interlock chamber 60, the rear side in interlock chamber 60 is equipped with back wall chamber 77.

In addition, in one embodiment, the driving device 102 includes a rear wall motor 38 fixedly installed on the rear side wall of the power cavity 37, a rear wall motor shaft 39 is dynamically connected in the rear wall motor 38, a motor gear 96 is fixedly installed on the rear wall motor shaft 39, rack bars 33 are slidably connected to the left and right side walls of the power cavity 37 and the top wall of the open cavity 91, the rack bars 33 are engaged with the motor gear 96, a driven plate 92 slidably connected with the open cavity 91 is fixedly installed on the bottom surface of the rack bars 33, a pressing plate 32 capable of abutting against the pulling block 34 is fixedly installed on the left side of the rack bars 33, so that the rear wall motor 38 is forwardly opened, the rear wall motor shaft 39 and the motor gear 96 are driven to rotate, the rack bars 33 and the pressing plate 32 are driven to move leftward, and the rear wall motor 38 is reversely opened, thereby driving the rear wall motor shaft 39 and the motor gear 96 to rotate, and driving the rack bar 33 and the extrusion plate 32 to move to the right, and driving the pull block 34 and the cross slide 28 to slide to the right, so that the switch opening 27 is connected to the air inlet duct 26.

In addition, in one embodiment, the switch device 103 includes a spring plate 48 slidably mounted in the rope groove 45, the spring plate 48 may abut against the driven plate 92, a connection spring 47 is connected between the spring plate 48 and the rope groove 45, a baffle 41 is slidably connected in the return chute 44, a strong spring 43 is connected between the baffle 41 and the return chute 44, and a long rope 46 is connected between the baffle 41 and the spring plate 48, so that when the driven plate 92 moves to the left, the spring plate 48 is driven to move to the left, the baffle 41 is driven to move to the right by the long rope 46, and the protein powder in the working chamber 68 is dropped into the dropping pipe 56 from the feed opening 42.

In addition, in one embodiment, the air outlet device 104 includes a long shaft 67 rotatably mounted on the bottom wall of the evaporation pipe 95 and the upper and lower side walls of the linkage chamber 60, a universal joint 72 is fixedly mounted on the top side of the long shaft 67, a support plate 71 is fixedly mounted on the bottom wall of the evaporation pipe 95, a fan shaft 70 is rotatably connected in the support plate 71, the right side of the fan shaft 70 is connected with the universal joint 72, an air suction fan 69 is fixedly mounted on the left side of the fan shaft 70, and a filter screen 31 is fixedly mounted in the evaporation pipe 95, so that when the long shaft 67 rotates, the universal joint 72, the fan shaft 70 and the air suction fan 69 are driven, and water vapor in the working chamber 68 is sucked away.

In addition, in one embodiment, the screening device 105 includes a top wall motor 65 fixedly installed on the top wall of the linkage cavity 60, a short shaft 64 is dynamically connected to the bottom side of the top wall motor 65, a large gear 63 is fixedly installed on the bottom side of the short shaft 64, a penetrating shaft 49 is rotatably connected between the bottom wall of the feed opening 42 and the top wall of the linkage cavity 60, a screw 50 is fixedly installed in the dropping pipe 56 by the penetrating shaft 49, symmetrical gears 62 are symmetrically installed in the linkage cavity 60 by the penetrating shaft 49 and the long shaft 67 in the linkage cavity 60, ratchet mechanisms 61 with opposite installation directions are symmetrically connected between the symmetrical gears 62 and the long shaft 67 and between the symmetrical gears 62 and the penetrating shaft 49, when the large gear 63 rotates forwards, the long shaft 67 can be driven to rotate by the symmetrical gear 62 and the ratchet mechanism 61 on the left side, when the bull gear 63 rotates reversely, the right symmetrical gear 62 and the ratchet mechanism 61 can drive the through shaft 49 to rotate, the front and rear side walls of the rear wall cavity 77 are connected with the extending shafts 51 in a left-right symmetrical manner, each extending shaft 51 is fixedly provided with a symmetrical belt pulley 75, a connecting belt 76 is connected between the two symmetrical belt pulleys 75, the two extending shafts 51 extend forwards and penetrate through the front side wall of the rear wall cavity 77 to enter the linkage cavity 60 and the extending shaft 51 respectively, the extending shaft 51 on the left side is rotatably connected with the rear side wall of the linkage cavity 60, the extending shaft 51 on the left side is fixedly provided with a first bevel gear 73, the bottom side of the through shaft 49 is fixedly provided with a second bevel gear 74 meshed with the first bevel gear 73, the extending shaft 51 on the right side is rotatably connected with the rear side wall of the driving cavity 52, and the extending shaft 51 is fixedly provided with a disc 59, hinged rods 58 are hinged to the disc 59 respectively, pull plates 57 are hinged to the hinged rods 58, transverse sliding chutes 53 are symmetrically formed in the left and right side walls of the falling pipeline 56, filter screens 55 slidably connected with the transverse sliding chutes 53 are fixedly and vertically symmetrically formed in the pull plates 57, a bottom cavity 54 is formed in the bottom wall of the falling pipeline 56, so that the top wall motor 65 is opened in the forward direction to drive the short shaft 64 and the large gear 63 to rotate, the symmetrical gear 62, the ratchet mechanism 61 and the long shaft 67 on the left side are driven to rotate, the top wall motor 65 is opened in the reverse direction to drive the symmetrical gear 62 and the ratchet mechanism 61 on the right side to rotate, the penetrating shaft 49 and the screw 50 are driven to rotate, the protein powder in the blanking port 42 and the working cavity 68 is transported downwards, and the first bevel gear 73 and the second bevel gear 74 drive the extending shaft 51, the second bevel gear 51 and the screw 50 to rotate, The disc 59, the symmetrical belt pulley 75 and the rotation are adopted, so that the hinged rod 58 drives the pulling plate 57 to move left and right, the filter screen 55 is driven to reciprocate left and right, and the protein powder is screened through the filter screen 55.

In addition, in one embodiment, the front side wall of the drop duct 56 is provided with an openable door 78, and the impurities on the filter screen 55 can be taken out by opening the openable door 78.

Initially, the whey solution is added to the working chamber 68 through the inlet 90, a receiving bucket is placed in the bottom chamber 54, the inlet duct 26 is closed and the baffle 41 blocks the outlet 42.

When moisture needs to be evaporated from whey, the rear wall motor 38 is turned on in the reverse direction to drive the rear wall motor shaft 39 and the motor gear 96 to rotate, thereby driving the rack bar 33 and the pressing plate 32 to move to the right, thereby driving the pulling block 34 and the traverse sliding plate 28 to slide to the right, so that the switch port 27 on the right side is firstly communicated with the air inlet duct 26 on the right side, then the hot air blower 30 is turned on to draw hot dry air from the hot air blower 30 into the working chamber 68, then the top wall motor 65 is turned on in the forward direction to drive the short shaft 64 and the large gear 63 to rotate, thereby driving the symmetrical gear 62 on the left side, the ratchet mechanism 61 and the long shaft 67 to rotate, thereby driving the universal joint 72, the fan shaft 70 and the suction fan 69 to draw water vapor out from the working chamber 68, when a part of moisture is evaporated from the working chamber 68 after heating, the rear wall motor 38 is turned on the reverse direction again, thereby driving the rear wall motor shaft 39 and the motor gear 96 to rotate, driving the rack bar 33 and the extrusion plate 32 to move to the right, driving the pulling block 34 and the transverse sliding plate 28 to slide to the right, leading the switch port 27 on the right and left sides to be firstly communicated with the air inlet pipeline 26 on the left side, then opening the air cooler 24, thereby sending cold air into the working cavity 68, and then mutually charging cold air and hot air into the working cavity 68 to finish drying whey in the working cavity 68;

when only protein powder is left after drying, the rear wall motor 38 is opened forward, the rear wall motor shaft 39 is driven, the motor gear 96 rotates, the rack bar 33 is driven, the driven plate 92 and the extrusion plate 32 move to the left, the protein powder is pushed to the left, the spring plate 48 is driven to move to the left when the driven plate 92 moves to the left, the baffle plate 41 is driven to move to the right through the long rope 46, the protein powder in the working cavity 68 drops into the dropping pipeline 56 from the feed opening 42, the top wall motor 65 is opened reversely, the symmetrical gear 62 and the ratchet mechanism 61 on the right are driven to rotate, the penetrating shaft 49 and the screw 50 are driven to rotate, the protein powder in the feed opening 42 and the working cavity 68 is transported downwards, the first bevel gear 73 and the gear 74 drive the extending shaft 51, the disc 59, the symmetrical belt pulley 75 and rotate, thereby drive pull plate 57 through articulated rod 58 and remove about to drive filter screen 55 reciprocating motion about, thereby screen albumen powder through filter screen 55.

The invention has the beneficial effects that: the device can remove moisture in the whey solution by a cold-hot alternating method, and meanwhile compared with a traditional heating evaporation mode, the evaporation efficiency of the method is higher, compared with a single cold-hot alternating one-time method, the device can circularly evaporate cold and hot alternately, so that the evaporated moisture is more thorough, the device is also provided with a fan, the discharge of water vapor is accelerated, and therefore the working efficiency is improved, and meanwhile, the device can automatically screen protein powder after the evaporation is finished, so that impurities are separated from the protein powder, and the protein powder with higher purity is obtained, and the quality of products is improved.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. The utility model provides a preparation facilities of bone-increasing albumen powder, includes the organism, its characterized in that: symmetrical blocks are fixedly arranged on the top surface of the machine body in a bilateral symmetry mode, a working cavity is arranged in the machine body, a drying device used for drying whey is arranged between the working cavity and the symmetrical blocks, the drying device comprises an air cooler fixedly arranged on the left side of the symmetrical blocks and a hot air heater fixedly arranged on the right side of the symmetrical blocks, an air inlet communicated with the air cooler is arranged on one side surface of each symmetrical block, air inlet pipelines are symmetrically arranged on the left side and the right side of the top wall of the working cavity, the air inlet pipeline on the left side is communicated with the air cooler on the left side, the air inlet pipeline on the right side is communicated with the hot air heater, a transverse moving chute is arranged between the air inlet pipelines, a transverse moving sliding plate is connected in a sliding mode in the transverse moving chute, switch ports capable of being communicated with the air inlet pipeline are symmetrically arranged, the bottom wall of the transverse sliding chute is provided with a pulling block sliding chute communicated with the working cavity, the bottom surface of the transverse sliding chute is fixedly provided with a pulling block which is in sliding connection with the pulling block sliding chute, the rear side wall of the working cavity is provided with a feeding hole, the right side surface of the machine body is fixedly provided with a fixed plate, the fixed plate is provided with a power cavity, the right side wall of the working cavity is provided with an open cavity, a driving device for changing a drying mode is arranged between the working cavity and the power cavity, the bottom wall of the working cavity is provided with a rope groove, the bottom wall of the working cavity is also provided with a feed opening, the right side wall of the feed opening is provided with a reset sliding chute, the reset sliding chute is communicated with one side of the rope groove, a switch device for controlling the switch of the feed opening is arranged between the reset sliding chute and the rope groove, the left wall of the working cavity is provided, be equipped with down the glassware between the fuselage, the diapire of feed opening still is equipped with the pipeline that drops, the right side that drops the pipeline is equipped with the drive chamber, the left side that drops the pipeline is equipped with the interlock chamber, be equipped with the sieving mechanism who is used for the albumen powder screening in the interlock chamber, the rear side in interlock chamber is equipped with the back wall chamber.

2. The preparation device of bone-strengthening protein powder as claimed in claim 1, wherein: drive arrangement includes fixed mounting and is in the back wall motor of power chamber rear side wall, power connection has the back wall motor shaft in the back wall motor, the last motor gear that has set firmly of back wall motor shaft, the lateral wall about the power chamber with the roof sliding connection in opening chamber has the rack bar, the rack bar with motor gear engagement, the bottom surface of rack bar set firmly can with opening chamber sliding connection's driven plate, the left side of rack bar set firmly can with the stripper plate of pulling piece butt.

3. The preparation device of bone-strengthening protein powder as claimed in claim 1, wherein: the switch device comprises a spring plate which is slidably installed in the rope groove, the spring plate can be abutted to the driven plate, a connecting spring is connected between the spring plate and the rope groove, a baffle is slidably connected in the reset sliding groove, a strong spring is connected between the baffle and the reset sliding groove, and a long rope is connected between the baffle and the spring plate.

4. The preparation device of bone-strengthening protein powder as claimed in claim 1, wherein: the air outlet device comprises a long shaft which is rotatably arranged on the bottom wall of the evaporation pipeline and the upper side wall and the lower side wall of the linkage cavity, a universal joint is fixedly arranged on the top side of the long shaft, a supporting plate is fixedly arranged on the bottom wall of the evaporation pipeline, a fan shaft is rotatably connected in the supporting plate, the right side of the fan shaft is connected with the universal joint, an air suction fan is fixedly arranged on the left side of the fan shaft, and a filter screen is fixedly arranged in the evaporation pipeline.

5. The preparation device of bone-strengthening protein powder as claimed in claim 1, wherein: the screening device comprises a top wall motor fixedly installed on the top wall of the linkage cavity, a short shaft is dynamically connected to the bottom side of the top wall motor, a large gear is fixedly arranged on the bottom side of the short shaft, a penetrating shaft is rotatably connected between the bottom wall of the feed opening and the top wall of the linkage cavity, a screw is fixedly arranged in the dropping pipeline by the penetrating shaft, symmetrical gears are symmetrically arranged in the linkage cavity by the penetrating shaft and in the linkage cavity by the long shaft, ratchet mechanisms in opposite installation directions are symmetrically connected between the symmetrical gears and the long shaft and between the symmetrical gears and the penetrating shaft, the large gear can drive the long shaft to rotate through the symmetrical gear on the left side and the ratchet mechanism on the left side when rotating forwards, and the large gear can drive the penetrating shaft to rotate through the symmetrical gear on the right side and the ratchet mechanism when rotating backwards, the front side wall and the rear side wall of the rear wall cavity are bilaterally and symmetrically and rotatably connected with extension shafts, each extension shaft is respectively and fixedly provided with a symmetrical belt pulley, a connecting belt is connected between the two symmetrical belt pulleys, the two extension shafts extend forwards to penetrate through the front side wall of the rear wall cavity and respectively enter the linkage cavity and the extension shafts, the extension shaft on the left side is rotatably connected with the rear side wall of the linkage cavity, the extension shaft on the left side is fixedly provided with a first bevel gear, the bottom side of the penetration shaft is fixedly provided with a second bevel gear meshed with the first bevel gear, the extension shaft on the right side is rotatably connected with the rear side wall of the driving cavity, the extension shafts are respectively and fixedly provided with a disc, the discs are respectively and hingedly connected with a hinged rod, the hinged rods are hinged with pulling plates, the left side wall and the right side wall of the falling pipeline are symmetrically provided with transverse sliding chutes, and each pulling plate is vertically and, the diapire of pipeline that drops is equipped with the bottom chamber.

6. The preparation device of bone-strengthening protein powder as claimed in claim 5, wherein: the front side wall of the falling pipeline is provided with an openable door.