JP2021078489A - Manufacturing apparatus of protein powder useful for bone reinforcement - Google Patents

Abstract

To disclose a manufacturing apparatus of protein powder useful for bone reinforcement.SOLUTION: An apparatus for manufacturing a protein powder useful in bone strengthening of the present invention comprises a body, and symmetrical blocks are arranged to be horizontally symmetrical and fixedly on a top surface of the body, in the present invention, moisture is removed by a method of drying alternately by alternating a low temperature and a high temperature, with respect to the whey solution, compared with conventional heating and evaporation methods, the evaporation efficiency is improved and although the temperature is changed only once according to the conventional method, but the present invention can evaporate repeatedly by repeating temperature change so that the water is evaporated more thoroughly and the discharge of the steam is accelerated by the arrangement of the fan, further, the efficiency of the work is increased, and in addition to the above, the protein powder is automatically sorted after the evaporation is finished, and the foreign substance and protein powder are separated from each other, thereby obtaining a high purity protein powder, that is, the quality of the product is improved.SELECTED DRAWING: Figure 1

Description

The present invention takes up the field of food processing, and specifically is a protein powder manufacturing apparatus useful for bone strengthening.

A protein is a polymer compound formed by linking (polymerizing) a large number of 20 types of L-amino acids in a chain, and is one of the important constituents of living organisms. There are a wide variety of types and functions, including various enzymes that catalyze chemical reactions in the body, those that make up living organisms (collagen, etc.), those that control movement (actin, myosin, etc.), and various hormones and antibodies. , Both play an essential role in life phenomena. Athletes and bodybuilders are more than twice as demanding of protein as the average person because high-intensity exercise destroys muscle cells and causes muscle protein breakdown. Timely protein supplementation reduces muscle weakness, and today's fitness enthusiasts often drink protein powder to help strengthen their bones as an aid to strength training.
In the process of isolating high quality whey protein, it is necessary to remove water from the whey and dry it, i.e. to obtain protein powder by dehydration. As a general drying means, a form of simply removing water by heating is used, but the method can remove only a certain amount of water, and there is also a method of alternately drying at low temperature and high temperature. Basically, it can be changed only once, and the temperature cannot be changed repeatedly to remove water.

Chinese Patent Application Publication No. 10258688

The present application provides a protein powder manufacturing apparatus useful for bone strengthening, and an object of the present application is to eliminate the above-mentioned drawbacks in the prior art.

The invention of the present application is realized through the following technical plan.

The device for producing a protein powder useful for strengthening bones of the present invention includes a body, and symmetrical blocks are fixedly installed on the upper surface of the body so as to be symmetrical, and a work space is installed in the body. A drying device capable of drying milky lotion is installed between the work space and the symmetric block, and the drying device is a cold air blower fixedly attached to the symmetric block on the left and the symmetric block on the right. Including a hot air blower fixedly mounted on the above, an air inlet communicating with the cold air blower is installed on one side of each of the symmetrical blocks, and an air inlet pipe is symmetrical on the upper wall of the work space. The air intake pipe on the left communicates with the cold air blower on the left, and the air intake pipe on the right communicates with the hot air blower. A moving slide groove is formed, a laterally moving slide plate is slidably connected in the laterally moving slide groove, and an opening / closing port that can communicate with the air inlet pipe is symmetrically connected in the laterally moving slide plate. The lateral movement slide plate and the lateral movement slide groove are connected by a return spring, and a traction block slide groove communicating with the work space is formed on the bottom wall of the lateral movement slide groove. A tow block slidably connected to the tow block slide groove is fixedly installed on the bottom surface of the laterally moving slide groove, an entrance is installed to the rear wall of the work space, and a fixing plate is installed on the right side of the body. Is fixedly installed, a power space is installed in the fixed plate, an opening space is installed in the rear wall of the work space, and a drying mode is switched between the work space and the power space. A string groove is formed on the bottom wall of the work space, a drop port is installed on the bottom wall of the work space, and a return slide groove is formed on the right wall of the drop port. The return slide groove communicates with one side of the string groove, and an opening / closing device capable of controlling the opening / closing of the drop port is installed between the return slide groove and the string groove, and is installed on the left wall of the work space. An evaporation pipe is installed, a wind blower is installed in the evaporation pipe, a dropper is installed in the body, and a fall pipe is installed in the bottom wall of the fall port. A drive space is installed on the right side of the fall pipeline, an interlocking space is installed on the left side of the fall pipeline, and a sorting device capable of sorting protein powder is installed in the interlocking space. A rear wall space is installed on the rear side.

Based on the above solution, the drive device includes a rear wall motor fixedly mounted on the rear wall of the power space, in which the rear wall motor shaft is ubiquitously connected to the rear wall motor. Motor gears are fixedly installed on the rear wall motor shaft, rack rods are slidably connected to the left and right walls of the power space and the upper wall of the opening space, and the rack rods mesh with the motor gears. A driven plate that can be slidably connected to the opening space is fixedly installed on the bottom surface of the rack rod, and a pressing plate that can be in contact with the tow block is fixedly installed on the left side of the rack rod. ..

Based on the above solution, the opening / closing device includes a spring plate slidably mounted in the string groove, the spring plate can be brought into contact with the driven plate, and the spring plate and the string groove are connected. It is connected by a spring, a disturbing plate is slidably connected in the return slide groove, the interference plate and the return slide groove are connected by a strong spring, and the interference plate and the spring plate are connected by a long string. It is connected.

Based on the above solution, the blower includes a long shaft rotatably mounted on the bottom wall of the evaporation line and the upper and lower walls of the interlocking space, with a universal joint fixed above the long shaft. A support plate is fixedly installed on the bottom wall of the evaporation pipe, a fan shaft is rotatably connected to the support plate, and the right portion of the fan shaft is connected to the universal joint. It is connected, an intake fan is fixedly installed on the left side of the fan shaft, and a strainer is fixedly installed in the evaporation pipe.

Based on the above solution, the sorting device includes a top wall motor fixedly mounted on the upper wall of the interlocking space, and a short shaft is movably connected to the bottom side of the top wall motor to transmit the short shaft. A large gear is fixedly installed on the bottom side of the shaft, and the bottom wall of the drop port and the upper wall of the interlocking space are connected by a rotatable through shaft, and the through shaft is spiraled in the fall pipeline. The vessel is fixedly installed, and in the interlocking space, the symmetric gear is installed so as to be symmetrical between the through shaft and the long shaft, and between the symmetric gear and the long shaft and between the symmetric gear and the long shaft. A symmetrical ratchet mechanism is installed between the shafts, and the mounting directions of the ratchet mechanism are opposite to each other. When the large gear rotates in the forward direction, the long shaft is moved by the symmetrical gear on the left and the ratchet mechanism. When the large gear is rotated in the reverse direction, the through shaft is rotated by the symmetrical gear on the right and the ratchet mechanism so that the extension shaft is symmetrical and rotatable on the front and rear walls of the rear wall space. A symmetric pulley is fixedly installed on each of the extending shafts, the two symmetric pulleys are connected by a connecting belt, and the two extending shafts forward through the front and rear walls of the rear wall space. Each of the interlocking space and the extension shaft is entered, the left extension shaft is rotatably connected to the rear wall of the interlocking space, and the first bevel gear is fixedly installed on the left extension shaft. A second bevel gear that meshes with the first bevel gear is fixedly installed on the bottom side of the through shaft, and the extension shaft on the right is rotatably connected to the rear wall of the drive space, and the extension shaft is rotatably connected. Disks are fixedly installed in each of the disks, hinge rods are connected to the disks by hinges, tow plates are connected to the hinge rods by hinges, and laterally moving slides are attached to the left and right walls of the fall conduit. The grooves are formed so as to be symmetrical, and a filtration net slidably connected to the laterally moving slide groove is installed on each of the tow plates so as to be vertically symmetrical and fixedly, and the fall conduit is provided. A bottom space is installed on the bottom wall.

Based on the above solution, an opening / closing gate is installed on the front wall of the falling pipeline, and the opening / closing gate can be opened.

According to the present invention, water is removed from a milky lotion solution by alternating low temperature and high temperature to dry it, and the evaporation efficiency is improved as compared with the conventional method of heat evaporation. Although it is performed only once, since the present invention can evaporate by repeating the temperature change, the water vapor can be evaporated more thoroughly, and the arrangement of the fan accelerates the discharge of water vapor and further improves the work efficiency. In addition, protein powder can be automatically sorted after evaporation, and by separating foreign matter and protein powder, high-purity protein powder can be obtained, that is, the quality of the product is improved.

In order to explain the present invention in detail with reference to FIGS. 1 to 5 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. 1 is a front view of the apparatus of the present invention, and is described above and below. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 are the same.

FIG. 1 is a schematic front view of the entire cross section of the present invention. FIG. 2 is a partially enlarged view of A in FIG. FIG. 3 is an enlarged schematic diagram of BB in FIG. FIG. 4 is a front view of a cross section on the rear side of FIG. FIG. 5 is a front view of the front side of FIG.

With reference to FIGS. 1 to 5, the device for producing a protein powder useful for bone strengthening of the present invention includes a body 21, and a symmetrical block 23 is fixedly installed on the upper surface of the body 21 so as to be symmetrical. A work space 68 is installed in the body 21, a drying device 101 capable of drying milky lotion is installed between the working space 68 and the symmetrical block 23, and the drying device 101 is on the left. A cold air blower 24 fixedly mounted on the symmetrical block 23 and a hot air blower 30 fixedly mounted on the symmetrical block 23 on the right are included, and one side of each of the symmetrical blocks 23 communicates with the cold air blower 24. The air inlet 22 is installed, the air inlet pipe 26 is installed symmetrically on the upper wall of the work space 68, and the air inlet pipe 26 on the left communicates with the cold air blower 24 on the left. The air inlet pipe 26 on the right communicates with the hot air blower 30, a lateral movement slide groove 29 is formed between the air inlet pipes 26, and the lateral movement slide groove 29 is inserted laterally. The movable slide plate 28 is slidably connected, and the opening / closing port 27 that can communicate with the air inlet pipe 26 is installed in the laterally moving slide plate 28 so as to be symmetrical with the laterally moving slide plate 28. The laterally moving slide groove 29 is connected by a return spring 36, and a tow block slide groove 35 communicating with the working space 68 is formed on the bottom wall of the laterally moving slide groove 29, and the bottom surface of the laterally moving slide groove 29 is formed. A tow block 34 slidably connected to the tow block slide groove 35 is fixedly installed in the space 68, an inlet 90 is installed to the rear wall of the work space 68, and a fixing plate 40 is installed on the right surface of the body 21. Is fixedly installed, a power space 37 is installed in the fixed plate 40, an opening space 91 is installed in the rear wall of the work space 68, and between the work space 68 and the power space 37. A drive device 102 capable of switching the drying mode is installed in the work space 68, a string groove 45 is formed in the bottom wall of the work space 68, a drop port 42 is installed in the bottom wall of the work space 68, and the drop port 42 is installed. A return slide groove 44 is formed on the right wall of the wall, the return slide groove 44 communicates with one side of the string groove 45, and the drop port 42 is between the return slide groove 44 and the string groove 45. An opening / closing device 103 capable of controlling the opening / closing of the work space 68 is installed, an evaporation pipe line 95 is installed on the left wall of the work space 68, and an air blowing device 104 is installed in the evaporation pipe line 95. inside A drop device 66 is installed, a drop pipeline 56 is installed on the bottom wall of the drop port 42, a drive space 52 is installed on the right side of the drop pipeline 56, and a drive space 52 is installed on the left side of the drop pipeline 56. An interlocking space 60 is installed, a sorting device 105 capable of sorting protein powder is installed in the interlocking space 60, and a rear wall space 77 is installed on the rear side of the interlocking space 60.

The drive device 102 includes a rear wall motor 38 fixedly mounted on the rear wall of the power space 37, and a rear wall motor shaft 39 is movably connected to the rear wall motor 38 so that the rear wall can be transmitted. Motor gears 96 are fixedly installed on the motor shaft 39, rack rods 33 are slidably connected to the left and right walls of the power space 37 and the upper wall of the opening space 91, and the rack rods 33 are connected to the motor gears. A driven plate 92 that meshes with 96 and can be slidably connected to the opening space 91 is fixedly installed on the bottom surface of the rack rod 33, and can be brought into contact with the traction block 34 on the left side of the rack rod 33. The pressing plate 32 is fixedly installed,
When the rear wall motor 38 is rotated in the forward direction, the rear wall motor shaft 39 and the motor gear 96 are rotated, and the rack rod 33 and the pressing plate 32 are interlocked to move to the left, and the rear wall is moved to the left. When the motor 38 is rotated in the reverse direction, the rear wall motor shaft 39 and the motor gear 96 are rotated, and the rack rod 33 and the pressing plate 32 are interlocked to move to the right, and the traction block 34 and the motor gear 96 are said to be rotated. By sliding the laterally moving slide plate 28 to the right, the opening / closing port 27 and the air-entry pipeline 26 can be communicated with each other.

The opening / closing device 103 includes a spring plate 48 slidably mounted in the string groove 45, the spring plate 48 can be brought into contact with the driven plate 92, and the spring plate 48 and the string groove 45 are connected to each other. The obstruction plate 41 is slidably connected in the return slide groove 44, and the obstruction plate 41 and the return slide groove 44 are connected by a strong spring 43. The spring plate 48 is connected by a long string 46,
When the driven plate 92 moves to the left, the spring plate 48 moves to the left in conjunction with the spring plate 48, and the interfering plate 41 is moved to the right by the long string 46, whereby the protein in the work space 68 The powder falls from the drop port 42 into the drop conduit 56.

The air blower 104 includes a long shaft 67 rotatably mounted on the bottom wall of the evaporation line 95 and the upper and lower walls of the interlocking space 60, and a universal joint 72 is fixed above the long shaft 67. A support plate 71 is fixedly installed on the bottom wall of the evaporation pipe line 95, a fan shaft 70 is rotatably connected to the support plate 71, and the right portion of the fan shaft 70 is connected to the support plate 71. Connected to the universal joint 72, an intake fan 69 is fixedly installed on the left side of the fan shaft 70, and a strainer 31 is fixedly installed in the evaporation line 95.
When the long shaft 67 rotates, it drives the universal joint 72, the fan shaft 70, and the intake fan 69, and absorbs water vapor in the work space 68.

The sorting device 105 includes a top wall motor 65 fixedly mounted on the upper wall of the interlocking space 60, and a short shaft 64 is movably connected to the bottom side of the top wall motor 65, and the short shaft 64 is transmitted. A large gear 63 is fixedly installed on the bottom side of the gear 63, and the bottom wall of the drop port 42 and the upper wall of the interlocking space 60 are connected by a rotatable through shaft 49, and the penetration in the drop pipeline 56. A spiral device 50 is fixedly installed on the shaft 49, and in the interlocking space 60, the symmetric gear 62 is installed so as to be symmetrical between the penetrating shaft 49 and the long shaft 67, and the symmetric gear 62 and the above. A symmetrical ratchet mechanism 61 is installed between the long shaft 67 and between the symmetrical gear 62 and the penetrating shaft 49, the mounting direction of the ratchet mechanism 61 is opposite, and the large gear 63 is positive. When rotated, the long shaft 67 is rotated by the symmetrical gear 62 and the ratchet mechanism 61 on the left, and when the large gear 63 is rotated in the reverse direction, the penetrating shaft 49 is rotated by the symmetrical gear 62 and the ratchet mechanism 61 on the right. The extension shaft 51 is rotatably and symmetrically connected to the front and rear walls of the rear wall space 77, and a symmetric pulley 75 is fixedly installed on each of the extension shafts 51. The symmetric pulley 75 is connected by the connecting belt 76, and the two extending shafts 51 forward through the front and rear walls of the rear wall space 77 and enter the interlocking space 60 and the extending shaft 51, respectively, on the left. The extension shaft 51 is rotatably connected to the rear wall of the interlocking space 60, a first bevel gear 73 is fixedly installed on the left extension shaft 51, and the first bevel gear 73 is fixedly installed on the bottom side of the through shaft 49. A second bevel gear 74 that meshes with the one bevel gear 73 is fixedly installed, the extension shaft 51 on the right is rotatably connected to the rear wall of the drive space 52, and a disk 59 is attached to each of the extension shafts 51. It is fixedly installed, a hinge rod 58 is connected to each of the disks 59 by a hinge, a traction plate 57 is connected to the hinge rod 58 by a hinge, and a laterally moving slide is connected to the left and right walls of the fall conduit 56. The grooves 53 are formed so as to be symmetrical, and a filtration net 55 slidably connected to the laterally moving slide groove 53 is vertically and fixedly installed on each of the tow plates 57 so as to be vertically symmetrical. A bottom space 54 is installed on the bottom wall of the fall conduit 56, and a bottom space 54 is installed.
When the top wall motor 65 is rotated in the forward direction, the short shaft 64 and the large gear 63 rotate in conjunction with each other, and the symmetric gear 62 on the left, the ratchet mechanism 61, and the long shaft 67 are rotated, and the top is rotated. When the wall motor 65 is rotated in the reverse direction, the symmetrical gear 62 on the right and the ratchet mechanism 61 rotate in conjunction with each other, and the through shaft 49 and the spiral device 50 are rotated to rotate the drop port 42 and the work space. The protein powder at 68 is fed downward, the first bevel gear 73 and the second bevel gear 74 rotate the extension shaft 51, the disk 59 and the symmetric pulley 75, and the hinge rod 58 to pull the protein powder. By moving the plate 57 to the left and right, the filtration net 55 moves back and forth to the left and right in conjunction with each other to sort the protein powder.

An opening / closing gate 78 is installed on the front wall of the drop pipe 56, and the opening / closing gate 78 can be opened. When the opening / closing gate 78 is opened, foreign matter attached to the filtration net 55 can be taken out.

In the initial state, the whey solution is added to the work space 68 from the inlet 90, and a storage tub for storing the whey solution is placed in the bottom space 54, and the air inlet pipe 26 is closed, which interferes. The plate 41 closes the drop port 42.

To evaporate the water contained in the milky lotion solution, first, the rear wall motor 38 is rotated in the reverse direction to rotate the rear wall motor shaft 39 and the motor gear 96, and then the rack rod 33 and the pressing plate 32 are interlocked. Then, it moves to the right, and by sliding the tow block 34 and the laterally moving slide plate 28 to the right, the right opening / closing port 27 and the right air inlet conduit 26 are communicated with each other, and then the hot air blower 30. Is operated, dry hot air is sent from the hot air blower 30 into the work space 68, and the top wall motor 65 is rotated in the forward direction, so that the short shaft 64 and the large gear 63 rotate in conjunction with each other, and the left symmetry. The gear 62, the ratchet mechanism 61 and the long shaft 67 are rotated, and the universal joint 72, the fan shaft 70 and the intake fan 69 operate as the long shaft 67 rotates, sucking water vapor in the work space 68, and the work space 68 After evaporating a part of the water by heating, the rear wall motor 38 is rotated in the reverse direction again to rotate the rear wall motor shaft 39 and the motor gear 96, and the rack rod 33 and the pressing plate 32 are interlocked with each other. By moving to the right and sliding the tow block 34 and the laterally moving slide plate 28 to the right, the left opening / closing port 27 and the left air inlet conduit 26 are communicated with each other, and then the cold air blower 24 is operated. By letting it send cold air into the work space 68, and by alternately sending cold air and warm air into the work space 68 in this way, the drying work for the milky lotion in the work space 68 is performed.
When only the protein powder remains due to drying, the rear wall motor 38 is rotated forward to rotate the rear wall motor shaft 39 and the motor gear 96, and the rack rod 33 and the pressing plate 32 are interlocked to move to the left. By moving, pushing the protein powder to the left, and when the driven plate 92 moves to the left, the spring plate 48 is moved to the left, and the long string 46 moves the obstruction plate 41 to the right. The protein powder in the work space 68 falls from the drop port 42 into the drop conduit 56, and then the top wall motor 65 is rotated in the reverse direction, so that the right symmetric gear 62 and the ratchet mechanism 61 rotate in conjunction with each other. By rotating the through shaft 49 and the spiral device 50, the protein powder in the drop port 42 and the work space 68 is sent downward, and the first cap gear 73 and the second cap gear 74 are formed by the extension shaft 51, the disk 59 and the disc 59. By rotating the symmetric pulley 75 and moving the tow plate 57 left and right by the hinge rod 58, the filter net 55 moves back and forth in conjunction with each other to sort the protein powder.

According to the above method, the employee in the field can make various modifications according to the working situation within the scope of the present invention.

Claims (6)

A symmetric block is fixedly installed on the upper surface of the body including the body so as to be symmetrical, a work space is installed in the body, and a work space is installed between the work space and the symmetric block. A drying device capable of drying the milky lotion is installed, and the drying device includes a cold air blower fixedly mounted on the symmetrical block on the left and a hot air blower fixedly mounted on the symmetrical block on the right. An air inlet communicating with the cold air blower is installed on one side of each of the symmetrical blocks, and the air intake pipe is installed symmetrically on the upper wall of the work space, and the air intake pipe on the left is on the left. The air-filled pipeline on the right communicates with the hot air blower, and a laterally moving slide groove is formed between the air-filled pipelines, and the inside of the laterally moving slide groove is formed. The laterally moving slide plate is slidably connected to the space, and the opening and closing openings that can communicate with the air-entry pipeline are installed in the laterally moving slide plate so as to be symmetrical, and the laterally moving slide plate and the laterally moving slide plate are installed. The moving slide groove is connected by a return spring, a traction block slide groove communicating with the work space is formed on the bottom wall of the lateral movement slide groove, and the traction block slide groove is formed on the bottom surface of the lateral movement slide groove. A slidably connected tow block is fixedly installed, an entrance is installed on the rear wall of the work space, a fixed plate is fixedly installed on the right side of the body, and the fixing plate is inside the fixed plate. A power space is installed, an opening space is installed on the rear wall of the work space, a drive device that can switch the drying mode is installed between the work space and the power space, and a drive device that can switch the drying mode is installed on the bottom wall of the work space. A string groove is formed, a drop port is installed on the bottom wall of the work space, a return slide groove is formed on the right wall of the drop port, and the return slide groove communicates with one side of the string groove. An opening / closing device capable of controlling the opening / closing of the drop port is installed between the return slide groove and the string groove, and an evaporation pipeline is installed on the left wall of the work space. A wind blower is installed in the body, a dropper is installed in the body, a drop conduit is installed on the bottom wall of the drop port, and a drive space is installed on the right side of the drop conduit. An interlocking space is installed on the left side of the falling pipeline, a sorting device capable of sorting protein powder is installed in the interlocking space, and a rear wall space is installed on the rear side of the interlocking space. A protein powder manufacturing device that is useful for strengthening bones. The drive device includes a rear wall motor fixedly mounted on the rear wall of the power space, a rear wall motor shaft is ubiquitously connected to the rear wall motor, and a motor is connected to the rear wall motor shaft. Gears are fixedly installed, rack rods are slidably connected to the left and right walls of the power space and the upper wall of the opening space, and the rack rods mesh with the motor gears on the bottom surface of the rack rods. Is characterized in that a driven plate that can be slidably connected to the opening space is fixedly installed, and a pressing plate that can come into contact with the tow block is fixedly installed on the left side of the rack rod. A device for producing a protein powder useful for strengthening bones according to 1. The opening / closing device includes a spring plate slidably mounted in the string groove, the spring plate can be brought into contact with the driven plate, the spring plate and the string groove are connected by a connecting spring, and the return is performed. The obstruction plate is slidably connected in the slide groove, the obstruction plate and the return slide groove are connected by a strong spring, and the obstruction plate and the spring plate are connected by a long string. The device for producing a protein powder useful for strengthening the bone according to claim 1. The wind blower includes a long shaft rotatably mounted on the bottom wall of the evaporation pipeline and the upper and lower walls of the interlocking space, and a universal joint is fixedly installed on the upper side of the long shaft to evaporate. A support plate is fixedly installed on the bottom wall of the pipeline, a fan shaft is rotatably connected to the support plate, and the right portion of the fan shaft is connected to the universal joint of the fan shaft. The protein powder manufacturing apparatus according to claim 1, wherein an intake fan is fixedly installed on the left side, and a strainer is fixedly installed in the evaporation pipe. The sorting device includes a top wall motor fixedly mounted on the upper wall of the interlocking space, a short shaft is movably connected to the bottom side of the top wall motor, and a large size is connected to the bottom side of the short shaft. Gears are fixedly installed, the bottom wall of the drop port and the upper wall of the interlocking space are connected by a rotatable through shaft, and a spiral device is fixedly installed on the through shaft in the fall pipeline. In the interlocking space, symmetrical gears are installed symmetrically between the penetrating shaft and the long shaft, and between the symmetrical gear and the long shaft and between the symmetrical gear and the penetrating shaft, When a symmetrical ratchet mechanism is installed, the mounting direction of the ratchet mechanism is opposite, and the large gear rotates in the forward direction, the symmetrical gear on the left and the ratchet mechanism rotate the long axis, and the large gear rotates. When it rotates in the reverse direction, the through shaft is rotated by the symmetrical gear on the right and the ratchet mechanism, and the extension shaft is rotatably connected to the front and rear walls of the rear wall space so as to be symmetrical and each of the extension shafts. A symmetric pulley is fixedly installed in each of the two, the two symmetric pulleys are connected by a connecting belt, and the two extending shafts forward through the front and rear walls of the rear wall space, and the interlocking space and the extending shaft. The left extension shaft is rotatably connected to the rear wall of the interlocking space, and the first bevel gear is fixedly installed on the left extension shaft on the bottom side of the through shaft. A second bevel gear that meshes with the first bevel gear is fixedly installed, the extension shaft on the right is rotatably connected to the rear wall of the drive space, and a disk is fixed to each of the extension shafts. A hinge rod is connected to each of the disks by a hinge, a tow plate is connected to the hinge rod by a hinge, and laterally moving slide grooves are symmetrically connected to the left and right walls of the fall conduit. A filtration net that is formed and slidably connected to the laterally moving slide groove is installed on each of the tow plates so as to be vertically symmetrical and fixed, and a bottom space is provided on the bottom wall of the fall conduit. The device for producing a protein powder useful for bone strengthening according to claim 1, wherein the device is installed. The protein powder manufacturing apparatus according to claim 5, wherein an opening / closing gate is installed on the front wall of the falling pipeline, and the opening / closing gate can be opened.

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