阅读说明：本技术 一种蛋白味精 (Protein monosodium glutamate ) 是由 吴学正 周如红 贺菲 于 2019-10-25 设计创作，主要内容包括：本发明属于调味品技术领域,具体的说是一种蛋白味精,该方法所使用的抽屉盒包括导轨壳、抽拉盒和挤压滑块；所述导轨壳为长方体结构设计；所述导轨壳内前后滑动连接有抽拉盒；所述滑槽的左右两侧侧壁内均开设有空腔；所述空腔内均设有挤压滑块；所述空腔内于对应的挤压滑块上方均固连有条状气囊；本发明所使用的抽屉盒在工地环境条件下,可以有效的降低浮尘对味精的污染,同时也可以有效的对导轨壳和抽拉盒之间间隙进行风干,避免导轨壳和抽拉盒之间间隙空间内长期潮湿的现象,进而有效的改善了味精的放置环境,避免了潮湿的隐蔽间隙对抽拉盒内味精的影响,极大提高了味精的保存时间,实用性较高。(The invention belongs to the technical field of seasonings, and particularly relates to protein monosodium glutamate.A drawer box used in the method comprises a guide rail shell, a drawing box and an extrusion sliding block; the guide rail shell is designed into a cuboid structure; a drawing box is connected in the guide rail shell in a front-back sliding manner; cavities are formed in the side walls of the left side and the right side of the sliding groove; extrusion sliding blocks are arranged in the cavities; strip-shaped air bags are fixedly connected above the corresponding extrusion sliding blocks in the cavities; the drawer box used by the invention can effectively reduce pollution of floating dust to monosodium glutamate under the environment condition of a construction site, and can also effectively air-dry the gap between the guide rail shell and the pull box, so that the phenomenon of long-term humidity in the gap space between the guide rail shell and the pull box is avoided, the storage environment of monosodium glutamate is further effectively improved, the influence of the wet hidden gap on monosodium glutamate in the pull box is avoided, the storage time of monosodium glutamate is greatly prolonged, and the practicability is higher.)

1. The protein monosodium glutamate is characterized by comprising the following steps:

s1: 50-60 parts of hydrolyzed vegetable protein; 15-20 parts of sodium glutamate; 2-7 parts of sodium inosinate; 0.1-0.4 parts of hexyl maltol; 10-15 parts of sodium chloride;

s2: atomizing the hydrolyzed vegetable protein, the sodium glutamate, the sodium inosinate, the hexyl maltol and the sodium chloride in the corresponding weight parts in the S1 by using cold water, and uniformly mixing;

s3: when the water content reaches 10-15%, granulating, sieving with a 8-10 mesh sieve, drying at low temperature after granulating, and sieving to obtain a finished product when the water content is reduced to 3-4%;

s4: after S3 screening is completed, the bag is used for packaging in time, attention is paid to moisture resistance, and finally the bag is placed in a drawer box;

the drawer box used in the S4 comprises a guide rail shell (1), a drawing box (2) and an extrusion sliding block (3); the guide rail shell (1) is designed to be of a cuboid structure; the front end face of the guide rail shell (1) is provided with a sliding groove; a drawing box (2) is connected in the sliding groove in a front-back sliding manner; cavities (11) are formed in the side walls of the left side and the right side of the sliding groove; the left side surface and the right side surface of the sliding groove are provided with a first sliding groove (12) and a second sliding groove (13) at the position of the cavity (11), and the first sliding groove (12) is positioned above the corresponding second sliding groove (13); the left side surface and the right side surface of the drawing box (2) are fixedly connected with guide columns (21), the guide columns (21) are connected in the corresponding second sliding grooves (13) in a sliding mode, and the other end surfaces of the guide columns (21) extend into the cavity (11); the cambered surfaces of the guide columns (21) are respectively and rotatably connected with rotating wheels (22) in the corresponding cavities (11); the cambered surfaces of the guide pillars (21) are fixedly connected with support columns (23) in gaps on the left side and the right side between the drawing box (2) and the guide rail shell (1); third sliding grooves (24) are formed in the upper surfaces of the supporting columns (23); sliding rods (25) are respectively connected in the third sliding grooves (24) in a sliding manner; springs (26) are fixedly connected between the sliding rods (25) and the bottoms of the third sliding grooves (24); the sliding rods (25) are designed to be bent by ninety degrees, the upper parts of the sliding rods (25) are all horizontally placed, and the upper parts of the sliding rods (25) penetrate through the first sliding grooves (12) and extend into the cavity (11); the sliding rods (25) are fixedly connected with extrusion sliding blocks (3) in the cavities (11); strip-shaped air bags (31) are fixedly connected above the corresponding extrusion sliding blocks (3) in the cavities (11); the rear end faces of the extrusion sliding blocks (3) are fixedly connected with extrusion belts (32), and rubber films (33) wrap the outer surfaces of the extrusion belts (32); the extrusion belt (32) comprises a plurality of single bodies which are hinged to each other to form a linear belt-shaped structure, and a positioning block (34) is arranged at the hinged position; the positions of the left side surface and the right side surface of the cavity (11) close to the rear end surface of the drawing box (2) are both rotationally connected with reels (35); the extrusion belts (32) are all wound on corresponding reels (35); the front end surface of the guide rail shell (1) is provided with air outlet micropores (14) which are uniformly distributed at the position above the drawing box (2), and the opening direction of the air outlet micropores (14) is inclined upwards; the air outlet micropores (14) are communicated with the strip-shaped air bags (31) through first pipelines, and first one-way valves are arranged in the first pipelines; the rear end face of the guide rail shell (1) is provided with air inlets which are uniformly distributed; the opening direction of the air inlet hole is inclined downwards; the air inlets are communicated with the strip-shaped air bags (31) through second pipelines, and second one-way valves are arranged in the second pipelines.

2. A protein monosodium glutamate according to claim 1, wherein: the rear end face of the sliding groove is fixedly connected with a fixed block at the middle position of the two reels (35); two opposite side surfaces of the reels (35) are fixedly connected with twisting belts (36) respectively, and the other end surfaces of the twisting belts (36) are fixedly connected with the fixed block.

3. A protein monosodium glutamate according to claim 2, wherein: cavities are formed in the inner parts of the twisting belts (36); air supplement holes (37) are formed in the positions, close to the end faces of the two sides, of the surface of the twisted belt (36), and the cavity can be communicated with the outside through the air supplement holes (37); the surfaces of the twisted belts (36) are provided with exhaust holes (38) which are uniformly distributed, and the cavity can be communicated with the outside through the exhaust holes (38); third one-way valves are arranged in the air supply holes (37); and fourth one-way valves are arranged in the exhaust holes (38).

4. A protein monosodium glutamate according to claim 1, wherein: the lower surfaces of the strip-shaped air bags (31) are all connected with rolling balls (39) which are uniformly distributed in a rolling way.

5. A protein monosodium glutamate according to claim 1, wherein: the front end surface of the drawing box (2) is fixedly connected with a handle (15); the handle (15) is designed into a crescent structure; the crescent concave surface of the handle (15) is fixedly connected with a manual air bag (16); the manual air bag (16) is respectively communicated with the two third sliding grooves (24) through a channel.

6. A protein monosodium glutamate according to claim 1, wherein: the lower surface of the extrusion sliding block (3) is designed into a circular arc structure, and the radius of the circular arc is equal to that of the corresponding rotating wheel (22); the lower surface of the extrusion sliding block (3) is fixedly connected with a rubber block (17).

Technical Field

The invention belongs to the technical field of seasonings, and particularly relates to protein monosodium glutamate.

Background

The monosodium glutamate is sodium glutamate, is a delicate flavor seasoning, is easy to dissolve in water, the aqueous solution of the monosodium glutamate has thick delicate flavor, and has fresher flavor when being used with salt, the monosodium glutamate can be prepared by taking protein such as wheat gluten and the like as raw materials, can also be prepared by pyroglutamic acid contained in starch or beet molasses, and can also be synthesized by a chemical method, the monosodium glutamate has the functions of alleviating alkali, acid and bitter, the sodium glutamate participates in normal metabolism of protein in a human body and promotes the oxidation process, has a certain health care function on cranial nerves and liver, the eating amount of adults can not be limited, but infants are not suitable for eating.

Disclosure of Invention

In order to make up for the deficiency of the prior art, solve monosodium glutamate delicate flavor in the prior art, only fresh and tasteless, monosodium glutamate absorbs water and becomes moist very easily at the same time, but under the kitchen environmental condition, more steam and moist environment will accelerate the water absorption and become moist of monosodium glutamate, thus has reduced the retention time of monosodium glutamate, use later stage of monosodium glutamate because absorb certain moisture, the delicate flavor effect is greatly discounted, to building site environmental condition, because the condition is comparatively harsh, often there is certain raise dust, therefore monosodium glutamate placed under this condition is apt to receive the pollution of the environment too, produce the sanitary and safe problem of diet, etc., the invention proposes a protein monosodium glutamate.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a protein monosodium glutamate, which comprises the following steps:

s1: 50-60 parts of hydrolyzed vegetable protein; 15-20 parts of sodium glutamate; 2-7 parts of sodium inosinate; 0.1-0.4 parts of hexyl maltol; 10-15 parts of sodium chloride;

s2: atomizing the hydrolyzed vegetable protein, the sodium glutamate, the sodium inosinate, the hexyl maltol and the sodium chloride in the corresponding weight parts in the S1 by using cold water, and uniformly mixing;

s3: when the water content reaches 10-15%, granulating, sieving with a 8-10 mesh sieve, drying at low temperature after granulating, and sieving to obtain a finished product when the water content is reduced to 3-4%;

s4: after S3 screening is completed, the bag is used for packaging in time, attention is paid to moisture resistance, and finally the bag is placed in a drawer box;

the drawer box used in the S4 comprises a guide rail shell, a drawing box and an extrusion sliding block; the guide rail shell is designed into a cuboid structure; the front end surface of the guide rail shell is provided with a sliding groove; a drawing box is connected in the sliding groove in a front-back sliding manner; cavities are formed in the side walls of the left side and the right side of the sliding groove; the left side surface and the right side surface of the sliding groove are respectively provided with a first sliding groove and a second sliding groove at the positions of the cavities, and the first sliding grooves are respectively positioned above the corresponding second sliding grooves; the side surfaces of the left side and the right side of the drawing box are fixedly connected with guide columns, the guide columns are connected in the corresponding second sliding grooves in a sliding mode, and the other end surfaces of the guide columns extend into the cavity; the cambered surfaces of the guide columns are rotatably connected with rotating wheels in the corresponding cavities; the cambered surfaces of the guide pillars are fixedly connected with struts in gaps on the left side and the right side between the drawing box and the guide rail shell; third sliding grooves are formed in the upper surfaces of the supporting columns; sliding rods are respectively connected in the third sliding grooves in a sliding manner; springs are fixedly connected between the sliding rods and the bottom of the third sliding groove; the sliding rods are designed to be bent by ninety degrees, the upper parts of the sliding rods are horizontally placed, and the upper parts of the sliding rods penetrate through the first sliding grooves and extend into the cavities; the sliding rods are fixedly connected with extrusion sliding blocks in the cavities; strip-shaped air bags are fixedly connected above the corresponding extrusion sliding blocks in the cavities; the rear end surfaces of the extrusion sliding blocks are fixedly connected with extrusion belts, and rubber films wrap the outer surfaces of the extrusion belts; the extrusion belt comprises a plurality of single bodies, the single bodies are hinged with each other to form a linear belt-shaped structure, and a positioning block is arranged at the hinged position; the positions of the left side surface and the right side surface of the cavity, which are close to the rear end surface of the pull box, are both rotationally connected with reels; the extrusion belts are wound on the corresponding reels; the front end surface of the guide rail shell is provided with air outlet micropores which are uniformly distributed at the position above the drawing box, and the opening direction of the air outlet micropores is inclined upwards; the air outlet micropores are communicated with the strip-shaped air bags through first pipelines, and first one-way valves are arranged in the first pipelines; the rear end face of the guide rail shell is provided with air inlets which are uniformly distributed; the opening direction of the air inlet hole is inclined downwards; the air inlets are communicated with the strip-shaped air bags through second pipelines, and second one-way valves are arranged in the second pipelines; when the monosodium glutamate extracting machine works, when monosodium glutamate needs to be taken, the pulling box is pulled out by moving forwards from the guide rail shell, and the pulling box can drive the guide pillars fixedly connected with the left side surface and the right side surface of the pulling box to slide forwards by moving forwards; the rotating wheel is driven to rotate, meanwhile, the supporting column is driven to move forwards, the supporting column further drives the sliding rod to slide forwards, and finally, the extrusion sliding block is driven to move forwards, so that the extrusion tape wound on the reel can be unfolded by the extrusion sliding block, the strip-shaped air bag is extruded, gas in the strip-shaped air bag is slowly sprayed out through the air outlet micropores, and monosodium glutamate in the drawing box can be taken out at the moment; after the monosodium glutamate is taken, the drawing box moves backwards from the guide rail shell and is pushed, the drawing box drives the extrusion sliding block to move backwards through the movement mechanism, the extruded area of the strip-shaped air bag is reduced, meanwhile, the extrusion belt is reeled again, and the air bag sucks air inwards through the air inlet hole; the extrusion belt is designed into a plurality of single bodies, the single bodies are mutually hinged to form a linear belt-shaped structure, and a positioning block is arranged at the hinged position; on one hand, the extrusion belt can only be curled inwards, is expanded outwards and limited in a linear state and is stopped, and the extrusion belt on the reel is prevented from being scattered; on the other hand, the unfolded extrusion belt is positioned at the lower part of the strip-shaped air bag and extrudes the strip-shaped air bag, so that the pressurization effect is increased, the extrusion can be gradually changed according to the pulling-out degree of the pulling box, in addition, the opening direction of the air outlet micropores is inclined upwards, air can be effectively blown upwards during outward air injection, floating dust in the air is prevented from falling into the pulling box and polluting monosodium glutamate in the pulling box, meanwhile, the micropore design of the air outlet micropores can play a role in continuously outward air blowing, the outward air injection time is prolonged, the floating dust prevention effect is greatly increased, and the arrangement of the positioning blocks on the extrusion belt effectively avoids the phenomenon that the extrusion belt is bent downwards and the extrusion effect is influenced when the air bag downwards pushes the extrusion belt, and in addition, the rubber film is wrapped on the outer surface of the extrusion belt, so that the strip-shaped; the protein monosodium glutamate and the drawer box used by the protein monosodium glutamate effectively solve the problems of monotonous delicate flavor of monosodium glutamate, freshness and tastelessness, can effectively prevent floating dust and reduce pollution of the floating dust to the monosodium glutamate under the condition of a construction site environment, and have higher practicability.

Preferably, the rear end face of the sliding chute is fixedly connected with a fixed block at the middle position of the two reels; the side surfaces of one opposite sides of the two reels are fixedly connected with twisting belts respectively, and the other end surfaces of the twisting belts are fixedly connected with the fixed blocks; the during operation, when the pull box pulled out from the forward motion in the guide rail shell, the extruded ribbon can drive the reel and rotate, the reel and then drive the twisted tape and twist reverse, when the operator outwards stimulates the pull box too big, the twisted tape can effectively prevent the reel to continue to rotate through torsion, and then resistance reinforcing when the operator continues outwards to stimulate the pull box, effectively reduce the harm of the great pull of operator's hard to the drawer box, the life of pull box has been improved, simultaneously when the operator pushes the pull box into the guide rail shell, the torsion of twisted tape can improve the effect of coiling of extruded ribbon on the reel on the one hand, it is inseparabler to coil promptly, practice thrift the usage space of reel, on the other hand the torsion of twisted tape can play and drive reel pivoted effect, reduce operator's propelling force.

Preferably, cavities are formed in the twisted belts; the positions of the surface of the twisted belt, which are close to the end surfaces of the two sides, are provided with air replenishing holes, and the air replenishing holes can communicate the cavity with the outside; the surfaces of the twisted belts are provided with exhaust holes which are uniformly distributed, and the cavity can be communicated with the outside through the exhaust holes; third one-way valves are arranged in the air replenishing holes; fourth one-way valves are arranged in the exhaust holes; during operation, when the reel drives the twisting belt to twist reverse, the gas in the cavity receives the compression because the twisting belt curls to gas in the cavity can be through the exhaust hole blowout, and the spun gas can effectually air-dry the clearance between guide rail shell and the pull box, avoids clearance space between guide rail shell and the pull box comparatively conceals, long-term moist phenomenon, and then the effectual environment of placing that improves monosodium glutamate, has avoided the influence of moist hidden clearance to the monosodium glutamate in the pull box.

Preferably, the lower surfaces of the strip-shaped air bags are connected with rolling balls which are uniformly distributed in a rolling manner; the during operation, when drawer box live time is longer, the pull number of times is more around the pull box relapse, and the long-term strip gasbag that leads to easily to damage even rupture with strip gasbag extrusion friction of extruded band and extrusion slider, consequently through the roll ball that evenly arranges at strip gasbag lower surface roll connection, reduces the friction to the strip gasbag, the effectual life who improves the strip gasbag, and then increase drawer box's effective life.

Preferably, the front end face of the drawing box is fixedly connected with a handle; the handle is designed to be in a crescent structure; the crescent concave surface of the handle is fixedly connected with a manual air bag; the manual air bag is respectively communicated with the two third sliding grooves through a channel; when the automatic pulling device works, when the pulling box is in a pulling-out state, collision to the pulling box can occur inevitably, and when the air spraying time of the air bag is long, the limiting effect of the air bag on the pulling box is weakened, at the moment, the pulling box can be automatically pulled back due to the torsion of the torsion band, so that impact is generated, if the air bag is not limited, the internal structure can be damaged due to the long-term pulling-back collision of the pulling box, the sliding rod can be pulled downwards by the spring in an initial state, so that the extrusion sliding block is attached to the rotating wheel at the bottom, and the rotating wheel cannot rotate at the moment, so that the friction force of front and back movement can be effectively increased, and the pulling box is prevented; through set up manual gasbag in the hand (hold), when operator pulling pull box, can produce the extrusion to manual gasbag, gas in the manual gasbag can get into the third sliding tray through the passageway for slide bar and extrusion slider jack-up upwards, the operator pull of can being convenient for.

Preferably, the lower surface of the extrusion sliding block is designed into a circular arc structure, and the radius of the circular arc is equal to that of the corresponding rotating wheel; the lower surfaces of the extrusion sliding blocks are fixedly connected with rubber blocks; the during operation, when extrusion slider and the long-term repeated laminating of rotation wheel, can produce the friction, consequently through the lower surface design with extrusion slider for convex structure, the effectual area of contact who increases extrusion slider and rotation wheel, the friction effect has been increased, limiting displacement improves, and link firmly the block rubber at the lower surface of extrusion slider, avoided the hard wearing and tearing of rotating disc, reduce inside motion's life, and rubber can play fine cushioning effect, further effectively protect motion, the coefficient of friction increases simultaneously, the positioning effect has been improved.

The invention has the following beneficial effects:

1. the protein monosodium glutamate is characterized in that a guide rail shell, a drawing box and an extrusion sliding block are arranged; slide in the guide rail shell through the pull box, and then drive the operation of inside motion for the extrusion slider slides, extrudees inside strip gasbag, and the last preceding terminal surface slope of following the guide rail shell is gaseous upwards slowly spouting, under the building site environmental condition, can effectual reduction float dirt to the pollution of monosodium glutamate, the practicality is higher.

2. According to the protein monosodium glutamate, the twisting belt, the reel and the extruding belt are arranged, the reel is driven to rotate by the forward and backward pulling of the extruding belt, the twisting belt is driven to twist, the gas in the twisting belt is sprayed out, the sprayed gas can effectively air-dry the gap between the guide rail shell and the drawing box, the phenomenon that the gap space between the guide rail shell and the drawing box is hidden and is wet for a long time is avoided, the storage environment of monosodium glutamate is effectively improved, the influence of the wet hidden gap on monosodium glutamate in the drawing box is avoided, and the storage time of monosodium glutamate is greatly prolonged.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a process flow diagram of the present invention;

fig. 2 is a perspective view of a drawer box used in the present invention;

fig. 3 is a front view of a drawer box used in the present invention;

fig. 4 is a sectional view of a drawer box used in the present invention;

fig. 5 is a side view of a drawer box used in the present invention;

fig. 6 is a cross-sectional view of a strap of a drawer box used in the present invention;

fig. 7 is a perspective view of a pressing band of a drawer box used in the present invention;

in the figure: the device comprises a guide rail shell 1, a cavity 11, a first sliding groove 12, a second sliding groove 13, an air outlet micropore 14, a handle 15, a manual air bag 16, a rubber block 17, a drawing box 2, a guide pillar 21, a rotating wheel 22, a support pillar 23, a third sliding groove 24, a sliding rod 25, a spring 26, an extrusion sliding block 3, a strip-shaped air bag 31, an extrusion belt 32, a rubber film 33, a positioning block 34, a reel 35, a twisting belt 36, an air supplement hole 37, an air exhaust hole 38 and a rolling ball 39.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 7, the method for producing monosodium glutamate comprises the following steps:

s1: 50-60 parts of hydrolyzed vegetable protein; 15-20 parts of sodium glutamate; 2-7 parts of sodium inosinate; 0.1-0.4 parts of hexyl maltol; 10-15 parts of sodium chloride;

s2: atomizing the hydrolyzed vegetable protein, the sodium glutamate, the sodium inosinate, the hexyl maltol and the sodium chloride in the corresponding weight parts in the S1 by using cold water, and uniformly mixing;

s3: when the water content reaches 10-15%, granulating, sieving with a 8-10 mesh sieve, drying at low temperature after granulating, and sieving to obtain a finished product when the water content is reduced to 3-4%;

s4: after S3 screening is completed, the bag is used for packaging in time, attention is paid to moisture resistance, and finally the bag is placed in a drawer box;

the drawer box used in the S4 comprises a guide rail shell 1, a drawing box 2 and an extrusion slide block 3; the guide rail shell 1 is designed to be of a cuboid structure; the front end face of the guide rail shell 1 is provided with a sliding groove; a drawing box 2 is connected in the sliding groove in a front-back sliding manner; cavities 11 are formed in the side walls of the left side and the right side of the sliding groove; the left side surface and the right side surface of the sliding chute are provided with a first sliding chute 12 and a second sliding chute 13 at the position of the cavity 11, and the first sliding chute 12 is positioned above the corresponding second sliding chute 13; the left side surface and the right side surface of the drawing box 2 are fixedly connected with guide columns 21, the guide columns 21 are connected in the corresponding second sliding grooves 13 in a sliding mode, and the other end surfaces of the guide columns 21 extend into the cavity 11; the cambered surfaces of the guide columns 21 are rotatably connected with rotating wheels 22 in the corresponding cavities 11; the cambered surfaces of the guide pillars 21 are fixedly connected with struts 23 in gaps on the left side and the right side between the drawing box 2 and the guide rail shell 1; third sliding grooves 24 are formed in the upper surfaces of the supporting columns 23; the third sliding grooves 24 are respectively connected with sliding rods 25 in a sliding manner; springs 26 are fixedly connected between the sliding rods 25 and the bottom of the third sliding groove 24; the sliding rods 25 are designed to be bent at ninety degrees, the upper parts of the sliding rods 25 are all horizontally placed, and the upper parts of the sliding rods 25 penetrate through the first sliding grooves 12 and extend into the cavity 11; the sliding rods 25 are fixedly connected with extrusion sliding blocks 3 in the cavities 11; strip-shaped air bags 31 are fixedly connected above the corresponding extrusion sliding blocks 3 in the cavities 11; the rear end surfaces of the extrusion sliding blocks 3 are fixedly connected with extrusion belts 32, and the outer surfaces of the extrusion belts 32 are wrapped with rubber films 33; the extrusion belt 32 comprises a plurality of single bodies, the single bodies are hinged to each other to form a linear belt-shaped structure, and a positioning block 34 is arranged at the hinged position; the positions of the left side surface and the right side surface of the cavity 11, which are close to the rear end surface of the pull box 2, are both rotationally connected with reels 35; the extrusion belts 32 are all wound on corresponding reels 35; the front end surface of the guide rail shell 1 is provided with air outlet micropores 14 which are uniformly distributed above the drawing box 2, and the opening direction of the air outlet micropores 14 is inclined upwards; the air outlet micropores 14 are communicated with the strip-shaped air bags 31 through first pipelines, and first one-way valves are arranged in the first pipelines; the rear end face of the guide rail shell 1 is provided with air inlets which are uniformly distributed; the opening direction of the air inlet hole is inclined downwards; the air inlets are communicated with the strip-shaped air bags 31 through second pipelines, and second one-way valves are arranged in the second pipelines; when the monosodium glutamate mixer works, when monosodium glutamate needs to be taken, the pulling box 2 is pulled out from the guide rail shell 1 in a forward motion mode, and the pulling box 2 in the forward motion mode can drive the guide pillars 21 fixedly connected with the left side surface and the right side surface of the pulling box to slide forwards; the rotating wheel 22 is driven to rotate, meanwhile, the supporting column 23 is driven to move forwards, the supporting column 23 further drives the sliding rod 25 to slide forwards, finally, the extrusion sliding block 3 is driven to move forwards, the extrusion sliding block 3 can enable the extrusion belt 32 wound on the reel 35 to expand, and then the strip-shaped air bag 31 is extruded, so that the gas in the strip-shaped air bag 31 is slowly sprayed out through the air outlet micropores 14, and at the moment, the monosodium glutamate in the drawing box 2 can be taken out; after the monosodium glutamate is taken, the drawing box 2 moves backwards from the guide rail shell 1 and is pushed, the drawing box 2 drives the extrusion sliding block 3 to move backwards through the movement mechanism, the extrusion area of the strip-shaped air bag 31 is reduced, meanwhile, the extrusion belt 32 is reeled on the reel 35 again, and the air bag sucks air inwards through the air inlet at the moment; the extrusion belt 32 is designed into a plurality of single bodies, the single bodies are hinged with each other to form a linear belt-shaped structure, and a positioning block 34 is arranged at the hinged position; on one hand, the extrusion belt 32 can only be curled inwards, and the outward expansion is limited to be stopped in a linear state, so that the extrusion belt 32 on the reel 35 is prevented from being scattered; on the other hand, the expanded extrusion belt 32 is positioned at the lower part of the strip-shaped air bag 31 and extrudes the strip-shaped air bag 31, thereby increasing the pressurization effect, the extrusion can be changed gradually according to the pulling-out degree of the pulling box 2, in addition, the opening direction of the air outlet micropores 14 is inclined upwards, air can be effectively blown upwards when air is sprayed outwards, floating dust in the air is prevented from falling into the pulling box 2 to pollute monosodium glutamate in the pulling box 2, meanwhile, the micropore design of the air outlet micropores 14 can play a role of continuously blowing air outwards, the time of blowing air outwards is increased, the floating dust prevention effect is greatly increased, and the positioning block 34 arranged on the extrusion belt 32 effectively prevents the air bag from pressing the extrusion belt 32 downwards, the extrusion belt 32 is bent downwards to influence the extrusion effect, and in addition, the rubber film 33 is wrapped on the outer surface of the extrusion belt 32, so that the strip-shaped air bag 31 can be prevented from being scratched or broken by the hinge structure of the extrusion belt 32; the protein monosodium glutamate and the drawer box used by the protein monosodium glutamate effectively solve the problems of monotonous delicate flavor of monosodium glutamate, freshness and tastelessness, can effectively prevent floating dust and reduce pollution of the floating dust to the monosodium glutamate under the condition of a construction site environment, and have higher practicability.

As an embodiment of the present invention, the rear end face of the chute is fixedly connected with a fixed block at the middle position of the two reels 35; the side surfaces of the opposite sides of the two reels 35 are fixedly connected with twisting belts 36 respectively, and the other end surfaces of the twisting belts 36 are fixedly connected with fixing blocks; the during operation, when the pull box 2 pulls out from the forward motion in the guide rail shell 1, the extruded ribbon 32 can drive the reel 35 and rotate, the reel 35 and then drive the twisted ribbon 36 and twist reverse, when the operator outwards stimulates pull box 2 too big, twisted ribbon 36 can effectively prevent reel 35 to continue to rotate through torsion, and then resistance reinforcing when the operator continues outwards to stimulate pull box 2, effectively reduce the harm of the great pull of operator's hard to the drawer box, the life of pull box 2 has been improved, simultaneously when the operator pushes pull box 2 into guide rail shell 1, the torsion of twisted ribbon 36 can improve the effect of coiling of extruded ribbon 32 on reel 35 on the one hand, it is inseparabler to coil promptly, practice thrift the usage space of reel 35, on the other hand the torsion of twisted ribbon 36 can play and drive reel 35 pivoted effect, reduce operator's propelling movement.

As an embodiment of the present invention, the interior of each of the twisted bands 36 is provided with a cavity; the positions of the surface of the twisted belt 36, which are close to the end faces of the two sides, are provided with air replenishing holes 37, and the air replenishing holes 37 can communicate the cavity with the outside; the surface of the twisted belt 36 is provided with vent holes 38 which are uniformly arranged, and the vent holes 38 can communicate the cavity with the outside; third one-way valves are arranged in the air supply holes 37; a fourth one-way valve is arranged in each exhaust hole 38; during operation, when the reel 35 drives the twisted belt 36 and twists reverse, gaseous in the cavity receives the compression because twisted belt 36 curls, thereby gaseous in the cavity can be through exhaust hole 38 blowout, the spun is gaseous can effectually air-dry to the clearance between guide rail shell 1 and the pull box 2, avoid the clearance space between guide rail shell 1 and the pull box 2 comparatively conceals, long-term moist phenomenon, and then the effectual environment of placing of monosodium glutamate that has improved, the influence of moist hidden clearance to the monosodium glutamate in the pull box 2 has been avoided.

As an embodiment of the present invention, the lower surfaces of the strip-shaped airbags 31 are all connected with rolling balls 39 which are uniformly arranged; the during operation, when drawer box live time is longer, the pull number of times is more around drawing box 2 relapse, and the long-term strip gasbag 31 that leads to is impaired even breaks with strip gasbag 31 extrusion friction easily in extruded area 32 and extrusion slider 3, consequently through the roll ball 39 who evenly arranges at strip gasbag 31 lower surface rolling connection, reduces the friction to strip gasbag 31, the effectual life who improves strip gasbag 31, and then increase drawer box's effective life.

As an embodiment of the invention, the front end face of the drawing box 2 is fixedly connected with a handle 15; the handle 15 is designed to be in a crescent structure; the crescent concave surface of the handle 15 is fixedly connected with a manual air bag 16; the manual air bag 16 is respectively communicated with the two third sliding grooves 24 through a channel; when the automatic drawing device works, when the drawing box 2 is in a drawing state, collision to the drawing box 2 is inevitable, and when the air spraying time of an air bag is long, the limiting effect of the air bag on the drawing box 2 is weakened, at the moment, the drawing box 2 is automatically drawn back due to the torsion of the torsion belt 36, so that impact is generated, if the limitation is not performed, the internal structure is damaged due to the long-term drawing collision of the drawing box 2, in an initial state, the sliding rod 25 can be pulled downwards by the spring 26, so that the extrusion sliding block 3 is attached to the rotating wheel 22 at the bottom, and at the moment, the rotating wheel 22 cannot rotate, so that the friction force of front and back movement can be effectively increased, and the drawing box 2 is prevented from being quickly drawn back; through set up manual gasbag 16 in hand (hold) 15, when the operator pulls the pull box 2, can produce the extrusion to manual gasbag 16, the gas in the manual gasbag 16 can get into in the third sliding tray 24 through the passageway for slide bar 25 and extrusion slider 3 jack-up upwards, can be convenient for the operator pull.

As an embodiment of the present invention, the lower surface of the extrusion sliding block 3 is designed to be circular arc-shaped, and the radius of the circular arc is equal to the radius of the corresponding rotating wheel 22; the lower surfaces of the extrusion sliding blocks 3 are fixedly connected with rubber blocks 17; the during operation, when extrusion slider 3 and rotating wheel 22 are repeatedly laminated for a long time, can produce the friction, consequently, through the lower surface design with extrusion slider 3 for convex structure, the effectual area of contact who increases extrusion slider 3 and rotating wheel 22, the friction effect has been increased, limiting displacement improves, and link firmly rubber block 17 at the lower surface of extrusion slider 3, avoided rotating disc hard wearing and tearing, reduce inside motion's life, and rubber can play fine cushioning effect, further effectively protect motion, the coefficient of friction increases simultaneously, the positioning effect has been improved.

The specific working process is as follows:

when the monosodium glutamate mixer works, when monosodium glutamate needs to be taken, the pulling box 2 is pulled out from the guide rail shell 1 in a forward motion mode, and the pulling box 2 in the forward motion mode can drive the guide pillars 21 fixedly connected with the left side surface and the right side surface of the pulling box to slide forwards; the rotating wheel 22 is driven to rotate, meanwhile, the supporting column 23 is driven to move forwards, the supporting column 23 further drives the sliding rod 25 to slide forwards, finally, the extrusion sliding block 3 is driven to move forwards, the extrusion sliding block 3 can enable the extrusion belt 32 wound on the reel 35 to expand, and then the strip-shaped air bag 31 is extruded, so that the gas in the strip-shaped air bag 31 is slowly sprayed out through the air outlet micropores 14, and at the moment, the monosodium glutamate in the drawing box 2 can be taken out; after the monosodium glutamate is taken, the drawing box 2 moves backwards from the guide rail shell 1 and is pushed, the drawing box 2 drives the extrusion sliding block 3 to move backwards through the movement mechanism, the extrusion area of the strip-shaped air bag 31 is reduced, meanwhile, the extrusion belt 32 is reeled on the reel 35 again, and the air bag sucks air inwards through the air inlet at the moment; when the drawing box 2 moves forwards and is pulled out from the guide rail shell 1, the extruding belt 32 can drive the reel 35 to rotate, the reel 35 further drives the twisting belt 36 to twist, when an operator pulls the drawing box 2 outwards, the twisting belt 36 can effectively prevent the reel 35 from continuing to rotate through torsion, so that the resistance of the operator when the operator continues to pull the drawing box 2 outwards is enhanced, and meanwhile, when the operator pushes the drawing box 2 into the guide rail shell 1, the torsion of the twisting belt 36 can improve the coiling effect of the extruding belt 32 on the reel 35 on one hand, namely, the coiling is tighter; when the reel 35 drives the twisting belt 36 to twist, the air in the cavity is compressed due to the twisting belt 36 curling, so that the air in the cavity can be ejected out through the exhaust holes 38, and the ejected air can effectively dry the gap between the guide rail shell 1 and the pull box 2; when the drawing box 2 is in a drawing state, collision to the drawing box 2 inevitably occurs, and when the air ejection time of the air bag is long, the limiting effect of the air bag on the drawing box 2 is weakened, at the moment, the drawing box 2 is automatically drawn back due to the torsion of the torsion band 36, so that impact is generated, if the limitation is not applied, the internal structure is damaged due to the long-term drawing back collision of the drawing box 2, in an initial state, the sliding rod 25 can be pulled downwards by the spring 26, so that the extrusion sliding block 3 is attached to the rotating wheel 22 at the bottom, and at the moment, the rotating wheel 22 cannot rotate, so that the friction force of front and back movement can be effectively increased, and the drawing box 2 is prevented from being quickly drawn back; through set up manual gasbag 16 in hand (hold) 15, when the operator pulls the pull box 2, can produce the extrusion to manual gasbag 16, the gas in the manual gasbag 16 can get into in the third sliding tray 24 through the passageway for slide bar 25 and extrusion slider 3 jack-up upwards, can be convenient for the operator pull.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.