CN106742373A - A kind of automatic charging packaging facilities and its method of work based on the exploitation of feature gingko milk beverage - Google Patents

Abstract

The invention discloses a kind of automatic charging packaging facilities based on the exploitation of feature gingko milk beverage and its method of work, it is made up of rear road conveyer, sealing station, feed mechanism, preceding road conveyer belt, preceding road motor, supporting steel frame, electrical control cabinet；The supporting steel frame material is channel-section steel, and supporting steel frame top side is disposed with rear road conveyer, and opposite side is disposed with feed mechanism and preceding road conveyer belt；The preceding road motor is located at preceding road conveyer belt one end；The sealing station is located at rear road conveyer center rear side；The electrical control cabinet is located at supporting steel frame bottom, and electrical control cabinet is threadedly coupled with supporting steel frame；A kind of automatic charging packaging facilities based on the exploitation of feature gingko milk beverage of the present invention, the device utilizes automatic charging, and material is delivered into specified location encapsulation sizing automatically, greatly reduces the labour intensity of workman；The plant automation degree is high, energy-saving material-saving, substantially increases encapsulation sizing quality.

Description

A kind of automatic charging packaging facilities and its work based on the exploitation of feature gingko milk beverage Make method

Technical field

The invention belongs to food apparatus field, and in particular to a kind of automatic charging based on the exploitation of feature gingko milk beverage Packaging facilities and its method of work.

Background technology

At present, in beverage packaging machine technical field, for reduces cost, automation encapsulation shaping technology, control are carried out Various parameters in encapsulation type-approval process, realize encapsulation shaping process automation, can reduce labor intensity, improve work bar Part, but in encapsulation sizing feeding or mostly using artificial clamping, human resources are so wasted, lose time, reduce Production efficiency, and in type-approval process is encapsulated, it is easy to the person is damaged, is unfavorable for safety in production, thus it is current Encapsulation setting process is still very high to the dependence of personnel, it is impossible to the problems such as really solving under low production efficiency.

The content of the invention

In order to solve the above-mentioned technical problem, the present invention provides a kind of automatic charging based on the exploitation of feature gingko milk beverage Packaging facilities, including：Road conveyer 1, sealing station 2, feed mechanism 3, preceding road conveyer belt 4, preceding road motor 5, support afterwards Steelframe 6, electrical control cabinet 7；The material of the supporting steel frame 6 is channel-section steel, and the top side of supporting steel frame 6 is disposed with rear road conveyer 1, opposite side is disposed with feed mechanism 3 and preceding road conveyer belt 4, wherein preceding road conveyer belt 4 is straight in same with rear road conveyer 1 On line；The preceding road motor 5 is located at preceding one end of road conveyer belt 4, preceding road motor 5 and the preceding drive connection of road conveyer belt 4； The sealing station 2 is located at the rear center of road conveyer 1 rear side, and rear road conveyer 1 is fixedly connected with supporting steel frame 6；The electricity Gas switch board 7 is located at the bottom of supporting steel frame 6, and electrical control cabinet 7 is threadedly coupled with supporting steel frame 6；The preceding road motor 5 leads to Wire is crossed to be connected with the control of electrical control cabinet 7.

Further, the rear road conveyer 1 includes：Road motor 1-1, reduction box 1-2, Material Sensor 1- afterwards 3, rear road conveyer belt 1-4, charging sensor 1-5, length measuring device 1-6, exit sensors 1-7, supporting plate 1-8；The rear road is passed Band 1-4 is sent to be respectively arranged at two ends with Material Sensor 1-3 and exit sensors 1-7, wherein being provided with positioned at Material Sensor 1-3 one end Reduction box 1-2, reduction box 1-2 lower end are provided with rear road motor 1-1, and rear road motor 1-1 is by belt and reduction box 1-2 Drive connection；The supporting plate 1-8 is located between rear road conveyer belt 1-4 levels, and supporting plate 1-8 is solid with the welding of supporting steel frame 6 It is fixed；The charging sensor 1-5 be located between Material Sensor 1-3 and exit sensors 1-7, exit sensors 1-7 with support Plate 1-8 is fixedly connected；The length measuring device 1-6 is located between charging sensor 1-5 and exit sensors 1-7, length measuring device 1-6 It is fixedly connected with supporting steel frame 6；

The rear road motor 1-1, Material Sensor 1-3, charging sensor 1-5 and exit sensors 1-7 pass through wire It is connected with the control of electrical control cabinet 7.

Further, the length measuring device 1-6 includes：Horizontal displacement sensors 1-6-1, horizontal driver 1-6-2, vertically Slideway 1-6-3, horizontal slide 1-6-4, vertical driver 1-6-5, spacing elastic rod 1-6-6, scale sensor 1-6-7；The water Flat driver 1-6-2 one end is provided with horizontal displacement sensors 1-6-1, and the other end is provided with horizontal slide 1-6-4, wherein horizontal slide Vertical slideway 1-6-3 is disposed with 1-6-4, vertical slideway 1-6-3 is slidably connected with horizontal slide 1-6-4；The vertical slideway 1-6-3 is provided with vertical driver 1-6-5；The vertical driver 1-6-5 tops are provided with spacing elastic rod 1-6-6 and scale sensing Device 1-6-7, wherein scale sensor 1-6-7 quantity are 1, and spacing elastic rod 1-6-6 quantity is 4, scale sensor 1-6-7 Between spacing elastic rod 1-6-6；

The horizontal displacement sensors 1-6-1, horizontal driver 1-6-2, vertical driver 1-6-5 and scale sensor 1-6-7 Control to be connected by wire and electrical control cabinet 7 respectively.

Further, the sealing station 2 includes：Lifting motor 2-1, slideway 2-2, plummer 2-3, column 2-4, spacing biography Sensor 2-5, thermoplastic qualitative device 2-6, auxiliary clamp 2-7；The limit sensors 2-5 is located at column 2-4 bottoms, limit sensors 2-5 is screwed with column 2-4；The column 2-4 tops are provided with lifting motor 2-1, and lifting motor 2-1 is fixed with column 2-4 Connection；The lifting motor 2-1 output shaft ends both sides are disposed with slideway 2-2, and slideway 2-2 is threadedly coupled with column 2-4；The cunning Road 2-2 is provided with plummer 2-3, and plummer 2-3 is slidably connected with slideway 2-2；The qualitative device 2-6 of thermoplastic is located at plummer 2- 3 lower sections, plummer 2-3 device 2-6s qualitative with thermoplastic is screwed；The auxiliary clamp 2-7 is located at column 2-4 sides, wherein auxiliary Fixture 2-7 is helped to be synchronized with the movement with plummer 2-3；

The lifting motor 2-1, limit sensors 2-5 and the qualitative device 2-6 of thermoplastic control phase by wire with electrical control cabinet 7 Even.

Further, the spacing elastic rod 1-6-6 is molded by macromolecular material pressing mold, the composition of spacing elastic rod 1-6-6 into Divide and manufacturing process is as follows：

First, spacing elastic rod 1-6-6 constituents：

Count by weight, 4- (6- bromopyridine -3- bases) 157~195 parts of methyl benzoate, 4- (2- amino-ethyls) -2,6- bis- 250~313 parts of methylphenol hydrochloride, 1- (6- amino -3,3- dimethyl indole -1- bases) -2- (dimethylamino) ethyl ketone 60 ~152 parts, 4- [4- [(phenyloxycarbonyl) amino] phenyl] -1- piperazine carboxylic acids 1,116~290 parts of 1- dimethylethyl esters, 1- (uncles Butoxy carbonyl) 151~213 parts of indol-3-yl carbamic acid Bian ester, 5,6- dihydro -4- (2- (hydroxymethyl) -4- nitrobenzene Base) pyridine -1 (2H) -134~184 parts of carboxylic acid tert-butyl ester, concentration is the 1- methyl -4- isopropenyl hexamethylenes of 34ppm~87ppm 71~145 parts of base -3- acetic acid esters, 4- (4- amino -1- cyclohexenyl groups) 51~125 parts of isoquinolin -1 (2H) -one, 5- [[(1,1- Dimethylethyloxy) carbonyl] amino] -165~224 parts of 1,3- piperidines dicarboxylic acids 3- methyl 1- (phenyl methyl) ester, crosslinking agent 124~199 parts, 2- acetyl group -3,82~155 parts of 3- dimethyl butyrates acetoacetic ester, 4- (the chloro- 2- pyrazines of 3-) tetrahydrochysene -2H- pyrans - 106~145 parts of 4- carboxylate methyl esters, 108~212 parts of 2- (4- aminophenyls) -2- methyl propanamides；

The crosslinking agent is 2- cyano group -4,4- dimethyl -2- methyl valerates, 2- (cyclobutylmethyl)-ethyl 3-oxobutanoate, 4- Any one in (4- oxo -1- cyclohexenyl groups) methyl benzoate；

2nd, the manufacturing process of spacing elastic rod 1-6-6, comprises the steps of：

1st step：2650~3360 parts of ultra-pure water for adding electrical conductivity to be 2.32 μ S/cm~6.56 μ S/cm in a kettle., starts Agitator in reactor, rotating speed is 67rpm~96rpm, starts heat pump, reactor temperature is risen to 89 DEG C~110 DEG C； Sequentially add 4- (6- bromopyridine -3- bases) methyl benzoate, 4- (2- amino-ethyls) -2,6- xylenols hydrochloride, 1- (6- Amino -3,3- dimethyl indole -1- bases) -2- (dimethylamino) ethyl ketone, stirring to being completely dissolved, regulation pH value is 4.4~ 8.6, agitator speed is adjusted to 125rpm~191rpm, temperature is 134 DEG C~168 DEG C, esterification 10~22 hours；

2nd step：Take 4- [4- [(phenyloxycarbonyl) amino] phenyl] -1- piperazine carboxylic acid 1,1- dimethylethyl esters, 1- (tert-butoxies Carbonyl) indol-3-yl carbamic acid Bian ester crushed, and powder diameter is 850~1350 mesh；Add 5,6- dihydro -4- (2- (hydroxymethyl) -4- nitrobenzophenones) pyridine -1 (2H)-carboxylic acid tert-butyl ester be well mixed, be laid in pallet, tiling thickness be 16mm~30mm, uses dosage for 7.3kGy~12.5kGy, energy for the alpha ray of 5.8MeV~8.3MeV irradiates 80~160 points Clock, and Isodose β x ray irradiation xs 80~160 minutes；

3rd step：The mixed-powder processed through the 2nd step is dissolved in 1- methyl -4- isopropenyl cyclohexyl -3- acetic acid esters, is added anti- Kettle is answered, agitator speed is 110rpm~152rpm, and temperature is 119 DEG C~173 DEG C, and starting vavuum pump makes the vacuum of reactor - 0.52MPa~3.85MPa is reached, this state response is kept 25~38 hours；Pressure release is simultaneously passed through radon gas, makes reacting kettle inner pressure It is 0.78MPa~1.15MPa, insulation stands 14~28 hours；Agitator speed is promoted to 160rpm~253rpm, simultaneous reactions Kettle pressure release is to 0MPa；Sequentially add 4- (4- amino -1- cyclohexenyl groups) isoquinolin -1 (2H) -one, 5- [[(1,1- dimethylethoxies Base) carbonyl] amino] after -1,3- piperidines dicarboxylic acids 3- methyl 1- (phenyl methyl) ester is completely dissolved, add crosslinking agent stirring mixed Close so that the hydrophilic lipophilic balance of reactor solution is 5.9~7.9, and insulation stands 12~22 hours；

4th step：When agitator speed is 192rpm~262rpm, 2- acetyl group -3 are sequentially added, 3- dimethyl butyrates acetoacetic ester, 4- (the chloro- 2- pyrazines of 3-) tetrahydrochysene -2H- pyrans -4- carboxylate methyl esters and 2- (4- aminophenyls) -2- methyl propanamides, lifting reaction Kettle pressure, reaches 1.15MPa~2.13MPa, and temperature is 154 DEG C~226 DEG C, polymerisation 17~35 hours；React Reacting kettle inner pressure is down to 0MPa after, 21 DEG C~30 DEG C are cooled to, discharging enters molding press and can be prepared by spacing elastic rod 1-6- 6。

Further, the invention also discloses a kind of automatic charging packaging facilities based on the exploitation of feature gingko milk beverage Method of work, the method include following steps：

1st step：Startup power supply, staff stacks to feed mechanism 3 material, and feed mechanism 3 is now started working, same with this Shi Qiandao motors 5 start, and drive preceding road conveyer belt 4 to rotate, and start to transport material；It is road transmission after will move in material During device 1, whether the Material Sensor 1-3 real-time detections being now placed on rear road conveyer 1 whether there is material passes through；Work as material During the scope detected by Material Sensor 1-3, Material Sensor 1-3 produces electric signal, is transferred to electrical control cabinet 7, electrically Road motor 1-1 starts after switch board 7 is controlled, rear road motor 1-1 conveyer belt 1-4 in road after reduction box 1-2 drives Rotate, promote material to move on；

2nd step：During material advance, charging sensor 1-5 and scale sensor on rear road conveyer 1 are now placed in Whether 1-6-7 real-time detections whether there is material passes through；When material is by charging sensor 1-5 and scale sensor 1-6-7 detections During scope, charging sensor 1-5 and scale sensor 1-6-7 produces electric signal, is transferred to electrical control cabinet 7, electrical control cabinet 7 Road motor 1-1 and preceding road motor 5 are closed after control, while controlling the Promotion From Within motor 2-1 of sealing station 2 to start, are carried Lifting motor 2-1 drives the qualitative device 2-6 of thermoplastic to move to setting position, and at the same time auxiliary clamp 2-7 is with the qualitative device 2-6 of thermoplastic It is synchronized with the movement and compresses material, now the qualitative device 2-6 of thermoplastic starts heat-sealing；

3rd step：After the completion of the qualitative device 2-6 encapsulation sizing of thermoplastic, the qualitative device 2-6 of thermoplastic produces electric signal, is transferred to electric-controlled Cabinet processed 7, the lifting motor 2-1 of electrical control cabinet 7 and vertical driver 1-6-5 start, and drive the qualitative device 2-6 of thermoplastic, auxiliary clamp 2-7 and spacing elastic rod 1-6-6 are lifted, while motor 1-1 in road starts after control, conveyer belt 1-4 in road is rotated after drive, with this While exit sensors 1-7 real-time monitoring materials, when exit sensors 1-7 detects material, exit sensors 1-7 produces electricity Signal, transmits to electrical control cabinet 7, and electrical control cabinet 7 controls preceding road motor 5 to start, and preceding road motor 5 drives preceding road Conveyer belt 4 transports material, now completes once to encapsulate styling cycles.

A kind of automatic charging packaging facilities based on the exploitation of feature gingko milk beverage disclosed by the invention, its advantage exists In：

(1) device encapsulation sizing efficiency high, substantially increases operating efficiency；

(2) the plant automation degree is high, working stability, and encapsulation sizing quality is high, effectively prevents artificial in encapsulation type-approval process With the influence of outside air；

(3) installation area is small, low cost, material-saving and electric energy；

(4) device is provided with automatic charging feed device, improves working condition, reduces labour intensity.

A kind of automatic charging packaging facilities based on the exploitation of feature gingko milk beverage of the present invention, the device is utilized Automatic charging, delivers to specified location encapsulation sizing by material automatically, greatly reduces the labour intensity of workman, effectively prevent envelope Set the interference of human factor during type；The plant automation degree is high, and system run all right is efficient, energy-saving material-saving, significantly Improve encapsulation sizing quality and operating efficiency.

Brief description of the drawings

Fig. 1 is a kind of heretofore described automatic charging packaging facilities structure based on the exploitation of feature gingko milk beverage Schematic diagram.

Fig. 2 is heretofore described rear road conveyer structural representation.

Fig. 3 is heretofore described length measuring device structural representation.

Fig. 4 is heretofore described sealing station structural representation.

Fig. 5 is that heretofore described spacing elastic rod fatigue strength changes over time figure.

In figure 1 above~Fig. 4, rear road conveyer 1, rear road motor 1-1, reduction box 1-2, Material Sensor 1-3, Road conveyer belt 1-4, charging sensor 1-5, length measuring device 1-6, horizontal displacement sensors 1-6-1, horizontal driver 1-6-2 afterwards, Vertical slideway 1-6-3, horizontal slide 1-6-4, vertical driver 1-6-5, spacing elastic rod 1-6-6, scale sensor 1-6-7, go out Material sensor 1-7, supporting plate 1-8, sealing station 2, lifting motor 2-1, slideway 2-2, plummer 2-3, column 2-4, spacing sensing Device 2-5, thermoplastic qualitative device 2-6, auxiliary clamp 2-7, feed mechanism 3, preceding road conveyer belt 4, preceding road motor 5, supporting steel frame 6, electrical control cabinet 7.

Specific embodiment

The present invention is provided with reference to the accompanying drawings and examples is a kind of based on the automatic of feature gingko milk beverage exploitation Feeding packaging facilities is further described.

As shown in figure 1, being a kind of heretofore described automatic charging packaging based on the exploitation of feature gingko milk beverage Device structure schematic diagram.It is seen in fig. 1, that including：Road conveyer 1 afterwards, sealing station 2, feed mechanism 3, preceding road conveyer belt 4, Preceding road motor 5, supporting steel frame 6, electrical control cabinet 7；The material of the supporting steel frame 6 is channel-section steel, the top side of supporting steel frame 6 Rear road conveyer 1 is disposed with, opposite side is disposed with feed mechanism 3 and preceding road conveyer belt 4, wherein preceding road conveyer belt 4 and rear road Conveyer 1 is on same straight line；The preceding road motor 5 be located at preceding one end of road conveyer belt 4, preceding road motor 5 with The preceding drive connection of road conveyer belt 4；The sealing station 2 is located at the rear center of road conveyer 1 rear side, rear road conveyer 1 and support Steelframe 6 is fixedly connected；The electrical control cabinet 7 is located at the bottom of supporting steel frame 6, and electrical control cabinet 7 connects with the screw thread of supporting steel frame 6 Connect；

The preceding road motor 5 controls to be connected by wire and electrical control cabinet 7.

As shown in Fig. 2 being heretofore described rear road conveyer structural representation.Find out from Fig. 2 or Fig. 1, after Road conveyer 1 includes：Road motor 1-1, reduction box 1-2, Material Sensor 1-3, rear road conveyer belt 1-4, feed and pass afterwards Sensor 1-5, length measuring device 1-6, exit sensors 1-7, supporting plate 1-8；The rear road conveyer belt 1-4 is respectively arranged at two ends with material Sensor 1-3 and exit sensors 1-7, wherein being provided with reduction box 1-2, reduction box 1-2 lower ends positioned at Material Sensor 1-3 one end Rear road motor 1-1 is provided with, rear road motor 1-1 is by belt and reduction box 1-2 drive connections；The supporting plate 1-8 Between rear road conveyer belt 1-4 levels, supporting plate 1-8 is welded and fixed with supporting steel frame 6；Described charging sensor 1-5 Between Material Sensor 1-3 and exit sensors 1-7, exit sensors 1-7 is fixedly connected with supporting plate 1-8；The scale Device 1-6 is located between charging sensor 1-5 and exit sensors 1-7, and length measuring device 1-6 is fixedly connected with supporting steel frame 6；

The rear road motor 1-1, Material Sensor 1-3, charging sensor 1-5 and exit sensors 1-7 pass through wire It is connected with the control of electrical control cabinet 7.

As shown in figure 3, being heretofore described length measuring device structural representation.Find out from Fig. 3 or Fig. 1, scale dress Putting 1-6 includes：Horizontal displacement sensors 1-6-1, horizontal driver 1-6-2, vertical slideway 1-6-3, horizontal slide 1-6-4, hang down Straight driver 1-6-5, spacing elastic rod 1-6-6, scale sensor 1-6-7；Described horizontal driver 1-6-2 one end is provided with horizontal position Displacement sensor 1-6-1, the other end is provided with horizontal slide 1-6-4, and vertical slideway 1-6-3 is disposed with wherein horizontal slide 1-6-4, Vertical slideway 1-6-3 is slidably connected with horizontal slide 1-6-4；The vertical slideway 1-6-3 is provided with vertical driver 1-6-5； The vertical driver 1-6-5 tops are provided with spacing elastic rod 1-6-6 and scale sensor 1-6-7, wherein scale sensor 1-6-7 Quantity is 1, and spacing elastic rod 1-6-6 quantity is 4, and scale sensor 1-6-7 is located between spacing elastic rod 1-6-6；

The horizontal displacement sensors 1-6-1, horizontal driver 1-6-2, vertical driver 1-6-5 and scale sensor 1-6-7 Control to be connected by wire and electrical control cabinet 7 respectively.

As shown in figure 4, being heretofore described sealing station structural representation.Find out from Fig. 4 or Fig. 1, sealing station 2 is wrapped Include：Lifting motor 2-1, slideway 2-2, plummer 2-3, column 2-4, limit sensors 2-5, the qualitative device 2-6 of thermoplastic, auxiliary clamp 2-7；The limit sensors 2-5 is located at column 2-4 bottoms, and limit sensors 2-5 is screwed with column 2-4；The column 2-4 tops are provided with lifting motor 2-1, and lifting motor 2-1 is fixedly connected with column 2-4；The lifting motor 2-1 output shaft ends two Side is disposed with slideway 2-2, and slideway 2-2 is threadedly coupled with column 2-4；The slideway 2-2 is provided with plummer 2-3, plummer 2-3 It is slidably connected with slideway 2-2；The qualitative device 2-6 of thermoplastic is located at plummer 2-3 lower sections, the plummer 2-3 and qualitative device 2-6 of thermoplastic It is screwed；The auxiliary clamp 2-7 is located at column 2-4 sides, and wherein auxiliary clamp 2-7 and plummer 2-3 is synchronized with the movement；

The lifting motor 2-1, limit sensors 2-5 and the qualitative device 2-6 of thermoplastic control phase by wire with electrical control cabinet 7 Even.

A kind of course of work of automatic charging packaging facilities based on the exploitation of feature gingko milk beverage of the present invention It is：

1st step：Startup power supply, staff stacks to feed mechanism 3 material, and feed mechanism 3 is now started working, same with this Shi Qiandao motors 5 start, and drive preceding road conveyer belt 4 to rotate, and start to transport material；It is road transmission after will move in material During device 1, whether the Material Sensor 1-3 real-time detections being now placed on rear road conveyer 1 whether there is material passes through；Work as material During the scope detected by Material Sensor 1-3, Material Sensor 1-3 produces electric signal, is transferred to electrical control cabinet 7, electrically Road motor 1-1 starts after switch board 7 is controlled, rear road motor 1-1 conveyer belt 1-4 in road after reduction box 1-2 drives Rotate, promote material to move on；

2nd step：During material advance, charging sensor 1-5 and scale sensor on rear road conveyer 1 are now placed in Whether 1-6-7 real-time detections whether there is material passes through；When material is by charging sensor 1-5 and scale sensor 1-6-7 detections During scope, charging sensor 1-5 and scale sensor 1-6-7 produces electric signal, is transferred to electrical control cabinet 7, electrical control cabinet 7 Road motor 1-1 and preceding road motor 5 are closed after control, while controlling the Promotion From Within motor 2-1 of sealing station 2 to start, are carried Lifting motor 2-1 drives the qualitative device 2-6 of thermoplastic to move to setting position, and at the same time auxiliary clamp 2-7 is with the qualitative device 2-6 of thermoplastic It is synchronized with the movement and compresses material, now the qualitative device 2-6 of thermoplastic starts heat-sealing；

3rd step：After the completion of the qualitative device 2-6 encapsulation sizing of thermoplastic, the qualitative device 2-6 of thermoplastic produces electric signal, is transferred to electric-controlled Cabinet processed 7, the lifting motor 2-1 of electrical control cabinet 7 and vertical driver 1-6-5 start, and drive the qualitative device 2-6 of thermoplastic, auxiliary clamp 2-7 and spacing elastic rod 1-6-6 are lifted, while motor 1-1 in road starts after control, conveyer belt 1-4 in road is rotated after drive, with this While exit sensors 1-7 real-time monitoring materials, when exit sensors 1-7 detects material, exit sensors 1-7 produces electricity Signal, transmits to electrical control cabinet 7, and electrical control cabinet 7 controls preceding road motor 5 to start, and preceding road motor 5 drives preceding road Conveyer belt 4 transports material, now completes once to encapsulate styling cycles.

A kind of automatic charging packaging facilities based on the exploitation of feature gingko milk beverage of the present invention, the device is utilized Automatic charging, delivers to specified location encapsulation sizing by material automatically, greatly reduces the labour intensity of workman, effectively prevent envelope Set the interference of human factor during type；The plant automation degree is high, and system run all right is efficient, energy-saving material-saving, significantly Improve encapsulation sizing quality and operating efficiency.

The following is the embodiment of the manufacturing process of spacing elastic rod 1-6-6 of the present invention, embodiment is in order to furtherly Bright present disclosure, but should not be construed as limiting the invention.Without departing from the spirit and substance of the case in the present invention, it is right Modification and replacement that the inventive method, step or condition are made, belong to the scope of the present invention.

If not specializing, the conventional meanses that technological means used is well known to those skilled in the art in embodiment.

Embodiment 1

Spacing elastic rod 1-6-6 of the present invention is manufactured according to following steps, and is counted by weight：

1st step：2650 parts of the ultra-pure water that electrical conductivity is 2.32 μ S/cm is added in a kettle., starts agitator in reactor, turn Speed is 67rpm, starts heat pump, reactor temperature is risen to 89 DEG C；Sequentially add 4- (6- bromopyridine -3- bases) benzoic acid 157 parts of methyl esters, 250 parts of 4- (2- amino-ethyls) -2,6- xylenols hydrochloride, 1- (6- amino -3,3- dimethyl indoles - 1- yls) 60 parts of -2- (dimethylamino) ethyl ketone, to being completely dissolved, regulation pH value is 4.4, and agitator speed is adjusted to for stirring 125rpm, temperature is 134 DEG C~168 DEG C, esterification 10 hours；

2nd step：Take 4- [4- [(phenyloxycarbonyl) amino] phenyl] 116 parts of -1- piperazine carboxylic acid 1,1- dimethylethyl esters, 1- (uncles Butoxy carbonyl) 151 parts of indol-3-yl carbamic acid Bian ester crushed, and powder diameter is 850 mesh；Add 5,6- dihydros -4- (2- (hydroxymethyl) -4- nitrobenzophenones) pyridine -1 (2H) -134 parts of carboxylic acid tert-butyl ester is well mixed, and is laid in pallet, tiles Thickness is 16mm, use dosage for 7.3kGy, energy for 5.8MeV alpha ray irradiate 80 minutes, and Isodose β rays Irradiation 80 minutes；

3rd step：The mixed-powder processed through the 2nd step is dissolved in the 1- methyl -4- isopropenyl cyclohexyl -3- acetic acid esters 71 of 34ppm In part, reactor is added, agitator speed is 110rpm, and temperature is 119 DEG C, and starting vavuum pump reaches the vacuum of reactor To -0.52MPa, this state response is kept 25 hours；Pressure release is simultaneously passed through radon gas, makes reacting kettle inner pressure for 0.78MPa, is incubated quiet Put 14 hours；Agitator speed is promoted to 160rpm, simultaneous reactions kettle pressure release to 0MPa；Sequentially add 4- (4- amino -1- hexamethylenes Alkenyl) 51 parts of isoquinolin -1 (2H) -one, 5- [[(1,1- dimethylethyloxies) carbonyl] amino] -1,3- piperidines dicarboxylic acids 3- first After 165 parts of base 1- (phenyl methyl) ester is completely dissolved, add the stirring mixing of 124 parts of crosslinking agent so that reactor solution it is hydrophilic Lipophilic balance value is 5.9, and insulation stands 12 hours；

4th step：When agitator speed is 192rpm, 2- acetyl group -3,82 parts of 3- dimethyl butyrates acetoacetic ester, 4- are sequentially added 108 parts of 106 parts of (the chloro- 2- pyrazines of 3-) tetrahydrochysene -2H- pyrans -4- carboxylate methyl esters and 2- (4- aminophenyls) -2- methyl propanamides, Lifting reactor pressure, reaches 1.15MPa, and temperature is 154 DEG C, polymerisation 17 hours；By reactor after the completion of reaction Interior pressure is down to 0MPa, is cooled to 21 DEG C, and discharging enters molding press and can be prepared by spacing elastic rod 1-6-6.

The crosslinking agent is 2- cyano group -4,4- dimethyl -2- methyl valerates.

Embodiment 2

Spacing elastic rod 1-6-6 of the present invention is manufactured according to following steps, and is counted by weight：

1st step：3360 parts of the ultra-pure water that electrical conductivity is 6.56 μ S/cm is added in a kettle., starts agitator in reactor, turn Speed is 96rpm, starts heat pump, reactor temperature is risen to 110 DEG C；Sequentially add 4- (6- bromopyridine -3- bases) benzene first 195 parts of sour methyl esters, 313 parts of 4- (2- amino-ethyls) -2,6- xylenols hydrochloride, 1- (6- amino -3,3- dimethyl Yin Diindyl -1- bases) 152 parts of -2- (dimethylamino) ethyl ketone, to being completely dissolved, regulation pH value is 8.6, and agitator speed is adjusted for stirring To 191rpm, temperature is 168 DEG C, esterification 22 hours；

2nd step：Take 4- [4- [(phenyloxycarbonyl) amino] phenyl] 290 parts of -1- piperazine carboxylic acid 1,1- dimethylethyl esters, 1- (uncles Butoxy carbonyl) 213 parts of indol-3-yl carbamic acid Bian ester crushed, and powder diameter is 1350 mesh；Addition 5,6- dihydros- 4- (2- (hydroxymethyl) -4- nitrobenzophenones) pyridine -1 (2H) -184 parts of carboxylic acid tert-butyl ester is well mixed, and is laid in pallet, puts down Paving thickness be 30mm, use dosage for 12.5kGy, energy for 8.3MeV alpha ray irradiation 160 minutes, and Isodose β X ray irradiation x 160 minutes；

3rd step：The mixed-powder processed through the 2nd step is dissolved in the 1- methyl -4- isopropenyl cyclohexyl -3- acetic acid esters 145 of 87ppm In part, reactor is added, agitator speed is 152rpm, and temperature is 173 DEG C, and starting vavuum pump reaches the vacuum of reactor 3.85MPa, keeps this state response 38 hours；Pressure release is simultaneously passed through radon gas, makes reacting kettle inner pressure for 1.15MPa, and insulation stands 28 hours；Agitator speed is promoted to 253rpm, simultaneous reactions kettle pressure release to 0MPa；Sequentially add 4- (4- amino -1- cyclohexene Base) 125 parts of isoquinolin -1 (2H) -one, 5- [[(1,1- dimethylethyloxies) carbonyl] amino] -1,3- piperidines dicarboxylic acids 3- methyl After 224 parts of 1- (phenyl methyl) ester is completely dissolved, 199 parts of stirring mixing of crosslinking agent are added so that the hydrophilic parent of reactor solution Oily equilibrium valve is 7.9, and insulation stands 22 hours；

4th step：When agitator speed is 262rpm, 2- acetyl group -3,155 parts of 3- dimethyl butyrates acetoacetic ester, 4- are sequentially added 212 parts of 145 parts of (the chloro- 2- pyrazines of 3-) tetrahydrochysene -2H- pyrans -4- carboxylate methyl esters and 2- (4- aminophenyls) -2- methyl propanamides, Lifting reactor pressure, reaches 2.13MPa, and temperature is 226 DEG C, polymerisation 35 hours；By reactor after the completion of reaction Interior pressure is down to 0MPa, is cooled to 30 DEG C, and discharging enters molding press and can be prepared by spacing elastic rod 1-6-6.

The crosslinking agent is 4- (4- oxo -1- cyclohexenyl groups) methyl benzoate.

Embodiment 3

Spacing elastic rod 1-6-6 of the present invention is manufactured according to following steps, and is counted by weight：

1st step：3000 parts of the ultra-pure water that electrical conductivity is 4.44 μ S/cm is added in a kettle., starts agitator in reactor, turn Speed is 81rpm, starts heat pump, reactor temperature is risen to 100 DEG C；Sequentially add 4- (6- bromopyridine -3- bases) benzene first 176 parts of sour methyl esters, 281 parts of 4- (2- amino-ethyls) -2,6- xylenols hydrochloride, 1- (6- amino -3,3- dimethyl Yin Diindyl -1- bases) 106 parts of -2- (dimethylamino) ethyl ketone, to being completely dissolved, regulation pH value is 6.5, and agitator speed is adjusted for stirring To 160rpm, temperature is 151 DEG C, esterification 16 hours；

2nd step：Take 4- [4- [(phenyloxycarbonyl) amino] phenyl] 198 parts of -1- piperazine carboxylic acid 1,1- dimethylethyl esters, 1- (uncles Butoxy carbonyl) 182 parts of indol-3-yl carbamic acid Bian ester crushed, and powder diameter is 1100 mesh；Addition 5,6- dihydros- 4- (2- (hydroxymethyl) -4- nitrobenzophenones) pyridine -1 (2H) -159 parts of carboxylic acid tert-butyl ester is well mixed, and is laid in pallet, puts down Paving thickness be 23mm, use dosage for 9.8kGy, energy for 7.2MeV alpha ray irradiation 120 minutes, and Isodose β X ray irradiation x 120 minutes；

3rd step：The mixed-powder processed through the 2nd step is dissolved in the 1- methyl -4- isopropenyl cyclohexyl -3- acetic acid esters 109 of 60ppm In part, reactor is added, agitator speed is 131rpm, and temperature is 145 DEG C, and starting vavuum pump reaches the vacuum of reactor 2.71MPa, keeps this state response 31 hours；Pressure release is simultaneously passed through radon gas, makes reacting kettle inner pressure for 0.96MPa, and insulation stands 21 hours；Agitator speed is promoted to 205rpm, simultaneous reactions kettle pressure release to 0MPa；Sequentially add 4- (4- amino -1- cyclohexene Base) 88 parts of isoquinolin -1 (2H) -one, 5- [[(1,1- dimethylethyloxies) carbonyl] amino] -1,3- piperidines dicarboxylic acids 3- methyl After 194 parts of 1- (phenyl methyl) ester is completely dissolved, 161 parts of stirring mixing of crosslinking agent are added so that the hydrophilic parent of reactor solution Oily equilibrium valve is 6.9, and insulation stands 17 hours；

4th step：When agitator speed is 227rpm, 2- acetyl group -3,118 parts of 3- dimethyl butyrates acetoacetic ester, 4- are sequentially added 205 parts of 125 parts of (the chloro- 2- pyrazines of 3-) tetrahydrochysene -2H- pyrans -4- carboxylate methyl esters and 2- (4- aminophenyls) -2- methyl propanamides, Lifting reactor pressure, reaches 1.64MPa, and temperature is 190 DEG C, polymerisation 26 hours；By reactor after the completion of reaction Interior pressure is down to 0MPa, is cooled to 27 DEG C, and discharging enters molding press and can be prepared by spacing elastic rod 1-6-6.

The crosslinking agent is 2- (cyclobutylmethyl)-ethyl 3-oxobutanoate.

Reference examples

Reference examples are the spacing elastic rod of commercially available certain brand.

Embodiment 4

The spacing elastic rod described in spacing elastic rod 1-6-6 and reference examples that embodiment 1~3 is prepared carries out using effect pair Than.The two tensile strength, yield strength, rate of depreciation, middle modulus of rigidity are counted, as a result as shown in table 1.

As seen from Table 1, spacing elastic rod 1-6-6 of the present invention, its tensile strength, yield strength, rate of depreciation, in resist The indexs such as shear modulus are superior to the product of prior art production.

Additionally, as shown in figure 5, being that spacing elastic rod 1-6-6 fatigues of materials intensity of the present invention changes with use time Statistics.Find out in figure, spacing elastic rod 1-6-6 used by embodiment 1~3, its fatigue of materials intensity is with use time intensity of variation Significantly it is better than existing product.

Claims (6)

1. it is a kind of based on feature gingko milk beverage exploitation automatic charging packaging facilities, including：Road conveyer (1), seals afterwards Mouth platform (2), feed mechanism (3), preceding road conveyer belt (4), preceding road motor (5), supporting steel frame (6), electrical control cabinet (7)； Characterized in that, supporting steel frame (6) material is channel-section steel, supporting steel frame (6) top side is disposed with rear road conveyer (1), opposite side is disposed with feed mechanism (3) and preceding road conveyer belt (4), wherein preceding road conveyer belt (4) and rear road conveyer (1) On same straight line；The preceding road motor (5) is positioned at preceding road conveyer belt (4) one end, preceding road motor (5) and preceding road Conveyer belt (4) drive connection；The sealing station (2) positioned at rear road conveyer (1) center rear side, rear road conveyer (1) with Supporting steel frame (6) is fixedly connected；The electrical control cabinet (7) is positioned at supporting steel frame (6) bottom, electrical control cabinet (7) and support Steelframe (6) is threadedly coupled；

The preceding road motor (5) controls to be connected by wire and electrical control cabinet (7).

2. a kind of automatic charging packaging facilities based on the exploitation of feature gingko milk beverage according to claim 1, it is special Levy and be, the rear road conveyer (1) includes：Road motor (1-1) afterwards, reduction box (1-2), Material Sensor (1-3), Road conveyer belt (1-4), charging sensor (1-5), length measuring device (1-6), exit sensors (1-7), supporting plate (1-8) afterwards；Institute Shu Hou roads conveyer belt (1-4) are respectively arranged at two ends with Material Sensor (1-3) and exit sensors (1-7), wherein being passed positioned at material Sensor (1-3) one end is provided with reduction box (1-2), and reduction box (1-2) lower end is provided with rear road motor (1-1), and rear road drives electricity Machine (1-1) is by belt and reduction box (1-2) drive connection；The supporting plate (1-8) is located at rear road conveyer belt (1-4) levels Between, supporting plate (1-8) is welded and fixed with supporting steel frame (6)；The charging sensor (1-5) is located at Material Sensor (1-3) And exit sensors (1-7) between, exit sensors (1-7) are fixedly connected with supporting plate (1-8)；The length measuring device (1-6) Between charging sensor (1-5) and exit sensors (1-7), length measuring device (1-6) is fixedly connected with supporting steel frame (6)；

The rear road motor (1-1), Material Sensor (1-3), charging sensor (1-5) and exit sensors (1-7) are Control to be connected by wire and electrical control cabinet (7).

3. a kind of automatic charging packaging facilities based on the exploitation of feature gingko milk beverage according to claim 2, it is special Levy and be, the length measuring device (1-6) includes：Horizontal displacement sensors (1-6-1), horizontal driver (1-6-2), vertical slideway (1-6-3), horizontal slide (1-6-4), vertical driver (1-6-5), spacing elastic rod (1-6-6), scale sensor (1-6-7)； Described horizontal driver (1-6-2) one end is provided with horizontal displacement sensors (1-6-1), and the other end is provided with horizontal slide (1-6-4), Vertical slideway (1-6-3) is wherein disposed with horizontal slide (1-6-4), vertical slideway (1-6-3) is sliding with horizontal slide (1-6-4) Dynamic connection；The vertical slideway (1-6-3) is provided with vertical driver (1-6-5)；Vertical driver (1-6-5) top sets Limited location elastic rod (1-6-6) and scale sensor (1-6-7), wherein scale sensor (1-6-7) quantity are 1, spacing elastic rod (1-6-6) quantity is 4, and scale sensor (1-6-7) is located between spacing elastic rod (1-6-6)；

The horizontal displacement sensors (1-6-1), horizontal driver (1-6-2), vertical driver (1-6-5) and scale sensor (1-6-7) controls to be connected by wire and electrical control cabinet (7) respectively.

4. a kind of automatic charging packaging facilities based on the exploitation of feature gingko milk beverage according to claim 1, it is special Levy and be, the sealing station (2) includes：Lifting motor (2-1), slideway (2-2), plummer (2-3), column (2-4), spacing biography Sensor (2-5), the qualitative device of thermoplastic (2-6), auxiliary clamp (2-7)；The limit sensors (2-5) are located at column (2-4) bottom, Limit sensors (2-5) are screwed with column (2-4)；Column (2-4) top is provided with lifting motor (2-1), lifting electricity Machine (2-1) is fixedly connected with column (2-4)；Lifting motor (2-1) the output shaft end both sides are disposed with slideway (2-2), slideway (2-2) is threadedly coupled with column (2-4)；The slideway (2-2) is provided with plummer (2-3), plummer (2-3) and slideway (2- 2) it is slidably connected；The qualitative device of thermoplastic (2-6) is located at plummer (2-3) lower section, plummer (2-3) and the qualitative device (2- of thermoplastic 6) it is screwed；The auxiliary clamp (2-7) is located at column (2-4) side, wherein auxiliary clamp (2-7) and plummer (2-3) It is synchronized with the movement；

The lifting motor (2-1), limit sensors (2-5) and the qualitative device of thermoplastic (2-6) pass through wire and electrical control cabinet (7) control to be connected.

5. a kind of automatic charging packaging facilities based on the exploitation of feature gingko milk beverage according to claim 3, it is special Levy and be, the spacing elastic rod (1-6-6) is molded by macromolecular material pressing mold, the constituent and system of spacing elastic rod (1-6-6) Make process as follows：

First, spacing elastic rod (1-6-6) constituent：

Count by weight, 4- (6- bromopyridine -3- bases) 157~195 parts of methyl benzoate, 4- (2- amino-ethyls) -2,6- bis- 250~313 parts of methylphenol hydrochloride, 1- (6- amino -3,3- dimethyl indole -1- bases) -2- (dimethylamino) ethyl ketone 60 ~152 parts, 4- [4- [(phenyloxycarbonyl) amino] phenyl] -1- piperazine carboxylic acids 1,116~290 parts of 1- dimethylethyl esters, 1- (uncles Butoxy carbonyl) 151~213 parts of indol-3-yl carbamic acid Bian ester, 5,6- dihydro -4- (2- (hydroxymethyl) -4- nitrobenzene Base) pyridine -1 (2H) -134~184 parts of carboxylic acid tert-butyl ester, concentration is the 1- methyl -4- isopropenyl hexamethylenes of 34ppm~87ppm 71~145 parts of base -3- acetic acid esters, 4- (4- amino -1- cyclohexenyl groups) 51~125 parts of isoquinolin -1 (2H) -one, 5- [[(1,1- Dimethylethyloxy) carbonyl] amino] -165~224 parts of 1,3- piperidines dicarboxylic acids 3- methyl 1- (phenyl methyl) ester, crosslinking agent 124~199 parts, 2- acetyl group -3,82~155 parts of 3- dimethyl butyrates acetoacetic ester, 4- (the chloro- 2- pyrazines of 3-) tetrahydrochysene -2H- pyrans - 106~145 parts of 4- carboxylate methyl esters, 108~212 parts of 2- (4- aminophenyls) -2- methyl propanamides；

The crosslinking agent is 2- cyano group -4,4- dimethyl -2- methyl valerates, 2- (cyclobutylmethyl)-ethyl 3-oxobutanoate, 4- Any one in (4- oxo -1- cyclohexenyl groups) methyl benzoate；

2nd, the manufacturing process of spacing elastic rod (1-6-6), comprises the steps of：

1st step：2650~3360 parts of ultra-pure water for adding electrical conductivity to be 2.32 μ S/cm~6.56 μ S/cm in a kettle., starts Agitator in reactor, rotating speed is 67rpm~96rpm, starts heat pump, reactor temperature is risen to 89 DEG C~110 DEG C； Sequentially add 4- (6- bromopyridine -3- bases) methyl benzoate, 4- (2- amino-ethyls) -2,6- xylenols hydrochloride, 1- (6- Amino -3,3- dimethyl indole -1- bases) -2- (dimethylamino) ethyl ketone, stirring to being completely dissolved, regulation pH value is 4.4~ 8.6, agitator speed is adjusted to 125rpm~191rpm, temperature is 134 DEG C~168 DEG C, esterification 10~22 hours；

2nd step：Take 4- [4- [(phenyloxycarbonyl) amino] phenyl] -1- piperazine carboxylic acid 1,1- dimethylethyl esters, 1- (tert-butoxies Carbonyl) indol-3-yl carbamic acid Bian ester crushed, and powder diameter is 850~1350 mesh；Add 5,6- dihydro -4- (2- (hydroxymethyl) -4- nitrobenzophenones) pyridine -1 (2H)-carboxylic acid tert-butyl ester be well mixed, be laid in pallet, tiling thickness be 16mm~30mm, uses dosage for 7.3kGy~12.5kGy, energy for the alpha ray of 5.8MeV~8.3MeV irradiates 80~160 points Clock, and Isodose β x ray irradiation xs 80~160 minutes；

3rd step：The mixed-powder processed through the 2nd step is dissolved in 1- methyl -4- isopropenyl cyclohexyl -3- acetic acid esters, is added anti- Kettle is answered, agitator speed is 110rpm~152rpm, and temperature is 119 DEG C~173 DEG C, and starting vavuum pump makes the vacuum of reactor - 0.52MPa~3.85MPa is reached, this state response is kept 25~38 hours；Pressure release is simultaneously passed through radon gas, makes reacting kettle inner pressure It is 0.78MPa~1.15MPa, insulation stands 14~28 hours；Agitator speed is promoted to 160rpm~253rpm, simultaneous reactions Kettle pressure release is to 0MPa；Sequentially add 4- (4- amino -1- cyclohexenyl groups) isoquinolin -1 (2H) -one, 5- [[(1,1- dimethylethoxies Base) carbonyl] amino] after -1,3- piperidines dicarboxylic acids 3- methyl 1- (phenyl methyl) ester is completely dissolved, add crosslinking agent stirring mixed Close so that the hydrophilic lipophilic balance of reactor solution is 5.9~7.9, and insulation stands 12~22 hours；

4th step：When agitator speed is 192rpm~262rpm, 2- acetyl group -3 are sequentially added, 3- dimethyl butyrates acetoacetic ester, 4- (the chloro- 2- pyrazines of 3-) tetrahydrochysene -2H- pyrans -4- carboxylate methyl esters and 2- (4- aminophenyls) -2- methyl propanamides, lifting reaction Kettle pressure, reaches 1.15MPa~2.13MPa, and temperature is 154 DEG C~226 DEG C, polymerisation 17~35 hours；React Reacting kettle inner pressure is down to 0MPa after, 21 DEG C~30 DEG C are cooled to, discharging enters molding press and can be prepared by spacing elastic rod (1- 6-6)。

6. it is a kind of based on feature gingko milk beverage exploitation automatic charging packaging facilities method of work, it is characterised in that the party Method includes following steps：

1st step：Startup power supply, staff stacks to feed mechanism (3) material, and feed mechanism (3) is now started working, with This preceding road motor (5) startup simultaneously, drives preceding road conveyer belt (4) to rotate, and starts to transport material；It is that will move in material Afterwards during road conveyer (1), whether Material Sensor (1-3) real-time detection being now placed on rear road conveyer (1) whether there is Material passes through；When the scope that material is detected by Material Sensor (1-3), Material Sensor (1-3) produces electric signal, transmission To electrical control cabinet (7), road motor (1-1) starts after electrical control cabinet (7) control, and rear road motor (1-1) passes through Road conveyer belt (1-4) is rotated after reduction box (1-2) drives, and promotes material to move on；

2nd step：During material advance, the charging sensor (1-5) and scale being now placed on rear road conveyer (1) are passed Whether sensor (1-6-7) real-time detection whether there is material passes through；When material passes through charging sensor (1-5) and scale sensor (1- 6-7) during the scope of detection, charging sensor (1-5) and scale sensor (1-6-7) produce electric signal, are transferred to electrical control Cabinet (7), road motor (1-1) and preceding road motor (5) are closed after electrical control cabinet (7) control, while controlling sealing station (2) Promotion From Within motor (2-1) starts, and lifting motor (2-1) drives the qualitative device of thermoplastic (2-6) to move to setting position, with this Auxiliary clamp (2-7) is as the qualitative device of thermoplastic (2-6) is synchronized with the movement and compresses material simultaneously, the now qualitative device of thermoplastic (2-6) Start heat-sealing；

3rd step：After the completion of the qualitative device of thermoplastic (2-6) encapsulation sizing, the qualitative device of thermoplastic (2-6) produces electric signal, is transferred to electricity Gas switch board (7), electrical control cabinet (7) lifting motor (2-1) and vertical driver (1-6-5) start, and drive the qualitative device of thermoplastic (2-6), auxiliary clamp (2-7) and spacing elastic rod (1-6-6) are lifted, while road motor (1-1) starts after control, after drive Road conveyer belt (1-4) is rotated, at the same time exit sensors (1-7) real-time monitoring material, when exit sensors (1-7) are detected During material, exit sensors (1-7) produce electric signal, transmit to electrical control cabinet (7), and electrical control cabinet (7) controls preceding road to drive Dynamic motor (5) starts, and preceding road motor (5) drives preceding road conveyer belt (4) to transport material, now completes once to encapsulate sizing and follows Ring.