CN116750705A - Automatic filling machine for syrup production equipment - Google Patents

Abstract

The invention relates to the technical field of automatic filling equipment, in particular to an automatic filling machine for syrup production equipment. The invention provides an automatic filling machine for syrup production equipment, which can scrape the inner wall of a syrup container and shake bubbles in syrup in a medicine bottle. The utility model provides an automatic filling machine for syrup production facility, includes conveyer, base, supporting shoe, toper filling shell and filling tube etc. the conveyer is installed on base upper portion, and the conveyer is used for transmitting the medicine bottle, and the organism upper left portion of conveyer is connected with the supporting shoe, and toper filling shell is installed on supporting shoe upper portion, and toper filling shell bottom is connected with the filling tube, filling tube and toper filling shell UNICOM. The first scraping plate rotates to scrape the syrup on the inner wall of the conical filling shell, the second scraping plate rotates to scrape the syrup on the inner wall of the filling tube, and the syrup can be prevented from adhering to and remaining on the inner wall of the conical filling shell and the inner wall of the filling tube, so that the syrup is prevented from being wasted.

Description

Automatic filling machine for syrup production equipment

Technical Field

The invention relates to the technical field of automatic filling equipment, in particular to an automatic filling machine for syrup production equipment.

Background

Syrup is an aqueous solution of concentrated sucrose for oral administration, and in the production process of syrup, it is necessary to quantitatively fill the syrup into the medicine bottles by using a filling machine.

Patent publication number is CN 111874284B's patent discloses an automatic filling mechanism for syrup production facility, and this automatic filling mechanism for syrup production facility includes the base, the inside conveyer belt that is equipped with of base, the base top is equipped with the support frame, the inside bottom fixedly connected with flexible hose of support frame, flexible hose bottom fixedly connected with filling tube, the fixed clearance mechanism that is equipped with in the filling tube outside.

The above-mentioned patent can only scrape the syrup in canning pipe, be difficult to scrape the reason to the whole container inner wall that holds the syrup, the syrup probably condenses at the inner wall of container and causes the problem of jam and syrup waste, in addition, when filling to the syrup, leave the bubble in the syrup in the medicine bottle easily, in order to improve the shelf life of syrup, need get rid of the bubble in the syrup in the medicine bottle, the above-mentioned patent does not possess the function of getting rid of the bubble in the syrup, need utilize other equipment or artifical rocking to get rid of the bubble in the medicine bottle, lead to the operation comparatively loaded down with trivial details, in order to solve this problem, we have developed a syrup production facility that can scrape the reason to the syrup container inner wall and shake out the bubble in the medicine bottle uses automatic filling machine.

Disclosure of Invention

In order to overcome the defects that the inner wall of a container for containing the syrup is difficult to scrape and the function of removing bubbles in the syrup is not provided in the prior art, the invention provides an automatic filling machine for syrup production equipment, which can scrape the inner wall of the container for the syrup and shake out bubbles in the syrup in a medicine bottle.

The utility model provides an automatic filling machine for syrup production facility, including conveyer, base, supporting shoe, toper filling shell and filling tube, the conveyer is installed on base upper portion, and the conveyer is used for transmitting the medicine bottle, and the organism upper left portion of conveyer is connected with the supporting shoe, and the toper filling shell is installed on supporting shoe upper portion, and toper filling shell bottom is connected with the filling tube, filling tube and toper filling shell UNICOM, still including changeing and scraping mechanism and striking mechanism, be equipped with on the supporting shoe and be used for scraping the changeing and scraping mechanism of reason to toper filling shell and filling tube inner wall, be equipped with on the supporting shoe and be used for shaking out the striking mechanism of bubble in the filled syrup medicine bottle.

Further, the mechanism is scraped including the motor, first striking off board, the second striking off board, first fixed plate, the bull stick, drive assembly, the stirring rod, first wedge, first spring, second fixed plate and baffle, supporting shoe upper portion is connected with the motor, the motor is located the toper filling shell directly over, the output shaft lower part of motor is connected with first striking off board, first striking off board and toper filling shell inner wall contact, first striking off board lower part is connected with the second striking off board, second striking off board and filling tube inner wall contact, install first fixed plate on the organism of motor, the pivoted on the first fixed plate is connected with the bull stick, around drive assembly on bull stick and the output shaft of motor, the bull stick lower part is connected with the stirring rod, the organism upper left portion front side of conveyer is connected with the second fixed plate, the sliding connection has first wedge on the second fixed plate, the stirring rod contacts with first wedge, around there being first spring on the first wedge, both ends are connected with first wedge and second fixed plate respectively around first spring, first wedge rear part is connected with the bottom and second fixed plate, the top bottom is connected with the top of the filling tube, the top bottom is plugged up with the top of the back part, the top is connected with the top of the filling tube.

Further, the striking mechanism is including iron plate, second wedge, second spring, L shaped plate and striking subassembly, all be connected with the iron plate in the middle of the baffle left and right sides, the organism of conveyer is controlled one side that both sides are close to each other and all is connected with the L shaped plate, all sliding connection has the second wedge on the L shaped plate, all around having the second spring on the second wedge, the inside and outside both ends of second spring all are connected with second wedge and L shaped plate respectively, the iron plate of left and right sides is located the second wedge the place ahead of left and right sides respectively, be equipped with the installation subassembly that is used for striking the filled syrup on the second wedge.

Further, the striking subassembly is including movable plate, third spring and striking piece, and one side that the second wedge kept away from each other all is connected with the movable plate, and one side that the movable plate is close to each other all is connected with the third spring, and one side that the third spring is close to each other all is connected with the striking piece, and left and right sides striking piece is located baffle left side below and right side below respectively.

Further, the vibration mechanism for driving the conical filling shell to vibrate is further included, the vibration mechanism comprises a first rotating plate, a second rotating plate, a third rotating plate, a fixing rod, iron balls and a third fixing plate, the upper portion of the rotating rod is connected with the first rotating plate, the rear upper portion of the conical filling shell is connected with the third fixing plate, the upper portion of the third fixing plate is rotationally connected with the third rotating plate, the second rotating plate is rotationally connected between the third rotating plate and the first rotating plate, the bottom of the third rotating plate is connected with the fixing rod, the bottom of the fixing rod is connected with the iron balls, and the iron balls are located at the right rear of the conical filling shell.

Further, the heating mechanism for heating the syrup in the conical filling shell and the filling tube is further included, the heating mechanism comprises a heating pipe, a switch, an extrusion block, a fourth spring and a fourth fixing plate, the heating pipe is wound outside the conical filling shell and the filling tube, the switch is connected with the right side of the first fixing plate, the switch is connected with the heating pipe, the switch is electrically connected with the heating pipe, the fourth fixing plate is connected on the rotating rod, the fourth spring is connected with the rear side of the fourth fixing plate, the extrusion block is connected with the rear side of the fourth spring, and the extrusion block is in contact with the switch.

Further, the adjusting mechanism for adjusting the syrup filling amount comprises a telescopic rod, a cylinder and a fifth spring, wherein the telescopic rod is connected to the left front side and the right side of the lower portion of the rotating rod, the stirring rod and all the telescopic rods are uniformly distributed in the circumferential direction, the telescopic rods are provided with multi-stage telescopic parts, the fifth springs are connected to the telescopic parts of the telescopic rods, the cylinders close to the rotating rod extend out of the telescopic rods, and the rest cylinders are propped against the inside of the telescopic rods.

Further, the anti-leakage mechanism for preventing syrup from leaking from the gap between the filling pipe and the baffle is further arranged, the anti-leakage mechanism comprises an arc-shaped plate, a circular ring and a sixth spring, the arc-shaped plate is connected to the front side and the rear side of the lower portion of the filling pipe, the circular ring is connected between the lower portions of the arc-shaped plates in a sliding mode and propped against the baffle, the sixth spring is wound on the front side, the rear side, the left side and the right side of the upper portion of the circular ring, and the upper end and the lower end of the sixth spring are respectively connected with the arc-shaped plate and the circular ring.

The invention has the following advantages:

1. the first scraping plate rotates to scrape the syrup on the inner wall of the conical filling shell, and the second scraping plate rotates to scrape the syrup on the inner wall of the filling tube, so that the syrup is prevented from adhering and remaining on the inner walls of the conical filling shell and the filling tube, and the syrup is prevented from being wasted;

2. when the discharge hole on the baffle corresponds to the bottom of the filling tube, the syrup can flow out from the filling tube into the medicine bottle, and when the baffle moves forwards to block the filling tube again, the syrup does not flow out into the medicine bottle, so that the syrup can be automatically and quantitatively filled;

3. the second wedge-shaped block moves outwards to enable the moving plate to move inwards, and the third spring enables the impact block to move inwards to impact the medicine bottle, so that bubbles in the syrup in the medicine bottle can be vibrated out in the process of filling the syrup, and long-term storage of the syrup after filling is facilitated;

4. by driving the conical filling shell to vibrate, the syrup can be prevented from adhering and remaining on the inner wall of the conical filling shell, and the syrup waste can be avoided;

5. by heating the conical filling shell and the inside of the filling pipe, the syrup can be prevented from being solidified, the syrup can be conveniently and smoothly filled, and the syrup can be prevented from being remained on the inner walls of the conical filling shell and the filling pipe, so that the syrup is prevented from being wasted;

6. the farther the first wedge-shaped block is pushed, the closer the discharge hole on the baffle is to the discharge hole of the filling pipe, so that the discharge channel of the syrup can be adjusted, the filling amount of the syrup can be adjusted, and the practicability is improved;

7. the first wedge block is pushed by utilizing the toggle rod and the telescopic rod, so that the pushing frequency of the first wedge block is increased, and the syrup filling efficiency can be improved;

8. in the process of filling the syrup, the elastic force of the sixth spring enables the circular ring to be tightly pressed on the baffle plate, so that the syrup can be prevented from leaking out of the gap between the filling pipe and the baffle plate, and the syrup is prevented from being wasted.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a first perspective structure of the scraping mechanism of the present invention.

Fig. 3 is a schematic view of a second perspective structure of the scraping mechanism of the present invention.

Fig. 4 is a schematic view showing a first perspective structure of the striking mechanism of the present invention.

Fig. 5 is a schematic view of a second perspective of the impact mechanism of the present invention.

Fig. 6 is a schematic perspective view of a vibration mechanism according to the present invention.

Fig. 7 is a schematic view showing a first perspective structure of the heating mechanism of the present invention.

Fig. 8 is a schematic view showing a second perspective structure of the heating mechanism of the present invention.

Fig. 9 is a schematic perspective view of an adjusting mechanism according to the present invention.

Fig. 10 is a schematic sectional perspective view of an adjusting mechanism of the present invention.

Fig. 11 is a schematic view showing a first perspective structure of the pressing mechanism of the present invention.

Fig. 12 is a schematic view showing a second perspective structure of the pressing mechanism of the present invention.

Reference numerals: the invention relates to a conveyor, 2_base, 21_support block, 3_conical filling shell, 31_filling tube, 4_rotating scraper, 41_motor, 42_first scraper, 43_second scraper, 44_first fixed plate, 45_rotating rod, 46_drive assembly, 47_toggle rod, 48_first wedge block, 49_first spring, 410_second fixed plate, 411_baffle, 5_strike, 51_iron block, 52_second wedge block, 53_second spring, 54_l plate, 55_moving plate, 56_third spring, 57_strike, 6_vibrating mechanism, 61_first rotating plate, 62_second rotating plate, 63_third rotating plate, 64_fixed rod, 65_iron ball, 66_third fixed plate, 7_heating mechanism, 71_heating tube, 72_switch, 73_pressing block, 74_fourth spring, 75_fourth fixed plate, 8_adjusting mechanism, 81_telescopic rod, 82_cylinder, 83_9_spring, 9_strike, 6_vibrating mechanism, 61_third rotating plate, 63_third rotating plate, 64_third fixed plate, 7_third rotating plate, 72_switch, 73_fourth spring, 75_fourth_fourth fixed plate, 8_adjusting mechanism, 81_telescopic mechanism, 82_cylinder, and 9_fourth spring.

Detailed Description

The technical scheme of the invention is further described below with reference to the accompanying drawings.

Example 1

The utility model provides an automatic filling machine for syrup production facility, as shown in fig. 1 and 2, including conveyer 1, base 2, supporting shoe 21, toper filling shell 3, filling tube 31, change and scrape mechanism 4 and impact mechanism 5, conveyer 1 installs in base 2 upper portion, conveyer 1 is used for transmitting the medicine bottle, the upper left portion welding of organism of conveyer 1 has supporting shoe 21, toper filling shell 3 rigid coupling is in supporting shoe 21 upper portion, toper filling shell 3 bottom welding has filling tube 31, filling tube 31 and toper filling shell 3 UNICOM, be equipped with on the supporting shoe 21 and change and scrape mechanism 4, be equipped with impact mechanism 5 on the supporting shoe 21.

As shown in fig. 1, 2 and 3, the rotary scraping mechanism 4 comprises a motor 41, a first scraping plate 42, a second scraping plate 43, a first fixing plate 44, a rotating rod 45, a transmission component 46, a stirring rod 47, a first wedge block 48, a first spring 49, a second fixing plate 410 and a baffle 411, wherein the motor 41 is arranged on the upper part of the supporting block 21, the motor 41 is positioned right above the conical filling shell 3, the first scraping plate 42 is welded on the lower part of an output shaft of the motor 41, the first scraping plate 42 is contacted with the inner wall of the conical filling shell 3, the second scraping plate 43 is welded on the lower part of the first scraping plate 42, the second scraping plate 43 is contacted with the inner wall of the filling tube 31, the first fixing plate 44 is fixedly connected on the body of the motor 41, the rotating rod 45 is arranged on the first fixing plate 44 through a bearing, the transmission component 46 is wound on the rotating rod 45 and the output shaft of the motor 41, the transmission assembly 46 is composed of two belt pulleys and a flat belt, the two belt pulleys are respectively connected on the rotating rod 45 and the output shaft of the motor 41, the flat belt is wound on the two belt pulleys, a poking rod 47 is fixedly connected to the lower portion of the rotating rod 45, a second fixing plate 410 is welded to the front side of the left upper portion of the machine body of the conveyor 1, a first wedge-shaped block 48 is slidably connected to the second fixing plate 410, the poking rod 47 is contacted with the first wedge-shaped block 48, a first spring 49 is wound on the first wedge-shaped block 48, the front end and the rear end of the first spring 49 are fixedly connected with the first wedge-shaped block 48 and the second fixing plate 410 respectively, a baffle 411 is welded to the rear portion of the first wedge-shaped block 48, the rear upper portion of the baffle 411 is contacted with the bottom of the filling tube 31, a discharge hole is formed in the front upper portion of the baffle 411, and the bottom of the filling tube 31 is blocked.

As shown in fig. 1, fig. 4 and fig. 5, the striking mechanism 5 comprises an iron block 51, a second wedge block 52, a second spring 53, an L-shaped plate 54, a moving plate 55, a third spring 56 and a striking block 57, wherein the iron block 51 is welded in the middle of the left side and the right side of the baffle 411, the L-shaped plate 54 is fixedly connected to the left side and the right side of the machine body of the conveyor 1, the second wedge block 52 is slidably connected to the L-shaped plate 54, the second spring 53 is connected between the second wedge block 52 and the L-shaped plate 54, the second spring 53 is wound on the second wedge block 52, the iron blocks 51 on the left side and the right side are respectively positioned in front of the second wedge blocks 52 on the left side and the right side, the moving plate 55 is fixedly connected to the moving plate 55, the third spring 56 is welded to the side of the moving plate 55, the striking block 57 is fixedly connected to the side of the third spring 56, and the striking blocks 57 on the left side and the right side are respectively positioned below the baffle 411.

In the process of producing the syrup, when the syrup is required to be filled, the automatic filling machine can be used by the syrup production equipment, people firstly fill a proper amount of syrup into the conical filling shell 3, the syrup enters the filling tube 31, then the conveyor 1 is started, the medicine bottles are placed on the conveyor belt of the conveyor 1, the conveyor belt of the conveyor 1 conveys the medicine bottles, then the motor 41 is started, the output shaft of the motor 41 rotates to drive the first scraping plate 42 to rotate, the first scraping plate 42 rotates to scrape the syrup on the inner wall of the conical filling shell 3, the first scraping plate 42 rotates to drive the second scraping plate 43 to rotate, the second scraping plate 43 rotates to scrape the syrup on the inner wall of the filling tube 31, so that the adhesion of the syrup on the inner walls of the conical filling shell 3 and the filling tube 31 can be avoided, so as to avoid syrup waste, the output shaft of the motor 41 rotates the rotating rod 45 through the transmission assembly 46, the rotating rod 45 rotates to drive the stirring rod 47 to rotate, the stirring rod 47 rotates to press the first wedge block 48 to move backwards, the first spring 49 is compressed, the first wedge block 48 moves backwards to enable the baffle 411 to move backwards, so that a discharge hole on the baffle 411 corresponds to the bottom of the filling tube 31, at the moment, a medicine bottle is conveyed to the position right below the filling tube 31 by a conveying belt of the conveyor 1, syrup can flow out of the filling tube 31 into the medicine bottle, when the stirring rod 47 rotates to be separated from the first wedge block 48, the first spring 49 resets to enable the first wedge block 48 to move forwards, the first wedge block 48 enables the baffle 411 to move forwards to block the filling tube 31 again, the syrup is not flowing out of the medicine bottle, so that the syrup can be automatically and quantitatively filled, in the process that the discharge hole on the baffle 411 moves backwards and gradually corresponds to the bottom of the filling tube 31, the syrup in the filling tube 31 falls into the medicine bottle, the baffle 411 drives the iron block 51 to move backwards to be in contact with the second wedge block 52, the iron block 51 presses the second wedge block 52 to move outwards, the second spring 53 is compressed, the second wedge block 52 moves outwards to enable the moving plate 55 to move inwards, the moving plate 55 enables the impact block 57 to move inwards to impact the medicine bottle through the third spring 56, so that bubbles in the syrup in the medicine bottle can be vibrated out in the process of filling the syrup, long-term storage is facilitated after the syrup is filled, when the iron block 51 moves away from the second wedge block 52, the second spring 53 resets to enable the second wedge block 52 to move inwards, the moving plate 55 enables the impact block 57 to move outwards to reset through the third spring 56, and when the syrup is filled, the motor 41 and the conveyor 1 are turned off.

Example 2

On the basis of embodiment 1, as shown in fig. 1 and 6, the vibration mechanism 6 further comprises a vibration mechanism 6, the vibration mechanism 6 comprises a first rotating plate 61, a second rotating plate 62, a third rotating plate 63, a fixing rod 64, an iron ball 65 and a third fixing plate 66, the first rotating plate 61 is fixedly connected to the upper portion of the rotating rod 45, the third fixing plate 66 is welded to the rear upper portion of the conical filling shell 3, the third rotating plate 63 is installed on the upper portion of the third fixing plate 66 through a bearing, the second rotating plate 62 is installed between the third rotating plate 63 and the first rotating plate 61 through a bearing, the fixing rod 64 is welded to the bottom of the third rotating plate 63, the iron ball 65 is welded to the bottom of the fixing rod 64, and the iron ball 65 is located behind the right of the conical filling shell 3.

The bull stick 45 rotates and drives first rotating plate 61 and rotate, and first rotating plate 61 rotates and makes third rotating plate 63 rotate through second rotating plate 62, and third rotating plate 63 rotates and drives iron ball 65 through dead lever 64 and rotate, and iron ball 65 rotates intermittent type striking toper filling shell 3 to can make toper filling shell 3 vibrate, so can avoid the syrup adhesion to remain at toper filling shell 3 inner wall, do benefit to and avoid the syrup extravagant.

As shown in fig. 1, 7 and 8, the heating device further comprises a heating mechanism 7, the heating mechanism 7 comprises a heating pipe 71, a switch 72, a squeezing block 73, a fourth spring 74 and a fourth fixing plate 75, the heating pipe 71 is wound outside the conical filling shell 3 and the filling pipe 31, the switch 72 is mounted on the right side of the first fixing plate 44, the switch 72 is fixedly connected with the heating pipe 71, the switch 72 is electrically connected with the heating pipe 71, the fourth fixing plate 75 is welded on the rotating rod 45, the fourth spring 74 is welded on the rear side of the fourth fixing plate 75, the squeezing block 73 is fixedly connected on the rear side of the fourth spring 74, and the squeezing block 73 is in contact with the switch 72.

The rotation of the rotating rod 45 drives the fourth fixing plate 75 to rotate, the fourth fixing plate 75 enables the extrusion block 73 to rotate through the fourth spring 74, the extrusion block 73 intermittently rotates to be in contact with the switch 72, and accordingly the heating pipe 71 is intermittently started, and then the heating pipe 71 intermittently heats the conical filling shell 3 and the inside of the filling pipe 31, syrup solidification can be avoided, smooth filling of syrup can be facilitated, syrup can be avoided to remain on the inner walls of the conical filling shell 3 and the filling pipe 31, syrup waste is avoided, the extrusion block 73 is rotated to be in contact with the switch 72, the fourth spring 74 is adaptively deformed, the conical filling shell 3 and the inside of the filling pipe 31 are intermittently heated through the heating pipe 71, continuous heated deterioration of syrup is avoided, and syrup quality is maintained.

As shown in fig. 1, 9 and 10, the telescopic device further comprises an adjusting mechanism 8, the adjusting mechanism 8 comprises a telescopic rod 81, a cylinder 82 and a fifth spring 83, the telescopic rod 81 is fixedly connected to the left front side and the right side of the lower portion of the rotary rod 45, the toggle rod 47 and all the telescopic rods 81 are uniformly distributed in the circumferential direction, the telescopic rods 81 are all provided with three-stage telescopic parts, the telescopic parts of the telescopic rods 81 are fixedly connected with the fifth spring 83, the cylinders 82 are welded on the fifth spring 83, the cylinders 82 close to the rotary rod 45 extend out of the telescopic rods 81, and the rest of the cylinders 82 are propped against the inside of the telescopic rods 81.

Initially, the telescopic link 81 is all stretched out to the cylinder 82 that is close to bull stick 45, the fifth spring 83 that is close to bull stick 45 all takes place not deformation, the rest of cylinder 82 all supports inside telescopic link 81, the rest of fifth spring 83 is all compressed, in the in-process of filling syrup, when the filling volume to syrup needs to be adjusted, people can inwards press the cylinder 82 that is close to bull stick 45, make the fifth spring 83 that is close to bull stick 45 compressed, then lengthen telescopic link 81, people can pull out suitable length with telescopic link 81 as required, the telescopic link 81 is longer, the time spent, the telescopic link 81 rotates to the back with first wedge 48, can push away first wedge 48 more far, thereby can make the discharge gate on baffle 411 be close to the feed opening of filling tube 31 more, so can adjust the discharge channel of syrup, in addition, after keeping away from telescopic link 81, the fifth spring 83 reset makes the cylinder 82 that is close to bull stick 45 stretch out telescopic link 81, thereby stretch out the telescopic link 81, can make the telescopic link 81 and can be used for the time of the first wedge-shaped block 81 to make the bottle 81 and the rest of the medicine can be stretched out at the time of the telescopic link, the first wedge-shaped spring 81 is stretched out at the time of the telescopic link 81, the rest of the telescopic link is more accurate, the piston 81 is used for the time can be increased, the piston 81 is stretched out and the first wedge-shaped 81 has the piston 81, the rest of the medicine has the piston has the greatest time, the piston rod is used for the piston 81, can be compressed, and can be compressed, can be used in the bottle, and can be filled.

As shown in fig. 1, 11 and 12, the anti-leakage device further comprises an anti-leakage mechanism 9, the anti-leakage mechanism 9 comprises an arc plate 91, a circular ring 92 and a sixth spring 93, the arc plate 91 is welded on the front side and the rear side of the lower portion of the filling tube 31, the circular ring 92 is connected between the lower portions of the arc plate 91 in a sliding mode, the circular ring 92 abuts against the baffle 411, the sixth spring 93 is wound on the front side and the rear side of the upper portion of the circular ring 92 in a bilateral symmetry mode, and the upper end and the lower end of the sixth spring 93 are fixedly connected with the arc plate 91 and the circular ring 92 respectively.

During the syrup filling process, the circular ring 92 is tightly pressed against the baffle 411 by the elastic force of the sixth spring 93, so that the syrup is prevented from leaking out of the gap between the filling tube 31 and the baffle 411, thereby preventing the syrup from being wasted.

The foregoing is merely exemplary of the present invention and is not intended to limit the present invention. All equivalents and alternatives falling within the spirit of the invention are intended to be included within the scope of the invention. What is not elaborated on the invention belongs to the prior art which is known to the person skilled in the art.

Claims (8)

1. The utility model provides an automatic filling machine for syrup production facility, including conveyer (1), base (2), supporting shoe (21), toper filling shell (3) and filling tube (31), conveyer (1) are installed on base (2) upper portion, conveyer (1) are used for conveying the medicine bottle, upper left portion of the organism of conveyer (1) is connected with supporting shoe (21), toper filling shell (3) are installed on supporting shoe (21) upper portion, toper filling shell (3) bottom is connected with filling tube (31), filling tube (31) and toper filling shell (3) UNICOM, a serial communication port, still including changeing and scrape mechanism (4) and striking mechanism (5), be equipped with on supporting shoe (21) and be used for scraping the changeing and scrape mechanism (4) of reason to toper filling shell (3) and filling tube (31) inner wall, be equipped with on supporting shoe (21) and be used for shaking out impact mechanism (5) of bubble in the filled syrup medicine bottle.

2. An automatic filling machine for syrup production equipment according to claim 1, wherein the rotary scraping mechanism (4) comprises a motor (41), a first scraping plate (42), a second scraping plate (43), a first fixing plate (44), a rotating rod (45), a transmission component (46), a stirring rod (47), a first wedge block (48), a first spring (49), a second fixing plate (410) and a baffle plate (411), the upper part of the supporting block (21) is connected with the motor (41), the motor (41) is positioned right above the conical filling shell (3), the lower part of an output shaft of the motor (41) is connected with a first scraping plate (42), the first scraping plate (42) is contacted with the inner wall of the conical filling shell (3), the lower part of the first scraping plate (42) is connected with the second scraping plate (43), the second scraping plate (43) is contacted with the inner wall of the filling tube (31), the first fixing plate (44) is arranged on a machine body of the motor (41), the rotating rod (45) is connected with the rotating rod (45) on the first fixing plate (44), the upper part of the output shaft of the motor (45) and the upper part of the motor (46) is connected with the upper part of the transmission component (47) on the left side of the machine (1), the second fixed plate (410) is connected with a first wedge block (48) in a sliding mode, the poking rod (47) is in contact with the first wedge block (48), a first spring (49) is wound on the first wedge block (48), the front end and the rear end of the first spring (49) are respectively connected with the first wedge block (48) and the second fixed plate (410), the rear portion of the first wedge block (48) is connected with a baffle (411), the rear upper portion of the baffle (411) is in contact with the bottom of the filling tube (31), the rear upper portion of the baffle (411) is in contact with the bottom of the second scraping plate (43), a discharge hole is formed in the front upper portion of the baffle (411), and the bottom of the filling tube (31) is blocked by the rear upper portion of the baffle (411).

3. The automatic filling machine for syrup production equipment according to claim 2, wherein the impact mechanism (5) comprises an iron block (51), a second wedge block (52), a second spring (53), an L-shaped plate (54) and an impact assembly, the iron block (51) is connected in the middle of the left side and the right side of the baffle (411), the L-shaped plate (54) is connected to the left side and the right side of the machine body of the conveyor (1) at the side close to each other, the second wedge block (52) is connected to the L-shaped plate (54) in a sliding mode, the second spring (53) is wound on the second wedge block (52), the inner end and the outer end of the second spring (53) are respectively connected with the second wedge block (52) and the L-shaped plate (54), the iron blocks (51) at the left side and the right side are respectively positioned in front of the second wedge block (52) at the left side and the right side, and the filling assembly for impacting the filled syrup is arranged on the second wedge block (52).

4. An automatic filling machine for syrup production equipment according to claim 3, wherein the impact assembly comprises a movable plate (55), a third spring (56) and impact blocks (57), wherein the movable plate (55) is connected to the side of the second wedge block (52) which is far away from each other, the third spring (56) is connected to the side of the movable plate (55) which is close to each other, the impact blocks (57) are connected to the side of the third spring (56) which is close to each other, and the impact blocks (57) on the left and right sides are respectively positioned below and below the baffle plate (411).

5. The automatic filling machine for syrup production equipment according to claim 4, further comprising a vibration mechanism (6) for driving the conical filling shell (3) to vibrate, wherein the vibration mechanism (6) comprises a first rotating plate (61), a second rotating plate (62), a third rotating plate (63), a fixing rod (64), iron balls (65) and a third fixing plate (66), the first rotating plate (61) is connected to the upper portion of the rotating rod (45), the third fixing plate (66) is connected to the rear upper portion of the conical filling shell (3), the third rotating plate (63) is connected to the upper portion of the third fixing plate (66), the second rotating plate (62) is connected between the third rotating plate (63) and the first rotating plate (61), the fixing rod (64) is connected to the bottom of the third rotating plate (63), the iron balls (65) are located behind the right of the conical filling shell (3).

6. The automatic filling machine for syrup production equipment according to claim 5, further comprising a heating mechanism (7) for heating the syrup in the conical filling shell (3) and the filling tube (31), wherein the heating mechanism (7) comprises a heating tube (71), a switch (72), a squeezing block (73), a fourth spring (74) and a fourth fixing plate (75), the heating tube (71) is wound outside the conical filling shell (3) and the filling tube (31), the switch (72) is connected to the right side of the first fixing plate (44), the switch (72) is connected with the heating tube (71), the switch (72) is electrically connected with the heating tube (71), the fourth fixing plate (75) is connected to the rotary rod (45), the squeezing block (73) is connected to the back side of the fourth spring (74), and the squeezing block (73) is in contact with the switch (72).

7. The automatic filling machine for syrup production equipment according to claim 6, further comprising an adjusting mechanism (8) for adjusting the filling amount of the syrup, wherein the adjusting mechanism (8) comprises a telescopic rod (81), a cylinder (82) and a fifth spring (83), the telescopic rod (81) is connected to the left front side and the right side of the lower portion of the rotating rod (45), the stirring rod (47) and all the telescopic rods (81) are uniformly distributed in the circumferential direction, the telescopic rods (81) are provided with multi-stage telescopic parts, the telescopic parts of the telescopic rods (81) are respectively connected with the fifth spring (83), the cylinders (82) are respectively connected to the fifth spring (83), the cylinders (82) close to the rotating rod (45) extend out of the telescopic rods (81), and the rest of the cylinders (82) are propped against the inside of the telescopic rods (81).

8. The automatic filling machine for syrup production equipment according to claim 7, further comprising a leakage preventing mechanism (9) for preventing syrup from leaking out of the gaps between the filling pipe (31) and the baffle plate (411), wherein the leakage preventing mechanism (9) comprises an arc plate (91), a circular ring (92) and a sixth spring (93), the arc plate (91) is connected to the front side and the rear side of the lower portion of the filling pipe (31), the circular ring (92) is connected between the lower portions of the arc plate (91) in a sliding mode, the circular ring (92) abuts against the baffle plate (411), the sixth spring (93) is wound on the front side, the rear side, the left side and the right side of the upper portion of the circular ring (92), and the upper end and the lower end of the sixth spring (93) are respectively connected with the arc plate (91) and the circular ring (92).