CN212196021U - Automatic liquid sugar filling device - Google Patents

Abstract

An automatic liquid sugar filling device comprises a sugar storage tank and a plurality of quantitative filling devices consisting of valve opening mechanisms, quantitative cylinders, quantitative conveying mechanisms and filling mechanisms, wherein the sugar storage tank, the quantitative cylinders and the filling mechanisms are respectively connected with the valve opening mechanisms through pipelines, the quantitative conveying mechanisms are connected with the quantitative cylinders, and all the filling mechanisms are arranged on the same lifting frame; the filling mechanism comprises a discharge valve, a movable rod, an air blowing pipe and a first valve core driving assembly, the discharge head is connected to a first discharge port through threads, the valve opening mechanism is a three-way valve, the quantitative conveying mechanism is a driving cylinder or a screw nut assembly, and the screw nut assembly is driven by a servo motor. The blowing structure of the utility model blows the residual liquid drops on the discharging head into the filling container after filling, thereby avoiding the pollution caused by the residual liquid drops; the discharge heads with different specifications can be freely replaced to meet the requirements of different filling speeds; the servo motor drives the filling machine to improve the filling stability and precision, and can be adjusted in real time.

Description

Automatic liquid sugar filling device

Technical Field

The utility model relates to a sugaring equipment technical field especially relates to an automatic filling device of liquid sugar.

Background

Compared with solid sugar, the liquid sugar saves the operation procedures of evaporation, crystallization, drying and redissolution, is convenient to use, reduces the sugar cost, is widely applied to food processing enterprises and pharmaceutical enterprises, and is particularly suitable for products which do not need to consider the color of the sugar. With the improvement of the automation degree of production, the filling of liquid sugar is more and more automated, a small amount of residual liquid often remains in a filling head when a valve is closed after the filling of a liquid filling device, the liquid filling device cannot wait for the part of residual liquid to drop into a filling container for a long time during the filling, particularly, the flowing speed of the viscous liquid of the liquid sugar is slower, and when the filling container leaves, the residual liquid drops can drop on the outer wall of the container or an operation table, so that the cleanliness of a production line is influenced, and the filling precision is also influenced. Meanwhile, the same filling line may be adapted to the filling of liquids with different weight specifications, and if the same filling speed is adopted, the production efficiency of the line and the filling precision are affected. The existing volumetric filling machine usually adopts a quantitative cup and a quantitative cylinder to quantify, and for quantitative cylinder type quantification, a cylinder is generally adopted to drive, but the precision of cylinder type drive is low, the cylinder type drive is easy to wear, the quantification is difficult to freely adjust according to the filling quantity, and the control precision is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the shortcoming of above-mentioned prior art, provide a can get rid of the remaining liquid fast, conveniently adjust filling speed and quantitative accurate liquid sugar automatic filling device.

The utility model discloses a realize through following technical scheme:

the automatic liquid sugar filling device comprises a sugar storage tank and a plurality of quantitative filling devices connected with the sugar storage tank, wherein each quantitative filling device comprises a valve opening mechanism, a quantitative cylinder, a quantitative conveying mechanism and a filling mechanism, liquid sugar is stored in the sugar storage tank, the sugar storage tank can be under normal pressure or pressurized, when the pressure is normal, a certain fall is required between the sugar storage tank and the valve opening mechanism and between the sugar storage tank and the quantitative cylinder to ensure that the liquid sugar can freely flow, and the sugar storage tank can be provided with a stirring device, a temperature measuring device, a liquid level meter and the like as required.

The sugar storage tank, the quantitative cylinder and the filling mechanism are respectively connected with the valve opening mechanism through pipelines, and the quantitative conveying mechanism is connected with the quantitative cylinder so as to drive the quantitative cylinder to suck quantitative materials from the sugar storage tank and convey the quantitative materials to the filling mechanism; the valve opening mechanism is used for controlling the quantitative cylinder to be communicated with the sugar storage tank during quantitative determination and controlling the quantitative cylinder to be communicated with the filling mechanism during filling; all the filling mechanisms are installed on the same lifting frame, the lifting frame is connected with a lifting cylinder, the lifting cylinder drives the lifting frame to lift, the lifting frame feeds bottles when rising, and the filling is carried out when falling.

The filling mechanism comprises a filling main body, a discharging head, a discharging valve, a movable rod, an air blowing pipe and a first valve core driving assembly, wherein a cavity allowing materials to pass through is formed in the filling main body, a first feeding hole and a first discharging hole are formed in the cavity, the first feeding hole is connected with the valve opening mechanism through a soft pipeline, the discharging head is connected to the first discharging hole, the discharging valve is arranged at the first discharging hole and used for controlling whether discharging is performed or not, the movable rod is connected with the discharging valve, and the first valve core driving assembly is connected with the movable rod so as to drive the movable rod to drive the discharging valve to move and further control the opening and closing of the discharging valve; the gas blowing pipe is arranged inside the movable rod and the discharge valve, one end of the gas blowing pipe extends through the discharge valve, the other end of the gas blowing pipe is connected with a gas source, and when filling is finished, residual liquid drops on the discharge head are blown down into a filling container through gas blowing, so that the phenomenon that the residual liquid drops on the discharge head pollute a workbench or the outer wall of the filling container is avoided.

The technical scheme of further improvement is that the discharge head is connected to the first discharge port through threads, the discharge heads with different specifications can be replaced according to the size of the filling container, the discharge heads have different size specifications, and the discharge speed is adjusted by replacing the discharge heads with different specifications so as to adapt to different filling speeds. And a sealing ring is arranged at the joint of the discharging head and the first discharging hole.

The technical scheme of further improvement is that a step-shaped sealing plug is arranged between the movable rod and the filling main body and is used for sealing when the movable rod moves.

The technical scheme of further improvement is that the valve opening mechanism is a three-way valve and comprises a second feeding hole, a second discharging hole, a quantitative port, a valve core and a second valve core driving assembly, the sugar storage tank is communicated with the second feeding hole, the quantitative cylinder is communicated with the quantitative port, the filling mechanism is connected with the second discharging hole, the second valve core driving assembly drives the valve core to move linearly, the second discharging hole is communicated with the quantitative port at one end of a linear stroke, and the second feeding hole is communicated with the quantitative port at the other end of the linear stroke.

The technical scheme of further improvement is that the first valve core driving assembly or/and the second valve core driving assembly is/are driving cylinders.

The quantitative filling device comprises a valve opening mechanism, a quantitative conveying mechanism and a filling mechanism, wherein the valve opening mechanism, the quantitative conveying mechanism and the filling mechanism are respectively connected with a valve seat, the filling mechanism is arranged on the valve seat, the valve seat.

The quantitative cylinder is a piston cylinder and comprises a cylinder body and a piston rod, the piston rod is connected with the quantitative conveying mechanism, the quantitative conveying mechanism drives the piston rod to move linearly to suck and feed materials, the materials are sucked quantitatively by controlling the stroke of the piston rod, and the quantitative amount can be adjusted by adjusting the stroke of the piston rod.

The further improved technical scheme is that the quantitative conveying mechanism is a driving cylinder or a screw nut assembly.

The further improved technical proposal is that the screw rod nut component comprises a fixed frame, a screw rod, a driving nut, a movable frame and a driving component, the screw rod is movably connected in the fixed frame through a bearing, the fixed frame is provided with a guide groove, the driving nut is provided with a convex part matched with the guide groove, the driving nut is screwed on the screw rod, the convex part protrudes into the guide groove and can slide along the guide groove, one end of the movable frame is connected with the driving nut through the convex part, the other end of the movable frame is fixedly connected with the piston rod, the driving assembly is in driving connection with the screw rod to drive the screw rod to rotate, the driving assembly drives the screw rod to rotate, the screw rod drives the driving nut to slide along the guide groove, thereby driving the movable frame to move, the movable frame driving the piston rod to move, and the quantitative cylinder sucking and feeding materials.

The technical scheme of further improvement is that the drive assembly comprises a servo motor, a driving pulley, a driven pulley and a synchronous belt, the servo motor is in driving connection with the driving pulley, the driven pulley is in driving connection with the screw rod, the driven pulley is connected with the driving pulley through the synchronous belt, and the stroke size of the piston rod can be accurately controlled through the servo motor.

The utility model discloses a set up the structure of blowing on filling mechanism, when the filling is finished, blow off the residual liquid drop on the discharging head to the filling container in through blowing, avoid residual liquid drop to drip and pollute filling container outer wall or operation panel, also improved filling efficiency and precision; through the movable connection mode of the threads between the discharging head and the discharging port, the discharging heads with different specifications can be freely replaced according to the size of the filling container, and the requirements of different filling speeds and filling precision are met; the servo motor is adopted to drive the screw rod, so that the piston rod is driven to suck and feed materials, compared with a mode of cylinder driving, the filling stability and precision are improved, the material sucking and feeding can be realized by adjusting the speed, the steering direction and the angle of the servo motor, and the filling speed and the filling quantity can be adjusted in real time; the valve opening mechanism adopts a three-way valve and is driven by an air cylinder, so that the valve opening mechanism is accurate and reliable and realizes automatic control.

Drawings

Fig. 1 is a schematic side view of an embodiment of the present invention.

Fig. 2 is a schematic front structural diagram of an embodiment of the present invention.

Fig. 3 is a structural section view of the filling mechanism in the embodiment of the present invention.

Fig. 4 is a sectional view of an operating state of the valve opening mechanism according to the embodiment of the present invention.

Fig. 5 is a sectional view showing another operation state of the valve opening mechanism according to the embodiment of the present invention.

Fig. 6 is a schematic structural view of a quantitative cylinder and a quantitative conveying mechanism in an embodiment of the present invention.

Reference numerals: 1-sugar storage tank; 2-a valve opening mechanism; 3-a quantitative cylinder; 4-a quantitative conveying mechanism; 5-a filling mechanism; 6-lifting frame; 7-a lifting cylinder; 21-a second feed port; 22-a dosing port; 23-a second discharge port; 24-a valve core; 25-a second spool drive assembly; 31-cylinder body; 32-a piston rod; 41-a fixing frame; 411-a guide slot; 42-a screw rod; 43-a drive nut; 431-a boss; 44-a movable frame; 45-a drive assembly; 451-servo motor; 452 — a drive pulley; 453-synchronous belt; 454-a driven pulley; 501-filling the main body; 502-a cavity; 503-a first feed port; 504-a first discharge port; 505-discharging the stub bar; 506-a discharge valve; 507-a movable rod; 508-an air blowing pipe; 509-a first spool drive assembly; 510-a gas source; 511-sealing ring; 512-sealing plug.

Detailed Description

An automatic liquid sugar filling device is shown in figures 1 and 2 and comprises a sugar storage tank 1 and a plurality of quantitative filling devices connected with the sugar storage tank 1, wherein each quantitative filling device comprises a valve opening mechanism 2, a quantitative cylinder 3, a quantitative conveying mechanism 4 and a filling mechanism 5, liquid sugar is stored in the sugar storage tank 1, the sugar storage tank 1 can be under normal pressure or pressurized, when the pressure is normal pressure, a certain fall is required between the sugar storage tank 1 and the valve opening mechanism 2 and between the sugar storage tank 1 and the quantitative cylinder 3 to ensure that the liquid sugar can freely flow, and a stirring device, a temperature measuring device, a liquid level meter and the like can be installed on the sugar storage tank 1 as required. The quantity of quantitative filling device can set up according to actual need, the utility model discloses in be provided with 4 quantitative filling devices.

The sugar storage tank 1, the quantitative cylinder 3 and the filling mechanism 5 are respectively connected with the valve opening mechanism 2 through pipelines, and the quantitative conveying mechanism 4 is connected with the quantitative cylinder 3 so as to drive the quantitative cylinder 3 to suck quantitative materials from the sugar storage tank 1 and convey the quantitative materials to the filling mechanism 5; the valve opening mechanism 2 is used for controlling the quantitative cylinder 3 to be communicated with the sugar storage tank 1 during quantitative determination, and controlling the quantitative cylinder 3 to be communicated with the filling mechanism 5 during filling; all filling mechanism 5 all installs on same crane 6, crane 6 links to each other with lift cylinder 7, and lift cylinder 7 drive crane 6 goes up and down, advances the bottle when crane 6 rises, and the filling when descending.

As shown in fig. 3, the filling mechanism 5 includes a filling main body 501, a discharging head 505, a discharging valve 506, a movable rod 507, a blowing pipe 508 and a first valve core driving assembly 509, a cavity 502 allowing materials to pass through is provided on the filling main body 501, a first feeding port 503 and a first discharging port 504 are provided on the cavity 502, the first feeding port 503 is connected to the valve opening mechanism 2 through a soft pipe, the discharging head 505 is connected to the first discharging port 504, the discharging valve 506 is provided at the first discharging port 504 for controlling filling and discharging, the movable rod 507 is connected to the discharging valve 506, and the first valve core driving assembly 509 is connected to the movable rod 507 to drive the discharging valve 506 to move so as to control opening and closing of the discharging valve 506; the air blowing pipe 508 is arranged inside the movable rod 507 and the discharge valve 506, one end of the air blowing pipe extends through the discharge valve 506, the other end of the air blowing pipe is connected with an air source 510, and when filling is finished, residual liquid drops on the discharge head 505 are blown into a filling container through air blowing, so that the phenomenon that the residual liquid drops on the discharge head 505 pollute a workbench or the outer wall of the filling container is avoided.

The discharging head 505 is connected to the first discharging port 504 through threads, the discharging heads 505 with different specifications can be replaced according to the size of the filling container, the discharging heads 505 have different dimensions, and the discharging speed is adjusted by replacing the discharging heads 505 with different specifications so as to adapt to different filling speeds. A sealing ring 511 is arranged at the joint of the material outlet head 505 and the first material outlet 504. A step-shaped sealing plug 512 is arranged between the movable rod 507 and the filling main body 501 and is used for sealing when the movable rod 507 moves.

As shown in fig. 4 and 5, the valve opening mechanism 2 is a three-way valve including a second inlet port 21, a second outlet port 23, a dosing port 22, a valve body 24, and a second valve body driving unit 25, the sugar tank 1 communicates with the second inlet port 21, the dosing cylinder 3 communicates with the dosing port 22, the filling mechanism 5 communicates with the second outlet port 23, the second valve body driving unit 25 drives the valve body 24 to move linearly, the second outlet port 23 communicates with the dosing port 22 at one end of a linear stroke (as shown in fig. 4), and the second inlet port 21 communicates with the dosing port 22 at the other end of the linear stroke (as shown in fig. 5).

The first valve element drive assembly 509 or/and the second valve element drive assembly 25 is a drive cylinder.

As shown in fig. 6, the quantitative cylinder 3 is a piston cylinder, and includes a cylinder body 31 and a piston rod 32, the piston rod 32 is connected to the quantitative conveying mechanism 4, the quantitative conveying mechanism 4 drives the piston rod 32 to move linearly to suck and feed materials, the material is sucked quantitatively by controlling the stroke of the piston rod 32, and the quantitative amount can be adjusted by adjusting the stroke of the piston rod 32. The quantitative conveying mechanism 4 can be a driving air cylinder or a screw nut assembly.

In this embodiment, as shown in fig. 6, the quantitative conveying mechanism 4 is a screw nut assembly, and includes a fixed frame 41, a screw rod 42, a driving nut 43, a movable frame 44 and a driving assembly 45, the screw rod 42 is movably connected in the fixed frame 41 through a bearing, the fixed frame 41 is provided with a guide slot 411, the driving nut 43 is provided with a protrusion 431 matching with the guide slot 411, the driving nut 43 is screwed on the screw rod 42, the protrusion 431 protrudes into the guide slot 411 and can slide along the guide slot 411, one end of the movable frame 44 is connected to the driving nut 43 through the protrusion 431, the other end is fixedly connected to the piston rod 32, the driving assembly 45 is drivingly connected to the screw rod 42 to drive the screw rod 42 to rotate, the driving assembly 45 drives the screw rod 42 to rotate, the screw rod 42 drives the driving nut 43 to slide along the guide slot 411, thereby driving the movable frame 44 to move, the movable frame 44 driving the piston rod 32 to move, and the quantitative cylinder 3 sucking and feeding materials. The driving assembly 45 comprises a servo motor 451, a driving pulley 452, a driven pulley 454 and a synchronous belt 453, the servo motor 451 is in driving connection with the driving pulley 452, the driven pulley 454 is in driving connection with the lead screw 42, the driven pulley 454 is connected with the driving pulley 452 through the synchronous belt 453, and the stroke of the piston rod 32 can be precisely controlled through the servo motor 451.

The automatic liquid sugar filling device of the embodiment further comprises a controller, the controller is electrically connected with the second valve core driving assembly 25 in the valve opening mechanism 2, the servo motor 451 on the quantitative conveying mechanism 4 and the first valve core driving assembly 509 in the filling mechanism 5, and the automatic quantitative and automatic filling of the materials are realized by controlling the first valve core driving assembly 509, the second valve core driving assembly 25 and the servo motor 451.

The specific filling process is as follows: when the fact that the filling container on the conveying belt is in place is sensed, the valve core 24 in the valve opening mechanism 2 moves downwards, as shown in fig. 4, the sugar storage tank 1 is communicated with the quantitative cylinder 3, the servo motor 451 is started at the same time, the piston rod 32 is driven to move rightwards, and materials flow into the cylinder body 31 of the piston cylinder; when the piston rod 32 moves to the set position, the servo motor 451 rotates reversely, and simultaneously the valve core 24 in the valve opening mechanism 2 moves upwards, as shown in fig. 5, the outlet of the sugar tank 1 is cut off, the filling mechanism 5 is communicated with the dosing cylinder 3, the discharge valve 506 in the filling mechanism 5 simultaneously moves upwards, the first discharge port 504 of the filling mechanism 5 is communicated with the first feed port 503, and the material is pushed into the filling container by the dosing cylinder 3 through the valve opening mechanism 2 and the filling mechanism 5 under the driving of the servo motor 451 and the screw rod 42; when filling is finished, the discharge valve 506 in the filling mechanism 5 moves downwards to cut off the inflow of the materials, meanwhile, the blowing pipe 508 is connected with the air source 510, and blowing air is blown to the discharge head 505 from the blowing pipe 508 to blow off the residual liquid drops on the discharge head 505 into the filling container.

The above detailed description is specific to possible embodiments of the present invention, and the embodiments are not intended to limit the scope of the present invention, and all equivalent implementations or modifications that do not depart from the scope of the present invention should be included within the scope of the present invention.

Claims (10)

1. An automatic liquid sugar filling device is characterized by comprising a sugar storage tank and a plurality of quantitative filling devices connected with the sugar storage tank, wherein each quantitative filling device comprises a valve opening mechanism, a quantitative cylinder, a quantitative conveying mechanism and a filling mechanism, liquid sugar is stored in the sugar storage tank, the quantitative cylinder and the filling mechanism are respectively connected with the valve opening mechanism through pipelines, and the quantitative conveying mechanism is connected with the quantitative cylinder so as to drive the quantitative cylinder to suck quantitative materials from the sugar storage tank and convey the quantitative materials to the filling mechanism;

the valve opening mechanism is used for controlling the quantitative cylinder to be communicated with the sugar storage tank during quantitative determination and controlling the quantitative cylinder to be communicated with the filling mechanism during filling; all the filling mechanisms are arranged on the same lifting frame, and the lifting frame is connected with a lifting cylinder to lift the lifting frame for filling;

the filling mechanism comprises a filling main body, a discharging head, a discharging valve, a movable rod, an air blowing pipe and a first valve core driving assembly, wherein a cavity allowing materials to pass through is formed in the filling main body, a first feeding hole and a first discharging hole are formed in the cavity, the first feeding hole is connected with the valve opening mechanism through a soft pipeline, the discharging head is connected to the first discharging hole, the discharging valve is arranged at the first discharging hole and used for controlling whether discharging is performed or not, the movable rod is connected with the discharging valve, and the first valve core driving assembly is connected with the movable rod so as to drive the movable rod to drive the discharging valve to move and further control the opening and closing of the discharging valve; the air blowing pipe is arranged inside the movable rod and the discharge valve, one end of the air blowing pipe extends through the discharge valve, the other end of the air blowing pipe is connected with an air source, and residual liquid drops on the discharge head are blown down into a filling container through air blowing after filling is finished.

2. The automatic liquid sugar filling device according to claim 1, wherein the discharging head is connected to the first discharging port through a screw thread, and a sealing ring is arranged at a joint of the discharging head and the first discharging port.

3. An automatic liquid sugar filling apparatus as claimed in claim 1, wherein a stepped sealing plug is provided between the movable rod and the filling body.

4. The automatic liquid sugar filling device according to claim 1, wherein the valve opening mechanism is a three-way valve including a second inlet, a second outlet, a dosing port, a valve element, and a second valve element driving unit, the sugar tank is connected to the second inlet, the dosing cylinder is connected to the dosing port, the filling mechanism is connected to the second outlet, the second valve element driving unit drives the valve element to move linearly, the second outlet is connected to the dosing port at one end of the linear stroke, and the second inlet is connected to the dosing port at the other end of the linear stroke.

5. An automatic liquid sugar filling apparatus according to claim 4, wherein the first valve core driving assembly or/and the second valve core driving assembly is/are a driving cylinder.

6. An automatic liquid sugar filling apparatus according to claim 1, further comprising a controller electrically connected to the valve opening mechanism, the quantitative conveying mechanism and the filling mechanism, respectively, for controlling the operations of the valve opening mechanism, the filling mechanism and the quantitative conveying mechanism.

7. The automatic liquid sugar filling device according to any one of claims 1 to 6, wherein the quantitative cylinder is a piston cylinder and comprises a cylinder body and a piston rod, the piston rod is connected with the quantitative conveying mechanism, the quantitative conveying mechanism drives the piston rod to move linearly to suck and feed materials, and the quantitative suction is realized by controlling the stroke of the piston rod.

8. An automatic liquid sugar filling apparatus according to claim 7, wherein said quantitative transfer mechanism is a driving cylinder or a screw nut assembly.

9. The automatic liquid sugar filling device according to claim 8, wherein the screw-nut assembly comprises a fixed frame, a screw, a driving nut, a movable frame and a driving assembly, the screw is movably connected in the fixed frame through a bearing, a guide groove is formed in the fixed frame, a protruding portion matched with the guide groove is arranged on the driving nut, the driving nut is screwed on the screw and protrudes into the guide groove and can slide along the guide groove, one end of the movable frame is connected with the driving nut through the protruding portion, the other end of the movable frame is fixedly connected with the piston rod, and the driving assembly is in driving connection with the screw to drive the screw to rotate.

10. The automatic liquid sugar filling device according to claim 9, wherein the driving assembly comprises a servo motor, a driving pulley, a driven pulley and a synchronous belt, the servo motor is in driving connection with the driving pulley, the driven pulley is in driving connection with the screw rod, and the driven pulley is connected with the driving pulley through the synchronous belt.

Images