CN113636518A - Essence quantitative filling device - Google Patents

Abstract

The invention relates to the technical field of essence production, in particular to an essence quantitative filling device, which comprises a storage tank, a filling platform, a storage platform and a discharge nozzle, and further comprises: the moving piece is arranged in the flow channel; the valve unit is arranged on the discharging nozzle; the opening and closing control module is arranged between the object placing table and the discharging nozzle and is electrically connected with the valve unit; the quantitative adjusting system is arranged on the discharging nozzle, is connected with the movable piece and is used for monitoring the volume of the materials discharged from the discharging nozzle and controlling the closing of the valve unit; whole flow automation degree is high, and traditional staff is according to the mode of the filling bottle manual control valve of equidimension not relatively, and the precision is higher, is difficult to the condition that the flash appears moreover.

Description

Essence quantitative filling device

Technical Field

The invention relates to the technical field of essence production, in particular to an essence quantitative filling device.

Background

The edible essence is a product with specific aroma or fragrance, which is formed by mixing a plurality of natural spices, synthetic spices and a plurality of auxiliary materials according to a certain proportion, and is one of the most important food additives. The edible essence has two states of liquid and powder. The edible liquid essence is prepared by mixing various edible spices and auxiliary materials such as distilled water, edible ethanol, propylene glycol, glycerol triacetate, edible refined oil and the like according to a certain proportion.

Essence need adopt the liquid filling machine to sell work in its filling bottle of pouring into various in the production process, and traditional liquid filling machine includes material jar, filling head and filling platform and constitutes, has a series of defects.

When the filling bottle of current liquid filling machine to different capacity carries out the pouring of spices, need the staff manual regulation filling head open and close, lead to finally the spices volume of pouring in not of uniform size, the precision is lower.

Disclosure of Invention

The invention aims to provide an essence quantitative filling device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides an essence ration filling device, includes storage tank, filling platform, puts thing platform and ejection of compact mouth, the storage tank sets up on the filling platform, it sets up to put the thing platform on the filling platform, in addition, the ejection of compact mouth sets up on the storage tank, be equipped with in the ejection of compact mouth and supply material exhaust runner, still include:

the moving piece is arranged in the flow channel, and when the material passes through the moving piece, the moving piece moves;

the valve unit is arranged on the discharging nozzle and used for controlling the opening and closing of the flow channel;

the opening and closing control module is arranged between the object placing table and the discharging nozzle, is electrically connected with the valve unit, and controls the valve unit to be opened when filling bottles are placed on the object placing table; and

the quantitative adjusting system is arranged on the discharging nozzle, is connected with the movable piece and is used for monitoring the volume of the materials discharged from the discharging nozzle and controlling the closing of the valve unit; wherein

Quantitative governing system includes control box, conductive head, busbar and trigger end at least, the control box sets up on the ejection of compact mouth, the busbar with the moving part is connected and the activity sets up in the control box, the conductive head activity sets up in the control box and with busbar sliding fit, in addition, the trigger end sets up on the busbar, the conductive head is located on the removal route of trigger end, the conductive head with during the contact of trigger end, the valve unit is closed.

The application further adopts the technical scheme that: the valve unit comprises a valve plate and a power source;

the valve plate activity sets up in the ejection of compact mouth, the power supply is connected the valve plate with between the ejection of compact mouth, the power supply is adjustable the position of valve plate.

The application further adopts the technical scheme that: the object placing table is movably arranged on the filling platform and is connected with the filling platform through a connecting piece;

the opening and closing control module comprises a pull rod and a toggle switch, the pull rod and the toggle switch are respectively arranged on the object placing table and the discharging nozzle, and the toggle switch is located on a moving path of the pull rod.

The application further adopts the technical scheme that: the quantitative adjusting system also comprises a transmission unit, a resetting piece, an adjusting seat and a movable pointer;

the transmission unit is connected between the moving part and the conductive head, the moving part controls the conductive strips to move synchronously through the transmission unit when moving, and the movable pointer is movably arranged in the control box through the adjusting seat;

the reset piece is arranged in the control box and connected with the transmission unit, and the reset piece is used for controlling the transmission unit to reset.

This application still further technical scheme: the transmission unit includes:

the first gear is movably arranged in the control box and is connected with the movable piece;

the second gear is movably arranged in the control box through a hollow shaft and is meshed with the first gear; and

the adjusting plate is connected with the second gear, the conducting bar is arranged on the adjusting plate, and the resetting piece is connected with the adjusting plate.

This application still further technical scheme: and scales are arranged on one side of the conductive strip on the adjusting disc, and positioning holes matched with the scales are arranged on the movable pointer.

This application still further technical scheme: the hollow shaft is arranged in the cavity, the speed adjusting module is arranged between the adjusting seat and the hollow shaft and used for controlling the filling speed of the material, and the speed adjusting module is electrically connected with the valve unit.

The application adopts a further technical scheme that: the speed adjusting module comprises a resistance strip, a first connector lug, a second connector lug and a conductive block;

the resistance strip sets up on the hollow shaft and through the second connector lug with power supply electric connection, the conducting block with adjust the seat and connect and pass through first connector lug with power supply electric connection, the conducting block with resistance strip sliding fit.

Compared with the prior art, the technical scheme provided by the embodiment of the invention has the following beneficial effects:

according to the embodiment of the invention, the linkage structure is arranged, the rotating blade is controlled to rotate by utilizing the power action of materials when the materials pass through the flow channel, so that the positions of the conductive strips and the trigger end are changed, when the conductive head is contacted with the trigger end, the valve unit is closed, the filling work is finished, on one hand, the quantitative infusion work required by different filling quantities is realized by adjusting the position of the conductive head, on the other hand, the opening and closing size of the flow channel can be adjusted by controlling the valve unit according to different filling quantities, the filling work is carried out according to the optimal infusion speed, the automation degree of the whole process is high, and compared with the mode that the traditional worker manually controls the valve according to filling bottles with different sizes, the accuracy is higher, and the phenomenon of material overflow is not easy to occur.

Drawings

Fig. 1 is a schematic structural diagram of an essence quantitative filling device in the embodiment of the invention;

fig. 2 is a schematic structural diagram of a top amount adjusting system in the essence quantitative filling device in the embodiment of the invention;

fig. 3 is a schematic structural diagram of a movable pointer and a conductive head in the essence quantitative filling device in the embodiment of the invention;

fig. 4 is a schematic structural diagram of a speed adjusting module in the essence quantitative filling device in the embodiment of the invention;

fig. 5 is a schematic structural diagram of a valve unit in the essence quantitative filling device in the embodiment of the invention.

The reference numerals in the schematic drawings illustrate:

1-a material storage tank, 2-a filling platform, 3-a placing table, 4-a discharging nozzle, 5-a flow channel, 6-a rotating blade, 7-a quantitative adjusting system, 71-a first gear, 72-a second gear, 73-an adjusting disc, 74-a hollow shaft, 75-a conductive strip, 76-a movable pointer, 77-a conductive head, 78-scales and 79-a trigger end, 710-a spiral spring, 711-an adjusting seat, 712-a speed adjusting module, 7121-a resistor strip, 7122-a first connector lug, 7123-a second connector lug, 7124-a conductive block, 8-a valve unit, 801-a valve plate, 802-a through hole, 803-an electromagnet, 9-an on-off control module, 901-a pull rod, 902-a toggle switch and 10-a connecting piece.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments of the present invention, belong to the protection scope of the present invention, and the present invention is further described with reference to the embodiments below.

Referring to fig. 1-5, in an embodiment of the present application, an essence quantitative filling device includes a storage tank 1, a filling platform 2, a storage platform 3 and a discharge nozzle 4, the storage tank 1 is disposed on the filling platform 2, the storage platform 3 is disposed on the filling platform 2, in addition, the discharge nozzle 4 is disposed on the storage tank 1, a flow channel 5 for discharging materials is provided in the discharge nozzle 4, and the essence quantitative filling device further includes:

the moving piece is arranged in the flow channel 5, and when the material passes through the moving piece, the moving piece moves;

the valve unit 8 is arranged on the discharging nozzle 4 and used for controlling the opening and closing of the flow channel 5;

the opening and closing control module 9 is arranged between the object placing table 3 and the discharging nozzle 4, the opening and closing control module 9 is electrically connected with the valve unit 8, and when filling bottles are placed on the object placing table 3, the opening and closing control module 9 controls the valve unit 8 to be opened; and

the quantitative adjusting system 7 is arranged on the discharging nozzle 4, and the quantitative adjusting system 7 is connected with the movable member and is used for monitoring the volume of the material discharged from the discharging nozzle 4 and controlling the closing of the valve unit 8; wherein

Quantitative governing system 7 includes control box, conductive head 77, conducting strip 75 and trigger end 79 at least, the control box sets up on ejection of compact mouth 4, the conducting strip 75 with the moving part is connected and the activity sets up in the control box, conductive head 77 activity sets up in the control box and with conducting strip 75 sliding fit, in addition, trigger end 79 sets up on the conducting strip 75, conductive head 77 is located on the removal route of trigger end 79, conductive head 77 with when the contact of trigger end 79, valve unit 8 is closed.

In a specific case of this embodiment, the movable member is preferably a rotary vane 6, the rotary vane 6 is rotatably mounted in the flow passage 5, and as shown in fig. 1, the rotary vane 6 is located at the lower side of the valve unit 8, however, the movable member may be replaced by a rotor flow meter or an electromagnetic flow meter cooperating with a motor, for example, the rotor flow meter monitors the discharge of the material and the motor controls the conductive strip 75 to move relative to the conductive head 77.

When placing the filling bottle on putting thing platform 3, the work of 9 control valve unit of start-stop control module and conductive head 77 and the circuit switch-on that conducting bar 75 located, when the material in the storage tank 1 pours into the filling bottle from ejection of compact mouth 4 through runner 5, drive leaf 6 and rotate, leaf 6 drives the motion of conducting bar 75 simultaneously, reach triggering end 79 and the contact of conductive head 77, at this moment, control valve unit 8 closes, stop the filling work of material, through adjusting the position of conductive head 77, with the distance between change conductive head 77 and the triggering end 79, and then realize carrying out the ration to the content of the instillation material at every turn and adjust, whole flow degree of automation is high, and feel the filling mode for traditional manual work, the precision is higher, can effectively carry out the filling work that different containers required.

Referring to fig. 1 and 5, as a preferred embodiment of the present application, the valve unit 8 includes a valve plate 801 and a power source;

the valve plate 801 is movably arranged in the discharging nozzle 4, the power source is connected between the valve plate 801 and the discharging nozzle 4, and the position of the valve plate 801 can be adjusted by the power source.

It should be specifically noted that the power source may be a linear motor, an electric cylinder, an air cylinder, or the like, as long as the position adjustment of the valve plate 801 can be achieved, here, the power source is preferably a set of electromagnets 803 that are electrified and attracted, the valve plate 801 is elastically connected with the inner wall of the flow passage 5, and a set of the electromagnets 803 is disposed between the inner wall of the flow passage 5 and the valve plate 801;

it should be noted that the valve plate 801 is provided with a through hole 802, and when the valve unit 8 is not in operation, the through hole 802 is displaced from the flow path 5 as shown in fig. 5.

In the present embodiment, the object placing table 3 is movably disposed on the filling platform 2, and the object placing table and the filling platform are connected through a connecting member 10;

the on-off control module 9 includes a pull rod 901 and a toggle switch 902, the pull rod 901 and the toggle switch 902 are respectively disposed on the object placing table 3 and the discharging nozzle 4, and the toggle switch 902 is located on a moving path of the pull rod 901.

It should be particularly noted that the connecting member 10 includes a spring and an expansion link, the expansion link is connected between the object placing table 3 and the filling platform 2, and the spring is sleeved on an outer wall of an output end of the expansion link.

When placing the filling bottle on putting thing platform 3, under the self pressure effect of filling bottle, put thing platform 3 and drive pull rod 901 and move down as shown in fig. 1 to thereby inconsistent the realization with toggle switch 902 is inhaled mutually to circular telegram between electro-magnet 803, makes valve plate 801 remove, coincides between through-hole 802 and the runner 5, and the material in the storage tank 1 pours into the filling bottle along runner 5 this moment, and still controls the circuit switch-on that conducting head 77 and busbar 75 locate simultaneously.

Referring to fig. 1-3, as another preferred embodiment of the present application, the quantitative adjustment system 7 further includes a transmission unit, a reset member, an adjustment seat 711, and a movable pointer 76;

the transmission unit is connected between the movable member and the conductive head 77, the movable member controls the conductive strip 75 to move synchronously through the transmission unit when moving, and the movable pointer 76 is movably arranged in the control box through the adjusting seat 711;

the reset piece is arranged in the control box and connected with the transmission unit, and the reset piece is used for controlling the transmission unit to reset.

It should be specifically noted that the resetting member may adopt a tension spring, a clockwork 710 or other elastic members, in this embodiment, the resetting member is preferably the clockwork 710, a fixed end of the clockwork 710 is disposed on the control box, and a free end of the clockwork 710 is connected to the transmission unit.

In this embodiment, the transmission unit includes:

the first gear 71 is movably arranged in the control box and is connected with the movable piece;

a second gear 72 movably disposed in the control box through a hollow shaft 74, wherein the second gear 72 is engaged with the first gear 71; and

an adjusting plate 73 connected to the second gear 72, wherein the conductive strip 75 is disposed on the adjusting plate 73, and the reset member is connected to the adjusting plate 73.

Preferably, a scale 78 is disposed on one side of the adjusting plate 73, which is located on the conductive strip 75, and a positioning hole matched with the scale 78 is disposed on the movable pointer 76.

It should be noted that, the adjusting seat 711 is concentric with the hollow shaft 74 and is in sliding fit with the hollow shaft, and the rotating vane 6 and the first gear 71 are coaxially and fixedly installed.

When the material pours into the filling bottle through runner 5, rotating vane 6 constantly rotates, thereby drive first gear 71 and rotate, under the meshing between first gear 71 and second gear 72, second gear 72 drives adjusting disc 73 and rotates, thereby change the position of conducting strip 75 relative conducting head 77, when trigger end 79 and conducting head 77 contact, control electro-magnet 803 outage this moment, valve plate 801 resets and closes runner 5, and adjust the position of activity pointer 76 according to the filling bottle of different capacity, indirectly change the interval between conducting head 77 and the trigger end 79, thereby effectual quantitative filling control to the material has been realized.

Referring to fig. 4 and 5, as another preferred embodiment of the present application, a speed adjusting module 712 is further included, and is disposed between the adjusting seat 711 and the hollow shaft 74, the speed adjusting module 712 is used for controlling the filling speed of the material, and the speed adjusting module 712 is electrically connected to the valve unit 8.

In one particular case of the present embodiment, the speed adjustment module 712 includes a resistive strip 7121, a first wire connector 7122, a second wire connector 7123, and a conductive block 7124;

the resistance strip 7121 is disposed on the hollow shaft 74 and electrically connected to the power source through the second connector terminal 7123, the conductive block 7124 is connected to the adjusting seat 711 and electrically connected to the power source through the first connector terminal 7122, and the conductive block 7124 is in sliding fit with the resistance strip 7121.

Of course, the speed adjusting module 712 is not limited to the above structure, and may also be replaced by a method of detecting the position of the conductive head 77 by using an infrared distance measuring sensor/laser distance measuring sensor, so as to control the current magnitude of the circuit where the electromagnet 803 is located, which is not listed here.

Specifically, the adjusting seat 711 is movably disposed on the control box, and the hollow shaft 74 is fixed on the control box.

When the position of adjusting seat 711 and conducting head 77 is required to change according to different filling volumes, contact between conducting block 7124 and the resistance strip 7121 of different positions, thereby make the resistance length between first connector lug 7122 and the second connector lug 7123 different, the realization is changed the resistance of the circuit that electro-magnet 803 is located, when the filling volume is great, conducting head 77 is far away with the position of trigger end 79, resistance length is little (resistance is little) this moment, thereby make valve unit 8 during operation, the coincidence area between through-hole 802 and runner 5 is great, filling speed is big, vice versa, thereby realize the relation between filling speed and the filling volume, make different filling volumes correspond best filling speed, avoid the condition of flash.

The working principle of the application is as follows: when a filling bottle is placed on the placing table 3, under the action of the self pressure of the filling bottle, the placing table 3 drives the pull rod 901 to move downwards as shown in fig. 1, so as to be abutted against the toggle switch 902, thereby realizing the attraction of the electromagnet 803, causing the valve plate 801 to move, causing the through hole 802 to coincide with the flow channel 5, filling the material in the storage tank 1 into the filling bottle along the flow channel 5, and simultaneously controlling the conduction head 77 and the conductive strip 75 to be connected, when the material is filled into the filling bottle through the flow channel 5, the rotary vane 6 continuously rotates, thereby driving the first gear 71 to rotate, under the meshing action between the first gear 71 and the second gear 72, the second gear 72 drives the adjusting disc 73 to rotate, thereby changing the position of the conductive strip 75 relative to the conductive head 77, when the trigger end 79 is contacted with the conductive head 77, controlling the electromagnet 803, resetting the power-off valve plate 801 to close the flow channel 5, and the position of the movable pointer 76 is adjusted according to the filling bottles with different capacities, the distance between the conductive head 77 and the trigger end 79 is indirectly changed, so that the quantitative filling control of the materials is effectively realized, when the positions of the adjusting seat 711 and the conductive head 77 are changed according to different filling quantity requirements, the conductive block 7124 is contacted with the resistor strips 7121 at different positions, so that the resistor lengths between the first wire connector 7122 and the second wire connector 7123 are different, the resistance of a circuit where the electromagnet 803 is located is changed, when the filling quantity is larger, the positions of the conductive head 77 and the trigger end 79 are farther, at the moment, the resistor length is small, so that when the valve unit 8 works, the overlapping area between the through hole 802 and the flow channel 5 is larger, the filling speed is larger, and vice versa, so that the relation between the filling speed and the filling quantity is realized, and different filling quantities correspond to the optimal filling speed, avoiding the occurrence of flash.

The present invention and its embodiments have been described above schematically, without limitation, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if the person skilled in the art receives the teaching, without departing from the spirit of the invention, the person skilled in the art shall not inventively design the similar structural modes and embodiments to the technical solution, but shall fall within the scope of the invention.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides an essence ration filling device, includes storage tank, filling platform, puts thing platform and ejection of compact mouth, the storage tank sets up on the filling platform, it sets up to put the thing platform on the filling platform, in addition, the ejection of compact mouth sets up on the storage tank, be equipped with in the ejection of compact mouth and supply material exhaust runner, its characterized in that still includes:

the moving piece is arranged in the flow channel, and when the material passes through the moving piece, the moving piece moves;

the valve unit is arranged on the discharging nozzle and used for controlling the opening and closing of the flow channel;

the opening and closing control module is arranged between the object placing table and the discharging nozzle, is electrically connected with the valve unit, and controls the valve unit to be opened when filling bottles are placed on the object placing table; and

the quantitative adjusting system is arranged on the discharging nozzle, is connected with the movable piece and is used for monitoring the volume of the materials discharged from the discharging nozzle and controlling the closing of the valve unit; wherein

Quantitative governing system includes control box, conductive head, busbar and trigger end at least, the control box sets up on the ejection of compact mouth, the busbar with the moving part is connected and the activity sets up in the control box, the conductive head activity sets up in the control box and with busbar sliding fit, in addition, the trigger end sets up on the busbar, the conductive head is located on the removal route of trigger end, the conductive head with during the contact of trigger end, the valve unit is closed.

2. An essence quantitative filling device according to claim 1, wherein the valve unit comprises a valve plate and a power source;

the valve plate activity sets up in the ejection of compact mouth, the power supply is connected the valve plate with between the ejection of compact mouth, the power supply is adjustable the position of valve plate.

3. The essence quantitative filling device according to claim 1, wherein the placing table is movably arranged on the filling platform and connected with the filling platform through a connecting piece;

the opening and closing control module comprises a pull rod and a toggle switch, the pull rod and the toggle switch are respectively arranged on the object placing table and the discharging nozzle, and the toggle switch is located on a moving path of the pull rod.

4. The essence quantitative filling device according to claim 2, wherein the quantitative adjusting system further comprises a transmission unit, a reset member, an adjusting seat and a movable pointer;

the transmission unit is connected between the moving part and the conductive head, the moving part controls the conductive strips to move synchronously through the transmission unit when moving, and the movable pointer is movably arranged in the control box through the adjusting seat;

the reset piece is arranged in the control box and connected with the transmission unit, and the reset piece is used for controlling the transmission unit to reset.

5. An essence quantitative filling device according to claim 4, wherein the transmission unit includes:

the first gear is movably arranged in the control box and is connected with the movable piece;

the second gear is movably arranged in the control box through a hollow shaft and is meshed with the first gear; and

the adjusting plate is connected with the second gear, the conducting bar is arranged on the adjusting plate, and the resetting piece is connected with the adjusting plate.

6. An essence quantitative filling device according to claim 5, wherein a scale is arranged on one side of the adjusting disc, which is located on the conductive strip, and a positioning hole matched with the scale is arranged on the movable pointer.

7. The essence quantitative filling device according to claim 5, further comprising a speed adjusting module disposed between the adjusting seat and the hollow shaft, wherein the speed adjusting module is used for controlling the filling speed of the material, and the speed adjusting module is electrically connected to the valve unit.

8. An essence quantitative filling device according to claim 7, wherein the speed adjusting module comprises a resistance strip, a first connector lug, a second connector lug and a conductive block;

the resistance strip sets up on the hollow shaft and through the second connector lug with power supply electric connection, the conducting block with adjust the seat and connect and pass through first connector lug with power supply electric connection, the conducting block with resistance strip sliding fit.

Images