CN115892555A

CN115892555A - Solid beverage packaging equipment

Info

Publication number: CN115892555A
Application number: CN202310159003.9A
Authority: CN
Inventors: 黄凤美; 张小勇; 黄丽丽; 李小龙
Original assignee: Anhui Borun Pharmaceutical Co ltd
Current assignee: Anhui Borun Pharmaceutical Co ltd
Priority date: 2023-02-24
Filing date: 2023-02-24
Publication date: 2023-04-04
Anticipated expiration: 2043-02-24
Also published as: CN115892555B

Abstract

The invention relates to solid beverage packaging equipment which comprises a shell, wherein fixing frames are symmetrically arranged at the front end and the rear end of the shell, a weighing frame is arranged in the shell in a vertically sliding mode, an opening and closing assembly is arranged at the lower end of the weighing frame, an air blowing module positioned in the weighing frame is arranged at the lower end of a feeding hole, the feeding hole is arranged at the upper end of the shell, a linkage assembly is arranged on the side wall of the shell, the weighing frame, the opening and closing assembly, the air blowing module and the linkage assembly are in linkage fit connection, and a discharging hole is arranged at the lower end of the shell. The invention can solve the problems that the inner part of the existing filling port is blocked by a small amount, on one hand, the output amount is reduced, so that the output amount does not accord with the weighing standard, on the other hand, when the filling port is blocked by a small amount, personnel can hardly find the situation that the filling port is completely blocked due to small amount of blockage, the accumulation is large along with the intermittent output of subsequent solid beverages, and the situation that the filling amount is reduced before the blockage is found to be difficult to recover.

Description

Solid beverage packaging equipment

Technical Field

The invention relates to the technical field related to solid beverage packaging, in particular to solid beverage packaging equipment.

Background

Due to the progress of society and diversified food varieties required by people, new varieties are continuously generated in the beverage market to meet the requirements of people, particularly solid beverages, which belong to the class of soft beverages and are divided into flavored solid beverages, protein solid beverages, coffee solid beverages, plant solid beverages and the like in powder and granular shapes, wherein the flavored solid beverages are prepared by taking one or more substances of edible essence (materials), sugar (including edible sugar and starch sugar), sweetening agents, sour agents, vegetable fat powder and the like as main means for adjusting flavor, and adding or not adding other food raw auxiliary materials and food additives. After the solid beverage is produced, a packaging device is required to package the solid beverage.

In the process of filling solid beverage, for example, the Chinese patent with publication number CN208344577U discloses a solid beverage packaging machine, the application can slow down the speed of the solid beverage entering a component box by adjusting the position of a flow control cone through a second air cylinder when the solid beverage in the component box is about to reach a standard value through the component box, the flow control cone, the second air cylinder and a flow control rod, so as to accurately control the quantity of the solid beverage in the component box, and when the solid beverage in the component box reaches the standard value, a control valve in a guide pipe is closed, and a control valve in a discharge pipe is opened to discharge the solid beverage into the packaging box.

In the prior art, the equivalent quantity of the solid beverage is mainly realized through the flow rate and the size of the space, but in the center of the prior art, the equivalent quantity conveying of the solid beverage is only realized, after the equivalent quantity treatment of the solid beverage is carried out in the prior art, the control valve in the discharge pipe is opened, so that the solid beverage enters the packaging box, in the process, the blockage situation can be involved, when a small quantity of blockage phenomenon occurs inside the filling port (particularly the output structure in the prior art), on one hand, the output quantity is reduced, so that the weighing standard is not met, on the other hand, when the filling port is slightly blocked, a person cannot timely find that the blockage situation is caused along with the intermittent output of subsequent solid beverages, the blockage situation is reduced, at the moment, the situation that the blockage is difficult to recover the previous filling quantity is found, and finally, the situation that the previous batch of products are refilled is caused is found, the working efficiency is greatly reduced, and on the basis, the prior filling technology has an improved space.

Disclosure of Invention

In order to be able to play and carry out accurate transport and monitoring to the solid drink in transit, transport accuracy when improving the solid drink packing greatly, this application provides a solid drink equipment for packing. In order to be able to play and carry out accurate transport and monitoring to the solid drink in transit, transport accuracy when improving the solid drink packing greatly, this application provides a solid drink equipment for packing.

The application provides a solid beverage equipment for packing adopts following technical scheme:

the utility model provides a solid beverage equipment for packing, includes the shell, the mount is installed to both ends symmetry around the shell, and the inside of shell slides from top to bottom and is provided with weighs the frame, and the lower extreme of weighing the frame is provided with the subassembly that opens and shuts, is located and weighs the inside air-blowing module of frame and installs the lower extreme at the feed inlet, and the feed inlet is installed in the upper end of shell, and the linkage subassembly is installed to the lateral wall of shell, weighs the frame, the subassembly that opens and shuts, air-blowing module, linkage cooperation connection between the linkage subassembly, and the discharge gate is installed to the lower extreme of shell.

The feed inlet includes blanking mouth, blocks up the subassembly, aim at the subassembly, input port, alarm assembly, the blanking mouth is installed at the middle part of air-blowing module, be connected with the support between blanking mouth and the shell, the inside jam unit mount that is located the blanking mouth is weighing the frame is in, the input port is installed to the upper end of blanking mouth, the lower extreme of input port rotates and is provided with and aims at the subassembly, aim at the transport of subassembly control solid drink, hidden groove has been seted up to both ends symmetry about the input port upper end, it is provided with alarm assembly to hide inslot portion.

By adopting the technical scheme, when the solid beverage is actually filled in batches, the fixing frame is arranged at a proper position, so that the input port is positioned below the filling port of the existing equipment (the filling port is used for conveying the solid beverage in batches), the existing equipment conveys solid beverage particles into the input port through the filling port, then the solid beverage particles fall into the weighing frame through the blanking port, the weighing frame descends after being subjected to gravity, the alignment assembly is separated from the blocking assembly in the descending process, so that the alignment assembly rotates in a small amplitude to block a conveying channel of the input port (at the moment, the conveying of the solid beverage particles is finished), when the conveying amount of the solid beverage meets the standard, the weighing frame can descend to the lowest position, at the moment, the linkage assembly descends after being electrified, so that the air blowing module is electrified to generate the hot air blowing effect, then solid beverage particles in the weighing frame are subjected to thermal drying and air blowing (at the moment, the opening and closing component is not opened, and solid beverage is blown irregularly in the weighing frame), the solid beverage particles enter a packaging bag (box) along with the continuous descending of the linkage component, so that the linkage component is contacted with the opening and closing component, the opening and closing component rotates downwards after being unlocked, so that the lower end of the weighing frame is opened, under the action of air blowing, the solid beverage particles enter the packaging bag (box), and then the linkage component rises back, the whole body of the device resets so as to wait for the next granule conveying, when the conveying quantity of the solid beverage is smaller than the standard weight, the height of the weighing frame can descend but cannot reach the lowest position, at the moment, the alignment component can also block a conveying channel of the input port, but the weighing frame which does not descend to the lowest position cannot trigger the linkage component to be electrified, and the solid beverage which does not accord with the weight standard in the weighing frame can not be output, when the filling mouth carries next batch solid drink granule, because the transfer passage of input port has blockked up, the granule of inputing in the input port can be to both sides extrusion, thereby trigger the alarm subassembly, the circular telegram sends alarm sound after the alarm subassembly triggers, thereby remind personnel's filling unusual, this application keeps somewhere the processing to the solid drink granule that does not reach the standard, and carry out the layering to the granule that next batch arrived and accomodate and send alarm sound, thereby remind the staff to overhaul the filling mouth, carry out drying and air-blast to the granule that has reached weight standard, thereby carry out smooth transport, dry air-blast send processing has been increased on the basis of original filling, the consistency that the granule carried in the air has been reduced, the dryness factor has been improved.

Preferably, the weighing frame comprises a frame body, a sliding block and a weighing spring, the sliding block arranged on the side wall of the frame body is arranged in a sliding groove formed in the inner wall of the shell in a sliding mode, the weighing spring is connected between the sliding block and the sliding groove, and the outer wall of the frame body is not in contact with the inner wall of the shell.

Through adopting above-mentioned technical scheme, in the actual weighing process, solid beverage granule falls into the frame, and along with the increase of granule weight, the frame descends gradually, and when granule weight accord with the standard, the frame descends to the lowest position.

Preferably, the subassembly that opens and shuts includes rotates post, open-close plate, reset spring, joint subassembly and gear, rotates the post and rotates the lower extreme that sets up at the framework, installs the open-close plate on the rotation post, is connected with reset spring between open-close plate's lower extreme and the framework, rotates the inside activity chamber that is provided with of tip of post, and the inside slip of activity chamber is provided with the joint subassembly, and the joint subassembly locks the position between post, the framework temporarily, and the outside fixed mounting of tip of rotating the post has the gear.

Preferably, the lower extreme of open-close plate is provided with the iron layer, installs on the inner wall of discharge gate with the magnetism piece that iron layer position corresponds.

Through adopting above-mentioned technical scheme, at the actual in-process that opens and shuts of symmetry frame lower extreme, before the framework does not descend the extreme low position, will rotate the post through the joint subassembly, position between the framework locks temporarily, make the opening plate close the lower extreme of framework by force, even can not be angular rotation when falling into the solid beverage granule on the opening plate, when the framework descends the extreme low position, thereby trigger linkage subassembly circular telegram extrusion joint subassembly, and then to the column that rotates, the position between the framework unlocks, at this moment, the position of rotating the post is rotatable, it adjusts to drive the opening plate angle downwards under the cooperation of linkage subassembly and gear, the framework lower extreme is opened, this application is through the rotation condition that the joint subassembly control rotated the post, thereby carry out adaptability adjustment to current environment.

Preferably, the joint subassembly includes movable post, built-in spring, joint piece and joint frame, and the movable post slides and sets up in the activity chamber, and is connected with built-in spring between the one end of activity post and the activity chamber, and the other end of initial position's activity post stretches out the rotation post, and the joint piece is installed to the upper and lower both ends symmetry at activity post middle part, and initial position's joint piece and the mutual joint of joint frame, and the joint frame is installed on the outer wall of framework.

Through adopting above-mentioned technical scheme, in order to guarantee that the opening plate closes and the turned angle of unblock rotation post when descending the extreme low position to the framework lower extreme by force when the framework does not descend the extreme low position, the application is provided with the joint subassembly, specifically be, when the framework does not descend the extreme low position, joint piece and joint frame joint each other this moment, make the rotation post can not take place to rotate, thereby the opening plate is in the horizontality and closes the lower extreme of framework, when the framework descends the extreme low position, at this moment, the framework triggers the linkage subassembly and makes its circular telegram back decline, the linkage subassembly that descends extrudees the protruding part of activity post, make it retract in the activity chamber, the joint piece breaks away from in the joint frame this moment, and the linkage subassembly just meshes with the gear mutually, thereby the control rotates the post, the opening plate rotates, the setting of joint subassembly has guaranteed that the opening plate is in the pertinence regulation state all the time.

Preferably, the air blowing module comprises an air blowing plate, an air blowing pump, an insulating shell, a power supply and a starting piece, the air blowing pump is installed on the air blowing plate through a base, the insulating shell is installed at the rear end of the air blowing pump, and the power supply, the starting piece and the air blowing pump which are arranged inside the insulating shell are electrically connected.

Preferably, the air blowing plate is internally provided with a conveying cavity, the lower end of the conveying cavity is uniformly provided with air holes, and the conveying cavity is communicated with the air blowing pump.

Through adopting above-mentioned technical scheme, when the linkage subassembly did not descend, the starter did not start, and the air-blowing pump was in the outage state this moment, and owing to the entering of solid beverage granule, the smooth entering of granule has been guaranteed to the air-blowing this moment, and after the linkage subassembly descends, the starter starts, thereby the air-blowing pump circular telegram blows off hot-blast this moment.

Preferably, the jam subassembly includes connecting rod, jam plate, buffer layer and extrusion post, and the connecting rod is installed on the connecting rod, connecting rod and weigh frame internal connection, and the upper end and the jam plate of connecting rod are connected, and the structure between the throat under jam plate and the blanking mouth agrees with mutually, and the cross-section of buffer layer is triangular structure, and the extrusion post is installed to the upper end of buffer layer.

Preferably, aim at the subassembly including rotating piece, axis of rotation, gravity piece and stopper, the axis of rotation is installed to the front and back both ends symmetry that rotates the piece, is connected for the bearing between axis of rotation and the input port, and gravity piece is installed to the upper left side of axis of rotation, and the stopper that corresponds with gravity piece position is installed on the outer wall of input port.

Preferably, a shunting cavity is formed in the rotating part, an extrusion groove is formed in the lower end of the rotating part, an extrusion column at an initial position is clamped in the extrusion groove, an alignment block is installed at the upper end of the shunting cavity, and a shunting block corresponding to the alignment block is installed in the input port.

Through adopting above-mentioned technical scheme, when blockking up the subassembly and not descending (weigh the frame and also do not descend this moment), the conveying clearance between the lower extreme of jam plate and blanking mouth is at the maximum value, and the extrusion post joint is in the extrusion groove (the rotation piece of this moment does not rotate, and aim at piece and reposition of redundant personnel piece and aim at from top to bottom, the conveying passageway of input port is in the open mode), after blockking up the subassembly and descending, the conveying clearance between the lower extreme of jam plate and blanking mouth reduces gradually, and the extrusion post breaks away from in the extrusion groove gradually until breaking away from completely, the rotation piece at this moment is adjusted to a side angle under the effect of gravity piece, until the gravity piece supports on the stopper, it makes the conveying passageway of input port be in the jam state to aim at piece and reposition of redundant personnel piece from top to bottom staggered arrangement this moment, aim at the subassembly and block up the transportation condition that the subassembly cooperateed and is controlling the feed inlet.

Preferably, the alarm subassembly includes siren, battery, on & off switch, presses down board and coupling spring, hides for the electricity to be connected between the siren that sets up in the groove, battery, the on & off switch, and the inboard slip that hides the groove is provided with presses down the board, presses down the board and hides to be connected with coupling spring between the groove, and the on & off switch is in the off-state when not receiving to press down the board extrusion.

Through adopting above-mentioned technical scheme, when the transfer passage at the input port plugged up, next solid drink granule can not the downcast, nevertheless because the continuous transport of filling mouth, the solid granule can only be carried to both sides extrusion to the extrusion pressing plate receives extruded pressing plate and is close to the on & off switch until the touching, and the on & off switch is in the connected state this moment, sends out alarm sound after the siren circular telegram, thereby reminds personnel.

Preferably, the linkage assembly comprises a lifting cylinder, a power supply unit, a linkage frame and racks, the lifting cylinder is connected with the power supply unit arranged on the outer wall of the shell, the linkage frame is arranged at the ejection end of the lifting cylinder, the racks are symmetrically arranged at the left end and the right end of the linkage frame, and the descending linkage frame extrudes and retracts the extending part of the movable column to be meshed with the gear.

Preferably, the actuating member is in a communication state when the actuating member contacts the upper end of the link frame at the initial position.

Preferably, the power supply unit includes insulating frame, power supply package and switch spare, and the insulating frame is installed on the outer wall of shell, and the power supply package, the switch spare that the insulating frame is inside to be connected for the electricity between and the lift cylinder, and the switch spare is delay switch.

Through adopting above-mentioned technical scheme, when weighing the frame and descending to the extreme low position, can touch the switch spare, the switch spare at this moment is in the connected state, power supply unit passageway back is to the lift cylinder power supply, thereby drive linkage frame decline, rise, the decline in-process, the linkage frame extrudees the protruding part of activity post, make it retract to the activity chamber, the joint piece breaks away from out in the joint frame this moment, and the rack just meshes with the gear mutually, thereby the control rotates the post, the opening plate rotates, thereby to the smooth downward hot-blast transport of solid beverage granule.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the invention relates to solid beverage packaging equipment, which is used for weighing solid beverages filled and output again, the descending condition of a weighing frame is adjusted according to the weighing condition, when the weighed weight is insufficient (which indicates that the filling port in the prior art is blocked), the height of the weighing frame cannot descend to the lowest position, the descending weighing frame cannot trigger a linkage assembly to be electrified, the solid beverages which do not meet the weight standard in the weighing frame cannot be output, when the filling port conveys the next batch of solid beverage particles, because a conveying channel of an input port is blocked, the particles input into the input port can be extruded to two sides, so that an alarm assembly is triggered, the alarm assembly is triggered to be electrified to give an alarm after being triggered, so that a person is reminded of abnormal filling, when the weighed weight standard is met, the weighing frame descends to a designated position to trigger the linkage assembly to be electrified, and then the solid beverages in the weighing frame are smoothly hot-blown and output.

2. The weighing frame, the opening and closing assembly, the air blowing module and the linkage assembly adopt a structural linkage design concept, whether the solid beverage input into the weighing frame meets the weight standard or not is judged through mutual matching of the structures, and subsequent operation (output or abnormal alarm) is carried out according to the current judgment standard.

3. The aligning component is unlocked and rotated after the weighing frame descends, so that a conveying channel of an input port is blocked, the aligning component is mainly used for blocking when the weight of particles in the weighing frame does not reach the standard (the conveying gap between the blocking component and a blanking port is in a sealed state when the weight of the particles meets the standard), the next solid beverage cannot be conveyed into the weighing frame is guaranteed, if the aligning component is not arranged, the solid beverage can directly fall into the weighing frame when the next solid beverage particles are conveyed (the solid beverage cannot be blocked because the weight of the particles in the weighing frame does not reach the standard and does not fall to the lowest position, the conveying gap is small, the next solid beverage particles can be conveyed into the weighing frame from the conveying gap, the weighing frame with the increased weight can fall to the lowest position, and then the two particle quantities are output together under the action of a linkage structure, so that the situation of large quantity is caused, so that the filling situation is influenced, and the arrangement of the aligning component ensures that the solid beverage conveyed next time is squeezed at two sides after blocking, so that an alarm component is triggered to give out an alarm.

Drawings

FIG. 1 is a schematic view of a first configuration of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 isbase:Sub>A cross-sectional view A-A of FIG. 2 of the present invention;

FIG. 4 is a cross-sectional view B-B of FIG. 2 of the present invention;

FIG. 5 is a second schematic structural view of the present invention;

FIG. 6 is a schematic structural diagram of the housing, the weighing frame, the opening and closing assembly, the air blowing module, the feed inlet, the linkage assembly and the discharge outlet of the present invention;

FIG. 7 is a first structural schematic of the linkage and rack of the present invention;

FIG. 8 is a second structural view of the linkage frame and rack of the present invention;

FIG. 9 is a cross-sectional view of the lift cylinder and power supply unit of the present invention;

FIG. 10 is an enlarged view of a portion of the invention at X of FIG. 3;

FIG. 11 is an enlarged view of a portion of the invention at Y of FIG. 5;

fig. 12 is an enlarged view of the invention at Z of fig. 4.

Description of the reference numerals: 1. a housing; 2. a fixed mount; 3. a weighing frame; 4. an opening and closing assembly; 5. an air blowing module; 6. a feed inlet; 7. a linkage assembly; 8. a discharge port; 31. a frame body; 32. a slider; 33. weighing a spring; 41. rotating the column; 42. opening and closing the plate; 43. a return spring; 44. a clamping assembly; 45. a gear; 46. a magnetic block; 441. a movable post; 442. a built-in spring; 443. a clamping block; 444. a clamping frame; 51. an air-blowing plate; 52. an air-blowing pump; 53. an insulating case; 54. a power source; 55. a trigger; 61. a blanking port; 62. a plugging component; 63. aligning the assembly; 64. an input port; 65. an alarm component; 66. aligning the block; 67. a shunting block; 621. a connecting rod; 622. a connecting bar; 623. a blocking plate; 631. a rotating member; 632. a rotating shaft; 633. a weight member; 634. a limiting block; 651. an alarm; 652. a battery; 653. an on-off key; 654. a pressing plate; 655. a connecting spring; 71. a lifting cylinder; 72. a power supply unit; 73. a linkage frame; 74. a rack; 721. an insulating frame; 722. a power pack; 723. a switch member.

Detailed Description

The embodiment of the application discloses solid drink equipment for packing can play and carry out accurate transport and monitoring to the solid drink in carrying, the transport accuracy when improving solid drink packing greatly.

Referring to fig. 1 to 6 and 10, a solid beverage packaging device disclosed in this embodiment includes a housing 1, a fixing frame 2 is symmetrically installed at the front and rear ends of the housing 1, a weighing frame 3 is arranged inside the housing 1 in a vertically sliding manner, an opening and closing component 4 is arranged at the lower end of the weighing frame 3, an air blowing module 5 located inside the weighing frame 3 is installed at the lower end of a feeding port 6, the feeding port 6 is installed at the upper end of the housing 1, a linkage component 7 is installed on the side wall of the housing 1, the weighing frame 3, the opening and closing component 4, the air blowing module 5 and the linkage component 7 are connected in a linkage matching manner, and a discharging port 8 is installed at the lower end of the housing 1.

The feeding port 6 comprises a blanking port 61, a blocking assembly 62, an alignment assembly 63, an input port 64 and an alarm assembly 65, the blanking port 61 is installed in the middle of the air blowing module 5, a support is connected between the blanking port 61 and the shell 1, the blocking assembly 62 positioned inside the blanking port 61 is installed inside the weighing frame 3, in the descending process of the weighing frame 3, a conveying gap between the descending blocking assembly 62 and the blanking port 61 is gradually reduced, when the weighing frame 3 descends to the lowest position, the blocking assembly 62 and the blanking port 61 are in contact and closed mutually, the conveying gap is completely closed, the condition that the weight of particles accidentally seeped out from the filling port is increased due to the falling of the particles is avoided, the input port 64 is installed at the upper end of the blanking port 61, the lower end of the input port 64 is rotatably provided with the alignment assembly 63, the alignment assembly 63 controls the conveying of solid beverages, hidden grooves are symmetrically formed in the left end and the right end and the left end and the right end of the upper end of the input port 64, the hidden grooves are internally provided with the alarm assemblies 65, and only after the conveying channel of the input port 64 is blocked, the solid beverage particles subsequently input are extruded towards the two sides so as to trigger the alarm assemblies 65 to be electrified.

When the solid beverage is actually filled in batches, the fixing frame 2 is installed at a proper position, so that the input port 64 is positioned below a filling port of the existing equipment (the filling port is used for batch conveying of the solid beverage), the existing equipment conveys solid beverage particles into the input port 64 through the filling port, then the solid beverage particles fall into the weighing frame 3 through the blanking port 61, the weighing frame 3 descends after being subjected to gravity, the alignment assembly 63 is separated from the blocking assembly 62 in the descending process, so that the alignment assembly 63 rotates in a small range to block a conveying channel of the input port 64 (the conveying of the solid beverage particles is finished), when the conveying amount of the solid beverage meets the standard, the weighing frame 3 descends to the lowest position, the linkage assembly 7 descends after being powered on, so that the air blowing module 5 is powered on to generate a hot air blowing effect, then, solid beverage particles in the weighing frame 3 are subjected to thermal drying and air blowing (at the moment, the opening and closing component 4 is not opened, and solid beverages are blown irregularly in the weighing frame 3), the linkage component 7 descends continuously, so that the linkage component 7 is in contact with the opening and closing component 4, the opening and closing component 4 is unlocked and then rotates downwards, so that the lower end of the weighing frame 3 is opened, the solid beverage particles enter a packaging bag (box) under the action of the air blowing, then the linkage component 7 ascends backwards, the whole body is reset so as to wait for next particle conveying, when the conveying amount of the solid beverages is smaller than the standard weight, the height of the weighing frame 3 can descend but cannot reach the lowest position, at the moment, the alignment component 63 can also block a conveying channel of the input port 64, but the weighing frame 3 which does not descend to the lowest position cannot trigger the linkage component 7 to be powered on, and the solid beverages which do not accord with the weight standard in the weighing frame 3 can not be output, when the filling mouth carries next batch solid beverage granule, because input port 64's transfer passage has blockked up, the granule of inputing in input port 64 can be to both sides extrusion, thereby trigger alarm assembly 65, alarm assembly 65 triggers the back circular telegram and sends out the alarm sound, thereby remind personnel's filling unusual, this application keeps somewhere the processing to the solid beverage granule that does not reach the standard, and carry out the layering to the granule that next batch arrived and accomodate and send out the alarm sound, thereby remind the staff to overhaul the filling mouth, carry out drying and air-blast to the granule that has reached weight standard, thereby carry out smooth transport, dry air-assisted transfer has been increased on the basis of original filling and has been handled, the consistency that the granule carried in the air has been reduced, the dryness factor has been improved.

Referring to fig. 3 and 6, the weighing frame 3 includes a frame body 31, a sliding block 32, and a weighing spring 33, the sliding block 32 mounted on the side wall of the frame body 31 is slidably disposed in a sliding groove formed in the inner side wall of the housing 1, the weighing spring 33 is connected between the sliding block 32 and the sliding groove, the weighing spring 33 plays a role of elastic return to the frame body 31, the outer wall of the frame body 31 is not in contact with the inner wall of the housing 1, and the outer wall of the frame body 31 is not in contact with the inner wall of the housing 1, so that resistance generated by the contact between the outer wall and the inner wall of the housing does not influence the weighing of particles.

During the actual weighing process, the solid beverage particles fall into the frame 31, the frame 31 gradually descends along with the increase of the weight of the particles, and when the weight of the particles meets the standard, the frame 31 descends to the lowest position.

Referring to fig. 3, fig. 5, fig. 6, fig. 11 shows, the subassembly 4 that opens and shuts includes rotating post 41, open-close plate 42, reset spring 43, joint subassembly 44 and gear 45, rotating post 41 rotates the lower extreme that sets up at framework 31, install open-close plate 42 on rotating post 41, be connected with reset spring 43 between open-close plate 42's lower extreme and the framework 31, reset spring 43 plays the effect that the elasticity resets to open-close plate 42, the inside activity chamber that is provided with of tip of rotating post 41, the inside slip of activity chamber is provided with joint subassembly 44, joint subassembly 44 locks temporarily the position between rotating post 41, the framework 31, the outside fixed mounting of tip of rotating post 41 has gear 45, open-close plate 42's lower extreme is provided with the iron layer, the magnetic block 46 that corresponds with the iron layer position is installed on the inner wall of discharge gate 8, when open-close plate 42 down angle adjusts the maximum value, the iron layer is inhaled with magnetic block 46 mutually, thereby supplementary open-close plate 42 rotates the interim location of back position.

In the actual opening and closing process of the lower end of the symmetry frame 3, before the frame body 31 does not descend to the lowest position, the positions between the rotating column 41 and the frame body 31 are temporarily locked through the clamping assembly 44, so that the opening plate 42 forcibly closes the lower end of the frame body 31, even if solid beverage particles fall on the opening plate 42, the solid beverage particles cannot rotate in an angle, when the frame body 31 descends to the lowest position, the linkage assembly 7 is triggered to be powered on to extrude the clamping assembly 44, further, the positions between the rotating column 41 and the frame body 31 are unlocked, at the moment, the position of the rotating column 41 can rotate, the opening plate 42 is driven to adjust the downward angle under the matching of the linkage assembly 7 and the gear 45, the lower end of the frame body 31 is opened, and the rotating condition of the rotating column 41 is controlled through the clamping assembly 44, so that the current environment can be adaptively adjusted.

Referring to fig. 11, the clamping assembly 44 includes a movable post 441, an internal spring 442, a clamping block 443, and a clamping frame 444, the movable post 441 is slidably disposed in the movable cavity, the internal spring 442 is connected between one end of the movable post 441 and the movable cavity, the internal spring 442 elastically resets the movable post 441, the other end of the movable post 441 at an initial position extends out of the rotating post 41, the clamping blocks 443 are symmetrically mounted at upper and lower ends of the middle portion of the movable post 441, the clamping block 443 at the initial position is clamped with the clamping frame 444, and the clamping frame 444 is mounted on an outer wall of the frame 31.

In addition, in order to ensure that the opening plate 42 is forcibly closed to the lower end of the frame body 31 when the frame body 31 is not lowered to the lowest position and the rotation angle of the rotating column 41 is unlocked when the frame body 31 is lowered to the lowest position, the clamping assembly 44 is provided, specifically, when the frame body 31 is not lowered to the lowest position, the clamping block 443 and the clamping frame 444 are clamped with each other at this time, so that the rotating column 41 cannot rotate, the opening plate 42 is ensured to be in a horizontal state and closed to the lower end of the frame body 31, when the frame body 31 is lowered to the lowest position, the frame body 31 triggers the linkage assembly 7 to electrify and then descend, the descending linkage assembly 7 extrudes the extending part of the movable column 441 to retract the extending part into the movable cavity, at this time, the clamping block 443 is separated from the clamping frame 444, and the linkage assembly 7 is just meshed with the gear 45, so as to control the rotating column 41 and the opening plate 42 to rotate, and the clamping assembly 44 ensures that the opening plate 42 is always in a targeted adjustment state.

Referring to fig. 3, 4 and 12, the air blowing module 5 includes an air blowing plate 51, an air blowing pump 52, an insulating shell 53, a power supply 54 and a starting piece 55, the air blowing pump 52 is installed on the air blowing plate 51 through a base, the insulating shell 53 is installed at the rear end of the air blowing pump 52, the power supply 54, the starting piece 55 and the air blowing pump 52 which are arranged inside the insulating shell 53 are electrically connected, a conveying cavity is formed inside the air blowing plate 51, air holes are uniformly formed in the lower end of the conveying cavity, the conveying cavity is communicated with the air blowing pump 52, and hot air is ejected from the air holes after entering the conveying cavity.

When the linkage assembly 7 does not descend, the starting piece 55 is not started, the air-blowing pump 52 is in a power-off state, smooth entering of particles is guaranteed due to entering of solid beverage particles when air-blowing is not performed, and after the linkage assembly 7 descends, the starting piece 55 is started, and the air-blowing pump 52 is powered on to blow out hot air.

Referring to fig. 3 and 6, the blocking assembly 62 includes a connecting rod 621, a connecting rod 622, a blocking plate 623, a buffer layer 624 and an extrusion column 625, the connecting rod 621 is installed on the connecting rod 622, the connecting rod 622 is connected with the weighing frame 3, the upper end of the connecting rod 621 is connected with the blocking plate 623, the blocking plate 623 is fitted with a structure between the necking parts at the lower end of the blanking port 61, the cross section of the buffer layer 624 is of a triangular structure, the structure is designed to avoid the situation that beverage particles are left on the buffer layer 624, the extrusion column 625 is installed at the upper end of the buffer layer 624, the arrangement of the buffer layer 624 reduces the falling impact force of solid beverage particles, and the influence of the impact force on the actual falling situation of the weighing frame 3 is avoided.

Referring to fig. 1, 3 and 6, the aligning assembly 63 includes a rotation member 631, a rotation shaft 632, a weight member 633 and a stopper 634, the rotation shaft 632 is symmetrically installed at front and rear ends of the rotation member 631, the rotation shaft 632 is connected to the input port 64 by a bearing, the weight member 633 is installed at an upper left side of the rotation shaft 632, the stopper 634 corresponding to the position of the weight member 633 is installed on an outer wall of the input port 64, the aligning assembly 63 rotates after the weighing frame 3 descends to block a conveying path of the input port 64, but is mainly used for blocking use when the weight of the granules in the weighing frame 3 does not reach a standard, when the weight of the granules in the weighing frame 3 falls into the weighing frame 3, the weighing frame 3 descends regardless of the weight, the descending weighing frame 3 drives the blocking assembly 62 to descend so that the pressing column 625 is separated from the pressing groove, and then the rotation member 631 rotates, when the weight of the granules in the weighing frame 3 is less than the standard, if the aligning assembly 63 is not provided, the next solid beverage granules are directly conveyed into the weighing frame 3 (although the conveying gap between the blocking plate and the weighing frame 3 does not fall into the standard, the weighing frame 623, the solid granules are not conveyed together, and thus the solid beverage granules are conveyed twice, and the conveying gap is not influenced by the lowest conveying mechanism, and the solid granules are not lowered.

Referring to fig. 3 and 6, a diversion cavity is formed in the rotating member 631, a squeezing groove is formed in the lower end of the rotating member 631, a squeezing column 625 at an initial position is clamped in the squeezing groove, when the weighing frame 3 drives the blocking assembly 62 to return, the upper end of the squeezing column 625 squeezes the squeezing groove to enable the rotating member 631 to rotate right again, and the weighing frame 3 is empty to push back, so that the weighing condition of solid particles is not affected, an alignment block 66 is installed at the upper end of the diversion cavity, a diversion block 67 corresponding to the alignment block 66 is installed in the inlet 64, when solid beverages are conveyed to the alignment block 66 and the diversion block 67, the blocking condition may exist due to space reduction, but the position between the alignment block 66 and the diversion block 67 changes due to the rotation of the rotating member 631, and when the lower end of the weighing frame 3 is not opened (at this time, the weighing frame 3 is not lowered to the lowest position, but the linkage assembly 7 is lowered, and the air blowing pump 52 is energized to blow out hot air), and the hot air blows out the solid beverages in the weighing frame 3 sealed at the lower end, and the diversion blocks 66 and the blocking position irregularly blows out the hot air, and the blocking condition that the blocking position is reduced.

When the plugging assembly 62 is not lowered (at this time, the weighing frame 3 is not lowered), the conveying gap between the plugging plate 623 and the lower end of the blanking port 61 is at a maximum value, the pressing column 625 is clamped in the pressing groove (at this time, the rotating member 631 is not rotated, the alignment block 66 is aligned with the diversion block 67 up and down, and the conveying channel of the inlet port 64 is in an open state), after the plugging assembly 62 is lowered, the conveying gap between the plugging plate 623 and the lower end of the blanking port 61 is gradually reduced, the pressing column 625 is gradually separated from the pressing groove until completely separated, at this time, the rotating member 631 is angularly adjusted to one side under the action of the gravity member 633 until the gravity member 633 abuts against the limiting block 634, at this time, the alignment block 66 and the diversion block 67 are vertically staggered to enable the conveying channel of the inlet port 64 to be in a plugged state, and the alignment assembly 63 is matched with the plugging assembly 62 to control the conveying condition of the inlet port 6.

Referring to fig. 10, the alarm assembly 65 includes an alarm 651, a battery 652, a switch key 653, a pressing plate 654 and a connection spring 655, the alarm 651, the battery 652 and the switch key 653 disposed in the hidden groove are electrically connected, the pressing plate 654 is slidably disposed inside the hidden groove, the connection spring 655 is connected between the pressing plate 654 and the hidden groove, the connection spring 655 elastically returns the pressing plate 654, and the switch key 653 is in a disconnected state when not pressed by the pressing plate 654.

When the conveying channel of the input port 64 is blocked, the solid beverage particles cannot be conveyed downwards next time, but because the filling port is continuously conveyed, the solid particles can be only extruded and conveyed towards two sides, so that the pressing plate 654 is extruded, the pressed pressing plate 654 is close to the switch key 653 until the pressing plate is touched, the switch key 653 is in a connected state at the moment, and the alarm 651 gives an alarm sound after being electrified, so as to remind people.

Referring to fig. 1, 7 to 9, and 11, the linkage assembly 7 includes a lifting cylinder 71, a power supply unit 72, a linkage frame 73, and a rack 74, the lifting cylinder 71 is connected to the power supply unit 72 mounted on the outer wall of the housing 1, the linkage frame 73 is mounted on the ejection end of the lifting cylinder 71, the racks 74 are symmetrically mounted on the left and right ends of the linkage frame 73, and the descending linkage frame 73 extrudes the extending portion of the movable post 441 to retract, and then the racks 74 are engaged with the gear 45.

Referring to fig. 12, the actuating member 55 is in a communication state when the actuating member 55 is in contact with the upper end of the link frame 73 at the initial position.

Referring to fig. 4 and 9, the power supply unit 72 includes an insulating frame 721, a power pack 722 and a switch 723, the insulating frame 721 is installed on the outer wall of the housing 1, the power pack 722 and the switch 723 arranged inside the insulating frame 721 are electrically connected with the lifting cylinder 71, the switch 723 is a time delay switch, after the weighing frame 3 is lifted due to the weight reduction of the particles inside the weighing frame, at this time, the weighing frame 3 does not touch the switch 723 any more, but due to the time delay switch effect of the switch 723, the power supply unit 72 still performs time delay power supply processing on the lifting cylinder 71, so that the lifting cylinder 71 completes the lifting reset.

When the weighing frame 3 descends to the lowest position, the switch 723 is touched, the switch 723 is in a communicated state at the moment, the power supply unit 72 supplies power to the lifting cylinder 71 after being communicated, so that the linkage frame 73 is driven to descend and ascend, in the descending process, the linkage frame 73 extrudes the extending part of the movable column 441 to enable the extending part to retract into the movable cavity, at the moment, the clamping block 443 is separated from the clamping frame 444, the rack 74 is just meshed with the gear 45, the rotation of the rotary column 41 and the opening plate 42 is controlled, and therefore solid beverage particles are smoothly conveyed downwards through hot air.

The implementation principle of the embodiment is as follows:

: mounting, namely mounting the fixing frame 2 at a proper position, so that the input port 64 is positioned below a filling port of the existing equipment, and the filling port is in sealing connection with the input port 64 through an existing connecting piece;

: conveying, in the existing equipment, solid beverage particles are conveyed into the input port 64 through the filling port, and then fall into the weighing frame 3 through the blanking port 61, the weighing frame 3 descends after being subjected to gravity, in the descending process, the aligning component 63 is separated from the blocking component 62, so that the rotating component 631 rotates slightly due to the weight effect to block the conveying channel of the input port 64, the weighing frame 3 continues to descend, and the next operation is performed according to whether the weight of the solid beverage particles on the weighing frame 3 reaches the standard or not;

(3): when the solid beverage conveying amount meets the standard, the weighing frame 3 can be lowered to the lowest position, the lifting cylinder 71 drives the linkage frame 73 to be lowered after being electrified, the linkage frame 73 is separated from the starting piece 55 after being electrified, so that the air blowing module 5 is electrified to generate a hot air blowing effect, solid beverage particles in the weighing frame 3 are subjected to hot drying and air blowing, along with the continuous lowering of the linkage frame 73, the linkage frame 73 can extrude the extending part of the movable column 441 to retract into the movable cavity, the clamping block 443 is separated out of the clamping frame 444 at the moment, the rack 74 is just meshed with the gear 45, so that the rotating column 41 and the opening plate 42 are controlled to rotate, the lower end of the weighing frame 3 is opened, the solid beverage particles enter a packaging bag (box) under the action of air blowing, and then the linkage frame 73 is lifted back, and the whole weighing frame is reset so as to wait for the next conveying of the solid beverage particles;

when the solid beverage conveying amount is smaller than the standard weight, the height of the weighing frame 3 can be reduced but cannot reach the lowest position, the weighing frame 3 which is not reduced to the lowest position cannot trigger the linkage assembly 7 to be electrified, solid beverages which do not accord with the weight standard in the weighing frame 3 cannot be output, when the next batch of solid beverage particles are conveyed at the filling opening, the particles input into the input opening 64 can be extruded towards two sides due to the fact that a conveying channel of the input opening 64 is blocked, the alarm assembly 65 is triggered, and the alarm assembly 65 is electrified to give an alarm sound after being triggered, so that a person is reminded of abnormal filling.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and are not to be construed as limiting the scope of the invention.

Claims

1. A solid beverage packaging device comprising a housing (1), characterized in that: the front end and the rear end of the shell (1) are symmetrically provided with fixing frames (2), the interior of the shell (1) is provided with a weighing frame (3) in a vertical sliding mode, the lower end of the weighing frame (3) is provided with an opening and closing assembly (4), an air blowing module (5) located inside the weighing frame (3) is installed at the lower end of a feeding port (6), the feeding port (6) is installed at the upper end of the shell (1), the side wall of the shell (1) is provided with a linkage assembly (7), the weighing frame (3), the opening and closing assembly (4), the air blowing module (5) and the linkage assembly (7) are connected in a linkage matching mode, and the lower end of the shell (1) is provided with a discharging port (8);

feed inlet (6) are including blanking mouth (61), block up subassembly (62), aim at subassembly (63), input port (64), alarm subassembly (65), the middle part in air-blowing module (5) is installed in blanking mouth (61), be connected with the support between blanking mouth (61) and shell (1), be located inside blocking up subassembly (62) of blanking mouth (61) and install in the inside of weighing frame (3), the conveying clearance between jam subassembly (62) and blanking mouth (61) that descend reduces gradually, input port (64) are installed to the upper end of blanking mouth (61), the lower extreme of input port (64) is rotated and is provided with and aims at subassembly (63), aim at subassembly (63) control solid beverage's transport, hidden groove has been seted up to the left and right ends symmetry of input port (64) upper end, hidden inslot portion is provided with alarm subassembly (65).

2. A solid beverage packaging apparatus as recited in claim 1, wherein: weigh frame (3) including framework (31), sliding block (32), weigh spring (33), install sliding block (32) the slip setting in the sliding tray that shell (1) inside wall was seted up at framework (31) lateral wall, and be connected with between sliding block (32) and the sliding tray and weigh spring (33), the outer wall of framework (31) does not have the contact with the inner wall of shell (1).

3. A solid beverage packaging apparatus as defined in claim 2, wherein: the opening and closing assembly (4) comprises a rotating column (41), an opening plate (42), a reset spring (43), a clamping assembly (44) and a gear (45), the rotating column (41) is rotatably arranged at the lower end of the frame body (31), the opening plate (42) is installed on the rotating column (41), the reset spring (43) is connected between the lower end of the opening plate (42) and the frame body (31), a movable cavity is arranged inside the end part of the rotating column (41), the clamping assembly (44) is arranged inside the movable cavity in a sliding mode, the clamping assembly (44) temporarily locks the position between the rotating column (41) and the frame body (31), and the gear (45) is fixedly installed outside the end part of the rotating column (41);

the lower extreme of open-close plate (42) is provided with the iron layer, installs on the inner wall of discharge gate (8) with magnetic block (46) that the iron layer position corresponds.

4. A solid beverage packaging apparatus as defined in claim 3, wherein: the clamping assembly (44) comprises a movable column (441), a built-in spring (442), a clamping block (443) and a clamping frame (444), the movable column (441) is arranged in a movable cavity in a sliding mode, the built-in spring (442) is connected between one end of the movable column (441) and the movable cavity, the other end of the movable column (441) at the initial position stretches out of the rotating column (41), the clamping blocks (443) are symmetrically installed at the upper end and the lower end of the middle portion of the movable column (441), the clamping block (443) at the initial position is clamped with the clamping frame (444) mutually, and the clamping frame (444) is installed on the outer wall of the frame body (31).

5. A solid beverage packaging apparatus as defined in claim 4, wherein: the air blowing module (5) comprises an air blowing plate (51), an air blowing pump (52), an insulating shell (53), a power supply (54) and a starting piece (55), wherein the air blowing pump (52) is installed on the air blowing plate (51) through a base, the insulating shell (53) is installed at the rear end of the air blowing pump (52), and the power supply (54) and the starting piece (55) which are arranged in the insulating shell (53) are electrically connected with the air blowing pump (52);

the conveying cavity is formed in the air blowing plate (51), air holes are uniformly formed in the lower end of the conveying cavity, and the conveying cavity is communicated with the air blowing pump (52).

6. A solid beverage packaging apparatus according to claim 1, wherein: the jam subassembly (62) include connecting rod (621), connecting rod (622), jam board (623), buffer layer (624) and extrusion post (625), connecting rod (621) are installed on connecting rod (622), connecting rod (622) and weigh frame (3) internal connection, the upper end and the jam board (623) of connecting rod (621) are connected, structure between jam board (623) and the feed opening (61) lower extreme throat agrees with mutually, the cross-section of buffer layer (624) is the triangle-shaped structure, extrusion post (625) are installed to the upper end of buffer layer (624).

7. A solid beverage packaging apparatus as recited in claim 6, wherein: the alignment assembly (63) comprises a rotating part (631), a rotating shaft (632), a gravity part (633) and a limiting block (634), the rotating shaft (632) is symmetrically installed at the front end and the rear end of the rotating part (631), the rotating shaft (632) is connected with the input port (64) through a bearing, the gravity part (633) is installed on the upper left side of the rotating shaft (632), and the limiting block (634) corresponding to the gravity part (633) is installed on the outer wall of the input port (64);

the reposition of redundant personnel chamber has been seted up to the inside of rotating piece (631), and the extrusion groove has been seted up to the lower extreme of rotating piece (631), and initial position's extrusion post (625) joint is in the extrusion groove, and alignment block (66) is installed to the upper end of reposition of redundant personnel chamber, and install the inside at input port (64) with reposition of redundant personnel piece (67) that alignment block (66) position corresponds.

8. A solid beverage packaging apparatus according to claim 1, wherein: the alarm assembly (65) comprises an alarm (651), a battery (652), a switch key (653), a pressing plate (654) and a connecting spring (655), the alarm (651), the battery (652) and the switch key (653) arranged in the hidden groove are electrically connected, the pressing plate (654) is arranged on the inner side of the hidden groove in a sliding mode, the connecting spring (655) is connected between the pressing plate (654) and the hidden groove, and the switch key (653) is in a disconnected state when not pressed by the pressing plate (654).

9. A solid beverage packaging apparatus as defined in claim 5, wherein: the linkage assembly (7) comprises a lifting cylinder (71), a power supply unit (72), a linkage frame (73) and a rack (74), the lifting cylinder (71) is connected with the power supply unit (72) arranged on the outer wall of the shell (1), the linkage frame (73) is arranged at the ejection end of the lifting cylinder (71), the racks (74) are symmetrically arranged at the left end and the right end of the linkage frame (73), and the descending linkage frame (73) extrudes the extending part of the movable column (441) and retracts to enable the racks (74) to be meshed with the gear (45);

the starting piece (55) is in a communication state when the starting piece (55) is contacted with the upper end of the linkage frame (73) at the initial position.

10. A solid beverage packaging apparatus according to claim 9, wherein: the power supply unit (72) comprises an insulation frame (721), a power pack (722) and a switch component (723), the insulation frame (721) is installed on the outer wall of the shell (1), the power pack (722) and the switch component (723) which are arranged inside the insulation frame (721) are electrically connected with the lifting cylinder (71), and the switch component (723) is a delay switch.