CN116674792B - Solid beverage batch quantitative stacking device - Google Patents

Abstract

The invention belongs to the technical field of solid beverage stacking, and discloses a solid beverage batch quantitative stacking device, which comprises: the support assembly comprises a support frame with an inner cavity and is used for supporting the material conveying assembly; the material conveying assembly comprises a material conveying box with one end penetrating into the inner cavity of the support frame and is used for finishing material conveying; the control assembly is used for controlling the material conveying process of the material conveying box; the top of the supporting frame is connected with a supporting rod, and the material conveying box is detachably and slidably connected with the supporting rod; the bottom end of the material conveying box is provided with symmetrically distributed material conveying openings. The material conveying port is switched between a closed state and a material conveying state through the control of the control assembly, so that the batch quantitative operation of solid drinks is realized; and two material conveying openings are arranged, the state switching of the two material conveying openings is realized through a single motor, the structure is simplified and the synchronization of the material conveying processes of a plurality of material conveying openings is realized while the material conveying process is quickened.

Description

Solid beverage batch quantitative stacking device

Technical Field

The invention belongs to the technical field of solid beverage stacking, and particularly relates to a solid beverage batch quantitative stacking device.

Background

The solid beverage, such as instant coffee, wheat milk crystal, etc. has the features of instant drinking and instant drinking, and the solid beverage needs to be filled in batches and then packed after being produced.

Under the general condition, solid beverage enters the charging box through a conveyor belt and the like after production is finished to be subjected to material distribution treatment, a plurality of discharge holes can be formed in a single charging box for accelerating the follow-up batch charging progress, and along with the increase of the discharge holes, the corresponding structure for controlling the solid beverage to leave through the discharge holes is increased along with the increase of the discharge holes, so that the batch charging progress of the solid beverage is easy to be inconsistent through different discharge holes.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a solid beverage batch quantitative stacking device, which solves the problem that the batch charging progress of solid beverages is inconsistent through different discharge ports.

The aim of the invention can be achieved by the following technical scheme:

a solid beverage batch quantitative stacking device, comprising: the support assembly comprises a support frame with an inner cavity and is used for supporting the material conveying assembly;

the material conveying assembly comprises a material conveying box with one end penetrating into the inner cavity of the support frame and is used for finishing material conveying;

the control assembly is used for controlling the material conveying process of the material conveying box;

the top of the supporting frame is connected with a supporting rod, and the material conveying box is detachably and slidably connected with the supporting rod; the bottom end of the material conveying box is provided with symmetrically distributed material conveying openings;

the control assembly comprises a motor which is connected with the support frame through a first support piece; the bottom end of the material conveying box is provided with cover parts which are symmetrically distributed and can rotate, lifting parts are arranged above the material conveying opening, and a first traction part is arranged between each cover part and each adjacent lifting part; the lifting piece is connected with a first connecting piece, and a second traction part is arranged between the first connecting piece and the motor rotating shaft.

In some embodiments, the feed box has two lumens, different lumens communicating with different feed ports, and the cover is disposed in the different lumens;

the covering parts comprise two symmetrically distributed covering plates which are rotationally connected to the inner wall of the material conveying box;

the first traction portions comprise first traction wires which are symmetrically distributed, one end of each first traction wire is detachably connected with the lifting piece, and the other end of each first traction wire is detachably connected with the adjacent covering plate.

In some embodiments, the lifting members each comprise a lifting plate, two ends of the first connecting member are respectively connected to different lifting plates, and the first traction wires are detachably connected to the corresponding lifting plates;

the lifting plates are connected with a second supporting piece with the outer wall of the material conveying box;

the second traction part comprises a third support piece and a second traction wire, wherein the third support piece is arranged above the material conveying box, one end of the third support piece is connected to the outer wall of the material conveying box, the second traction wire is connected between the first connecting piece and the motor rotating shaft, and the second traction wire penetrates through the third support piece.

In some embodiments, the material conveying assembly further comprises a blocking piece connected to the top of the material conveying box in a sliding mode, a plurality of first through holes are formed in the blocking piece, and blocking plates connected to the top of the blocking piece in a rotating mode are arranged on one sides of the first through holes.

In some embodiments, a stacking assembly is also included for dividing the solid beverage product into portions.

The stacking assembly is arranged below the material conveying assembly and comprises stacking mechanisms which are symmetrically distributed, different stacking mechanisms are arranged close to different material conveying openings, and each stacking mechanism comprises a plurality of charging boxes which are stacked along the vertical direction;

the bottom of the stacking mechanism is provided with air cylinders.

In some embodiments, the device further comprises a transfer assembly, wherein the transfer assembly comprises symmetrically distributed transfer mechanisms, each transfer mechanism comprises a fourth support piece connected to the support frame, the bottoms of the fourth support pieces are provided with electric sliding tables, the electric sliding tables are provided with sliding seats, and one side of each sliding seat is detachably connected with a first sliding piece;

the first rotating parts are connected with the adjacent first sliding parts in a rotating way, and the first elastic parts are connected with the first rotating parts;

one side of the charging box, which is close to the electric sliding table, is connected with a hollow part, and the inner wall of the hollow part is connected with a first limiting part.

In some embodiments, the bottom of the fourth support member is detachably connected with a sliding plate at one end far away from the material conveying box, the sliding plate is obliquely arranged, and the height of the sliding plate connected with one end of the fourth support member is higher than that of the sliding plate connected with one end far away from the fourth support member;

the top of the sliding plate is detachably connected with a baffle.

In some embodiments, a conveying member is disposed on a side of the sliding plate away from the other sliding plate, and a supporting portion is connected between the bottom of the conveying member and the supporting frame.

The invention has the beneficial effects that:

1. the material conveying port is switched between a closed state and a material conveying state through the control of the control assembly, so that the batch quantitative operation of solid drinks is realized; and two material conveying openings are arranged, the state switching of the two material conveying openings is realized through a single motor, the structure is simplified and the synchronization of the material conveying processes of a plurality of material conveying openings is realized while the material conveying process is quickened.

2. The covering piece is composed of two covering plates, so that the progress of the covering process of the covering piece for removing the material conveying opening can be accelerated; and the cover plate can be used for guiding the output direction of the solid beverage, so that the problem that partial solid beverage leaks due to the fact that the size of the structure for receiving the solid beverage is not matched with that of the material conveying box is avoided.

3. In order to avoid solid beverage to receive the pollution, carry out the shutoff to the delivery box by the shutoff piece to keep the closure of delivery box inner chamber, and because first traction wire is detachable the connection with the lifter, can remove the shutoff piece earlier and make its cover delivery box inner chamber reconnection first traction wire and lifter, avoid leading to the shutoff piece to remove the in-process because of both orders exchange and promote first traction wire and make it unable to keep vertical downwards, thereby influence the subsequent pulling to the covering.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described, and it will be obvious to those skilled in the art that other drawings can be obtained according to these drawings without inventive effort.

FIG. 1 is a schematic view of the overall structure of a stacking device according to an embodiment of the present invention;

FIG. 2 is a schematic view of a first partial structure of a stacking apparatus according to an embodiment of the present invention;

FIG. 3 is a schematic view of a second partial structure of a stacking apparatus according to an embodiment of the present invention;

FIG. 4 is an enlarged view of FIG. 3A in accordance with an embodiment of the present invention;

FIG. 5 is a schematic view of a third partial structure of a stacking apparatus according to an embodiment of the present invention;

FIG. 6 is a schematic view of a fourth partial structure of a stacking apparatus according to an embodiment of the present invention;

fig. 7 is a schematic view of a fifth partial structure of a stacking apparatus according to an embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 7, a solid beverage batch quantitative stacking device includes: the support assembly comprises a support frame 1 with an inner cavity and is used for supporting the material conveying assembly;

the material conveying assembly comprises a material conveying box 3 with one end penetrating into the inner cavity 10 of the support frame and is used for finishing material conveying;

a control assembly 100 for controlling the feeding process of the feeding box 3;

the top of the supporting frame 1 is connected with a supporting rod 2, and the material conveying box 3 is detachably and slidably connected with the supporting rod 2; the bottom end of the material conveying box 3 is provided with symmetrically distributed material conveying openings 35;

the control assembly 100 comprises a motor 4, the motor 4 being connected to the support frame 1 by a first support 5; the bottom end of the material conveying box 3 is provided with cover pieces 15 which are symmetrically distributed and can rotate, lifting pieces 11 are arranged above the material conveying openings 35, and first traction parts 12 are arranged between the cover pieces 15 and the adjacent lifting pieces 11; a first connecting piece 13 is connected between the lifting pieces 11, and a second traction part 14 is arranged between the first connecting piece 13 and the rotating shaft of the motor 4.

The solid beverage, such as instant coffee, wheat milk crystal, etc. has the features of instant drinking and instant drinking, and the solid beverage needs to be filled in batches and then packed after being produced.

In general, the solid beverage enters the charging box 24 through a conveyor belt after production, etc. to be subjected to material dividing treatment, so as to accelerate the subsequent batch charging progress, a plurality of discharge ports can be formed in a single charging box 24, and as the discharge ports are increased, the structure for correspondingly controlling the solid beverage to leave through the discharge ports is increased, so that the batch charging progress of the solid beverage is easily inconsistent through different discharge ports.

In actual operation, the material conveying assembly is used for completing the receiving and conveying of the solid beverage, and the material conveying process is controlled by the control assembly 100 so as to complete the batch quantitative stacking operation of the solid beverage.

The material conveying assembly comprises a material conveying box 3 and a covering piece 15, and the control assembly 100 comprises a motor 4, a lifting piece 11, a first traction part 12, a first connecting piece 13 and a second traction part 14. In the specific material conveying process, the motor 4 needs to be started, the first connecting piece 13, the lifting piece 11 and the first traction part 12 can be driven to ascend or descend through the driving of the motor 4 to the second traction part 14, the cover 15 is rotated to one side close to the motor 4 or one side far away from the motor 4, and then the cover 15 is released from covering the material conveying opening 35, so that the material conveying is realized.

The cover 15 can rotate in two directions, and in general, in order to avoid solid beverage from obstructing the rotation of the cover 15 and realizing quantitative material conveying, the cover 15 generally rotates in a direction away from the motor 4; when the amount of solid beverage is small and there is no requirement for the feeding amount of the feeding process, the cover 15 can be rotated in both directions.

The material conveying port 35 is switched between a closed state and a material conveying state through the control of the control assembly 100, so that batch quantitative operation of solid drinks is realized; and two material conveying openings 35 are arranged, the state switching of the two material conveying openings 35 is realized through a single motor 4, the structure is simplified and the synchronization of the material conveying processes of a plurality of material conveying openings 35 is realized while the material conveying process is quickened.

In some embodiments, the feed box 3 has two lumens, different lumens communicating with different feed ports 35, and the cover 15 is disposed in the different lumens;

the covering pieces 15 comprise two symmetrically distributed covering plates 36, and the covering plates 36 are rotationally connected to the inner wall of the material conveying box 3;

the first traction portions 12 each include first traction wires 16 symmetrically distributed, and one end of each first traction wire 16 is detachably connected to the lifting member 11, and the other end is detachably connected to the adjacent covering plate 36.

By arranging the covering piece 15 to be composed of two covering plates 36, the progress of the covering process of the covering piece 15 for removing the covering of the material conveying opening 35 can be quickened; and the cover plate 36 can be used for guiding the output direction of the solid beverage, so as to avoid the leakage of part of the solid beverage caused by the mismatch between the structure for receiving the solid beverage and the size of the material conveying box 3.

The connection relation between the first traction wire 16 and the lifter 11 is described as follows: in this embodiment, a specific connection manner of the two is given, the lifting member 11 may include a first splicing portion, a plurality of second splicing portions perpendicular to the first splicing portion and connected to the bottom of the first splicing portion, and the second splicing portions are all provided with through holes, and the first traction wire 16 and the lifting member 11 can be detachably connected by passing one end of the first traction wire 16 through the corresponding through hole and tying the end of the first traction wire to the second splicing portion; the connection direction of the first traction wire 16 and the cover plate 36 can be referred to the connection manner of the first traction wire 16 and the lifting member 11.

In some embodiments, the lifting members 11 each include a lifting plate 17, two ends of the first connecting member 13 are respectively connected to different lifting plates 17, and the first traction wires 16 are detachably connected to the corresponding lifting plates 17;

the lifting plates 17 are connected with a second supporting piece 18 with the outer wall of the material conveying box 3;

the second traction part 14 comprises a third supporting piece 19 arranged above the material conveying box 3, one end of the third supporting piece 19 is connected to the outer wall of the material conveying box 3, and a second traction wire 20 connected between the first connecting piece 13 and the rotating shaft of the motor 4, wherein the second traction wire 20 penetrates through the third supporting piece 19.

The above structure can be seen that the motor 4 directly drives the second traction wire 20, and the second traction wire 20 pulls the first connecting piece 13 and the structure directly or indirectly connected to the first connecting piece 13 to lift.

In some embodiments, the material conveying assembly further includes a blocking member 23 slidably connected to the top of the material conveying box 3, where the blocking member 23 is provided with a plurality of first through holes 21, and one side of the first through holes 21 is provided with a blocking plate 22 rotatably connected to the top of the blocking member 23.

In order to avoid the solid beverage from being polluted, the blocking piece 23 is used for blocking the material conveying box 3 so as to keep the sealing performance of the inner cavity of the material conveying box 3, and the first traction wire 16 and the lifting piece 11 are detachably connected, the blocking piece 23 can be moved to cover the inner cavity of the material conveying box 3 and then be connected with the first traction wire 16 and the lifting piece 11, so that the situation that the first traction wire 16 cannot be pushed to keep vertical downwards in the moving process of the blocking piece 23 due to the sequential exchange of the first traction wire and the lifting piece is avoided, and the subsequent pulling of the covering piece 15 is influenced.

It should be further noted that the blocking piece 23 may be composed of two symmetrically distributed blocking covers, where different blocking covers block the inner cavities of different material conveying boxes 3, and meanwhile, the blocking plate 22 blocks the first perforation 21, so as to avoid that the inner cavities of the material conveying boxes 3 are not in a closed state due to the first perforation 21, part of which is not penetrated by the first traction wire 16.

In some embodiments, a stacking assembly is also included for dividing the solid beverage product into portions.

The stacking component is arranged below the material conveying component and comprises stacking mechanisms which are symmetrically distributed, different stacking mechanisms are arranged close to different material conveying openings 35, and each stacking mechanism comprises a plurality of charging boxes 24 which are stacked in the vertical direction;

the bottom of the stacking mechanism is provided with an air cylinder 25.

In actual operation, the air cylinder 25 is positioned on the ground and pushes the charging box 24 to be close to the feed inlet 35, and the solid beverage enters the charging box 24 through the feed inlet 35.

It should be noted that, the size of the charging box 24 and the size of the inner cavity thereof can be adjusted according to the size of the material inlet 35 and the requirement of stacking the solid beverage; in addition, a guide member may be sleeved outside the cylinder 25, the bottom wall of the guide member is inclined in the direction in which the discharge port is formed, and the guide member is guided to move in the same direction while receiving the leaked solid beverage, and may be provided to receive the bottle and load the part of the solid beverage.

In some embodiments, the device further comprises a transfer assembly, the transfer assembly comprises symmetrically distributed transfer mechanisms, each transfer mechanism comprises a fourth support piece 27 connected to the support frame 1, an electric sliding table 28 is installed at the bottom of each fourth support piece 27, sliding seats 29 are installed on each electric sliding table 28, and one side of each sliding seat 29 is detachably connected with a first sliding piece 30;

the first rotating parts 31 are rotatably connected to one end of the first sliding parts 30 close to the material conveying box 3, and the first elastic parts 32 are connected to the first rotating parts 31 and the adjacent first sliding parts 30;

the charging box 24 is connected with a hollow member 33 on one side close to the electric sliding table 28, and a first limiting member 34 is connected to the inner wall of the hollow member 33.

In actual operation, after the charging box 24 is loaded with the solid beverage, the solid beverage is transferred by the transfer assembly, specifically, the sliding seat 29 is driven by the electric sliding to slide so as to indirectly drive the charging box 24 to be separated from the feeding box 3.

When the sliding seat 29 gradually approaches the charging box 24, the first sliding member 30 gradually inserts into the hollow member 33, and the first rotating member 31 rotates to insert into the hollow member 33 along with the first sliding member 30; when the sliding seat 29 is gradually far away from the charging box 24, the first rotating member 31 cannot rotate and reset when the charging box 24 is not limited and movable, and pulls the first limiting member 34 gradually far away from the charging box 24, for this purpose, the first elastic member 32 may be selected to be elastic, and springs with different elastic coefficients may be selected to avoid that the first rotating member 31 directly completes resetting rotation.

In some embodiments, the bottom of the fourth support 27 is detachably connected to the sliding plate 6 at the end far away from the feeding box 3, and the sliding plate 6 is inclined, and the height of the sliding plate 6 connected to the end of the fourth support 27 is higher than the height of the end far away from the fourth support 27;

the top of the sliding plate 6 is detachably connected with a baffle 7.

When the charging box 24 is not limited and movable, the first rotating member 31 cannot rotate and reset, and in the actual operation process, the baffle 7 limits the charging box 24, at this time, the first rotating member 31 gradually rotates and resets, and the charging box 24 falls onto the slide plate 6 and slides along the surface of the slide plate 6.

In some embodiments, a conveying member 8 is disposed on one side of the sliding plate 6 away from the other sliding plate 6, and a supporting portion 9 is connected between the bottom of the conveying member 8 and the supporting frame 1.

In actual operation, the charging box 24 falls onto the slide plate 6 and slides along the surface of the slide plate 6 until it falls onto the conveying member 8, and the conveying member 8 may be provided as a conveyor for completing the subsequent conveyance of the charging box 24.

In summary, through the operation of the operation assembly 100, the material delivering opening 35 is switched between the closed state and the material delivering state, so as to implement batch quantitative operation on the solid beverage; and two material conveying openings 35 are arranged, the state switching of the two material conveying openings 35 is realized through a single motor 4, the structure is simplified and the synchronization of the material conveying processes of a plurality of material conveying openings 35 is realized while the material conveying process is quickened.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims.

Claims (7)

1. The utility model provides a solid drink batch ration is piled device, its characterized in that includes:

the support assembly comprises a support frame (1) with an inner cavity and is used for supporting the material conveying assembly;

the material conveying assembly comprises a material conveying box (3) with one end penetrating into the inner cavity (10) of the support frame and is used for finishing material conveying;

the control assembly (100) is used for controlling the material conveying process of the material conveying box (3);

the top of the supporting frame (1) is connected with a supporting rod (2), and the material conveying box (3) is detachably and slidably connected with the supporting rod (2); the bottom end of the material conveying box (3) is provided with symmetrically distributed material conveying openings (35);

the control assembly (100) comprises a motor (4), and the motor (4) is connected to the support frame (1) through a first support piece (5); the bottom end of the material conveying box (3) is provided with cover pieces (15) which are symmetrically distributed and can rotate, lifting pieces (11) are arranged above the material conveying openings (35), and first traction parts (12) are arranged between the cover pieces (15) and the adjacent lifting pieces (11); a first connecting piece (13) is connected between the lifting pieces (11), and a second traction part (14) is arranged between the first connecting piece (13) and the rotating shaft of the motor (4);

the material conveying assembly further comprises a stacking assembly for dividing the solid beverage into a plurality of parts; the stacking assembly is arranged below the material conveying assembly and comprises stacking mechanisms which are symmetrically distributed, different stacking mechanisms are arranged close to different material conveying openings (35), and each stacking mechanism comprises a plurality of charging boxes (24) which are stacked in the vertical direction;

the automatic lifting device comprises a supporting frame (1), and is characterized by further comprising a transferring assembly, wherein the transferring assembly comprises symmetrically distributed transferring mechanisms, each transferring mechanism comprises a fourth supporting piece (27) connected to the supporting frame (1), an electric sliding table (28) is arranged at the bottom of each fourth supporting piece (27), sliding seats (29) are arranged on each electric sliding table (28), and one side of each sliding seat (29) is detachably connected with a first sliding piece (30);

one end of the first sliding piece (30) close to the material conveying box (3) is rotationally connected with a first rotating piece (31), and the first rotating piece (31) is connected with a first elastic piece (32) with the adjacent first sliding piece (30);

one side of the charging box (24) close to the electric sliding table (28) is connected with a hollow piece (33), and the inner walls of the hollow piece (33) are connected with a first limiting piece (34);

the charging box (24) is transferred by the transfer assembly after the solid beverage is charged, and when the sliding seat (29) gradually approaches the charging box (24), the first sliding piece (30) is gradually inserted into the hollow piece (33).

2. Batch metering and stacking device according to claim 1, characterized in that the feed box (3) has two inner cavities, different inner cavities communicating with different feed openings (35), and the cover (15) is arranged in the different inner cavities;

the covering parts (15) comprise two symmetrically distributed covering plates (36), and the covering plates (36) are rotationally connected to the inner wall of the material conveying box (3);

the first traction portions (12) comprise first traction wires (16) which are symmetrically distributed, one end of each first traction wire (16) is detachably connected with the lifting piece (11), and the other end of each first traction wire is detachably connected with the adjacent covering plate (36).

3. Batch quantitative stacking device according to claim 2, characterized in that the lifting members (11) comprise lifting plates (17), the two ends of the first connecting member (13) are respectively connected to different lifting plates (17), and the first traction wires (16) are detachably connected to the corresponding lifting plates (17);

the lifting plates (17) are connected with the outer wall of the material conveying box (3) through second supporting pieces (18);

the second traction part (14) comprises a third supporting piece (19) arranged above the material conveying box (3) and one end of the third supporting piece is connected to the outer wall of the material conveying box (3), and a second traction wire (20) connected between the first connecting piece (13) and the rotating shaft of the motor (4), wherein the second traction wire (20) penetrates through the third supporting piece (19).

4. A batch quantitative stacking device according to claim 3, characterized in that the material conveying assembly further comprises a blocking piece (23) which is connected to the top of the material conveying box (3) in a sliding manner, a plurality of first through holes (21) are formed in the blocking piece (23), and blocking plates (22) which are connected to the top of the blocking piece (23) in a rotating manner are arranged on one sides of the first through holes (21).

5. Batch metering and stacking device as claimed in claim 4, characterized in that the bottom of the stacking mechanism is provided with cylinders (25).

6. The batch quantitative stacking device according to claim 5, wherein the bottom of the fourth supporting member (27) is detachably connected with a sliding plate (6) at one end far away from the material conveying box (3), the sliding plate (6) is obliquely arranged, and the height of one end of the sliding plate (6) connected with the fourth supporting member (27) is higher than that of one end far away from the fourth supporting member (27);

the top of the sliding plate (6) is detachably connected with a baffle (7).

7. The batch quantitative stacking device according to claim 6, wherein one side of the sliding plate (6) far away from the other sliding plate (6) is provided with a conveying piece (8), and a supporting part (9) is connected between the bottom of the conveying piece (8) and the supporting frame (1).