CN211365009U - High-viscosity powder filling mechanism - Google Patents

Abstract

The utility model discloses a high viscosity powder filling mechanism, which designs a topological structure of accurate positioning and full stirring of a discharging nozzle, and realizes the accurate positioning of the discharging nozzle by utilizing a translation and rotation module to be fastened and connected with a position fine-tuning module through a lower bearing seat; the powder stirring module is fastened and connected with the position fine-tuning module through the hopper fixing plate, all supporting forces act on the translation and rotation module, the stirring plate is driven to rotate through the direct current motor, high-viscosity powder is fully stirred, quantitative filling of the powder is achieved after the stepping motor drives the discharging screw to rotate, the high-viscosity powder filling mechanism capable of stirring uniformly is formed by the combination, the high-viscosity powder can be filled precisely, and the high-viscosity powder filling mechanism is neat in appearance and high in production efficiency. This utility model is used for packaging machinery field.

Description

High-viscosity powder filling mechanism

Technical Field

The utility model relates to the field of packaging machinery, in particular to vertical bag of high viscidity powder is packed, can make the packaging process smooth and easy with the accurate filling of high viscidity powder, improves the effect of powder packing and productivity ratio's high viscidity powder filling mechanism.

Background

Powder filling is a common package of a packaging machine, and the reasonability of the structure influences the filling speed and the packaging quality. The utility model discloses an automatic powder filling system, including frame, automatic bottle arrangement device, conveyor, irritate material device etc. make the powder filling realize from automatic bottle arrangement device to the full-automatic of the interior powder filling of bottle. The utility model discloses a make forest utility model a powder liquid filling machine with pneumatic oscillator has solved the filling process and has aimed at the difficulty, appears irritating easily empty and leak and irritate the scheduling problem, has proposed suitable in being heated can produce viscidity or rotten powder filling's solution. Wu yongzhi et al utility model discloses a powder filling equipment and filling method, through be provided with the metering hole that runs through the body base plate perpendicularly on the body base plate, be provided with sealed partition plate below the body base plate, make the filling precision improve greatly.

However, for highly viscous powders, if the stirring is not timely performed, the powder is liable to agglomerate. When the powder reaches the blanking screw, the powder is easy to accumulate, so that the blanking screw cannot rotate, the screw is distorted and deformed, and the filling cannot be performed or the filling precision is poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an improve powder packing effect and productivity ratio's high viscosity powder filling mechanism.

The utility model adopts the technical proposal that:

the high-viscosity powder filling mechanism comprises

A translation and rotation module;

the translation and rotation module is fixedly connected with the position fine adjustment module through a lower bearing seat and drives the position fine adjustment module to translate and rotate;

powder stirring module, powder stirring module passes through hopper fixed plate and the fastening hookup of position fine setting module, powder stirring module can follow position fine setting module and remove, powder stirring module includes step motor, direct current motor, hopper dish, hopper, stirring board, unloading screw rod, discharging pipe, ejection of compact mouth, the hopper dish is fixed on the hopper fixed plate, the hopper fastening is under the hopper dish, the discharging pipe fastening is on the hopper, ejection of compact mouth fastening is on the discharging pipe, the hole of unloading screw rod accessible discharging pipe and ejection of compact mouth, direct current motor drives the stirring board at the hopper internal rotation, direct current motor drives the unloading screw rod rotatory.

Further as the utility model discloses technical scheme's improvement, translation and rotation module include the bottom plate, two guide pillar A are fastened to the bottom plate two mobilizable guide block A of installation on the guide pillar A, two the guide fixed plate is fastened to the guide block A, the fastening step on the guide fixed plate, put into the carousel on the step, the step passes through the flange fastening with the carousel, the carousel can be in the step 360 rotatory.

Further conduct the utility model discloses technical scheme's improvement, position fine setting module is including installing rotation seat and the locking plate on the step, it passes through rotation axis and a rotation board swing joint to rotate the seat, locking plate one end is fixed on rotating the seat, the locking plate other end is fixed on the rotor plate, the upper end and the lower extreme of rotor plate are fixed with the last guide pillar seat and the lower guide pillar seat of perpendicular to rotor plate respectively, go up and install the lead screw between guide pillar seat and the lower guide pillar seat, lead screw one end is fixed on last guide pillar seat, the top coaxial coupling of lead screw has the rocking handle, lead screw threaded connection has guide block B, guide block B passes through internal thread and hopper fixed plate fixed connection.

Further conduct the utility model discloses technical scheme's improvement, go up the guide pillar seat and install two guide pillar B that are on a parallel with the rotor plate setting with fastening between the lower guide pillar seat, two guide pillar B installs the both sides at the lead screw respectively, guide block B both sides are provided with along the gliding hole of guide pillar B.

Further conduct the utility model discloses technical scheme's improvement, the locking plate is the arc, locking plate and rotation seat fixed end are served and have been seted up a plurality of through-holes B, the whole angle of convenient adjustment, the long rotatory logical groove A that distributes along the locking plate arc is seted up to locking plate and rotation plate stiff end, the fine setting of the angle of being convenient for.

Further conduct the utility model discloses technical scheme's improvement, step motor and direct current motor fastening are on the hopper fixed plate, inherent gear A is fastened on direct current motor's the main shaft, gear B is installed in the other meshing of gear A, gear B fastens on bearing A's outer lane, inherent unloading main shaft is fastened on bearing A's the inner circle, gear B fastens on a stirring board fixing base, stirring board fixing base and a bearing B inner circle tight fit, bearing B outer lane and a bearing retainer plate cooperation, the bearing retainer plate fastening is on the hopper dish, stirring board fixing base and stirring support fastening connection, stirring support fastening connection stirring board realizes the long-term stirring of the high viscosity powder of hopper.

Further conduct the utility model discloses technical scheme's improvement, step motor and unloading main shaft fastening connection, the unloading main shaft passes through the coupling joint unloading screw rod.

Further conduct the utility model discloses technical scheme's improvement, the both sides at stirring board fixing base are fixed to the stirring support symmetry, set up two elongated slotted holes C on the stirring support, the stirring board is adjusted along elongated slotted hole C under the effect of fastener, and the stirring board can be adjusted along elongated slotted hole C under the effect of fastener, makes the inclination of stirring board unanimous with the cone angle of hopper.

Further conduct the utility model discloses technical scheme's improvement, it has a plurality of equidistance through-hole D to open on the stirring board, makes the bottom of stirring board can evenly stir with the terminal surface parallel and level of discharging pipe, high viscosity powder ability.

Further conduct the utility model discloses technical scheme's improvement, the storage bucket is installed to the top of hopper dish, the hopper dish is provided with an opening and makes storage bucket and hopper communicate with each other.

The utility model has the advantages that: according to the high-viscosity powder filling mechanism, a topological structure for accurately positioning and fully stirring the discharging nozzle is designed, and the translation and rotation module is tightly connected with the position fine adjustment module through the lower bearing seat, so that the accurate positioning of the discharging nozzle is realized; the powder stirring module is fastened and connected with the position fine-tuning module through the hopper fixing plate, all supporting forces act on the translation and rotation module, the stirring plate is driven to rotate through the direct current motor, high-viscosity powder is fully stirred, quantitative filling of the powder is achieved after the stepping motor drives the discharging screw to rotate, the high-viscosity powder filling mechanism capable of stirring uniformly is formed by the combination, the high-viscosity powder can be filled precisely, and the high-viscosity powder filling mechanism is neat in appearance and high in production efficiency.

Drawings

The present invention will be further explained with reference to the accompanying drawings:

FIG. 1 is an assembly view of an embodiment of the present invention;

FIG. 2 is an assembly view of an embodiment of the present invention;

fig. 3 is a schematic view of a full-section structure of the embodiment of the present invention.

In the figure:

the device comprises a translation and rotation module 100, a guide post A101, a bottom plate 102, a guide fixing plate 103, a lower bearing seat 104, a flange 105, a turntable 106 and a guide block A107;

the device comprises a position fine adjustment module 200, a lower guide post seat 201, a locking plate 202, a rotating plate 203, a lead screw 204, a guide block B205, a guide post B206, an upper guide post seat 207, a rocking handle 208, a rotating seat 209, a through hole B210 and a long rotating through groove A211;

the powder stirring device comprises a powder stirring module 300, a direct current motor 301, a stepping motor 302, a charging bucket 303, a hopper fixing plate 304, a hopper disc 305, a gear B306, a gear A307, a hopper 308, a bearing A309, a bearing B310, a stirring plate fixing seat 311, a bearing fixing ring 312, a discharging main shaft 313, a stirring support 314, a stirring plate 315, a coupling 316, a discharging screw 317, a discharging pipe 318, a discharging nozzle 319, a long slotted hole C320 and a through hole D321.

Detailed Description

This section will describe in detail the embodiments of the present invention, preferred embodiments of the present invention are shown in the attached drawings, which are used to supplement the description of the text part of the specification with figures, so that one can intuitively and vividly understand each technical feature and the whole technical solution of the present invention, but they cannot be understood as the limitation of the protection scope of the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated with respect to the orientation description, such as up, down, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, a plurality of means are one or more, a plurality of means are two or more, and the terms greater than, less than, exceeding, etc. are understood as not including the number, and the terms greater than, less than, within, etc. are understood as including the number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

Referring to fig. 1-3, an embodiment of a high viscosity powder filling mechanism includes

A translation and rotation module 100; the translation and rotation module 100 comprises a base plate 102, two guide posts a101 are fastened on the base plate 102, two movable guide blocks a107 are mounted on the two guide posts a101, a guide fixing plate 103 is fastened on the two guide blocks a107, a lower bearing seat 104 is fastened on the guide fixing plate 103, a turntable 106 is placed on the lower bearing seat 104, the lower bearing seat 104 is fastened with the turntable 106 through a flange 105, and the turntable 106 can rotate within the lower bearing seat 104 for 360 degrees. The two guide blocks a107 can move left and right along the guide pillar a101, so as to drive the position fine adjustment module 200 and the powder stirring module 300 to move left and right, and the turntable 106 rotates 360 degrees in the lower bearing seat 104, so as to drive the position fine adjustment module 200 and the powder stirring module 300 to rotate. Accurate positioning of the tap 319 is achieved by translation of the guide block a107 of the translation and rotation module 100 and rotation of the turntable 106.

The position fine-tuning module 200, the translation and rotation module 100 are fastened and coupled to the position fine-tuning module 200 through the lower bearing seat 104, and the translation and rotation module 100 drives the position fine-tuning module 200 to translate and rotate. The position fine adjustment module 200 comprises a rotating seat 209 and a locking plate 202 which are installed on a lower bearing seat 104, the rotating seat 209 is movably connected with a rotating plate 203 through a rotating shaft, one end of the locking plate 202 is fixed on the rotating seat 209, the other end of the locking plate 202 is fixed on the rotating plate 203, the upper end and the lower end of the rotating plate 203 are respectively fixed with an upper guide pillar seat 207 and a lower guide pillar seat 201 which are perpendicular to the rotating plate 203, a lead screw 204 is installed between the upper guide pillar seat 207 and the lower guide pillar seat 201, one end of the lead screw 204 is fixed on the upper guide pillar seat 207, the top end of the lead screw 204 is coaxially connected with a rocking handle 208, the lead screw 204 is in threaded connection with a guide block B205. The rotating plate 203 can rotate around a rotating shaft on the rotating seat 209, and fine adjustment of the position of the discharging nozzle 319 is realized through the threaded movement of the guide block B205 on the lead screw 204.

Preferably, two cylindrical guide posts B206 arranged parallel to the rotating plate 203 are tightly mounted between the upper guide post seat 207 and the lower guide post seat 201, the two guide posts B206 are respectively mounted on two sides of the screw 204, holes sliding along the guide posts B206 are arranged on two sides of the guide block B205, the screw 204 is rotated by rocking the rocking handle 208, so that the guide block B205 is driven to move up and down along the screw 204, and holes sliding along the guide posts B206 are arranged on two sides of the guide block 205, so that the vibration of the guide block 205 in the sliding process can be effectively reduced, and the accuracy of the mechanism is enhanced.

In one embodiment, the locking plate 202 is arc-shaped, and a plurality of through holes B210 are formed at the fixed end of the locking plate 202 and the rotating seat 209, so that the overall angle can be conveniently adjusted; locking plate 202 and rotor plate 203 stiff end are seted up along the long rotatory logical groove A211 of locking plate 202 arc distribution, and the angle of being convenient for is finely tuned, rotates certain angle along the rotation axis through rotor plate 203, is provided with on the rotor plate 203 along the rotatory spud pile in long rotatory logical groove A211, after rotor plate 203 is rotatory to the position, can directly lock on the spud pile through nuts etc. with rotor plate 203 rigidity.

Powder stirring module 300, wherein powder stirring module 300 is fastened and connected with position fine adjustment module 200 through hopper fixing plate 304, and powder stirring module 300 can move along position fine adjustment module 200. The powder stirring module 300 comprises a stepping motor 302, a direct current motor 301, a hopper disc 305, a hopper 308, a stirring plate 315, a discharging screw 317, a discharging pipe 318 and a discharging nozzle 319, wherein the hopper disc 305 is fixed on a hopper fixing plate 304, the hopper 308 is fastened below the hopper disc 305, the discharging pipe 318 is fastened on the hopper 308, the discharging nozzle 319 is fastened on the discharging pipe 318, the discharging screw 317 can pass through inner holes of the discharging pipe 318 and the discharging nozzle 319, and the direct current motor 301 drives the stirring plate 315 to rotate in the hopper 308, so that high-viscosity powder is fully stirred; the stepping motor 302 drives the blanking screw 317 to rotate, and the high-viscosity powder is quantitatively filled through the threads of the blanking screw 317. Wherein, the discharging pipe 318 is conical, the discharging pipe 318 is matched and fixed with the outlet end of the hopper 308, the discharging nozzle 319 is cylindrical, and the discharging nozzle 319 and the discharging pipe 318 are screwed up and fixed through nuts.

According to the high-viscosity powder filling mechanism, a topological structure for accurate positioning and full stirring of the discharging nozzle 319 is designed, and the discharging nozzle 319 is accurately positioned by utilizing the translation and rotation module 100 to be fixedly connected with the position fine adjustment module 200 through the lower bearing seat 104; the powder stirring module 300 is tightly connected with the position fine-tuning module 200 through the hopper fixing plate 304, all supporting forces act on the translation and rotation module 100, the stirring plate 315 is driven to rotate through the direct current motor 301, so that the high-viscosity powder is fully stirred, quantitative filling of the powder is realized after the stepping motor 302 drives the blanking screw 317 to rotate, the high-viscosity powder filling mechanism with uniform stirring is formed by the combination, the high-viscosity powder can be precisely filled, the appearance is neat, and the production efficiency is high. The utility model discloses the filling of powder dosage such as mainly used food, beverage, medicine, daily chemical enterprise is particularly suitable for being applied to the higher accurate powder filling of viscosity.

Wherein, the upper part of the hopper tray 305 is provided with the charging bucket 303, and the hopper tray 305 is provided with an opening to ensure that the charging bucket 303 is communicated with the hopper 308. The charging basket 303 is designed to be communicated with the hopper 308, so that the high-viscosity powder can be added conveniently.

The stepping motor 302 and the dc motor 301 are fastened to the hopper fixing plate 304, the hopper fixing plate 304 is a concave plate, the concave plate and the hopper tray 305 form a closed space, the stepping motor 302 and the dc motor 301 are mounted on the upper surface of the hopper fixing plate 304, two holes are formed in the top plate of the concave plate, and output shafts of the dc motor 301 and the stepping motor 302 pass through the two holes. A gear A307 is fastened on a main shaft of the direct current motor 301, a gear B306 is meshed beside the gear A307, and the gear A307 and the gear B306 are both arranged in a closed space. The gear B306 is fastened on the outer ring of the bearing A309, the blanking main shaft 313 is fastened on the inner ring of the bearing A309, the stepping motor 302 is fastened and connected with the blanking main shaft 313, the blanking main shaft 313 is connected with the blanking screw 317 through the coupler 316, the coupler 316 is arranged to connect the blanking main shaft 313 with the blanking screw 317, and buffering and vibration can be reduced. Gear B306 is fastened on a stirring plate fixing seat 311, stirring plate fixing seat 311 is tightly matched with an inner ring of a bearing B310, an outer ring of bearing B310 is matched with a bearing fixing ring 312, bearing fixing ring 312 is fastened on hopper disc 305, stirring plate fixing seat 311 is fastened and connected with stirring support 314, and stirring plate 315 is fastened and connected with stirring support 314. The direct current motor 301 drives the gear A307 to rotate, the gear A307 drives the gear B306 to rotate, the gear B306 drives the stirring plate fixing seat 311 to rotate, the stirring plate fixing seat 311 drives the stirring support 314 fixedly connected with the stirring plate fixing seat to rotate, the stirring support 314 drives the stirring plate 315 to rotate in the hopper 308, and long-term stirring of high-viscosity powder in the hopper 308 is achieved.

In one embodiment, the stirring brackets 314 are symmetrically fixed on two sides of the stirring plate fixing base 311, two elongated slots C320 are formed in the stirring brackets 314, and the stirring plate 315 is adjusted along the elongated slots C320 under the action of the fastening member, so that the inclination angle of the stirring plate 315 is consistent with the cone angle of the hopper 308.

Preferably, a plurality of through holes D321 with equal distance are opened on the stirring plate 315, so that the bottom of the stirring plate 315 can be flush with the end surface of the discharging pipe 318, and the high-viscosity powder can be uniformly stirred.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (10)

1. High viscous powder filling mechanism, its characterized in that: comprises that

A translation and rotation module (100);

the position fine adjustment module (200), the translation and rotation module (100) is fixedly connected with the position fine adjustment module (200) through a lower bearing seat (104), and the translation and rotation module (100) drives the position fine adjustment module (200) to translate and rotate;

a powder stirring module (300), the powder stirring module (300) is fastened and connected with the position fine-tuning module (200) through a hopper fixing plate (304), the powder stirring module (300) can move along the position fine-tuning module (200), the powder stirring module (300) comprises a stepping motor (302), a direct current motor (301), a hopper disc (305), a hopper (308), a stirring plate (315), a blanking screw (317), a discharge pipe (318) and a discharge nozzle (319), the hopper disc (305) is fixed on the hopper fixing plate (304), the hopper (308) is fastened under the hopper disc (305), the discharge pipe (318) is fastened on the hopper (308), the discharge nozzle (319) is fastened on the discharge pipe (318), the blanking screw (317) can pass through inner holes of the discharge pipe (318) and the discharge nozzle (319), the direct current motor (301) drives the stirring plate (315) to rotate in the hopper, the direct current motor (301) drives the blanking screw (317) to rotate.

2. The high viscosity powder filling mechanism of claim 1, wherein: the translation and rotation module (100) comprises a bottom plate (102), two guide posts A (101) are fixedly arranged on the bottom plate (102), two movable guide blocks A (107) are mounted on the two guide posts A (101), a guide fixing plate (103) is fixedly arranged on the two guide blocks A (107), a lower bearing seat (104) is fixedly arranged on the guide fixing plate (103), a turntable (106) is placed on the lower bearing seat (104), the lower bearing seat (104) is fixedly connected with the turntable (106) through a flange (105), and the turntable (106) can rotate in the lower bearing seat (104) by 360 degrees.

3. The high viscosity powder filling mechanism of claim 1, wherein: the position fine adjustment module (200) comprises a rotating seat (209) and a locking plate (202) which are arranged on a lower bearing seat (104), the rotating seat (209) is movably connected with a rotating plate (203) through a rotating shaft, one end of the locking plate (202) is fixed on the rotating seat (209), the other end of the locking plate (202) is fixed on the rotating plate (203), the upper end and the lower end of the rotating plate (203) are respectively fixed with an upper guide post seat (207) and a lower guide post seat (201) which are vertical to the rotating plate (203), a screw rod (204) is arranged between the upper guide post seat (207) and the lower guide post seat (201), one end of the lead screw (204) is fixed on the upper guide post seat (207), the top end of the lead screw (204) is coaxially connected with a rocking handle (208), the screw rod (204) is in threaded connection with a guide block B (205), and the guide block B (205) is fixedly connected with the hopper fixing plate (304).

4. A high viscosity powder filling mechanism as defined in claim 3, wherein: two guide posts B (206) which are parallel to the rotating plate (203) are tightly mounted between the upper guide post seat (207) and the lower guide post seat (201), the two guide posts B (206) are respectively mounted on two sides of the lead screw (204), and holes which slide along the guide posts B (206) are formed in two sides of the guide block B (205).

5. A high viscosity powder filling mechanism according to claim 3 or 4, wherein: locking plate (202) are the arc, a plurality of through-holes B (210) have been seted up on locking plate (202) and rotation seat (209) fixed end, long rotatory logical groove A (211) along locking plate (202) arc distribution have been seted up to locking plate (202) and rotation plate (203) fixed end.

6. The high viscosity powder filling mechanism of claim 1, wherein: the stepping motor (302) and the direct current motor (301) are fastened on the hopper fixing plate (304), a gear A (307) is fixedly arranged on a main shaft of the direct current motor (301), a gear B (306) is meshed and arranged beside the gear A (307), the gear B (306) is fastened on the outer ring of a bearing A (309), a blanking main shaft (313) is fastened on the inner ring of the bearing A (309), the gear B (306) is fastened on a stirring plate fixing seat (311), the stirring plate fixing seat (311) is tightly matched with an inner ring of a bearing B (310), the outer ring of the bearing B (310) is matched with a bearing fixed ring (312), the bearing fixed ring (312) is fastened on the hopper disc (305), stirring board fixing base (311) and stirring support (314) fastening connection, stirring support (314) fastening connection stirring board (315).

7. A high viscosity powder filling mechanism according to claim 1 or 6, wherein: the stepping motor (302) is fixedly connected with the blanking main shaft (313), and the blanking main shaft (313) is connected with the blanking screw (317) through a coupler (316).

8. The high viscosity powder filling mechanism of claim 6, wherein: the stirring support (314) is symmetrically fixed on two sides of the stirring plate fixing seat (311), two long slotted holes C (320) are formed in the stirring support (314), and the stirring plate (315) is adjusted along the long slotted holes C (320) under the action of a fastening piece.

9. The high viscosity powder filling mechanism of claim 8, wherein: a plurality of through holes D (321) with equal distance are arranged on the stirring plate (315).

10. The high viscosity powder filling mechanism of claim 1, wherein: the charging bucket (303) is arranged above the hopper disc (305), and the hopper disc (305) is provided with an opening to enable the charging bucket (303) to be communicated with the hopper (308).

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