CN214397311U - Multi-cup-channel dense filling mechanism - Google Patents

Abstract

The utility model discloses a many cups say filling mechanism that densifies, connect in the feeding device of support and set up the climbing mechanism under feeding device including support frame, sliding connection in the support of mounting bracket, liftable, feeding device includes elevating gear and is fixed in elevating gear's storage silo, the side of storage silo is connected with the loading hopper, the top of loading hopper is equipped with the open-ended loading hopper, the bottom of loading hopper communicates in the storage silo through reinforced screw rod, the storage silo inner distribution is a plurality of minutes feed bins, the top of storage silo is equipped with the filling mechanism who corresponds the setting with minute feed bin respectively, climbing mechanism's top is equipped with the support cup that divides the feed bin to correspond the setting respectively. The utility model discloses compact structure, a plurality of branch feed bin single filling simultaneously improves filling efficiency.

Description

Multi-cup-channel dense filling mechanism

Technical Field

The utility model relates to a filling technical field especially relates to a dense filling mechanism of many cups way.

Background

The horizontal screw filling device which is commonly used at present has the working principle that powder is horizontally conveyed forwards through a horizontal screw, and the powder is conveyed out of an outlet and then conveyed into a packaging container through a pipeline with a certain angle. The technique is generally applicable to powders with better flowability; in the case of powders having poor flowability, the space between the helical blades cannot be completely filled due to the slow flow rate, resulting in a difference in capacity. Meanwhile, as the powder is too fine, the powder is often adhered to the channel wall in the channel, so that the problems of material accumulation, inaccurate filling and the like are caused; in addition, most of the metering type filling machines in the prior art adopt single-row screw rods for metering and filling, and although the metering type filling machines are simple in structure and low in machine cost, the filling efficiency is low, the production efficiency is low, and the requirement for mass and large-scale production is difficult to meet. Accordingly, improvements are needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a many cups way densification filling mechanism to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a many cups say densification filling mechanism, includes that mounting bracket, sliding connection connect in the support of mounting bracket, liftable connect in the feeding device of support and set up the climbing mechanism under feeding device, feeding device includes elevating gear and the storage silo that is fixed in elevating gear, the side of storage silo is connected with the feed bin, the top of feed bin is equipped with the open-ended loading hopper, the bottom of feed bin communicates in the storage silo through reinforced screw rod, the distribution is a plurality of minutes feed bins in the storage silo, the top of storage silo is equipped with the filling mechanism who corresponds the setting with dividing the feed bin respectively, climbing mechanism's top is equipped with the support cup that corresponds the setting respectively.

Preferably, in the above-mentioned dense filling mechanism of many cups way, the mounting bracket includes two fixed plates of parallel arrangement, the both sides of support are respectively through slide rail sliding connection in the inboard of fixed plate.

Preferably, in the above-mentioned dense filling mechanism of many cups way, the support includes the base of sliding connection in the fixed plate respectively and sets up the riser in base both ends respectively, elevating gear sliding connection in the riser.

Preferably, in the multi-cup-channel dense filling mechanism, the lifting device includes a driving device, a sliding plate and a connecting rod connected between the driving device and the sliding plate, two ends of the driving device are respectively fixed between corresponding vertical plates, and the sliding plate is slidably connected to the corresponding vertical plates through a first guide rail.

Preferably, in the above-mentioned multi-cup-channel dense filling mechanism, the driving device includes a mounting seat, a first rotating shaft and a first motor, both ends of the mounting seat are respectively fixed to the corresponding vertical plate, the first motor is rotatably disposed on the mounting seat and the first rotating shaft, and the first motor is drivingly connected to the first rotating shaft.

Preferably, in the multi-cup-channel dense filling mechanism, two ends of the first rotating shaft are connected to the mounting seat through bearing seats respectively and protrude out of the mounting seat, two ends of the first rotating shaft are connected to the driving blocks respectively, two ends of the connecting rod are connected to the driving blocks and the sliding block through hinge pins respectively, and the first rotating shaft and the corresponding hinge pins are arranged eccentrically.

Preferably, in the multi-cup-channel dense filling mechanism, the storage bin is connected to the lifting device through a top plate, the filling mechanism includes a variable-pitch screw rod and a second motor, the variable-pitch screw rod is respectively arranged in the material distribution bin, the second motor is connected to the variable-pitch screw rod in a driving manner, and the second motor is connected to the variable-pitch screw rod through a transmission shaft.

Preferably, the multi-cup-channel dense filling mechanism further comprises a stirring and stacking mechanism, the stirring and stacking mechanism comprises a rotating sleeve, a stirring shaft and a third motor, the rotating sleeve is sleeved on the transmission shaft, the stirring shaft is arranged corresponding to the variable-pitch screw, the third motor is in driving connection with the rotating sleeve through a gear pair, and a bearing is arranged between the rotating sleeve and the transmission shaft.

Preferably, at above-mentioned dense filling mechanism of many cups way, climbing mechanism rotates respectively including connecting plate, the both ends that are fixed in outside frame and connects in the second pivot of connecting plate, drive and connect in the fourth motor and the support cup mounting bracket of second pivot, the both ends of support cup mounting bracket are connected in the connecting plate through the second guide rail respectively, the bottom drive of support cup mounting bracket is connected in the second pivot.

Preferably, in the multi-cup-channel dense filling mechanism, a connecting boss is convexly arranged at the bottom of the cup supporting mounting frame, a cam is sleeved on the second rotating shaft, and the connecting boss is pinned to the cam through a connecting pin.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses compact structure, the outside weighing module of cooperation, the filling error is steerable in 1%, adopts the filling simultaneously of many cups way single, improves whole line filling efficiency, and the saving equipment takes up an area of the space.

Drawings

Fig. 1 is a schematic structural view of a multi-cup dense filling mechanism in an embodiment of the present invention.

Fig. 2 is a schematic structural view of a lifting device according to an embodiment of the present invention.

Fig. 3 is a schematic structural view of a storage bin according to an embodiment of the present invention.

Fig. 4 is a schematic view illustrating the installation of the variable pitch screw according to the embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a jacking device according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1 to 5, a many cup tracks densification filling mechanism, including mounting bracket 1, sliding connection is in support 2 of mounting bracket 1, liftable connect in support 2's feeding device and set up climbing mechanism 3 under feeding device, feeding device includes elevating gear 4 and is fixed in elevating gear 4's storage silo 5, the side of storage silo 5 is connected with feed hopper 6, the top of feed hopper 6 is equipped with open-ended loading hopper 61, feed hopper 6's bottom is passed through feed screw and is linked together in storage silo 5, the distribution is six branch feed bins 51 in the storage silo 5, the top of storage silo 5 is equipped with the filling mechanism 7 that corresponds the setting with branch feed bin 51 respectively, climbing mechanism 3's top is equipped with the support cup that branch feed bin 51 corresponds the setting respectively.

Among this technical scheme, the mounting bracket is fixed in the frame through screws etc, and the opening of loading hopper is 1.5 cun round mouths to through inhaling the export of material hose connection feed bin on outside vacuum, the powder raw materials adds the back, send into the storage silo by reinforced screw rod, and the independent pay-off of filling mechanism in every minute feed bin is filled the packing material, and climbing mechanism improves the uniformity that the powder was filled, makes things convenient for follow-up encapsulation processing, the utility model discloses compact structure coordinates outside weighing module, and the filling error is steerable in 1% in, adopts many cups way single simultaneous filling, improves whole line filling efficiency, and saving equipment takes up an area of space.

Further, the mounting bracket 1 comprises two fixing plates arranged in parallel, and two sides of the bracket 2 are respectively connected to the inner sides of the fixing plates in a sliding manner through sliding rails.

Among this technical scheme, the both ends bottom of two fixed plates is connected with the bracing piece respectively to improve the fixed strength of mounting bracket, still be equipped with conventional devices such as stopper and location locking mechanism on the mounting bracket, concrete structure belongs to prior art, and it has just not been repeated to differ here.

Further, the bracket 2 includes a base 21 slidably connected to the fixing plate and risers 22 respectively disposed at two ends of the base, and the lifting device 4 is slidably connected to the risers 22.

In the technical scheme, the cross section of the base is of an L-shaped structure, the two ends of each of the two supports are respectively connected with a reinforcing rod, and the two ends of the lifting device are respectively fixed between corresponding vertical plates.

Further, the lifting device 4 includes a driving device 41, a sliding plate 42, and a link 43 connected between the driving device 41 and the sliding plate 42, both ends of the driving device 41 are respectively fixed between corresponding risers, and the sliding plate 42 is slidably connected to the corresponding risers through a first guide rail 44.

In the technical scheme, the driving device drives the sliding block to reciprocate through the connecting rod, and the sliding block is ensured to move in the vertical direction all the time through the guide rail.

Further, the driving device 41 includes a mounting seat 411 having two ends respectively fixed to the corresponding riser, a first rotating shaft 412 rotatably disposed on the mounting seat, and a first motor 413 drivingly connected to the first rotating shaft 412.

In this technical scheme, first motor passes through conventional devices such as gear box drive connection in first pivot, and concrete structure just not has opened, and mount pad 411 is assembled by polylith panel and forms.

Further, two ends of the first rotating shaft 412 are respectively connected to the mounting seat 411 through bearing seats and protrude out of the mounting seat 411, two ends of the first rotating shaft 412 are respectively connected to the driving block 414, two ends of the connecting rod are respectively connected to the driving block 414 and the sliding block through hinge pins, and the first rotating shaft 412 and the corresponding hinge pins are eccentrically arranged.

In the technical scheme, the driving block is equivalent to a cam structure, and in the rotating process of the first rotating shaft, the driving block drives the sliding block to move in a reciprocating manner through the driving block and the connecting rod, so that the storage bin is lifted, and the filling and the abdicating after the filling are completed.

Further, the storage bin 5 is connected to the lifting device 4 through the top plate 8, the filling mechanism 7 includes variable pitch screws 71 respectively disposed in the distribution bins 51 and a second motor 72 drivingly connected to the variable pitch screws 71, and the second motor 72 is connected to the variable pitch screws 71 through a transmission shaft 73.

In the technical scheme, the structure of the second motor, the variable pitch screw and the transmission shaft belongs to the prior art, and the second motor is connected to the transmission shaft through the coupler and drives the variable pitch screw to rotate.

Further, the stirring and stacking mechanism 9 is further included, the stirring and stacking mechanism 9 includes a rotating sleeve 91 sleeved on the transmission shaft 73, a stirring shaft 92 arranged corresponding to the variable pitch screw 71, and a third motor 93 connected to the rotating sleeve in a driving manner, the third motor is connected to the rotating sleeve in a driving manner through a gear pair 94, and a bearing is arranged between the rotating sleeve and the transmission shaft 73.

Among this technical scheme, it independently rotates to rotate cover and transmission shaft, mutually noninterference, the gear pair is including the suit in the gear that rotates the cover and the idler between meshing and the adjacent gear, and by third motor drive, the gear pair does and realizes by synchronous pulley group, the upper and lower surface of gear all is equipped with the bearing, it is fixed through the sleeve between third motor and the roof, the gear sets up in the sleeve, the processing of sleeve outer wall has the groove of stepping down, a gear is in the meshing of corresponding idler, after variable pitch screw rod pay-off was accomplished, the third motor starts, the (mixing) shaft rotates, for the continuous supplementary material of variable pitch screw rod, fill up the space between the helical blade completely, improve the filling precision.

Further, the jacking mechanism 3 includes that the connecting plate 31, both ends that are fixed in outside frame rotate respectively to be connected in the second pivot 32 of connecting plate, drive connection in the fourth motor 33 and the support cup mounting bracket 34 of second pivot, and the both ends of support cup mounting bracket 34 are connected in the connecting plate through second guide rail 35 respectively, and the bottom drive of support cup mounting bracket 34 is connected in the second pivot.

Furthermore, a connecting boss is convexly arranged at the bottom of the cup holder mounting frame 34, a cam 36 is sleeved on the second rotating shaft, and the connecting boss is connected with the cam through a connecting pin.

Among the two above-mentioned technical scheme, the fourth motor drives the second pivot and rotates, rotates the in-process, and the cam drives and holds in the palm the lift of cup mounting bracket to realize holding in the palm the lift of cup, can make between the powder inseparabler, improve the uniformity of filling.

To sum up, the utility model discloses compact structure increases the (mixing) shaft, for the continuous supplementary material of variable pitch screw rod, fills up the space between the helical blade completely, improves the filling precision, adopts many cups way single filling simultaneously, improves whole line filling efficiency, and saving equipment takes up an area of the space.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The foregoing is directed to embodiments of the present application and it is noted that numerous modifications and adaptations may be made by those skilled in the art without departing from the principles of the present application and are intended to be within the scope of the present application.

Claims (10)

1. The utility model provides a dense filling mechanism of many cups way which characterized in that: including mounting bracket, sliding connection in the support of mounting bracket, liftable connect in the feeding device of support and set up the climbing mechanism under feeding device, feeding device includes elevating gear and the storage silo that is fixed in elevating gear, the side of storage silo is connected with the feed bin, the top of feed bin is equipped with the open-ended loading hopper, the bottom of feed bin communicates in the storage silo through reinforced screw rod, the distribution is a plurality of branch feed bins in the storage silo, the top of storage silo is equipped with the filling mechanism who corresponds the setting with dividing the feed bin respectively, climbing mechanism's top is equipped with the support cup that corresponds the setting with dividing the feed bin respectively.

2. The multi-cup dense filling mechanism of claim 1, wherein the mounting frame comprises two fixing plates arranged in parallel, and two sides of the support are slidably connected to inner sides of the fixing plates through slide rails respectively.

3. The multi-cup dense filling mechanism of claim 2, wherein said support comprises a base slidably connected to said fixing plate and a vertical plate disposed at two ends of said base, said lifting device being slidably connected to said vertical plate.

4. The multi-cup dense filling mechanism of claim 3, wherein the lifting device comprises a driving device, a sliding plate and a connecting rod connected between the driving device and the sliding plate, the two ends of the driving device are respectively fixed between corresponding vertical plates, and the sliding plate is slidably connected to the corresponding vertical plates through first guide rails.

5. The multi-cup dense filling mechanism of claim 4, wherein the driving device comprises a mounting seat fixed at two ends to corresponding risers, a first motor rotatably disposed on the mounting seat and the first rotating shaft, and a first motor drivingly connected to the first rotating shaft.

6. The multi-cup-channel dense filling mechanism of claim 5, wherein two ends of the first rotating shaft are respectively connected to the mounting seat through bearing seats and protrude from the mounting seat, two ends of the first rotating shaft are respectively connected to the driving block, two ends of the connecting rod are respectively connected to the driving block and the sliding block through hinge pins, and the first rotating shaft is eccentrically arranged corresponding to the hinge pins.

7. The multi-cup-channel dense filling mechanism according to claim 1, wherein the storage bin is connected to the lifting device through a top plate, the filling mechanism comprises a variable pitch screw and a second motor, the variable pitch screw and the second motor are respectively arranged in the material distribution bin, the second motor is in driving connection with the variable pitch screw, and the second motor is connected to the variable pitch screw through a transmission shaft.

8. The multi-cup-channel dense filling mechanism according to claim 7, further comprising a stirring and stacking mechanism, wherein the stirring and stacking mechanism comprises a rotating sleeve sleeved on the transmission shaft, a stirring shaft arranged corresponding to the variable-pitch screw, and a third motor in driving connection with the rotating sleeve, the third motor is in driving connection with the rotating sleeve through a gear pair, and a bearing is arranged between the rotating sleeve and the transmission shaft.

9. The multi-cup-channel dense filling mechanism according to claim 1, wherein the jacking mechanism comprises a connecting plate fixed on the external frame, a second rotating shaft with two ends respectively rotatably connected to the connecting plate, a fourth motor drivingly connected to the second rotating shaft, and a cup supporting mounting frame, two ends of the cup supporting mounting frame are respectively connected to the connecting plate through a second guide rail, and the bottom of the cup supporting mounting frame is drivingly connected to the second rotating shaft.

10. The multi-cup-channel dense filling mechanism according to claim 9, wherein a connecting boss is protruded from a bottom of the cup holder mounting frame, a cam is sleeved on the second rotating shaft, and the connecting boss is pinned to the cam through a connecting pin.

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