CN218142240U - Drying agent quantitative filling mechanism - Google Patents

Abstract

The utility model discloses a drier quantitative filling mechanism, contain the ration rotor, the upside pipe fitting, downside pipe fitting and rotor actuating mechanism, the upper end of ration rotor is rotated and is set up the lower extreme at the upside pipe fitting, the lower extreme of ration rotor rotates the upper end that sets up at the downside pipe fitting, the ration rotor is rotated between upside pipe fitting and downside pipe fitting by the drive of rotor actuating mechanism, be provided with the ration unit hole of a plurality of vertical settings in the ration rotor, it has a plurality of upside arc walls to open on the lower terminal surface of upside pipe fitting, it has a plurality of downside arc walls to open on the up end of downside pipe fitting, the upside arc wall of upside pipe fitting staggers each other with the downside arc groove position of downside pipe fitting. The utility model discloses a ration unit hole in the ration rotor is carried out the ration and is got the material to adopt the form of staggering of ration unit hole and the arc wall of upside pipe fitting and downside pipe fitting to realize getting the material and the unloading filling, realized carrying out the ration of high accuracy to the drier and got material and filling.

Description

Drying agent quantitative filling mechanism

Technical Field

The utility model relates to a filling mechanism, especially a drier ration filling mechanism belongs to drier equipment technical field.

Background

At present, the quantitative filling of materials generally adopts a weighing quantitative mode or a flow metering mode to quantitatively control the drying agent. However, for the quantitative filling of the desiccant, since the amount of the desiccant used is small, usually several grams to ten and several grams, it is packaged in small packages. The packaging usually adopts continuous inclusion to carry out the device of continuous pouring and online sealing, and the mode of weighing is difficult to be used on these devices, and the flow mode, because the drier is powder or granular object, and because disposable filling quantity is few, and flow measurement error is big, causes the error of filling the final weight of drier great, if less then can not reach the drying effect of expectation, if more then has caused the product waste, increases manufacturing cost.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a drier quantitative filling mechanism is provided realizes the quantitative filling of the high accuracy of drier.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is:

the utility model provides a drier quantitative filling mechanism which characterized in that: contain the ration rotor, the upside pipe fitting, downside pipe fitting and rotor actuating mechanism, the upper end of ration rotor is rotated and is set up the lower extreme at the upside pipe fitting, the lower extreme of ration rotor rotates the upper end that sets up at the downside pipe fitting, the ration rotor is rotatory between upside pipe fitting and downside pipe fitting by the drive of rotor actuating mechanism, be provided with the quantitative unit hole of a plurality of vertical settings in the ration rotor, it has a plurality of upside arc walls and all quantitative unit hole position matchs in a plurality of upside arc wall positions and the ration rotor to open on the lower terminal surface of upside pipe fitting, it has a plurality of downside arc walls and all quantitative unit hole position matchs in a plurality of downside arc wall positions and the ration rotor to open on the up end of downside pipe fitting, the upside arc wall of upside pipe fitting staggers each other with the downside arc wall position of downside pipe fitting.

Furthermore, the plurality of quantitative unit holes are respectively formed along the axial direction of the quantitative rotor, the plurality of quantitative unit holes are divided into a plurality of groups, each group of quantitative unit holes are distributed in an annular shape with the axis of the quantitative rotor as the center of a circle, and a plurality of rings formed by the plurality of groups of quantitative unit holes are concentrically arranged in the quantitative rotor from inside to outside.

Furthermore, the arcs of the upper arc-shaped grooves are concentrically arranged, and the positions of the upper arc-shaped grooves correspond to the annular positions formed by the plurality of groups of quantitative unit holes one by one.

Furthermore, the arcs of the lower side arc-shaped grooves are concentrically arranged, and the positions of the lower side arc-shaped grooves correspond to the annular positions formed by the plurality of groups of quantitative unit holes one by one.

Further, the upside pipe fitting contains bottom disc, upside body and flange ring, and the bottom disc is fixed at upside body lower extreme, and the flange ring is fixed in the upper end of upside body, and a plurality of upside arc walls are seted up on the bottom disc, and it has a plurality of screws to open on the flange ring.

Further, the lower side pipe fitting comprises a top disc and a lower side filling hopper, the lower side filling hopper is fixed to the lower side of the top disc, and a plurality of lower side arc-shaped grooves are formed in the top disc.

Further, rotor actuating mechanism contains ring gear, gear motor and motor mount, and the ring gear cover is established in the outside of upside pipe fitting and with upside pipe fitting fixed connection, the gear install by gear motor drive and gear and the outside sawtooth intermeshing of ring gear in gear motor's the drive shaft, gear motor fixes on the motor mount, the fixed setting of motor mount is on the lateral surface of upside pipe fitting.

Furthermore, the quantitative filling device also comprises a plurality of filling rods, wherein the filling rods are cylindrical rod bodies, the shapes and the sizes of the filling rods are matched with the quantitative unit holes, and the filling rods are inserted into the quantitative unit holes.

Compared with the prior art, the utility model, have following advantage and effect:

1. the drying agent quantitative filling mechanism of the utility model adopts the quantitative unit hole in the quantitative rotor to quantitatively take materials, and adopts the form of staggering the quantitative unit hole and the arc-shaped grooves of the upper pipe fitting and the lower pipe fitting to realize material taking, blanking and filling, thereby realizing high-precision quantitative material taking and filling of the drying agent;

2. the utility model can adjust the quantitative size by increasing or reducing the quantitative unit holes, such as inserting the filling rod, thereby adapting to the quantitative filling of the drying agents with different specifications;

3. the utility model discloses a simple rotating machinery structure has just realized the quantitative filling of drier, and overall structure is simple compact, reasonable in design, low in production cost.

Drawings

Fig. 1 is a schematic view of a desiccant quantitative filling mechanism of the present invention.

Fig. 2 is a cross-sectional view of a desiccant quantitative filling mechanism of the present invention.

Fig. 3 is a plan view of the dosing rotor of the present invention.

Fig. 4 is a top view of the upper side pipe of the present invention.

Fig. 5 is a top view of the lower side pipe fitting of the present invention.

Detailed Description

To elaborate on the technical solution adopted by the present invention for achieving the predetermined technical purpose, the technical solution in the embodiment of the present invention will be clearly and completely described below by combining with the drawings in the embodiment of the present invention, and it is obvious that the described embodiment is only a partial embodiment of the present invention, not a whole embodiment, and technical means or technical features in the embodiment of the present invention can be replaced without paying creative efforts, and the present invention will be described in detail below by combining with the embodiments with reference to the drawings.

As shown in fig. 1 and 2, the utility model discloses a drier quantitative filling mechanism contains quantitative rotor 1, upside pipe fitting 2, downside pipe fitting 3 and rotor actuating mechanism, and the upper end of quantitative rotor 1 is rotated and is set up the lower extreme at upside pipe fitting 2, and the lower extreme of quantitative rotor 1 is rotated and is set up the upper end at downside pipe fitting 3, and quantitative rotor 1 is rotated between upside pipe fitting 2 and downside pipe fitting 3 by the drive of rotor actuating mechanism. As shown in fig. 3, a plurality of vertically arranged dosing unit holes 4 are provided in the dosing rotor 1. As shown in fig. 4, the lower end surface of the upper pipe member 2 is provided with a plurality of upper arc-shaped slots 5, and the positions of the upper arc-shaped slots 5 are matched with the positions of all the quantitative unit holes 4 in the quantitative rotor 1, i.e. in the rotation process of the quantitative rotor 1, at least at a certain moment, all the quantitative unit holes 4 can be aligned to at least one upper arc-shaped slot 5. Open on the up end of downside pipe fitting 3 and have a plurality of downside arc wall 6 and a plurality of downside arc wall 6 positions match with all quantitative unit hole 4 positions in the ration rotor 1, promptly at ration rotor 1 rotation in-process, at least at a certain moment, all quantitative unit hole 4 can be to last at least one downside arc wall 6. Upside arc wall 5 of upside pipe fitting 2 staggers each other with 6 positions of downside arc wall of downside pipe fitting 3, quantitative unit hole 4 of quantitative rotor 1 is when 5 aim at with upside arc wall like this, quantitative unit hole 4 does not aim at with downside arc wall 6, 4 upper ends in quantitative unit hole and upside pipe fitting 2 intercommunication carry out the ration and get the material this moment, quantitative rotor 1 continues to rotate quantitative unit hole 4 and downside arc wall 6 and aim at the time, quantitative unit hole 4 is misaligned with upside arc wall 5 this moment, 1 lower extreme of quantitative rotor carries out the ejection of compact this moment, and carry out the filling through downside pipe fitting 3.

As shown in fig. 3, the plurality of quantitative unit holes 4 are respectively formed along the axial direction of the quantitative rotor 1, the plurality of quantitative unit holes 4 are divided into a plurality of groups, each group of quantitative unit holes 4 are distributed in an annular shape with the axis of the quantitative rotor 1 as the center of circle, and a plurality of rings formed by the plurality of groups of quantitative unit holes 4 are concentrically arranged in the quantitative rotor 1 from inside to outside.

As shown in FIG. 4, the plurality of upper arc-shaped slots 5 are concentrically arranged in an arc shape, and the positions of the plurality of upper arc-shaped slots 5 correspond to the annular positions formed by the plurality of groups of quantitative unit holes 4 one by one. The length design of upside arc wall 5 needs to guarantee that the drier can fill up each quantitative unit hole 4 when getting the material to the volume through quantitative unit hole 4 gets the material quantitatively.

As shown in FIG. 5, the lower arc-shaped slots 6 are concentrically arranged, and the positions of the lower arc-shaped slots 6 correspond to the annular positions formed by the plurality of groups of quantitative unit holes 4 one by one. The length design of the lower side arc-shaped groove 6 needs to ensure that the drying agent in each quantitative unit hole 4 can be completely discharged by the drying agent when the quantitative rotor 1 is discharged.

As shown in fig. 2, the upper pipe member 2 comprises a bottom disc 7, an upper pipe body 8 and a flange ring 9, the bottom disc 7 is fixed at the lower end of the upper pipe body 2, the flange ring 9 is fixed at the upper end of the upper pipe body 8, a plurality of upper arc-shaped grooves 5 are formed in the bottom disc 7, and a plurality of screw holes 10 are formed in the flange ring 9. The lower side pipe fitting 3 comprises a top disc 11 and a lower side filling bucket 12, the lower side filling bucket 12 is fixed on the lower side of the top disc 11, and a plurality of lower side arc-shaped grooves 6 are formed in the top disc 11. The outer side surface of the bottom disc 7 is provided with a convex edge extending vertically downwards, the outer side surface of the top disc 11 is provided with a convex edge extending vertically upwards, the inner diameter of the convex edge of the bottom disc 7 and the inner diameter of the convex edge of the top disc 11 are matched with the outer diameter of the quantitative rotor 1, and two ends of the quantitative rotor 1 are embedded in the convex edges of the bottom disc 7 and the top disc 11 and can rotate freely.

As shown in fig. 1, the rotor driving mechanism includes a gear ring 13, a gear 14, a gear motor 15 and a motor fixing frame 16, the gear ring 13 is sleeved on the outer side of the upper pipe 2 and is fixedly connected with the upper pipe 2, the gear 14 is installed on a driving shaft of the gear motor 15 and is driven by the gear motor 15, the gear 14 is engaged with outer side saw teeth of the gear ring 13, the gear motor 15 is fixed on the motor fixing frame 16, and the motor fixing frame 16 is fixedly arranged on the outer side surface of the upper pipe 2. The gear motor 15 drives the gear 14 to rotate, and the gear 14 drives the gear 13 to rotate so as to drive the quantitative rotor 1 to rotate between the upper pipe member 2 and the lower pipe member 3.

The utility model discloses a drier quantitative filling mechanism still contains a plurality of filler rods, and the filler rod is the cylindrical body of rod and the shape size and the quantitative unit hole 4 of filler rod match, and a plurality of filler rods are inserted and are established in a plurality of quantitative unit hole 4. When the capacity of the quantitative rotor 1 needs to be adjusted, the quantitative unit holes 4 which do not need to be used can be filled with filling rods according to the actual capacity requirement, so that the adjustment of filling of drying agents with different capacities is realized.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and although the present invention has been disclosed with reference to the preferred embodiment, it is not intended to limit the present invention, and any person skilled in the art can make some changes or modifications to equivalent embodiments without departing from the scope of the present invention, and all those skilled in the art can make modifications or modifications equivalent embodiments without departing from the technical spirit of the present invention.

Claims (8)

1. The utility model provides a drier quantitative filling mechanism which characterized in that: contain the ration rotor, the upside pipe fitting, downside pipe fitting and rotor actuating mechanism, the upper end of ration rotor is rotated and is set up the lower extreme at the upside pipe fitting, the lower extreme of ration rotor rotates the upper end that sets up at the downside pipe fitting, the ration rotor is rotatory between upside pipe fitting and downside pipe fitting by the drive of rotor actuating mechanism, be provided with the quantitative unit hole of a plurality of vertical settings in the ration rotor, it has a plurality of upside arc walls and all quantitative unit hole position matchs in a plurality of upside arc wall positions and the ration rotor to open on the lower terminal surface of upside pipe fitting, it has a plurality of downside arc walls and all quantitative unit hole position matchs in a plurality of downside arc wall positions and the ration rotor to open on the up end of downside pipe fitting, the upside arc wall of upside pipe fitting staggers each other with the downside arc wall position of downside pipe fitting.

2. A desiccant dosing mechanism as claimed in claim 1, wherein: the quantitative rotor is characterized in that the quantitative unit holes are respectively formed along the axial direction of the quantitative rotor and are divided into a plurality of groups, each group of quantitative unit holes are distributed in an annular shape with the axis of the quantitative rotor as the center of a circle, and a plurality of rings formed by the quantitative unit holes are concentrically arranged in the quantitative rotor from inside to outside.

3. A desiccant dosing mechanism as claimed in claim 2, wherein: the arcs of the upper side arc-shaped grooves are concentrically arranged, and the positions of the upper side arc-shaped grooves correspond to the annular positions formed by the plurality of groups of quantitative unit holes one by one.

4. A desiccant dosing mechanism as claimed in claim 2, wherein: the arcs of the plurality of lower side arc-shaped grooves are concentrically arranged, and the positions of the plurality of lower side arc-shaped grooves correspond to the annular positions formed by the plurality of groups of quantitative unit holes one by one.

5. A desiccant dosing mechanism as claimed in claim 1, wherein: the upside pipe fitting contains bottom disc, upside body and flange ring, and the bottom disc is fixed at upside body lower extreme, and the flange ring is fixed in the upper end of upside body, and a plurality of upside arc walls are seted up on the bottom disc, and it has a plurality of screws to open on the flange ring.

6. A desiccant dosing mechanism as claimed in claim 1, wherein: the lower side pipe fitting comprises a top disc and a lower side filling hopper, the lower side filling hopper is fixed to the lower side of the top disc, and a plurality of lower side arc-shaped grooves are formed in the top disc.

7. A desiccant dosing mechanism as claimed in claim 1, wherein: rotor actuating mechanism contains ring gear, gear motor and motor mount, and the ring gear cover is established in the outside of upside pipe fitting and with upside pipe fitting fixed connection, and the gear is installed by gear motor drive and the outside sawtooth intermeshing of gear and ring gear in gear motor's the drive shaft, and gear motor fixes on the motor mount, and the motor mount is fixed to be set up on the lateral surface of upside pipe fitting.

8. A desiccant dosing mechanism as claimed in claim 1, wherein: the filling rod is a cylindrical rod body, the shape and the size of the filling rod are matched with the quantitative unit holes, and the filling rods are inserted into the quantitative unit holes.

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