Mixer having a closing cover

Abstract

A mixer includes a mixing container held in a machine stand, with an outlet opening in the bottom of the mixing container, and a closure cover which can be reciprocated between a closed position in which the closure cover closes the outlet opening and an opened position in which the closure cover does not close the outlet opening. The closure cover is connected to the machine stand by way of a four-bar linkage including four rotary joints, wherein a first and a second rotary joint of the four-bar linkage are arranged on the closure cover and a third and a fourth rotary joint of the four-bar linkage are arranged on the machine stand.

Claims

1. A mixer comprising: a mixing container held in a machine stand, with an outlet opening in the bottom of the mixing container; and a closure cover which can be reciprocated between a closed position in which the closure cover closes the outlet opening and an opened position in which the closure cover does not close the outlet opening, wherein the closure cover is connected to the machine stand by way of a four-bar linkage comprising four rotary joints, and wherein a first and a second rotary joint of the four-bar linkage are arranged on the machine stand and a third and a fourth rotary joint of the four-bar linkage are arranged on the closure cover, wherein the mixing container and the four-bar linkage are arranged such that the mixing container is rotatable about a mixing container axis while the four-bar linkage does not rotate about the mixing container axis.

2. The mixer according to claim 1, wherein all joint axes of the four-bar linkage are arranged parallel to each other.

3. The mixer according to claim 1, wherein the first joint of the four-bar linkage is connected to the fourth joint of the four-bar linkage by way of a crank of the length c, the second joint of the four-bar linkage is connected to the third joint of the four-bar linkage by way of a lever of the length a, the third joint of the four-bar linkage is connected to the fourth joint of the four-bar linkage by way of a coupling part of the closure cover, wherein the joint axes of the third and fourth joints are spaced from each other at a spacing b, wherein the joint axes of the first and second joints are spaced from each other at a spacing g, wherein e is the spacing between the first and the second joint axes in a direction perpendicular to a straight line connecting the third and the fourth joint axes and d is the spacing between the first and the second joint axes in a direction parallel to the straight line connecting the third and the fourth joint axes, wherein a) the first joint is arranged closer to the plane in which the outlet opening is disposed than the second joint and/or b) the fourth joint is closer to the closure cover than the third joint.

4. The mixer according to claim 3, wherein 0.9(a+e)/c1.1.

5. The mixer according to claim 3, wherein the closure cover is fixed to the coupling part.

6. The mixer according to claim 3, wherein either the joint axis of the second joint is in the form of a shaft that can be rotated by a drive for rotating the shaft and the lever is fixed to the shaft in such a way that the lever rotates about the joint axis of the joint when the shaft is rotated, or the joint axis of the first joint is in the form of a shaft that can be rotated by a drive for rotating the shaft and the crank is fixed to the shaft in such a way that the crank rotates about the joint axis of the joint when the shaft is rotated.

7. The mixer according to claim 6, wherein the lengths of the crank, the coupling part and the lever as well as the positions of the four joints are so matched that in the movement of the closure cover from the closed position into the opened position the projection of the edge of the closure cover, that is towards the shaft, on to the container bottom, is not in the region of the outlet opening.

8. The mixer according to claim 3, wherein the coupling part is arranged substantially perpendicularly to the closure cover.

9. The mixer according to claim 3, wherein the length f of the coupling part in relation to the spacing b between the joint axes three and four is in the ratio 2f/b10.

10. The mixer according to claim 3, wherein the following applies for the ratio of the spacing d to the spacing b: 0.75d/b1.5.

11. The mixer according to claim 3, wherein in the closed position of the closure cover the crank and the lever extend substantially parallel to each other.

12. The mixer according to claim 3, wherein the closure cover is circular with a radius r, and wherein the coupling part is connected to the closure cover at the centre point thereof.

13. The mixer according to claim 12, wherein ac and 0.1r/a1.2.

14. The mixer according to claim 3, wherein a straight line which extends through the third and fourth joint axes is on the mixing container axis and extends through the centre point of the closure cover.

Description

(1) Further advantages, features and possible uses will be apparent from the description hereinafter of a preferred embodiment and the accompanying Figures in which:

(2) FIG. 1 shows a plan view of a mixing container of the state of the art,

(3) FIG. 2 shows a side view in section through the mixing device and the mixing container installed therein in FIG. 1,

(4) FIG. 3 shows a perspective view from below of an embodiment according to the invention,

(5) FIG. 4 shows a perspective view of the FIG. 3 embodiment with opened closure,

(6) FIG. 5 shows a side view in section through the embodiment of FIG. 4, and

(7) FIG. 6 shows a diagrammatic view of a four-bar linkage according to the invention.

(8) FIGS. 1 and 2 show a mixer from the state of the art, which has already been described hereinbefore.

(9) FIG. 3 shows a perspective view from below of an embodiment of the mixer according to the invention. The Figure shows the bottom of a cylindrical mixing container 1 which is mounted rotatably on a machine stand 2. Shown at the underside of the mixing container 1 is a closure opening in which a closure cover 3 is arranged. The closure cover 3 is fixed to a coupling element 4, on which the third joint axis 10 and the fourth joint axis 11 are in turn arranged.

(10) FIG. 4 shows a perspective view of the mixer according to the invention with a closure cover in the (partly) opened position. The closure cover 3 has an edge surface 13. The coupling element 4 is connected to the closure cover 3 which in the illustrated position is not exactly in the closed position. In the illustrated embodiment the closure cover is round and the coupling element is connected to the centre point 12 of the circular shape of the closure cover 3. The outlet opening 5 is disposed at the bottom of the mixing container 1. The coupling element 4 is connected to the machine stand 2 both by way of a crank element 7 and also by a lever element 6.

(11) Fixed to the machine stand are a first rotary joint 8 which is engaged by the crank element and a second rotary joint 9 engaged by the lever element.

(12) The crank element is driven by way of a shaft by way of the rotary joint 8, from a corresponding drive (not shown), so that the crank element 7 can be rotated about the joint axis of the shaft in order to reciprocate the closure cover 3 between the closed position and the opened position. It is also possible to see the coupling element 4 on which are disposed the third axis for the third rotary joint 10 and the axis for the fourth rotary joint 11.

(13) FIG. 5 shows a side view of the mixer according to the invention as shown in FIG. 4 in the (partly) opened position of the closure cover.

(14) FIG. 6 shows a diagrammatic view of the mechanism. The four-bar linkage has a first and a second rotary joint 8, 9 fixed to the machine stand 2. The third rotary joint 10 and the fourth rotary joint 11 are fixed to the coupling element 4.

(15) The first rotary joint 8 is connected to the fourth rotary joint 11 by way of a crank element 7. The second rotary joint 9 is connected to the third rotary joint 10 by way of a lever element 6.

(16) The coupling element 4 not only connects the third rotary joint 10 and the fourth rotary joint 11 but extends as far as the closure cover 3 and there engages the centre point of the closure cover at 12. The coupling element is perpendicular to the closure cover. The third rotary joint 10 is at the end of the coupling element 4, that is opposite to the closure cover 3.

(17) The point 13 of the edge surface of the closure cover 3 that is towards the first and second rotary joints 8, 9 should as far as possible not move further away from the first rotary joint 8 in the movement from the closed position into the opened position in a direction parallel to the bottom surface of the mixing container in order to ensure that no material to be mixed drops on to the first rotary joint 8 or the second rotary joint 9. At the same time in that case the closure cover 3 also covers the rotary joints 10 and 11 to prevent soiling with material to be mixed.

(18) In the illustrated embodiment the lever element 6 is of a length of 500 mm. The crank element is of a length c of 600 mm. The coupling element 4 is of an overall length of 350 mm, wherein the third and the fourth rotary joints are spaced from each other by a spacing b of 60 mm. The spacing d between the first and second rotary joints, like the spacing b, is also 60 mm. The closure cover is of a radius r of 250 mm.

LIST OF REFERENCES

(19) 1 mixing container 2 machine stand 3 closure cover 4 coupling element 5 outlet opening 6 lever element 7 crank element 8, 9, 10, 11 rotary joint 12 centre point of the closure cover 13 edge surface 101 mixing container 102 mixing tool 103 central shaft 104 mixing blade 105 wall/bottom scraper 106 bottom blade 107 emptying opening 108 closure cover 109 mounting pin 110 carrier arm 111 pivotal shaft 112 transfer box