CN110898749A

CN110898749A - Mixing container overturning cradle device and using method

Info

Publication number: CN110898749A
Application number: CN201911119961.3A
Authority: CN
Inventors: 孟荣华; 吴正佳; 袁伟; 许静; 王丽
Original assignee: China Three Gorges University CTGU
Current assignee: China Three Gorges University CTGU
Priority date: 2019-11-15
Filing date: 2019-11-15
Publication date: 2020-03-24

Abstract

The invention discloses a mixing container overturning cradle device and a using method thereof, and the device comprises a first cradle and a second cradle which are arranged in parallel, wherein the first cradle and the second cradle are fixedly connected through two cross beams fixed on one side of the first cradle, the top of the first cradle is provided with a first upper pressing mechanism, the top of the second cradle is provided with a second upper pressing mechanism, the outer side of the first cradle is provided with a rotating mechanism, the bottom side wall of the first cradle is fixed with first side pressing mechanisms which are symmetrically arranged, and the bottom side wall of the second cradle is fixed with second side pressing mechanisms which are symmetrically arranged. This upset cradle device can be used for the fixed upset of container, and then guarantees that its upset emptys the security of in-process, prevents that it from taking place the incident such as drop, guarantees operation personnel's security.

Description

Mixing container overturning cradle device and using method

Technical Field

The invention relates to the technical field of container cleaning, in particular to a mixing container overturning cradle device and a using method thereof.

Background

The mixing container cradle is used for placing the mixing container and turning the mixing container over to pour out the materials; the staff of being convenient for of upset slope simultaneously washs, but the cradle subassembly of prior art does not have the fixed establishment who is used for fixed mixing container, like this at upset slope in-process, and the accident takes place the incident that drops, influences staff's life safety, influences work efficiency simultaneously.

Disclosure of Invention

In view of the above-mentioned shortcomings in the prior art, an object of the present invention is to provide a mixing container turning cradle device and a method for using the same, wherein the turning cradle device can be used for fixing and turning a container, so as to ensure the safety of the container in the turning and tipping process, prevent the container from falling off, and ensure the safety of the operator.

In order to achieve the technical features, the invention is realized as follows: the utility model provides a mixing vessel upset cradle device which characterized in that: it includes parallel arrangement's first cradle and second cradle, link to each other through fixing two crossbeams in one side wherein between first cradle and the second cradle fixed, hold-down mechanism on first is installed at the top of first cradle, hold-down mechanism on the second is installed at the top of second cradle, slewing mechanism is installed in the outside of first cradle, be fixed with the first side pressure mechanism of symmetrical arrangement on the bottom lateral wall of first cradle, be fixed with the second side pressure mechanism of symmetrical arrangement on the bottom lateral wall of second cradle.

The first upper pressing mechanism comprises a first oil cylinder, a first sliding beam and a first positioning pin, the first oil cylinder is fixed at the middle part of the top of the first cradle, the output end of the first oil cylinder is fixed at the middle part of the top of the first sliding beam, the first positioning pin is fixed at two ends of the side wall of the first sliding beam, the first sliding beam and two first guide rods which are arranged in parallel form a sliding fit, and the first guide rods are fixed at the top of the first cradle.

Hold-down mechanism includes second hydro-cylinder, second smooth roof beam and second locating pin on the second, the second hydro-cylinder is fixed in the top middle part of second cradle, the output of second hydro-cylinder is fixed in the top middle part of second smooth roof beam, two the second locating pin is fixed in the lateral wall both ends of second smooth roof beam, the second smooth roof beam constitutes sliding fit with two parallel arrangement's second guide bar, the top at the second cradle is fixed to the second guide bar.

The bottom symmetry of first cradle is provided with two third locating pins, the bottom symmetry of two cradles is provided with two fourth locating pins.

The first lateral pressing mechanism comprises a third oil cylinder, and a first pressing pin is installed at the tail end of a piston rod of the third oil cylinder.

The second lateral pressing mechanism comprises a fourth oil cylinder, and a second pressing pin is installed at the tail end of a piston rod of the fourth oil cylinder.

The rotating mechanism comprises a servo motor, a planetary reducer is installed on an output shaft of the servo motor, and the output shaft of the planetary reducer is connected with a rotary reducer.

The top edge of the mixing container is provided with a first pin hole and a second pin hole which are matched with the first upper pressing mechanism and the second upper pressing mechanism respectively, and a base of the mixing container is provided with a third pin hole and a fourth pin hole which are matched with the third positioning pin and the fourth positioning pin.

The use method of the automatic turning cleaning device for the mixing container for cleaning the container comprises the following steps:

step 1: respectively positioning a third pin hole and a fourth pin hole of the mixing container on the tops of a third positioning pin and a fourth positioning pin of the first cradle and the second cradle;

step 2: starting the first lateral pressing mechanism and the second lateral pressing mechanism, and respectively pushing the first pressing pin and the second pressing pin so as to clamp and position two sides of the bottom of the mixing container;

step 3: starting the first upper pressing mechanism and the second upper pressing mechanism, respectively driving the first sliding beam and the second sliding beam, and respectively press-fitting the first sliding beam and the second sliding beam into a first pin hole and a second pin hole of the mixing container through a first positioning pin and a second positioning pin;

step 4: after the mixing container is positioned, the rotating mechanism is started, the planetary speed reducer is driven by the servo motor, the rotary speed reducer is driven by the planetary speed reducer, and then the whole mixing container is driven to rotate by the rotary speed reducer.

The invention has the following beneficial effects:

the invention is provided with a rotating mechanism, a first upper pressing mechanism, a second upper pressing mechanism, a first side pressing mechanism and a second side pressing mechanism, wherein the rotating mechanism overturns a cradle, the first upper pressing mechanism and the second upper pressing mechanism vertically fix and press a mixing container, the first side pressing mechanism and the second side pressing mechanism transversely fix and press the mixing container, multi-axial fixing and pressing are realized, accidental falling is avoided, safety is ensured to a certain extent, and safety accidents are avoided.

Drawings

The invention is further illustrated by the following figures and examples.

FIG. 1 is a first perspective three-dimensional view of the present invention.

FIG. 2 is a second perspective three-dimensional view of the present invention.

Fig. 3 is a front view of the present invention.

Fig. 4 is a rear view of the present invention.

FIG. 5 is a first perspective three-dimensional view of the present invention with the mixing container removed.

FIG. 6 is a three-dimensional view from a second perspective of the present invention with the mixing container removed.

Fig. 7 is a three-dimensional view of a mixing vessel of the present invention.

Detailed Description

Embodiments of the present invention will be further described with reference to the accompanying drawings.

Example 1:

as shown in fig. 1-7, a mixing container overturning cradle device comprises a first cradle 1 and a second cradle 2 which are arranged in parallel, wherein the first cradle 1 and the second cradle 2 are fixedly connected through two cross beams 4 fixed on one side of the first cradle 1, a first upper pressing mechanism 5 is installed at the top of the first cradle 1, a second upper pressing mechanism 6 is installed at the top of the second cradle 2, a rotating mechanism 3 is installed on the outer side of the first cradle 1, first side pressing mechanisms 7 which are symmetrically arranged are fixed on the side wall of the bottom of the first cradle 1, and second side pressing mechanisms 8 which are symmetrically arranged are fixed on the side wall of the bottom of the second cradle 2. The cradle device with the structure can effectively fix the mixing container 9, so that the mixing container is prevented from falling off in the rotating process, and finally the overturning safety is guaranteed.

Further, the first upper pressing mechanism 5 comprises a first oil cylinder 51, a first sliding beam 52 and a first positioning pin 53, the first oil cylinder 51 is fixed at the middle part of the top of the first cradle 1, the output end of the first oil cylinder 51 is fixed at the middle part of the top end of the first sliding beam 52, the two first positioning pins 53 are fixed at two ends of the side wall of the first sliding beam 52, the first sliding beam 52 and the two first guide rods 12 which are arranged in parallel form a sliding fit, and the first guide rods 12 are fixed at the top of the first cradle 1. The above-described first upper holding-down device 5 can be used for holding down the top of the mixing container 9.

Further, hold-down mechanism 6 includes second hydro-cylinder 61, second smooth roof beam 62 and second locating pin 63 on the second, second hydro-cylinder 61 is fixed in the top middle part of second cradle 2, the output of second hydro-cylinder 61 is fixed in the top middle part of second smooth roof beam 62, two second locating pin 63 is fixed in the lateral wall both ends of second smooth roof beam 62, second smooth roof beam 62 constitutes sliding fit with two parallel arrangement's second guide bar 22, second guide bar 22 is fixed at the top of second cradle 2. The second upper holding-down device 6 described above can be used for holding down the top of the mixing container 9.

Further, the bottom symmetry of first cradle 1 is provided with two third locating pins 11, the bottom symmetry of two cradles 2 is provided with two fourth locating pins 21. The bottom of the mixing container 9 can be positioned by the third positioning pin 11 and the fourth positioning pin 21 described above.

Further, the first lateral pressing mechanism 7 includes a third oil cylinder 71, and a first pressing pin 72 is installed at a piston rod end of the third oil cylinder 71. Further, the second lateral pressing mechanism 8 includes a fourth oil cylinder 81, and a second pressing pin 82 is installed at the end of a piston rod of the fourth oil cylinder 81. The two sides of the mixing container 9 can be clamped and positioned by the first lateral pressing mechanism 7 and the second lateral pressing mechanism 8.

Further, the rotating mechanism 3 includes a servo motor 31, a planetary reducer 32 is mounted on an output shaft of the servo motor 31, and an output shaft of the planetary reducer 32 is connected to a rotary reducer 33. The above-described rotating mechanism 3 can be used to drive the mixing container 9 to be inverted.

Further, the top edge of the mixing container 9 is provided with a first pin hole 91 and a second pin hole 92 which are respectively matched with the first upper pressing mechanism 5 and the second upper pressing mechanism 6, and the base of the mixing container 9 is provided with a third pin hole 93 and a fourth pin hole 94 which are used for being matched with the third positioning pin 11 and the fourth positioning pin 21. The reliability of its subsequent positioning is ensured by the mixing container 9 described above.

Example 2:

step 1: the third pin hole 93 and the fourth pin hole 94 of the mixing container 9 are positioned on top of the third positioning pin 11 and the fourth positioning pin 21 of the first cradle 1 and the second cradle 2, respectively;

step 2: starting the first lateral pressing mechanism 7 and the second lateral pressing mechanism 8, and respectively pushing the first pressing pin 72 and the second pressing pin 82, so as to clamp and position two sides of the bottom of the mixing container 9;

step 3: starting the first upper pressing mechanism 5 and the second upper pressing mechanism 6, respectively driving the first sliding beam 52 and the second sliding beam 62 to be respectively pressed into the first pin hole 91 and the second pin hole 92 of the mixing container 9 through the first positioning pin 53 and the second positioning pin 63;

step 4: after the belt mixing container 9 is positioned, the rotating mechanism 3 is started, the planetary reducer 32 is driven by the servo motor 31, the rotary reducer 33 is driven by the planetary reducer 32, and the whole mixing container 9 is driven to rotate by the rotary reducer 33.

Claims

1. The utility model provides a mixing vessel upset cradle device which characterized in that: it includes parallel arrangement's first cradle (1) and second cradle (2), link to each other through fixing two crossbeam (4) in one side wherein between first cradle (1) and second cradle (2) fixed, hold-down mechanism (5) are installed on the first top of first cradle (1), hold-down mechanism (6) are installed on the second at the top of second cradle (2), slewing mechanism (3) are installed in the outside of first cradle (1), be fixed with symmetrical arrangement's first side pressure mechanism (7) on the bottom lateral wall of first cradle (1), be fixed with symmetrical arrangement's second side pressure mechanism (8) on the bottom lateral wall of second cradle (2).

2. A mixing vessel invert cradle apparatus according to claim 1 and wherein: first hold-down mechanism (5) are gone up includes first hydro-cylinder (51), first smooth roof beam (52) and first locating pin (53), first hydro-cylinder (51) are fixed in the top middle part of first cradle (1), the output of first hydro-cylinder (51) is fixed in the top middle part of first smooth roof beam (52), two first locating pin (53) are fixed in the lateral wall both ends of first smooth roof beam (52), first smooth roof beam (52) constitute sliding fit with two parallel arrangement's first guide bar (12), the top at first cradle (1) is fixed in first guide bar (12).

3. A mixing vessel invert cradle apparatus according to claim 1 and wherein: hold-down mechanism (6) include second hydro-cylinder (61), second smooth roof beam (62) and second locating pin (63) on the second, top middle part that second hydro-cylinder (61) are fixed in second cradle (2), the output of second hydro-cylinder (61) is fixed in the top middle part of second smooth roof beam (62), two second locating pin (63) are fixed in the lateral wall both ends of second smooth roof beam (62), second smooth roof beam (62) constitute sliding fit with two parallel arrangement's second guide bar (22), the top at second cradle (2) is fixed in second guide bar (22).

4. A mixing vessel invert cradle apparatus according to claim 1 and wherein: the bottom symmetry of first cradle (1) is provided with two third locating pins (11), the bottom symmetry of two cradles (2) is provided with two fourth locating pins (21).

5. A mixing vessel invert cradle apparatus according to claim 1 and wherein: the first lateral pressing mechanism (7) comprises a third oil cylinder (71), and a first pressing pin (72) is installed at the tail end of a piston rod of the third oil cylinder (71).

6. A mixing vessel invert cradle apparatus according to claim 1 and wherein: the second lateral pressing mechanism (8) comprises a fourth oil cylinder (81), and a second pressing pin (82) is installed at the tail end of a piston rod of the fourth oil cylinder (81).

7. A mixing vessel invert cradle apparatus according to claim 1 and wherein: the rotating mechanism (3) comprises a servo motor (31), a planetary reducer (32) is installed on an output shaft of the servo motor (31), and an output shaft of the planetary reducer (32) is connected with a rotary reducer (33).

8. A mixing vessel invert cradle apparatus according to claim 1 and wherein: the top edge of mixing container (9) is provided with first pinhole (91) and second pinhole (92) with hold-down mechanism (5) and second on hold-down mechanism (6) matched with respectively, be provided with on the base of mixing container (9) and be used for with third locating pin (11) and fourth locating pin (21) matched with third pinhole (93) and fourth pinhole (94).

9. Use of an automatic overturning cleaning device for mixing containers according to any one of claims 1 to 8, for cleaning containers, characterized in that it comprises the following steps:

step 1: respectively positioning a third pin hole (93) and a fourth pin hole (94) of the mixing container (9) on the tops of a third positioning pin (11) and a fourth positioning pin (21) of the first cradle (1) and the second cradle (2);

step 2: starting the first lateral pressing mechanism (7) and the second lateral pressing mechanism (8), and respectively pushing the first pressing pin (72) and the second pressing pin (82), so as to clamp and position two sides of the bottom of the mixing container (9);

step 3: starting the first upper pressing mechanism (5) and the second upper pressing mechanism (6), respectively driving the first sliding beam (52) and the second sliding beam (62), and respectively pressing the first upper pressing mechanism and the second upper pressing mechanism into a first pin hole (91) and a second upper pressing mechanism into a second pin hole (92) of the mixing container (9) through a first positioning pin (53) and a second positioning pin (63);

step 4: after the belt mixing container (9) is positioned, the rotating mechanism (3) is started, the planetary speed reducer (32) is driven through the servo motor (31), the rotary speed reducer (33) is driven through the planetary speed reducer (32), and the whole mixing container (9) is driven to rotate through the rotary speed reducer (33).