CN113233200B

CN113233200B - A self-cleaning auto sucking machine for production of tealeaves seed oil

Info

Publication number: CN113233200B
Application number: CN202110459289.3A
Authority: CN
Inventors: 陈斌; 郑寨生; 边晓东; 陈长卿; 陈丽娟; 冯建成; 唐建新; 余桂平; 袁名安; 李朵姣; 胡新荣; 江丽
Original assignee: Zhejiang Agricultural Machinery Research Institute
Current assignee: Zhejiang Agricultural Machinery Research Institute
Priority date: 2021-04-27
Filing date: 2021-04-27
Publication date: 2022-06-21
Anticipated expiration: 2041-04-27
Also published as: CN113233200A

Abstract

The invention provides a self-cleaning suction machine for tea seed oil production, aiming at the defect that a filter screen of the suction machine needs to be cleaned or replaced by a manual dismantling machine in the prior art, and belonging to the technical field of tea seed production equipment, the self-cleaning suction machine comprises a frame, an air pump and a shell, wherein a rotary type filtering mechanism is arranged between an air inlet pipe of the air pump and the shell, the rotary type filtering mechanism comprises a connecting plate, connecting rings of a ring-shaped structure are fixedly arranged on two sides of the connecting plate respectively, the connecting rings on the two sides of the connecting plate are centrosymmetric, a filter screen is arranged in each connecting ring, and the upper end surface and the lower end surface of each connecting ring are respectively provided with a first ring groove and a second ring groove; the connecting plate below is equipped with first motor, and the pivot and the perpendicular fixed connection of connecting plate of first motor still are equipped with first cylinder, second cylinder in the frame, still are equipped with the fixed disk in the frame, and the distribution of fixed disk up end has the thimble. The invention is provided with two filter screens which can be replaced mutually, and the filter screens are cleaned and replaced in a semi-automatic mode, thereby being very convenient.

Description

A self-cleaning auto sucking machine for production of tealeaves seed oil

Technical Field

The invention belongs to the technical field of tea seed oil production equipment, and particularly relates to a self-cleaning suction machine for tea seed oil production.

Background

The tea seed oil is obtained from seeds of Camellia oleifera Abel. The preparation process of the tea seed oil comprises the following steps: screening, drying, shelling, heating and tempering, oil pressing and filtering, and the whole process is a physical method, so that the natural green edible oil is real pure natural edible oil. In the production process of tea seed oil, a material suction machine is often adopted for sucking tea seeds, so that automation can be realized. The auto sucking machine is in use a period, and its inside filter screen can be blockked up, causes the unable normal work of auto sucking machine, just needs the quick-witted manual cleaning or change of tearing open the machine to the filter screen this moment, and is comparatively loaded down with trivial details and very inconvenient.

Disclosure of Invention

The invention provides a self-cleaning suction machine for tea seed oil production, aiming at the defect that the filter screen of the suction machine needs to be cleaned or replaced by a manual dismantling machine in the prior art.

The invention aims to be realized by the following technical scheme: a self-cleaning material suction machine for tea seed oil production comprises a rack, an air pump and a hollow shell, wherein the air pump is provided with an air inlet pipe and an air outlet pipe, the air inlet pipe of the air pump is of a circular structure, the shell is fixed on the rack and located right below the air inlet pipe, the upper end of the shell is of a circular structure and communicated with the inner cavity of the shell, a feeding pipe is fixedly arranged on the side surface of the shell, and a discharging pipe is fixedly arranged at the lower end of the shell; a rotary type filtering mechanism is arranged between the air inlet pipe and the shell and comprises a connecting plate, connecting rings of transversely arranged circular ring structures are fixedly arranged on two sides of the connecting plate respectively, the connecting rings on two sides of the connecting plate are centrosymmetric, filter screens are fixedly arranged in the connecting rings, the filter screens in the two connecting rings are also centrosymmetric, a first circular ring groove and a second circular ring groove which are coaxially arranged with the connecting rings are respectively arranged on the upper end surface and the lower end surface of each connecting ring, the air inlet pipe can be embedded into the first circular ring groove, and the upper end of the shell can be embedded into the second circular ring groove; the connecting plate below is equipped with first motor, the pivot of first motor with the perpendicular fixed connection in central line position of connecting plate, first motor can drive the connecting plate and rotate and make the connection ring remove to between intake pipe and the casing upper end and with the coaxial position of intake pipe, fixed being equipped with in the frame is used for driving first motor lift first cylinder, is used for driving the second cylinder that the air pump goes up and down, still fixed being equipped with the fixed disk in the frame, fixed disk up end vertical fixation distributes has the thimble with filter screen mesh one-to-one, in the second ring inslot of one of them connection ring of casing upper end embedding, the thimble upwards inserts the mesh of the filter screen on another connection ring from the follow. In the above scheme, be equipped with two filter screens that can change mutually, through the cooperation of first motor, first cylinder, second cylinder, can realize the change to two filter screens to and utilize the thimble to pass the mode in filter screen mesh and clear up the filter screen, can realize semi-automatization's mode and clear up and change the filter screen, it is very convenient, need not the clearance of manual work tearing machine.

Preferably, the filter screen cleaning machine further comprises a connecting frame, wherein a rolling brush which can only rotate and is transversely arranged is installed on the connecting frame, a dust collector and a second motor are fixedly arranged on the connecting frame, the dust collector and the second motor are arranged along the rolling brush, the second motor is used for driving the rolling brush to rotate, and the third motor is fixedly arranged on the rack and used for driving the connecting frame to rotate so that the rolling brush moves to the position above the fixed disc to clean the filter screen. The rolling brush that sets up can be further cleared up the filter screen to dust that can in time clear up down through the dust catcher that sets up siphons away, and the clearance effect is better.

Preferably, when the air inlet pipe is embedded into the first circular groove, the inner wall and the outer wall of the air inlet pipe are respectively attached to two side walls of the first circular groove.

Preferably, when the upper end of the shell is embedded into the second circular groove, the inner wall and the outer wall of the upper end of the shell are respectively attached to two side walls of the second circular groove.

Preferably, the thimble becomes thinner from bottom to top. The thimble arranged in this way can more easily penetrate through the meshes of the filter screen.

Compared with the prior art, the invention has the following beneficial effects: the invention is provided with two filter screens which can be replaced mutually, and the filter screens are cleaned and replaced in a semi-automatic mode, thereby being very convenient.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a perspective view of a connection structure of a connection plate, a connection ring and a filter screen;

FIG. 3 is a bottom view of the connection structure of the connection plate, the connection ring, and the filter screen;

FIG. 4 is a perspective view of a connection structure of the connection frame, the rolling brush, the second motor and the dust collector;

FIG. 5 is a perspective view of a connection structure of a fixing plate and a thimble;

the labels in the figure are: 50. frame, 51, air pump, 52, link, 53, casing, 54, intake pipe, 55, blast pipe, 56, inlet pipe, 57, discharging pipe, 58, connecting plate, 59, connection ring, 60, filter screen, 61, first ring groove, 62, second ring groove, 63, first motor, 64, first cylinder, 65, second cylinder, 66, fixed disk, 67, thimble, 69, round brush, 70, dust catcher, 71, second motor, 72, third motor.

Detailed Description

The invention will be further described with reference to examples of embodiments shown in the drawings to which:

example 1

As shown in fig. 1-5, a self-cleaning material suction machine for tea seed oil production comprises a frame 50, an air pump 51, a connecting frame 52, and a hollow shell 53, wherein the air pump 51 is provided with an air inlet pipe 54 and an air outlet pipe 55, the air inlet pipe 54 of the air pump 51 is of a circular structure, the shell 53 is fixed on the frame 50 and is positioned right below the air inlet pipe 54, the upper end of the shell 53 is of a circular structure and is communicated with the inner cavity of the shell 53, a feeding pipe 56 is fixedly arranged on the side surface of the shell 53, and a discharging pipe 57 is fixedly arranged at the lower end of the shell 53; be equipped with rotary type filtering mechanism between intake pipe 54 and the casing 53, rotary type filtering mechanism includes connecting plate 58, and connecting plate 58 both sides are respectively fixed and are equipped with the annular structure's that transversely sets up connection ring 59, and the connection ring 59 of connecting plate 58 both sides is central symmetry, it is equipped with filter screen 60 to connect ring 59 internal fixation, and two filter screen 60 that connect in the ring 59 also are central symmetry, the upper and lower terminal surface of connecting ring 59 is equipped with respectively and connects first ring groove 61 and the second ring groove 62 of the coaxial setting of ring 59, intake pipe 54 can imbed in the first ring groove 61, work as when the intake pipe 54 imbeds first ring groove 61, the inside and outside wall of intake pipe 54 laminates with the both sides wall of first ring groove 61 respectively. The upper end of the shell 53 can be embedded into the second circular groove 62; when the upper end of the housing 53 is embedded in the second circular groove 62, the inner and outer walls of the upper end of the housing 53 are respectively attached to the two side walls of the second circular groove 62.

Connecting plate 58 below is equipped with first motor 63, and first motor 63 adopts step motor, first motor 63 the pivot with the perpendicular fixed connection in central line position of connecting plate 58, first motor 63 can drive connecting plate 58 and rotate and make and connect ring 59 to remove to between intake pipe 54 and the casing 53 upper end and with the coaxial position of intake pipe 54, the fixed first cylinder 64 that is used for driving first motor 63 to go up and down, the second cylinder 65 that is used for driving air pump 51 to go up and down that is equipped with in frame 50, still fixed disk 66 that is equipped with in frame 50, the perpendicular fixed distribution of fixed disk 66 up end has the thimble 67 with filter screen 60 mesh one-to-one, supreme tapering is followed down to thimble 67. When the upper end of the housing 53 is inserted into the second annular groove 62 of one of the connecting rings 59, the thimble 67 is inserted into the hole of the filter 60 of the other connecting ring 59 from the bottom to the top.

The connecting frame 52 is provided with a rolling brush 69 which only can rotate and is transversely arranged, the connecting frame 52 is further fixedly provided with a dust collector 70 arranged along the rolling brush 69 and a second motor 71 used for driving the rolling brush 69 to rotate, and the rack 50 is further fixedly provided with a third motor 72 used for driving the connecting frame 52 to rotate so that the rolling brush 69 moves above the fixed disc 66 to clean the filter screen 60.

When the invention is operated, the tea seeds are sucked into the shell 53 from the position of the feeding pipe 56 by the negative pressure generated by the air pump 51, the dust passes through the filter screen 60, enters the air inlet pipe 54 of the air pump 51 and is discharged from the air outlet pipe 55 of the air pump 51, and the tea seeds with larger weight fall out of the discharging pipe 57 of the shell 53. When the filter screen 60 between the air pump 51 and the housing 53 needs to be replaced and cleaned after being used for a period of time, at this time, the second air cylinder 65 is controlled to drive the air pump 51 to move upwards so that the air inlet pipe 54 on the air pump 51 is separated from the first circular groove 61 on the connecting circular ring 59 between the air pump 51 and the housing 53, then the first air cylinder 64 is controlled to drive the first motor 63 to move upwards, the connecting plate 58 on the rotating shaft of the first motor 63 drives the two connecting circular rings 59 to move upwards so that the upper end of the housing 53 is separated from the second circular groove 62 on the connecting circular ring 59 between the air pump 51 and the housing 53, meanwhile, the filter screen 60 on the other connecting circular ring 59 is separated from the ejector pin 67, then the first motor 63 is controlled to work, the first motor 63 controls the connecting plate 58 to rotate 180 degrees, the rotation angle of the rotating shaft of the first motor 63 is preset by a program so that the two connecting circular rings 59 on the connecting plate 58 are switched, and then controlling the first cylinder 64 to drive the first motor 63 to move downwards, wherein the upper end of the shell 53 is embedded into the second annular groove 62 of the connecting annular ring 59 provided with the clean filter screen 60, and the replaced connecting annular ring 59 of the filter screen 60 with dust moves downwards from the upper part of the fixed disc 66 until the thimble 67 is inserted into the mesh hole of the filter screen 60, and the thimble 67 can poke the dust in the mesh hole of the filter screen 60, so that the problem of blockage of the filter screen 60 is solved. And then the second motor 71 and the third motor 72 are controlled to work, the third motor 72 drives the connecting frame 52 to rotate, the second motor 71 drives the rolling brush 69 to rotate, so that the rolling brush 69 cleans the filter screen 60, and meanwhile, the dust collector 70 is controlled to work, so that dust generated by the rolling brush 69 is sucked away in time, and the cleaning effect on the filter screen 60 is improved. The whole process can realize semi-automation and is very convenient to operate. To reduce the effect of the roller brush 69 on the thimble 67, the length of the thimble 67 is limited such that the upper end of the thimble 67 is flush with the filter 60 after the thimble 67 is inserted into the filter 60.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims

1. A self-cleaning material suction machine for tea seed oil production comprises a rack, an air pump and a hollow shell, wherein the air pump is provided with an air inlet pipe and an air exhaust pipe;

a rotary type filtering mechanism is arranged between the air inlet pipe and the shell and comprises a connecting plate, connecting rings of transversely arranged circular ring structures are fixedly arranged on two sides of the connecting plate respectively, the connecting rings on two sides of the connecting plate are centrosymmetric, filter screens are fixedly arranged in the connecting rings, the filter screens in the two connecting rings are also centrosymmetric, a first circular ring groove and a second circular ring groove which are coaxially arranged with the connecting rings are respectively arranged on the upper end surface and the lower end surface of each connecting ring, the air inlet pipe can be embedded into the first circular ring groove, and the upper end of the shell can be embedded into the second circular ring groove;

a first motor is arranged below the connecting plate, a rotating shaft of the first motor is vertically and fixedly connected with the central line position of the connecting plate, the first motor can drive the connecting plate to rotate so that the connecting ring moves to a position between the air inlet pipe and the upper end of the shell and coaxial with the air inlet pipe,

a first air cylinder for driving the first motor to lift and a second air cylinder for driving the air pump to lift are fixedly arranged on the frame,

still fixedly being equipped with the fixed disk in the frame, the vertical fixed distribution of fixed disk up end has the thimble with filter screen mesh one-to-one, and in the second ring groove of one of them connection ring of casing upper end embedding, the thimble inserts the mesh of another connection ring on from down upwards.

2. The self-cleaning material suction machine for producing the tea seed oil according to claim 1, further comprising a connecting frame, wherein a rolling brush which can only rotate and is transversely arranged is mounted on the connecting frame, a dust collector arranged along the rolling brush and a second motor used for driving the rolling brush to rotate are further fixedly arranged on the connecting frame, and a third motor used for driving the connecting frame to rotate so that the rolling brush moves above the fixed disc to clean the filter screen is further fixedly arranged on the rack.

3. The self-cleaning suction machine for tea seed oil production as claimed in claim 1 or 2, wherein when the air inlet pipe is embedded into the first circular groove, the inner wall and the outer wall of the air inlet pipe are respectively attached to the two side walls of the first circular groove.

4. The self-cleaning suction machine for producing tea seed oil according to claim 1 or 2, wherein when the upper end of the shell is embedded into the second circular groove, the inner wall and the outer wall of the upper end of the shell are respectively attached to two side walls of the second circular groove.

5. The self-cleaning suction machine for tea seed oil production according to claim 1, wherein the ejector pin is tapered from bottom to top.