CN213738518U - Automatic filling machine - Google Patents
Automatic filling machine Download PDFInfo
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- CN213738518U CN213738518U CN202022673284.4U CN202022673284U CN213738518U CN 213738518 U CN213738518 U CN 213738518U CN 202022673284 U CN202022673284 U CN 202022673284U CN 213738518 U CN213738518 U CN 213738518U
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Abstract
The utility model discloses an automatic filling machine, including the frame, still including rack-mounted filling mechanism, pushing equipment, swager constructs, feed divider and support material mechanism, install filling mechanism on the pushing equipment, pushing equipment is equipped with a plurality ofly, and feed divider constructs and is equipped with the branch material cavity, divides the material cavity to be equipped with a plurality of chambeies, divides to be equipped with in the middle of the material cavity and divides the material delivery channel, divides the material delivery channel to be equipped with a plurality of passageways, and swager constructs and arranges in rack-mounted material feeding channel is relative and establishes in feed divider's top, and the feed divider bottom is just to supporting material mechanism top, and the material that filling bottle butt joint feed divider bottom was used for receiving to divide the material delivery channel to carry can be placed on supporting material structure top, and filling mechanism, pushing equipment, swager construct and support material mechanism and all be connected with the control box of installing in the frame bottom. The utility model provides an automatic filling machine has realized the quantitative filling of different oil mixtures, can the layering clear between the different compounding, does not take place to mix each other.
Description
Technical Field
The utility model relates to a cosmetics production facility technical field, concretely relates to automatic filling machine.
Background
In the production process of cosmetics, after the production of materials is completed, the materials need to be filled, and a certain amount of materials are filled into a container with a certain volume. The existing cosmetic filling equipment is complex in overall structure and mainly used for filling a single material body, particularly for oil mixed materials which are easy to cake, the materials are oil-containing mixtures which almost have no flowability, are easy to cake, block and stick, stick to equipment or contact parts and are not easy to fall off, quantitative filling is carried out on various mixed materials simultaneously, the mixed materials are guaranteed not to be mixed, and all parts are clearly layered after filling, so that the filling machine which is not mixed is necessary to develop.
SUMMERY OF THE UTILITY MODEL
To the technical problem, the utility model provides an automatic filling machine realizes the quantitative filling of vertical layering not compounding.
In order to achieve the technical purpose, the utility model adopts the following technical scheme:
an automatic filling machine comprises a frame, a filling mechanism, a material pushing mechanism, a material pressing mechanism, a material distributing mechanism and a material supporting mechanism which are arranged on the frame, the material pushing mechanism is provided with a plurality of filling mechanisms, the material distributing mechanism is provided with a material distributing cavity, the material distributing cavity is provided with a plurality of cavities, the middle of the material distributing cavity is provided with a material distributing and conveying channel, the material distributing and conveying channel is provided with a plurality of channels, the material pushing mechanism is correspondingly connected with the cavity of the material distributing cavity, the material pressing mechanism is arranged on the machine frame and is arranged above the material distributing mechanism and opposite to the material distributing conveying channel, the bottom of the material distributing mechanism is opposite to the top end of the material supporting mechanism, the top end of the material supporting mechanism can be used for placing a filling bottle to be butted with the bottom of the material distributing mechanism for receiving the materials conveyed by the material distributing conveying channel, the filling mechanism, the pushing mechanism, the material pressing mechanism and the material supporting mechanism are all connected with a control box arranged at the bottom of the rack.
Preferably, the material distributing and conveying channel is provided with three channels, the material distributing cavity is provided with three cavities, the three channels are correspondingly communicated with the three cavities, the side surface of the material distributing cavity is provided with cavities corresponding to the three cavities, the cavities are respectively connected with the material pushing mechanism, and one end, right facing the material supporting mechanism, of the material distributing and conveying channel protrudes outwards.
Preferably, the number of the material pushing mechanisms is three, and the three material pushing mechanisms comprise a first material pushing mechanism, a second material pushing mechanism and a third material pushing mechanism; the first material pushing mechanism comprises a first material pushing cylinder, a first cylinder fixing block, a first material storage cavity and a first material transfer block; the second material pushing mechanism comprises a first material pushing cylinder, a second cylinder fixing block, a first material storage cavity, a second material storage cavity and a second material transfer block; the third material pushing mechanism comprises a third material pushing cylinder, a third cylinder fixing block, a third material storage cavity and a third material transfer block; the first material pushing cylinder is installed on one surface of a first cylinder fixing block, a first material storage cavity is formed in the other surface of the first cylinder fixing block, and a first material transfer block communicated with the first material storage cavity is arranged on the first material storage cavity; the second material pushing cylinder II is arranged on one surface of the second cylinder fixing block, a second material storage cavity II and a second material storage cavity I are sequentially arranged on the other surface of the second cylinder fixing block, the second material storage cavity I is communicated with the second material storage cavity II, the second material pushing cylinder I is fixedly arranged on the second material storage cavity I, and the second material switching block is arranged above the second material storage cavity II and communicated with the second material storage cavity II; the third material pushing cylinder is arranged on one surface of a third cylinder fixing block, a third material storage cavity is arranged on the other surface of the third cylinder fixing block, and a third material transfer block communicated with the third material storage cavity is arranged on the third material storage cavity; the first material storage cavity, the second material storage cavity and the third material storage cavity are respectively connected with the cavity opening, and the first material transfer block, the second material transfer block and the third material transfer block are connected with the filling mechanism.
Preferably, the cavity opening is one or more of a circle, a rectangle and a square, and the shape of the cavity opening is consistent with that of the first material storage cavity, the first material storage cavity and the third material storage cavity.
Preferably, swager constructs including push down cylinder, cylinder fixed block, mechanism support column and divides and pushes away the material briquetting, push down the cylinder and install the one side at the cylinder fixed block, a plurality of mechanism support columns are installed to the another side of cylinder fixed block, the mechanism support column is fixed in the frame, the another side of cylinder fixed block still installs the branch that can stretch out and draw back from top to bottom and pushes away the material briquetting, it is just right to divide to push away the material briquetting divide material conveying passageway.
Preferably, the material distributing and pushing pressing blocks are three and can enter and exit the material distributing and conveying channel.
Preferably, the material supporting mechanism comprises a servo motor, an electric cylinder connected with the servo motor and a tray installed on the electric cylinder, the electric cylinder is controlled by the servo motor to be capable of stretching up and down, and the servo motor is installed on the rack.
Preferably, the rack is further provided with a touch screen, and the touch screen is connected with a control box arranged at the bottom of the rack and used for setting working parameters.
Preferably, the bottom of the rack is provided with rollers, and the rack is provided with a protective structure.
Compared with the prior art, the utility model discloses the beneficial effect who has:
1. the utility model is provided with a three-color material pushing mechanism, which can make three materials respectively and independently fed into corresponding material storage cavities; the filling machine is also provided with a material distributing mechanism, the material distributing mechanism is provided with a plurality of cavities connected with the material pushing mechanism and conveying channels for vertically distributing and feeding materials, and the material supporting mechanism is matched to ensure that different material bodies are smoothly and accurately conveyed into filling bottles and synchronously act to perform compaction treatment;
2. the filling mechanism is arranged on each material pushing mechanism, and the filling mechanism is used for performing precise control, so that each single material can be accurately conveyed to the material distributing mechanism, the precise quantity of the mixed material is ensured, and the mixed material filling is ensured to meet the specified quality requirement;
3. the utility model provides an automatic filling machine carries out the filling to the oil mixed material of difference to form the vertical parting line of rule, not compounding between the different materials satisfies the filling demand of not compounding.
Drawings
Fig. 1 is a schematic perspective view of an automatic filling machine according to the present invention;
fig. 2 is a schematic structural diagram of the filling mechanism of the present invention;
fig. 3 is a schematic structural diagram of the first pushing mechanism of the present invention;
fig. 4 is a schematic structural view of a second pushing mechanism of the present invention;
fig. 5 is a schematic structural view of a third pushing mechanism of the present invention;
fig. 6 is a schematic structural view of the material pressing mechanism of the present invention;
fig. 7 is a schematic structural diagram of the material distributing mechanism of the present invention;
FIG. 8 is a partial sectional view of the pushing mechanism and the distributing mechanism of the present invention;
fig. 9 is a schematic structural diagram of the material supporting mechanism of the present invention.
The reference numbers in the above figures are as follows:
10-a frame; 101-upper table; 102-a lower table; 103-cabinet; 104-a roller; 20-a filling mechanism; 201-a fixed seat; 201-an adjustable mechanism; 203-a hopper; 30-a first pushing mechanism; 301-a first pusher cylinder; 302-a first cylinder fixing block; 303-first stock cavity; 304-a first material transfer block; 40-a second pushing mechanism; 401-a second pushing cylinder I; 402-second material storage cavity one; 403-second material transfer block; 404-second material storage cavity II; 405-a second cylinder fixing block; 406-a second pushing cylinder II; 50-a third pushing mechanism; 501-a third material pushing cylinder; 502-third cylinder fixed block; 503-a third material storage cavity; 504-third material transfer block; 505-a guide shaft; 60-a material pressing mechanism; 601-a down-pressure cylinder; 602-a cylinder fixing plate; 603-a mechanism support block; 604-distributing the material and pressing the block; 70-a material distributing mechanism; 701-distributing and conveying channel; 702-a material distribution cavity; 703-a material distributing cavity opening; 80-a material supporting mechanism; 801-a tray; 802-electric cylinder; 803 a servo motor; 90-touch screen; 100-protective structure.
Detailed Description
In order to make the purpose and technical solution of the embodiments of the present invention clearer, the technical solution of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings and the implementation examples of the embodiments of the present invention. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them.
As shown in fig. 1, an automatic filling machine comprises a frame 10, the frame 10 is divided into three layers, and is provided with an upper table 101, a lower table 102, a cabinet 103 at the bottom, a filling mechanism 20, a material pushing mechanism, a material pressing mechanism 60, a material distributing mechanism 70, a touch screen 90, and a material supporting mechanism 80, the material pushing mechanism comprises a first material pushing mechanism 30, a second material pushing mechanism 40, and a third material pushing mechanism 50, the filling mechanism 20 is mounted on the first material pushing mechanism 30, the second material pushing mechanism 40, and the third material pushing mechanism 50, and is connected to the material distributing mechanism 70, the material distributing mechanism 70 is provided with a material distributing cavity 702, a material distributing and conveying channel 701 is arranged in the middle of the material distributing cavity, the material pushing mechanism is connected to the material distributing cavity 702, the material pressing mechanism 60 is mounted on the upper table 101, and is arranged above the material distributing mechanism 70 and opposite to the material distributing and conveying channel 701, the bottom of the material distribution mechanism 70 is opposite to the top end of the material supporting mechanism 80, the top end of the material supporting mechanism 80 can be used for placing a filling bottle to be butted with the bottom of the material distribution mechanism 70 for receiving materials conveyed by a material distribution conveying channel 701, the touch screen 90 is installed on the machine frame 10, the filling mechanism 20, the material pushing mechanism, the material pressing mechanism 60, the material supporting mechanism 80 and the touch screen 90 are all connected with a control box installed at the bottom of the machine frame, parameters are set through the touch screen 90, the control equipment works, the bottom of the machine frame 10 is provided with a roller 104, and the machine frame 10 is provided with a protection structure 100;
as shown in fig. 2, the filling mechanism 20 includes a fixed seat 201 with an adjustable position, an adjustable mechanism 202 mounted on the fixed seat, and a hopper 203 mounted on the adjustable mechanism, the hopper 203 is connected with an external motor and a transmission mechanism, a precision screw and a stirring mechanism are arranged in the hopper 203, and the hopper (203) is connected with the motor and the transmission mechanism;
as shown in fig. 1, 3, 4 and 5, the first pushing mechanism 30 includes a first pushing cylinder 301, a first cylinder fixing block 302, a first material storing cavity 303 and a first material transfer block 304, the second pushing mechanism 40 includes a first pushing cylinder 401, a second pushing cylinder 406, a second cylinder fixing block 405, a first material storing cavity 402, a second material storing cavity 404 and a second material transfer block 403, the third pushing mechanism 50 includes a third pushing cylinder 501, a third cylinder fixing block 502, a third material storing cavity 503, a third material transfer block 504 and a guide shaft 505, the first pushing cylinder 301 is installed on one side of the first cylinder fixing block 302, the first material storing cavity 303 is installed on the other side of the first cylinder fixing block 302, the first material transfer block 304 communicated with the first material storing cavity 303 is installed on the first material storing cavity 303, the second pushing cylinder 406 is installed on one side of the second cylinder fixing block 405, a second material storage cavity II 404 and a second material storage cavity I402 are sequentially arranged on the other surface of the second air cylinder fixing block 405, the second material storage cavity I402 is communicated with the second material storage cavity II 404, a second material pushing air cylinder I401 is fixedly arranged on the second material storage cavity I402, a second material transfer block 403 is arranged above the second material storage cavity II 404 and communicated with the second material storage cavity II, a third material pushing air cylinder 501 and a guide shaft 505 are arranged on one surface of a third air cylinder fixing block 502, a third material storage cavity 503 is arranged on the other surface of the third air cylinder fixing block 502, a third material transfer block 504 communicated with the third material storage cavity 503 is arranged on the third material storage cavity 503, and the first material transfer block 304, the second material transfer block 403 and the third material transfer block 504 are respectively connected with a hopper 203 of a filling mechanism;
as shown in fig. 1, 6 and 8, the pressing mechanism 60 includes a pressing cylinder 601, a cylinder fixing block 602, mechanism supporting columns 603 and material-dividing and pushing press blocks 604, the pressing cylinder 601 is installed on one side of the cylinder fixing block 602, four mechanism supporting columns 603 are installed on the other side of the cylinder fixing block 602, the four mechanism supporting columns 603 are respectively fixed at four corners of the cylinder fixing block 602, the four mechanism supporting columns 603 are fixed on the upper table 101 of the frame, the material-dividing and pushing press blocks 604 capable of extending up and down are further installed on the other side of the cylinder fixing block 602, three material-dividing and pushing press blocks 604 are provided, and the material-dividing and pushing press blocks 604 are right opposite to the upper end of the material-dividing and conveying channel (701) of the material-;
as shown in fig. 7 and 8, the material distributing and conveying channel 701 is provided with three channels communicated to the material distributing cavity 702, the material distributing cavity 702 is provided with three cavities, the three channels are correspondingly communicated with the three cavities, the side surface of the material distributing cavity 702 is provided with a cavity port 703 corresponding to the three cavities, the cavity port 703 is respectively connected with the first material storing cavity 303, the second material storing cavity one 402 and the third material storing cavity 503, and the cavity port 703 is set to be one or more of a circle, a rectangle and a square and is consistent with the shapes of the first material storing cavity 303, the second material storing cavity one 402 and the third material storing cavity;
as shown in fig. 1 and 9, the material supporting mechanism 80 includes a servo motor 803, an electric cylinder 802 connected to the servo motor, and a tray 801 mounted on the electric cylinder, wherein the electric cylinder 802 penetrates through the lower table 102 and can extend and retract up and down, and 803 is mounted in the cabinet 103 of the rack, and the electric cylinder 802 is pushed by the servo motor 803 to move up and down.
The working principle is as follows: (1) after the device is started, the three filling mechanisms start to act simultaneously, the stirring structure of the filling mechanism and the screw blanking motor start to act, the stirring mechanism stirs the material bodies in the hopper, the high-precision screw mechanism simultaneously conveys the materials into a first material storage cavity, a second material storage cavity and a third material storage cavity of a first material pushing mechanism, a second material pushing mechanism and a third material pushing mechanism, when the quantitative filling of the three filling mechanisms reaches the standard, the screw motors in the filling mechanisms stop acting, and the conveying of the materials is suspended to wait for the next action; (2) the material supporting mechanism moves a tray for placing the filling bottles upwards by using a servo motor to reach a preset position; (3) the first material pushing mechanism, the second material pushing mechanism and the third material pushing mechanism are started simultaneously, the first material pushing mechanism and the third material pushing mechanism push the material bodies from the first material storage cavity and the third material storage cavity to the material distributing cavities corresponding to the material distributing mechanism respectively through the first material pushing cylinder and the third material pushing cylinder, the second material pushing mechanism pushes the material bodies from the second material storage cavity to the first material storage cavity through the second material pushing cylinder, and then the second material pushing cylinder pushes the material bodies into the corresponding material distributing cavities; (4) when the pushing mechanism reaches a pushing limiting position, the material pressing mechanism pushes a material pressing block into a material distribution conveying channel to press a material body downwards under the action of a pressing cylinder, the material supporting mechanism moves downwards in cooperation with the speed of the material pressing mechanism, when a certain stroke is reached, the material pressing mechanism stops moving downwards and resets to an initial position, and the material supporting mechanism continues to move downwards to a lowest point position; (5) and manually taking down the filled product, putting the empty bottle on the bottle, and repeating the actions.
Adopt the utility model provides an automatic filling machine can carry out the filling to oils compounding product accurately and quantitatively, realizes the layering filling of not compounding to effectively guarantee that the product reaches the required quality.
In the description herein, the particular features, structures, materials, or characteristics disclosed may be combined in any suitable manner in any one or more embodiments or examples. Although the embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents, all of which are within the scope of the invention.
Claims (9)
1. An automatic filling machine, includes the frame, its characterized in that: the filling machine further comprises a filling mechanism (20), a material pushing mechanism, a material pressing mechanism (60), a material distributing mechanism (70) and a material supporting mechanism (80), wherein the filling mechanism (20) is installed on the machine frame, the material pushing mechanism is provided with a plurality of material distributing mechanisms, the material distributing mechanism (70) is provided with a material distributing cavity (702), the material distributing cavity (702) is provided with a plurality of cavities, a material distributing and conveying channel (701) is arranged in the middle of the material distributing cavity, the material distributing and conveying channel (701) is provided with a plurality of channels, the material pushing mechanism is correspondingly communicated with the cavities of the material distributing cavity (702), the material pressing mechanism (60) is installed on the machine frame (10), the material pressing mechanism is arranged above the material distributing mechanism (70) and opposite to the material distributing and conveying channel (701), the bottom of the material distributing mechanism (70) is just opposite to the top end of the material supporting mechanism (80), and the top end of the material supporting mechanism (80) can be used for placing the bottom of the filling bottle material distributing mechanism (70) for receiving materials conveyed by the material conveying channel (701), the filling mechanism, the pushing mechanism, the material pressing mechanism and the material supporting mechanism are all connected with a control box arranged at the bottom of the rack.
2. The automatic filling machine according to claim 1, characterized in that the material distributing and conveying channel (701) is provided with three channels, the material distributing cavity (702) is provided with three cavities, the three channels are correspondingly communicated with the three cavities, the side surface of the material distributing cavity is provided with openings (703) corresponding to the three cavities, the openings (703) are respectively and correspondingly connected with the material pushing mechanism, and one end of the material distributing and conveying channel (701) opposite to the material supporting mechanism protrudes outwards.
3. The automatic filling machine according to claim 2, characterized in that said pushing means are provided in three, comprising a first pushing means (30), a second pushing means (40) and a third pushing means (50); the first material pushing mechanism (30) comprises a first material pushing cylinder (301), a first cylinder fixing block (302), a first material storage cavity (303) and a first material transfer block (304); the second pushing mechanism (40) comprises a first pushing cylinder (401), a second pushing cylinder (406), a second cylinder fixing block (405), a first material storage cavity (402), a second material storage cavity (404) and a second material transfer block (403); the third material pushing mechanism (50) comprises a third material pushing cylinder (501), a third cylinder fixing block (502), a third material storage cavity (503) and a third material transfer block (504); the first material pushing cylinder (301) is installed on one surface of a first cylinder fixing block (302), a first material storage cavity (303) is arranged on the other surface of the first cylinder fixing block, and a first material transfer block (304) communicated with the first material storage cavity (303) is arranged on the first material storage cavity; the second pushing cylinder II (406) is installed on one surface of a second cylinder fixing block (405), a second material storage cavity II (404) and a second material storage cavity I (402) are sequentially arranged on the other surface of the second cylinder fixing block (405), the second material storage cavity I (402) is communicated with the second material storage cavity II (404), a second pushing cylinder I (401) is fixedly installed on the second material storage cavity I (402), and the second material switching block (403) is arranged above the second material storage cavity II (404) and communicated with the second material storage cavity II; the third material pushing cylinder (501) is installed on one surface of a third cylinder fixing block, a third material storage cavity (503) is installed on the other surface of the third cylinder fixing block, and a third material transfer block (504) communicated with the third material storage cavity (503) is arranged on the third material storage cavity; the first material storage cavity (303), the first second material storage cavity (402) and the third material storage cavity (503) are correspondingly connected with the cavity opening (703), and the first material transfer block (304), the second material transfer block (403) and the third material transfer block (504) are connected with the filling mechanism.
4. An automatic filling machine as claimed in claim 3, characterized in that said orifice (703) is provided in one or more of a circular, rectangular and square shape, conforming to the shape of the first (303), second (402) and third (503) stock cavities.
5. The automatic filling machine according to claim 1, wherein the pressing mechanism (60) comprises a pressing cylinder (601), a cylinder fixing block (602), mechanism supporting columns (603) and a material distributing pressing block (604), the pressing cylinder (601) is installed on one side of the cylinder fixing block (602), a plurality of mechanism supporting columns (603) are installed on the other side of the cylinder fixing block (602), the mechanism supporting columns are fixed on the machine frame (10), the material distributing pressing block (604) capable of extending up and down is further installed on the other side of the cylinder fixing block (602), and the material distributing pressing block (604) faces the material distributing conveying channel (701).
6. An automatic filling machine according to claim 5, characterized in that said distributing and pushing block (604) is provided with three, accessible from and accessible to the distributing and conveying channel (701).
7. An automatic filling machine according to claim 1, characterized in that the material supporting mechanism (80) comprises a servo motor (803), an electric cylinder (802) connected with the servo motor, and a tray (801) installed on the electric cylinder, wherein the electric cylinder (802) is controlled by the servo motor (803) to be telescopic up and down, and the servo motor (803) is installed on the machine frame (10).
8. The automatic filling machine as claimed in claim 1, characterized in that the machine frame is further provided with a touch screen (90), and the touch screen (90) is connected with a control box arranged at the bottom of the machine frame and used for setting working parameters.
9. An automatic filling machine as claimed in claim 1, characterized in that said machine frame is provided with rollers (104) at the bottom and with a guard structure (100).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202022673284.4U CN213738518U (en) | 2020-11-18 | 2020-11-18 | Automatic filling machine |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202022673284.4U CN213738518U (en) | 2020-11-18 | 2020-11-18 | Automatic filling machine |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN213738518U true CN213738518U (en) | 2021-07-20 |
Family
ID=76826472
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202022673284.4U Active CN213738518U (en) | 2020-11-18 | 2020-11-18 | Automatic filling machine |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN213738518U (en) |
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2020
- 2020-11-18 CN CN202022673284.4U patent/CN213738518U/en active Active
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