CN212653940U - Full-automatic powder pressing machine - Google Patents

Abstract

The utility model discloses a full-automatic powder pressing machine, which comprises a shell frame, a supporting plate is arranged above the shell frame, a guide rod is fixed on the supporting plate, a guide plate is inserted on the guide rod, a first cylinder for driving the guide plate to move up and down is fixed on the supporting plate, a flat plate is fixed below the guide plate, a group of compaction blocks arranged at intervals are fixed on the flat plate, an insertion hole is arranged on the top surface of the shell frame, an insertion block is inserted in the insertion hole, a group of longitudinal through holes which penetrate through the upper end surface and the lower end surface of the insertion block and respectively correspond to the positions of the compaction blocks are arranged on the insertion block, a support is fixed in the shell frame, ejector rods fixed on the support are inserted on each longitudinal through hole, the top surface of each ejector rod is level with the top surface of the shell frame, a driving insertion block, the second cylinder that moves down, the inboard side of backup pad is equipped with reinforced mechanism, and the right side of backup pad is equipped with pushing equipment. The utility model discloses structural design is ingenious, reasonable can carry out the compaction to the powder and go out the pressed powder operation automatically, is worth popularizing and applying.

Description

Full-automatic powder pressing machine

Technical Field

The utility model relates to a machine of pressing shape, especially a full-automatic powder machine that presses.

Background

The powder compact is a cake-shaped solid cosmetic product formed by mixing and pressing a plurality of powder raw materials (including pigments) and adhesives (grease components), has the functions of covering, adhering, spreading, coloring and modifying, and is divided into dry type, wet type and dry and wet type according to different using modes; most of the products have cool feeling and are mostly used in summer; the pressed powder has soft matte texture; the charm of the pressed powder lies in smooth and light touch. The compact is convenient to carry and convenient to use.

The existing powder pressing machine needs to add powder into the pressing mill manually, and then manually takes out pressed powder cakes which are well pressed from concave holes of the pressing mill (such as Chinese utility model patent CN 208035476U), so that the mode is not only low in efficiency, but also has certain danger in operation of workers, and is not beneficial to large-area efficient popularization and application.

SUMMERY OF THE UTILITY MODEL

The utility model discloses solve above-mentioned prior art's shortcoming, provide one kind can add reinforced and to the full-automatic powder pressing machine of powder cake automatic discharging to powder material automatic, satisfied manufacturing enterprise to powder cake automatic production, high-efficient, with low costs, workman's safe demand.

The utility model provides a technical scheme that its technical problem adopted: the full-automatic powder pressing machine comprises a shell frame, wherein a supporting plate is arranged above the top end of the shell frame, guide rods are fixed at four corners of the supporting plate, a guide plate is inserted on each guide rod, a first air cylinder for driving the guide plate to move up and down is fixed on the supporting plate, a flat plate is fixed below the guide plate, a group of compaction blocks which are arranged at intervals are fixed on the flat plate, insertion holes are formed in the top surface of the shell frame, insertion blocks are inserted in the insertion holes, a group of longitudinal through holes which penetrate through the upper end surface and the lower end surface of each insertion block and respectively correspond to the positions of the compaction blocks are formed in the insertion blocks, a support is fixed in the shell frame, ejector rods fixed on the support are inserted in each longitudinal through hole, the top surface of each ejector rod is flush with the top surface of the shell frame, a second air cylinder for driving the insertion blocks to move up and down is fixed on the support, a feeding; the feeding mechanism comprises a plate body, a shell frame is fixedly provided with a third air cylinder for driving the plate body to vertically move up and down, the plate body is connected with a sliding plate in a sliding mode, the sliding plate is driven by a fourth air cylinder fixed on the plate body, the inner end of the sliding plate is fixedly provided with a material conveying frame, the bottom end of the material conveying frame is fixedly provided with a group of lugs which are arranged at intervals and provided with discharge ports, the material conveying frame is provided with a material conveying interface, the material conveying frame is provided with a group of communicating channels, one end of each communicating channel is communicated with the lug, the other end of each communicating channel is communicated with the material conveying interface, a spiral propeller is fixed in a cavity of the shell frame, a connecting hose is connected between the discharge port of the spiral propeller and the material conveying interface, and; the pushing mechanism comprises a first double-shaft cylinder fixed at the top end of the shell frame, and a push plate is fixed on a piston rod of the first double-shaft cylinder. The guide rod, the guide plate, the first cylinder, the flat plate and the compaction block have the effects that the first cylinder is used for pushing the guide plate to move downwards, so that the flat plate and the compaction block are driven to compact the powder; the inserting holes, the inserting blocks, the longitudinal through holes, the support, the ejector rods and the second air cylinders have the effects that top grooves reserved between the longitudinal through holes and the tops of the ejector rods can be used as powder placing and compacting grooves, after powder is compacted, the inserting blocks can move downwards through the second air cylinders to expose powder cakes, and accordingly the exposed powder cakes can be pushed away by the aid of the push plates (as shown in figure 4); the feeding mechanism can automatically add powder, so that the working efficiency is improved, and the operation danger of workers is reduced; the material pushing mechanism has the function of automatically pushing each dropped cake to a designated position from the lower part of the flat plate; the spiral propeller is an existing product on the market, and can be selected from the products of new material science and technology limited company of Hongteng, Jiangsu Congji industrial science and technology limited company and the like in Hebei province; the working principle of the feeding mechanism is as follows: the fourth cylinder is started firstly, so that the material conveying frame is driven to move, each bump is located above the longitudinal through hole, then the third cylinder is started, the plate body is driven to move downwards, each bump is driven to be close to the top end of the longitudinal through hole, then, the screw propeller is used for conveying powder mixture through the connecting hose, the powder mixture is conveyed into the groove formed by the longitudinal through hole and the ejector rod through each communicating channel, and after material conveying is finished, the material conveying frame is taken out from the lower side of the flat plate through the third cylinder and the fourth cylinder (as shown in fig. 2 and 4).

Further perfecting, a PLC controller and an air pump are fixed in the shell frame, a main pipe is externally connected to the air pump, a first branch pipe communicated with a first double-shaft air cylinder is installed on the main pipe, a first three-way electromagnetic valve is installed on the first branch pipe, a second branch pipe communicated with a third air cylinder is installed on the main pipe, a second three-way electromagnetic valve is installed on the second branch pipe, a third branch pipe communicated with a fourth air cylinder is installed on the main pipe, a third three-way electromagnetic valve is installed on the third branch pipe, a fourth branch pipe communicated with the second air cylinder is installed on the main pipe, a fourth three-way electromagnetic valve is installed on the fourth branch pipe, a fifth branch pipe communicated with the first air cylinder is installed on the main pipe, and a fifth three-way electromagnetic valve is installed on the fifth branch pipe, the PLC is connected with the air pump, the spiral propeller, the first three-way electromagnetic valve, the second three-way electromagnetic valve, the third three-way electromagnetic valve, the fourth three-way electromagnetic valve and the fifth three-way electromagnetic valve through lines. The PLC controller in the scheme is a universal programmable logic controller on the market, and can select universal trademarks such as Mitsubishi PLC, Schneider PLC, Unikon Unitronics, Taida PLC, Panasonic PLC and the like on the market; in addition, the program setting of the PLC controller is basically consistent with the principle of a setting method passing through the market, and common technicians can set program instructions according to the requirements of processing speed and efficiency, so that the method is fast in aspect; the PLC, the air pump, the first three-way electromagnetic valve, the second three-way electromagnetic valve, the third three-way electromagnetic valve, the fourth three-way electromagnetic valve and the fifth three-way electromagnetic valve are used for coordinately controlling the three-way electromagnetic valves so as to coordinately control the operation of each air cylinder part, and thus, the automatic and efficient cake pressing operation of powder is realized (as shown in figure 3).

The improved structure of the material receiving device is further perfected, a material receiving channel is fixed on the shell frame, a material receiving frame is fixed on the side portion of the shell frame, an opening of the material receiving channel is level with the top surface of the shell frame, and an outlet end of the material receiving channel is matched with an inlet end of the material receiving frame. The material receiving channel and the material receiving frame have the effect that the pressed powder pushed by the push plate can be collected and processed in a centralized manner.

Further perfection, the material containing frame is funnel-shaped, a vibrator is fixed on the material containing frame, and the vibrator is connected with a PLC (programmable logic controller) through a circuit. The vibrator has the function of vibrating the material containing frame, so that powder in the material containing frame is prevented from being stuck in the material containing frame, and the problem that the powder is agglomerated and clamped is also avoided; the vibrator is a product existing on the market, and products of Yuqiang vibration machinery, Inc. in Xinxiang county and general machinery and electrical, Inc. in Heliantou city can be selected.

The utility model discloses profitable effect is: the utility model has the advantages of ingenious and reasonable structural design, utilize the guide pole, the guide board, first cylinder, it is dull and stereotyped, the compaction piece makes first cylinder promote the guide board and move down, thereby it carries out the compaction to the powder to drive dull and stereotyped and compaction piece, utilize spliced eye, the inserted block, vertical through-hole, a support, the ejector pin, the second cylinder can make the top recess of leaving between vertical through-hole and the ejector pin top as the compaction recess of placing of powder, after the powder is compacted, the inserted block can move down and make the powder cake expose through the second cylinder, thereby recycle the push pedal and can push away each powder cake that exposes, utilize feeding mechanism enough to add automatically to the powder, thereby increase work efficiency, also reduced workman's operational danger, utilize pushing equipment can push away each powder cake that falls out automatically from dull and stereotyped below to the assigned position, the utility model discloses structural design is ingenious, it is reasonable can carry out autoloading to the powder, The operation of compacting and automatically discharging the pressed powder not only increases the efficiency and reduces the cost, but also ensures safer operation of workers, and is worthy of popularization and application.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a view from perspective A of FIG. 1;

FIG. 3 is a schematic view of the working principle of the air pump of the present invention driving each cylinder to operate;

fig. 4 is a flow chart of the working principle of the present invention.

Description of reference numerals: the device comprises a shell frame 1, an inserting hole 1-1, a material receiving channel 1-2, a supporting plate 2, a guiding rod 3, a guiding plate 4, a first air cylinder 5, a flat plate 6, a compaction block 6-1, an inserting block 7, a longitudinal through hole 7-1, a support 8, an ejector rod 9, a second air cylinder 10, a feeding mechanism 11, a plate body 11-1, a third air cylinder 11-2, a sliding plate 11-3, a fourth air cylinder 11-4, a material conveying frame 11-5, a lug 11-5a, a material conveying interface 11-5b, a communication channel 11-5c, a spiral propeller 11-6, a connecting hose 11-7, a material containing frame 11-8, a material pushing mechanism 12, a first double-shaft air cylinder 12-1, a pushing plate 12-2, a first branch pipe 12-3, a first three-way electromagnetic valve 12-4 and a second branch pipe 12-5, the device comprises a second three-way electromagnetic valve 12-6, a third branch pipe 12-7, a third three-way electromagnetic valve 12-8, a fourth branch pipe 12-9, a fourth three-way electromagnetic valve 12-10, a fifth branch pipe 12-11, a fifth three-way electromagnetic valve 12-12, a PLC (programmable logic controller) 13, an air pump 14, a header pipe 15, a receiving frame 16, a vibrator 17, a powder mixture 18 and a formed powder cake 19.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

with reference to the accompanying drawings: the full-automatic powder pressing machine comprises a shell frame 1, a supporting plate 2 is arranged above the top end of the shell frame 1, guide rods 3 are fixed at four corners of the supporting plate 2, a guide plate 4 is inserted on the guide rods 3, a first air cylinder 5 for driving the guide plate 4 to move up and down is fixed on the supporting plate 2, a flat plate 6 is fixed below the guide plate 4, a group of compaction blocks 6-1 arranged at intervals are fixed on the flat plate 6, an insertion hole 1-1 is formed in the top surface of the shell frame 1, an insertion block 7 is inserted at the insertion hole 1-1, a group of longitudinal through holes 7-1 penetrating through the upper end surface and the lower end surface of the insertion block 7 and respectively corresponding to the positions of the compaction blocks 6-1 are formed in the insertion block 7, a support 8 is fixed in the shell frame 1, ejector rods 9 fixed on the support 8 are inserted in each longitudinal through hole 7-1, the top surface of each ejector rod 9 is flush with the top, a second cylinder 10 for driving the inserting block 7 to move up and down is fixed on the support 8, a feeding mechanism 11 is arranged on the inner side of the supporting plate 2, and a pushing mechanism 12 is arranged on the right side of the supporting plate 2; the feeding mechanism 11 comprises a plate body 11-1, a third cylinder 11-2 which drives the plate body 11-1 to move up and down longitudinally is fixed on the shell frame 1, a sliding plate 11-3 is connected on the plate body 11-1 in a sliding way, the sliding plate 11-3 is driven by a fourth cylinder 11-4 fixed on the plate body 11-1, a material conveying frame 11-5 is fixed at the inner end of the sliding plate 11-3, a group of lugs 11-5a which are arranged at intervals and are provided with discharge ports are fixed at the bottom end of the material conveying frame 11-5, a material conveying interface 11-5b is arranged on the material conveying frame 11-5, a group of communicating channels 11-5c are arranged on the material conveying frame 11-5, one end of each communicating channel 11-5c is respectively communicated with the lug 11-5a, the other end of each communicating channel 11-5c is communicated with the material conveying interface 11-5b, a spiral propeller 11-6 is fixed in the cavity of the shell frame 1, a connecting hose 11-7 is connected between the discharge port of the spiral propeller 11-6 and the material conveying interface 11-5b, and a material containing frame 11-8 communicated with the feed port of the spiral propeller 11-6 is fixed on the shell frame 1; the pushing mechanism 12 comprises a first double-shaft cylinder 12-1 fixed at the top end of the shell frame 1, and a push plate 12-2 is fixed on a piston rod of the first double-shaft cylinder 12-1.

A PLC (programmable logic controller) 13 and an air pump 14 are fixed in the shell frame 1, a main pipe 15 is externally connected to the air pump 14, a first branch pipe 12-3 communicated with a first double-shaft air cylinder 12-1 is installed on the main pipe 15, a first three-way electromagnetic valve 12-4 is installed on the first branch pipe 12-3, a second branch pipe 12-5 communicated with a third air cylinder 11-2 is installed on the main pipe 15, a second three-way electromagnetic valve 12-6 is installed on the second branch pipe 12-5, a third branch pipe 12-7 communicated with a fourth air cylinder 11-4 is installed on the main pipe 15, a third three-way electromagnetic valve 12-8 is installed on the third branch pipe 12-7, a fourth branch pipe 12-9 communicated with the second air cylinder 10 is installed on the main pipe 15, a fourth three-way electromagnetic valve 12-10 is installed on the fourth branch pipe 12-9, a fifth branch pipe 12-11 communicated with the first air cylinder 5 is installed on the main pipe 15, a fifth three-way electromagnetic valve 12-12 is arranged on the fifth branch pipe 12-11, and the PLC 13 is connected with an air pump 14, a spiral propeller 11-6, a first three-way electromagnetic valve 12-4, a second three-way electromagnetic valve 12-6, a third three-way electromagnetic valve 12-8, a fourth three-way electromagnetic valve 12-10 and a fifth three-way electromagnetic valve 12-12 through lines.

The shell frame 1 is fixed with a material receiving channel 1-2, the side part of the shell frame 1 is fixed with a material receiving frame 16, the opening of the material receiving channel 1-2 is level with the top surface of the shell frame 1, and the outlet end of the material receiving channel 1-2 is matched with the inlet end of the material receiving frame 16.

The material containing frame 11-8 is in a funnel shape, a vibrator 17 is fixed on the material containing frame 11-8, and the vibrator 17 is connected with the PLC 13 through a circuit.

The utility model discloses a theory of operation: firstly, pouring a powder mixture 18 into a material containing frame 11-8 and starting a vibrator 17, then, a PLC 13 starts a third air cylinder 11-2, thereby driving a plate body 11-1 to move downwards and enabling a lug 11-5a on a material conveying frame 11-5 to be close to the top end of a longitudinal through hole 7-1, then, starts a screw propeller 11-6, flows into the screw propeller 11-6 through the material containing frame 11-8 for pushing and conveying, and conveys the powder mixture 18 to a material conveying port 11-5b through a connecting hose 11-7, then, the powder mixture 18 flows into a groove formed by the longitudinal through hole 7-1 and a jacking rod 9 from the lug 11-5a through each communicating channel 11-5c (as shown in a first graph and a second graph of figure 4), the filling amount is determined according to the rotation number of spiral blades in the screw propeller 11-6, after the groove formed by the longitudinal through hole 7-1 and the top rod 9 is filled with the powder mixture 18, the PLC controller 13 controls the fourth cylinder 11-4 to reset and drives the material conveying frame 11-5 to reset so as to be separated from the lower side of the flat plate 6 (as shown in the third drawing of fig. 4), then, the PLC controller 13 starts the first cylinder 5 so as to drive the flat plate 6 to move downwards and further drive the bumps 11-5a to compact the powder mixture 18 into the powder cakes 19 (as shown in the third drawing of fig. 4), then, starts the second cylinder 10 so as to drive the insert block 7 to move downwards and make the top surface of the insert block 7 level with the top surface of the housing 1 so as to expose all the powder cakes 19 (as shown in the fourth drawing of fig. 4), and then, starts the first double-shaft cylinder 12-1 and drives the push plate 12-2 to push the powder cakes 19 into the material receiving channel 1-2 (as shown in the fifth drawing of fig. 4), and make each pressed powder 19 all drop connect material frame 16, if want to continue to process pressed powder 19 only need repeat above-mentioned step can, the utility model discloses structural design is ingenious, reasonable can carry out autoloading, compaction and automatic pressed powder operation to powder mixture 18, not only increase efficiency, reduce cost, workman's operation is safer moreover, is worth popularizing and applying.

While the invention has been shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the scope of the appended claims.

Claims (4)

1. The utility model provides a full-automatic powder pressing machine, includes shell frame (1), characterized by: a supporting plate (2) is arranged above the top end of the shell frame (1), guide rods (3) are fixed at four corners of the supporting plate (2), a guide plate (4) is inserted into the guide rods (3), a first air cylinder (5) for driving the guide plate (4) to move up and down is fixed on the supporting plate (2), a flat plate (6) is fixed below the guide plate (4), a group of compaction blocks (6-1) which are arranged at intervals are fixed on the flat plate (6), an insertion hole (1-1) is formed in the top surface of the shell frame (1), an insertion block (7) is inserted into the insertion hole (1-1), a group of longitudinal through holes (7-1) which penetrate through the upper end face and the lower end face of the insertion block (7) and respectively correspond to the compaction blocks (6-1) in position are formed in the insertion block (7), and a support (8) is fixed in the shell frame (1), ejector rods (9) fixed on the support (8) are inserted into the longitudinal through holes (7-1), the top surface of each ejector rod (9) is flush with the top surface of the shell frame (1), a second air cylinder (10) for driving the insertion block (7) to move up and down is fixed on the support (8), a feeding mechanism (11) is arranged on the inner side of the support plate (2), and a material pushing mechanism (12) is arranged on the right side of the support plate (2);

the feeding mechanism (11) comprises a plate body (11-1), a third cylinder (11-2) for driving the plate body (11-1) to move up and down longitudinally is fixed on the shell frame (1), a sliding plate (11-3) is connected on the plate body (11-1) in a sliding manner, the sliding plate (11-3) is driven by a fourth cylinder (11-4) fixed on the plate body (11-1), a material conveying frame (11-5) is fixed at the inner end of the sliding plate (11-3), a group of convex blocks (11-5a) which are distributed at intervals and are provided with discharge ports are fixed at the bottom end of the material conveying frame (11-5), a material conveying interface (11-5b) is arranged on the material conveying frame (11-5), a group of communicating channels (11-5c) are arranged on the material conveying frame (11-5), one end of each communication channel (11-5c) is respectively communicated with a bump (11-5a), the other end of each communication channel (11-5c) is communicated with a material conveying interface (11-5b), a spiral propeller (11-6) is fixed in a cavity of the shell frame (1), a connecting hose (11-7) is connected between a discharge port of the spiral propeller (11-6) and the material conveying interface (11-5b), and a material containing frame (11-8) communicated with a feed port of the spiral propeller (11-6) is fixed on the shell frame (1);

the pushing mechanism (12) comprises a first double-shaft cylinder (12-1) fixed at the top end of the shell frame (1), and a push plate (12-2) is fixed on a piston rod of the first double-shaft cylinder (12-1).

2. The full-automatic powder pressing machine as claimed in claim 1, wherein: a PLC (programmable logic controller) (13) and an air pump (14) are fixed in the shell frame (1), a main pipe (15) is externally connected to the air pump (14), a first branch pipe (12-3) communicated with a first double-shaft air cylinder (12-1) is installed on the main pipe (15), a first three-way electromagnetic valve (12-4) is installed on the first branch pipe (12-3), a second branch pipe (12-5) communicated with a third air cylinder (11-2) is installed on the main pipe (15), a second three-way electromagnetic valve (12-6) is installed on the second branch pipe (12-5), a third branch pipe (12-7) communicated with a fourth air cylinder (11-4) is installed on the main pipe (15), a third three-way electromagnetic valve (12-8) is installed on the third branch pipe (12-7), and a fourth branch pipe (12-9) communicated with a second air cylinder (10) is installed on the main pipe (15), the four-way air pump is characterized in that a fourth three-way electromagnetic valve (12-10) is installed on the fourth branch pipe (12-9), a fifth branch pipe (12-11) communicated with the first air cylinder (5) is installed on the main pipe (15), a fifth three-way electromagnetic valve (12-12) is installed on the fifth branch pipe (12-11), and the PLC (13) is connected with the air pump (14), the spiral propeller (11-6), the first three-way electromagnetic valve (12-4), the second three-way electromagnetic valve (12-6), the third three-way electromagnetic valve (12-8), the fourth three-way electromagnetic valve (12-10) and the fifth three-way electromagnetic valve (12-12) in a line mode.

3. The full-automatic powder pressing machine as claimed in claim 1, wherein: the material receiving device is characterized in that a material receiving channel (1-2) is fixed on the shell frame (1), a material receiving frame (16) is fixed on the side portion of the shell frame (1), an opening of the material receiving channel (1-2) is flush with the top surface of the shell frame (1), and the outlet end of the material receiving channel (1-2) is matched with the inlet end of the material receiving frame (16).

4. The full-automatic powder pressing machine as claimed in claim 1, wherein: the material containing frame (11-8) is funnel-shaped, and a vibrator (17) is fixed on the material containing frame (11-8).

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