CN116423907A - Automatic powder forming machine - Google Patents

Abstract

The invention discloses an automatic powder forming machine, which comprises: the upper end of the processing table is slidably provided with a feeding table through a sliding rail, the sliding rail is also provided with a rodless cylinder for driving the feeding table to move, the left side and the right side of the upper end of the feeding table are respectively provided with a material storage through groove, the left side and the right side of the upper end of the processing table are also embedded with a forming die holder, and the middle position of the processing table is also provided with a feeding frame; the feeding assembly is arranged on the feeding frame and is used for adding raw materials into the material storage through groove; the stirring mechanism is arranged on the feeding table and used for stirring the raw materials in the storage through groove; the punching mechanism is arranged on the processing table and is used for punching the powder raw materials; the material removing mechanism is arranged at the lower end of the processing table and used for ejecting formed raw materials out of the forming die holder.

Description

Automatic powder forming machine

Technical Field

The invention relates to the technical field of powder forming, in particular to an automatic powder forming machine.

Background

Powder or granule forming is one of the basic procedures in the production of powders or granules, with the aim of making loose powders into semi-finished or finished products having predetermined geometries, dimensions, densities and strengths. Among them, the most common method of powder molding is powder extrusion molding, which generally refers to a powder molding method of extruding a metal powder in a die through an extrusion die having the same size and shape as the cross-section of its product by means of the pressure of a punch.

A powder make-up machine popular in the existing market, a scraper blade is connected to the powder bucket, and when advancing powder, the top that the play powder mouth of powder bucket can remove the mould shaping groove is put powder, and when the powder bucket resetted, the scraper blade resetted along with the powder bucket, can hang the powder of shaping inslot one side to the another side, leads to the powder both sides inequality in the shaping groove, and then the uneven condition of thickness also can appear in the product of pressing.

In order to solve the problems, chinese patent application (application publication No. CN113895074A; application publication No. 2022.01.07) discloses a powder forming machine which can uniformly distribute powder in a forming tank, and can prevent the phenomenon that a product is thick and thin at one side when being pressed by a pressing mechanism, thereby having excellent economic effect.

However, when the device is specifically used, after the raw materials pressed and formed in the die are taken out, subsequent loading processing operation can be performed, so that the processing efficiency of the device is reduced, and the use requirement cannot be well met.

Disclosure of Invention

The present invention is directed to an automatic powder forming machine, which solves the above-mentioned problems.

In order to achieve the above purpose, the present invention provides the following technical solutions:

an automatic powder forming machine comprising: the upper end of the processing table is slidably provided with a feeding table through a sliding rail, the sliding rail is also provided with a rodless cylinder for driving the feeding table to move, the left side and the right side of the upper end of the feeding table are respectively provided with a material storage through groove, the left side and the right side of the upper end of the processing table are also embedded with a forming die holder, and the middle position of the processing table is also provided with a feeding frame; the feeding assembly is arranged on the feeding frame and is used for adding raw materials into the material storage through groove; the stirring mechanism is arranged on the feeding table and used for stirring the raw materials in the storage through groove; the punching mechanism is arranged on the processing table and is used for punching the powder raw materials; and the stripping mechanism is arranged at the lower end of the processing table and is used for ejecting the formed raw materials out of the forming die holder.

Preferably, the feeding assembly comprises a feeding tank arranged at the upper end of the feeding frame, a tank cover is arranged at the upper end of the feeding tank, a feeding hopper is further arranged at the upper end of the tank cover, and a dispersing mechanism is further arranged at the upper end of the tank cover.

Preferably, the dispersing mechanism comprises a dispersing motor arranged at the upper end of the tank cover, a dispersing rotating shaft is further rotatably arranged at the lower end of the tank cover, a plurality of groups of dispersing paddles are distributed and arranged on the dispersing rotating shaft, and the output end of the dispersing motor is in driving connection with the shaft end of the dispersing rotating shaft. Through setting up dispersion mechanism, conveniently disperse the raw materials, avoid its caking, influence the material loading.

Preferably, the material stirring mechanism comprises a mounting groove formed in the upper end of the feeding table, a material stirring chute is formed in the upper end of the feeding table at a position corresponding to the material storage through groove, a material stirring screw rod is rotatably mounted in the material stirring chute, a material stirring sliding seat is sleeved on the material stirring screw rod in a threaded manner, a plurality of groups of material stirring rollers are rotatably mounted in the material stirring sliding seat, a material stirring motor is further mounted in the mounting groove, and the output end of the material stirring motor is in driving connection with the shaft end of the material stirring screw rod. Through setting up the stirring mechanism, conveniently stir the raw materials of storage logical inslot to in the convenient raw materials gets into the shaping die holder, convenient follow-up compression moulding.

Preferably, the material stirring rollers are provided with three groups, and the three groups of material stirring rollers are distributed in a shape like a Chinese character 'pin'.

Preferably, a plurality of groups of material stirring sheets are distributed and installed on the material stirring roller.

Preferably, the punching mechanism comprises a pair of punching frames arranged at the upper end of the processing table, a punching oil cylinder is arranged at the upper end of each punching frame, the output end of each punching oil cylinder penetrates through each punching frame and is fixedly provided with a punching lifting seat, a plurality of groups of punching guide rods are further arranged between the processing table and each punching frame, the punching lifting seats are slidably sleeved on the punching guide rods, punching seats are further arranged at the lower ends of the punching lifting seats, and punches are arranged at the lower ends of the punching seats corresponding to the positions of the forming die bases. By arranging the stamping mechanism, powder raw materials in the forming die holder are conveniently stamped and formed.

Preferably, the stripping mechanism comprises a stripping frame arranged at the lower end of the processing table, a stripping oil cylinder is arranged at the lower end of the stripping frame, the output end of the stripping oil cylinder penetrates through the stripping frame and is fixedly provided with a stripping lifting seat, the upper end of the stripping lifting seat is provided with a stripping seat, and the upper end of the stripping seat is provided with a stripping jack post corresponding to the position of the molding die holder. Through setting up and taking off material mechanism, conveniently cooperate stamping mechanism to carry out the raw materials

Preferably, the left side and the right side of the processing table are provided with material guiding tables.

Compared with the prior art, the invention has the beneficial effects that:

the feeding table is driven to reciprocate left and right by the rodless cylinder, and the other side can carry out forming work when one side is fed, so that the processing blanking can be effectively improved, in addition, the formed raw materials can be pushed away by the reciprocating motion of the feeding table, and the subsequent processing is facilitated;

by arranging the stirring mechanism, when raw materials are added into the material storage through groove, the raw materials can be better distributed in the material storage through groove, in addition, when the raw materials are added into the forming die holder, the raw materials can be better dropped into the forming groove of the forming die holder, and the forming quality of the raw materials is improved;

by arranging the stripping mechanism, on one hand, the raw materials can be molded by matching with the stamping mechanism; on the other hand, the raw materials are conveniently ejected out of the forming groove after forming, and the formed raw materials are conveniently transferred away subsequently. The invention has reasonable structure, and when the molding die holder on one side is used for feeding, the molding die holder on the other side can perform molding work, so that the powder molding efficiency can be effectively improved, and the use requirement can be better met.

Drawings

FIG. 1 is a schematic view of an overall first perspective of an automatic powder forming machine;

FIG. 2 is a schematic view of an overall second perspective of an automatic powder forming machine;

FIG. 3 is a schematic view showing a first perspective of an automatic powder forming machine after concealing the stamping mechanism;

FIG. 4 is a schematic view showing a first perspective view of an automatic powder forming machine after concealing the stamping mechanism;

FIG. 5 is a schematic perspective view of the automatic powder forming machine of FIG. 3 with the position of the loading rack hidden;

FIG. 6 is an enlarged perspective view of the position A of an automatic powder forming machine;

FIG. 7 is a schematic perspective view of a position of a kick-out roller of an automatic powder forming machine;

FIG. 8 is a schematic perspective view of a dispersing mechanism of an automatic powder forming machine;

FIG. 9 is a schematic perspective view of a stripping mechanism of an automatic powder forming machine;

fig. 10 is a schematic perspective view of a pressing mechanism of an automatic powder forming machine.

In the figure: the device comprises a 1-processing table, 11-sliding rails, 12-feeding tables, 121-storage through grooves, 13-feeding frames, 131-feeding tanks, 132-feeding hoppers, 133-tank covers, 14-rodless cylinders, 15-molding die holders and 16-material guiding tables;

2-dispersing mechanism, 21-dispersing motor, 22-dispersing rotating shaft and 23-dispersing paddle;

3-stamping mechanism, 31-stamping frame, 32-stamping cylinder, 33-stamping lifting seat, 34-stamping guide rod, 35-stamping seat and 36-punch;

the device comprises a 4-stripping mechanism, a 41-stripping frame, a 42-stripping oil cylinder, a 43-stripping lifting seat, a 44-stripping seat and a 45-stripping jacking column;

the device comprises a 5-material stirring mechanism, a 51-mounting groove, a 52-material stirring motor, a 53-material stirring chute, a 54-material stirring screw rod, a 55-material stirring sliding seat, a 56-material stirring roller and 561-material stirring sheets.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples: referring to fig. 1 to 10, an automatic powder molding machine includes: the processing table 1, the upper end of the processing table 1 is slidably provided with a feeding table 12 through a sliding rail 11, the sliding rail 11 is also provided with a rodless cylinder 14 for driving the feeding table 12 to move, the moving end on the rodless cylinder 14 is fixedly connected with the lower end of the feeding table 12, the left side and the right side of the upper end of the feeding table 12 are respectively provided with a material storage through groove 121, the left side and the right side of the upper end of the processing table 1 are also embedded with a forming die holder 15, the middle position of the processing table 1 is also provided with a feeding frame 13, and the left side and the right side of the processing table 1 are respectively provided with a material guiding table 16; a feeding assembly mounted on the feeding frame 13 for adding raw materials into the storage through groove 121; the stirring mechanism 5 is arranged on the feeding table 12 and is used for stirring the raw materials in the storage through groove 121; a punching mechanism 3 mounted on the processing table 1 for punching the powder raw material; the stripping mechanism 4 is arranged at the lower end of the processing table 1 and is used for ejecting formed raw materials out of the forming die holder 15.

The working principle of the invention is as follows: during feeding, firstly, the feeding table 12 is driven to move rightwards through the rodless cylinder 14, so that the storage through groove 121 on the left side of the feeding table 12 moves to the lower end of the upper material frame 13, raw materials are conveyed to the storage through groove 121 through the feeding component, the material stirring mechanism 5 is arranged, the raw materials can be better dispersed in the storage through groove 121, then, the feeding table 12 is driven to move leftwards through the rodless cylinder 14, the storage through groove 121 filled with the raw materials moves to the position of the forming die holder 15, then, the raw materials are stirred through the material stirring mechanism 5, the raw materials conveniently fall into the forming groove of the forming die holder 15, and at the moment, the storage through groove 121 on the right side moves to the lower end of the upper material frame 13, and feeding can be performed through the feeding component;

after the feeding is finished, the rodless cylinder 14 drives the feeding table 12 to move right again, so that the left storage through groove 121 moves to the position of the feeding frame 13, then the stamping mechanism 3 is matched with the stripping mechanism 4 to extrude and shape the raw materials in the forming groove of the forming die holder 15, after the forming, the stripping mechanism 4 ejects the formed raw materials out of the forming die holder, and meanwhile, the right storage through groove 121 is positioned at the position of the right forming die holder 15, so that the feeding operation can be performed on the right forming die holder 15;

after the feeding is completed, the rodless cylinder 14 drives the feeding table 12 to move left, at this moment, the formed raw materials can be pushed away through the feeding table 12, the formed raw materials can be moved to the material guiding table 16, the raw materials are convenient to convey, when the left material storage through groove 121 moves to the left forming die holder 15, the left forming die holder 15 can be subjected to feeding operation, at this moment, the right material storage is usually 121 to move to the lower part of the upper material frame 13, feeding operation can be performed, and the stamping mechanism 3 on the right is matched with the stripping mechanism 4 to complete the forming operation of the raw materials, after the forming operation, the raw materials are ejected through the stripping mechanism 4, when the feeding table 12 moves right, the formed raw materials can be pushed to the material guiding table 16 to perform subsequent feeding, and thus, when one side feeding is repeated, the other side can perform forming operation, the processing efficiency of the raw materials can be effectively improved, and the use requirement can be better met.

As a further solution, referring to fig. 1 to 4 and fig. 8, the feeding assembly includes a feeding tank 131 mounted at an upper end of the feeding frame 13, a tank cover 133 is mounted at an upper end of the feeding tank 131, a feeding hopper 132 is further mounted at an upper end of the tank cover 133, a dispersing mechanism 2 is further mounted at an upper end of the tank cover 133, the dispersing mechanism 2 includes a dispersing motor 21 mounted at an upper end of the tank cover 133, a dispersing rotating shaft 22 is further rotatably mounted at a lower end of the tank cover 133, a plurality of groups of dispersing paddles 23 are mounted on the dispersing rotating shaft 22 in a distributed manner, an output end of the dispersing motor 21 is in driving connection with a shaft end of the dispersing rotating shaft 22, in this embodiment, a discharging pipe is disposed at a lower end of the feeding tank 131, and after the storing through groove 121 moves to the upper end of the feeding frame 13, the raw material powder can fall into the storing through groove 121 under the action of gravity.

The working principle of the feeding component is as follows: the dispersing motor 21 drives the dispersing rotating shaft 22 to rotate, so that the dispersing paddles 23 on the dispersing rotating shaft 22 can disperse the raw material powder, and the agglomeration of the raw material powder can be effectively avoided, and the subsequent feeding is influenced.

As a further scheme, referring to fig. 5 to 7, the material stirring mechanism 5 includes a mounting groove 51 formed at the upper end of the feeding table 12, a material stirring chute 53 is formed at the upper end of the feeding table 12 corresponding to the position of the material storage through groove 121, a material stirring screw rod 54 is rotatably mounted in the material stirring chute 53, a material stirring slide seat 55 is sleeved on the material stirring screw rod 54 in a threaded manner, a plurality of groups of material stirring rollers 56 are rotatably mounted in the material stirring slide seat 55, a material stirring motor 52 is further mounted in the mounting groove 51, an output end of the material stirring motor 52 is in driving connection with a shaft end of the material stirring screw rod 54, in this embodiment, three groups of material stirring rollers 56 are distributed in a shape of a Chinese character 'pin', and a plurality of groups of material stirring sheets 561 are mounted on the material stirring rollers 56 in a distributed manner.

The operating principle of the material stirring mechanism 5 is as follows: when raw material powder is added into the storage through groove 121, the stirring slide seat 55 is positioned in the middle of the stirring slide groove 53, and when the raw material powder is discharged from the discharge pipe and falls onto the stirring roller 56, the stirring roller 56 rotates along with the raw material powder, so that the raw material is dispersed into the storage through groove 121, the raw material can be effectively prevented from being accumulated in the middle of the storage through groove 121, and the raw material is convenient to be fed into the forming die holder 15 later;

when raw material powder is added into the molding die holder 15, the stirring motor 52 is started, the stirring screw rod 54 is driven to rotate by the stirring motor 52, so that the stirring slide seat 55 which is sleeved on the stirring screw rod 54 in a threaded manner moves along with the stirring screw rod, the stirring slide seat 55 can move forwards and backwards by forward and reverse rotation of the stirring motor 52, and in the moving process of the stirring slide seat 55, the powder can be stirred by the stirring sheet 561 due to the resistance of the material powder, so that the powder can fall into a molding groove of the molding die holder 15 conveniently, and the subsequent processing and molding work is facilitated.

As a further scheme, referring to fig. 10, the stamping mechanism 3 includes a pair of stamping frames 31 mounted at the upper end of the processing table 1, a stamping cylinder 32 is mounted at the upper end of the stamping frames 31, an output end of the stamping cylinder 32 penetrates through the stamping frames 31 and is fixed with a stamping lifting seat 33, a plurality of groups of stamping guide rods 34 are further mounted between the processing table 1 and the stamping frames 31, the stamping lifting seat 33 is slidably sleeved on the stamping guide rods 34, a stamping seat 35 is further mounted at the lower end of the stamping lifting seat 33, and a punch 36 is mounted at the lower end of the stamping seat 35 corresponding to the position of the forming die holder 35.

The working principle of the stamping mechanism 3 is as follows: during punching, the punching oil cylinder 32 stretches to push the punch 36 to move downwards, so that the punch 36 stretches into the forming groove, the forming work of raw materials can be completed by matching with the stripping mechanism 4 at the lower end of the forming groove, and after forming, the punching oil cylinder 32 resets, so that subsequent stripping is facilitated.

As a further scheme, referring to fig. 9, the stripping mechanism 4 includes a stripping frame 41 mounted at the lower end of the processing table 1, a stripping oil cylinder 42 is mounted at the lower end of the stripping frame 41, an output end of the stripping oil cylinder 42 penetrates through the stripping frame 41 and is fixed with a stripping lifting seat 43, a stripping seat 44 is mounted at the upper end of the stripping lifting seat 43, and a stripping top column 45 is mounted at the upper end of the stripping seat 44 corresponding to the position of the molding die holder 15.

The working principle of the stripping mechanism 4 is as follows: when the material is removed, the material removing oil cylinder 42 stretches to push the material removing jack-prop 45 at the lower half part of the forming groove to move upwards, so that the material removing jack-prop 45 ejects the formed raw material out of the forming groove, and the material removing work can be completed.

In the present invention, terms such as "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "side", "bottom", etc. refer to an orientation or a positional relationship based on that shown in the drawings, and are merely relational terms, which are used for convenience in describing structural relationships of various components or elements of the present invention, and do not denote any one of the components or elements of the present invention, and are not to be construed as limiting the present invention.

Claims (9)

1. An automatic powder forming machine, comprising:

the automatic feeding device comprises a processing table (1), wherein a feeding table (12) is slidably arranged at the upper end of the processing table (1) through a sliding rail (11), a rodless cylinder (14) for driving the feeding table (12) to move is further arranged on the sliding rail (11), a material storage through groove (121) is formed in the left side and the right side of the upper end of the feeding table (12), a forming die holder (15) is further embedded in the left side and the right side of the upper end of the processing table (1), and a feeding frame (13) is further arranged in the middle of the processing table (1);

the feeding assembly is arranged on the feeding frame (13) and is used for adding raw materials into the storage through groove (121);

the stirring mechanism (5) is arranged on the feeding table (12) and is used for stirring the raw materials in the storage through groove (121);

the punching mechanism (3) is arranged on the processing table (1) and is used for punching the powder raw materials;

the stripping mechanism (4) is arranged at the lower end of the processing table (1) and is used for ejecting formed raw materials out of the forming die holder (15).

2. An automatic powder forming machine according to claim 1, wherein: the feeding assembly comprises a feeding tank (131) arranged at the upper end of the feeding frame (13), a tank cover (133) is arranged at the upper end of the feeding tank (131), a feeding hopper (132) is further arranged at the upper end of the tank cover (133), and a dispersing mechanism (2) is further arranged at the upper end of the tank cover (133).

3. An automatic powder forming machine according to claim 2, characterized in that: the dispersing mechanism (2) comprises a dispersing motor (21) arranged at the upper end of the tank cover (133), a dispersing rotating shaft (22) is further rotatably arranged at the lower end of the tank cover (133), a plurality of groups of dispersing paddles (23) are distributed and arranged on the dispersing rotating shaft (22), and the output end of the dispersing motor (21) is in driving connection with the shaft end of the dispersing rotating shaft (22).

4. An automatic powder forming machine according to claim 3, wherein: the stirring mechanism (5) comprises a mounting groove (51) formed in the upper end of the feeding table (12), a stirring chute (53) is formed in the upper end of the feeding table (12) corresponding to the position of the storage through groove (121), a stirring screw rod (54) is rotatably mounted in the stirring chute (53), stirring sliding seats (55) are sleeved on the stirring screw rod (54) in a threaded mode, a plurality of groups of stirring rollers (56) are rotatably mounted in the stirring sliding seats (55), a stirring motor (52) is further mounted in the mounting groove (51), and the output end of the stirring motor (52) is in driving connection with the shaft end of the stirring screw rod (54).

5. An automatic powder forming machine according to claim 4, wherein: the material stirring rollers (56) are provided with three groups, and the three groups of material stirring rollers (56) are distributed in a shape like a Chinese character 'pin'.

6. An automatic powder forming machine according to claim 5, wherein: a plurality of groups of material stirring sheets (561) are distributed and arranged on the material stirring roller (56).

7. An automatic powder forming machine according to claim 6, wherein: the stamping mechanism (3) comprises a pair of stamping frames (31) arranged at the upper end of a processing table (1), stamping oil cylinders (32) are arranged at the upper ends of the stamping frames (31), the output ends of the stamping oil cylinders (32) penetrate through the stamping frames (31) and are fixedly provided with stamping lifting seats (33), a plurality of groups of stamping guide rods (34) are further arranged between the processing table (1) and the stamping frames (31), the stamping lifting seats (33) are slidably sleeved on the stamping guide rods (34), stamping seats (35) are further arranged at the lower ends of the stamping lifting seats (33), and punches (36) are arranged at positions, corresponding to the forming die bases (35), of the lower ends of the stamping seats (35).

8. An automatic powder forming machine according to claim 7, wherein: the material removing mechanism (4) comprises a material removing frame (41) arranged at the lower end of the processing table (1), a material removing oil cylinder (42) is arranged at the lower end of the material removing frame (41), an output end of the material removing oil cylinder (42) penetrates through the material removing frame (41) and is fixedly provided with a material removing lifting seat (43), a material removing seat (44) is arranged at the upper end of the material removing lifting seat (43), and a material removing jacking column (45) is arranged at the upper end of the material removing seat (44) corresponding to the position of the molding die holder (15).

9. An automatic powder forming machine as claimed in claim 8, wherein: guide tables (16) are arranged on the left side and the right side of the processing table (1).

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