CN218140097U - Automatic powder filling machine - Google Patents

Abstract

The utility model discloses an automatic powder loading machine, which comprises an installation frame, a first lifting mechanism arranged on the installation frame, and a lifting bracket connected with the first lifting mechanism; the mounting rack is also provided with a first translation mechanism, a rotating mechanism connected with the first translation mechanism and a rubber sleeve connected with the rotating mechanism and used for loading powder; and the first translation mechanism is also provided with a pressing limiting mechanism for pressing and limiting the core rod in the rubber sleeve. The utility model discloses a powder feed mechanism, push down mutually supporting of compacting mechanism and first elevating system, can realize automatic dress powder and with the process of powder compaction, and then practice thrift manpower resources, solve artifical manual dress powder, and the personnel physical demands that leads to is big, manufacturing cost is high and influence the problem that personnel are healthy, can improve dress powder efficiency, reduce intensity of labour, guarantee the quality of product, and overall design is reasonable, compact structure, convenient to use, and the practicality is strong.

Description

Automatic powder filling machine

Technical Field

The utility model relates to a functional ceramic takes shape technical field, especially relates to an automatic dress powder machine.

Background

The ceramic rotary target with special function is widely used for coating energy-saving glass and solar glass at present. It is in the course of making, to the dress powder of unburned bricks, the mode of artifical manual dress powder is mostly adopted at present, the artificial gum cover or the gum bag etc. of packing into target unburned bricks shaping with the granulation powder raw materials promptly, and disclose closely knit with the plastic rod, make its raw materials density distribution even, the shape is symmetrical, pat again and suppress, the mode of artifical dress powder depends on personal technology and dynamics, it is very big to personnel's physical demands, and also be difficult to control, easily cause the extravagant condition in a large number of materials, and then increase manufacturing cost, simultaneously, the dust is bigger during the dress powder, influence personnel's healthy.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an automatic powder filling machine, this powder filling machine passes through powder feed mechanism, push down compacting mechanism and a elevating system's mutually supporting, can realize automatic powder filling and with the powder compacting process, and then practice thrift manpower resources, solve artifical manual dress powder, and the personnel physical demands that leads to is big, high in production cost and influence the healthy problem of personnel, can improve dress powder efficiency, reduce intensity of labour, guarantee the quality of product, and overall design is reasonable, compact structure, high durability and convenient use, therefore, the clothes hanger is strong in practicability.

In order to realize the purpose, the following technical scheme is adopted:

an automatic powder loading machine comprises an installation rack, a first lifting mechanism arranged on the installation rack, and a lifting bracket connected with the first lifting mechanism; the mounting rack is also provided with a first translation mechanism, a rotating mechanism connected with the first translation mechanism and a rubber sleeve connected with the rotating mechanism and used for loading powder; the first translation mechanism is also provided with a pressing limiting mechanism for pressing and limiting the core rod in the rubber sleeve; the lifting bracket is also provided with a powder feeding mechanism and a pressing and compacting mechanism; the powder feeding mechanism is used for conveying powder into the rubber sleeve, and the pressing and compacting mechanism is used for compacting the powder in the rubber sleeve.

Further, the first translation mechanism comprises a first slide rail assembly arranged on the mounting rack, a first translation plate arranged on the first slide rail assembly in a sliding manner, and a first translation cylinder arranged on the mounting rack and connected with the first translation plate in a driving manner; the rotating mechanism is mounted on the first translation plate.

Further, the rotating mechanism comprises a first rotating motor arranged on the first translation plate, a driving gear connected with the first rotating motor, a driven gear meshed with the driving gear, and a rotating bottom plate arranged on the driven gear; the rubber sleeve is arranged on the rotating bottom plate.

Further, the downward pressing limiting mechanism comprises a downward pressing support arranged on the first translation plate, a downward pressing cylinder arranged on the downward pressing support, and a downward pressing ejector pin arranged above the core rod and connected with the downward pressing cylinder.

Furthermore, the powder feeding mechanism comprises a support frame arranged on the lifting bracket, a powder bin arranged on the support frame, and a powder conveying pipe communicated with the powder bin; one end of the powder conveying pipe, which is used for outputting powder, is arranged in the rubber sleeve, and the electromagnetic valve is further arranged on the powder conveying pipe.

Further, the downward pressing and compacting mechanism comprises a downward pressing mounting frame arranged on the lifting bracket, a crank connecting rod assembly arranged on the downward pressing mounting frame, a downward pressing rod connected with the crank connecting rod assembly, and a second rotating motor connected with the crank connecting rod assembly; one end of the lower pressing rod is inserted into the rubber sleeve, and the second rotating motor is used for driving the lower pressing rod to do lifting reciprocating motion through the crank connecting rod assembly.

Further, the crank connecting rod assembly comprises a first rotating rod and a second rotating rod; one end of the first rotating rod is connected with the second rotating motor, and the other end of the first rotating rod is rotatably connected with one end of the second rotating rod; the other end of the second rotating rod is rotatably connected with one end of the lower pressing rod; the lifting bracket is also provided with a first linear bearing, and the lower pressing rod penetrates through the first linear bearing to be arranged.

Furthermore, the first lifting mechanism comprises a first screw rod assembly arranged on the mounting rack and a first lifting motor used for driving the first screw rod assembly to operate; the lifting bracket is connected with the first screw rod assembly.

Furthermore, the first lifting mechanism further comprises a plurality of lifting guide rods, and a plurality of second linear bearings are further mounted on the lifting bracket; each lifting guide rod correspondingly penetrates through a second linear bearing.

Furthermore, the upper part and the lower part of the installation rack are respectively provided with a travel limit switch.

Adopt above-mentioned scheme, the beneficial effects of the utility model are that:

this powder filling machine can realize automatic powder filling and with the process of powder compaction through mutually supporting of powder feed mechanism, compaction mechanism and first elevating system of pushing down, and then practices thrift manpower resources, solves artifical manual powder filling, and the personnel physical demands that leads to is big, manufacturing cost is high and influence the healthy problem of personnel, can improve powder filling efficiency, reduces intensity of labour, guarantees the quality of product, and overall design is reasonable, compact structure, convenient to use, and the practicality is strong.

Drawings

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

fig. 2 is a schematic structural diagram of the first translation mechanism, the rotation mechanism and the rubber sleeve of the present invention;

wherein the figures are identified as follows:

1, installing a frame; 2-a first lifting mechanism;

3-lifting the bracket; 4-a first translation mechanism;

5, a rotating mechanism; 6, rubber sleeve;

7, pressing down a limiting mechanism; 8, a powder feeding mechanism;

9-pressing down the compaction mechanism; 21 — a first lead screw assembly;

22-a first elevator motor; 23-lifting guide rod;

41-a first slide rail assembly; 42 — a first translating plate;

43-a first translating cylinder; 51 — a first rotating electrical machine;

52-a drive gear; 53-driven gear;

71-pressing down the support; 72-a down-pressure cylinder;

73, pressing down the thimble; 81-a support frame;

82, a powder bin; 83-powder conveying pipe;

84-a solenoid valve; 91-pressing down the mounting rack;

92-a crank link assembly; 93-lower compression bar;

94 — a second rotating electrical machine; 95 — a first linear bearing;

61-core bar.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 2, the utility model provides an automatic powder loading machine, which comprises an installation frame 1, a first lifting mechanism 2 installed on the installation frame 1, and a lifting bracket 3 connected with the first lifting mechanism 2; the mounting rack 1 is also provided with a first translation mechanism 4, a rotating mechanism 5 connected with the first translation mechanism 4, and a rubber sleeve 6 connected with the rotating mechanism 5 and used for loading powder; a core bar 61 is further installed in the rubber sleeve 6, and a downward pressing limiting mechanism 7 for pressing and limiting the core bar 61 in the rubber sleeve 6 is further installed on the first translation mechanism 4; the lifting bracket 3 is also provided with a powder feeding mechanism 8 and a downward pressing and compacting mechanism 9; the powder feeding mechanism 8 is used for conveying powder into the rubber sleeve 6, and the pressing and compacting mechanism 9 is used for compacting the powder in the rubber sleeve 6.

The first translation mechanism 4 comprises a first slide rail assembly 41 mounted on the mounting frame 1, a first translation plate 42 arranged on the first slide rail assembly 41 in a sliding manner, and a first translation cylinder 43 mounted on the mounting frame 1 and in driving connection with the first translation plate 42; the rotating mechanism 5 is mounted on the first translation plate 42; the rotating mechanism 5 comprises a first rotating motor 51 arranged on the first translation plate 42, a driving gear 52 connected with the first rotating motor 51, a driven gear 53 in meshed connection with the driving gear 52, and a rotating bottom plate arranged on the driven gear 53; the rubber sleeve 6 is arranged on the rotating bottom plate; the downward pressing limiting mechanism 7 comprises a downward pressing support 71 arranged on the first translation plate 42, a downward pressing air cylinder 72 arranged on the downward pressing support 71, and a downward pressing thimble 73 arranged above the core rod 61 and connected with the downward pressing air cylinder 72; the powder feeding mechanism 8 comprises a support frame 81 arranged on the lifting bracket 3, a powder bin 82 arranged on the support frame 81, and a powder conveying pipe 83 communicated with the powder bin 82; one end of the powder conveying pipe 83 for outputting powder is arranged in the rubber sleeve 6, and the electromagnetic valve 84 is further mounted on the powder conveying pipe 83.

The downward pressing and compacting mechanism 9 comprises a downward pressing mounting frame 91 arranged on the lifting bracket 3, a crank connecting rod assembly 92 arranged on the downward pressing mounting frame 91, a downward pressing rod 93 connected with the crank connecting rod assembly 92, and a second rotating motor 94 connected with the crank connecting rod assembly 92; one end of the lower pressing rod 93 is inserted into the rubber sleeve 6, and the second rotating motor 94 is used for driving the lower pressing rod 93 to do lifting reciprocating motion through the crank connecting rod assembly 92; the crank link assembly 92 comprises a first rotating rod and a second rotating rod; one end of the first rotating rod is connected with a second rotating motor 94, and the other end of the first rotating rod is rotatably connected with one end of a second rotating rod; the other end of the second rotating rod is rotatably connected with one end of the lower pressing rod 93; the lifting bracket 3 is also provided with a first linear bearing 95, and the lower pressure rod 93 passes through the first linear bearing 95; the first lifting mechanism 2 comprises a first screw rod assembly 21 arranged on the mounting rack 1 and a first lifting motor 22 used for driving the first screw rod assembly 21 to operate; the lifting bracket 3 is connected with a first screw rod assembly 21; the first lifting mechanism 2 further comprises a plurality of lifting guide rods 23, and a plurality of second linear bearings are further mounted on the lifting bracket 3; each lifting guide rod 23 correspondingly penetrates through a second linear bearing; the upper part and the lower part of the mounting frame 1 are respectively provided with a travel limit switch.

The utility model discloses the theory of operation:

with continued reference to fig. 1 to 2, in the present embodiment, the mounting rack 1 includes a mounting base plate and a mounting vertical frame, and the bottom of the mounting base plate is further provided with a caster cup for facilitating movement; the first lifting mechanism 2 is installed on the vertical installation frame, the first translation mechanism 4 is installed on the installation bottom plate, the two-stroke limit switches are arranged on the upper portion and the lower portion of the vertical installation frame, and the limit switch is further installed at the top of the vertical installation frame. The working process is as follows:

1) When powder loading starts, the first lifting mechanism 2 drives the lifting bracket 3 to ascend to the top, the first translation mechanism 4 drives the first translation plate 42 to be pushed out to one side below the lifting bracket 3, the rubber sleeve 6 is arranged on the rotating bottom plate by a manual or external transfer mechanism, and then the first translation mechanism 4 drives the first translation plate 42 to reset (right below the lifting bracket 3);

2) The downward-pressing air cylinder 72 drives the downward-pressing ejector pin 73 to press downward so as to compress and limit the core rod 61 arranged in the rubber sleeve 6;

3) The first lifting mechanism 2 drives the lifting bracket 3 to descend to a travel limit switch positioned at the lower part of the mounting vertical frame;

4) The first rotating motor 51 drives the rubber sleeve 6 to rotate (the core rod 61 can rotate synchronously) through the driving gear 52 and the driven gear 53, meanwhile, the electromagnetic valve 84 is opened, and powder flows out of the powder bin 82 into the rubber sleeve 6 through the powder conveying pipe 83;

5) When powder flows into the rubber sleeve 6 through the powder conveying pipe 83 (the rubber sleeve 6 rotates to enable the powder to uniformly flow into the rubber sleeve), the second rotating motor 94 drives the lower pressing rod 93 to do lifting reciprocating motion through the crank connecting rod assembly 92 so as to poke the powder tightly, and the first lifting mechanism 2 drives the lifting bracket 3 to ascend for a certain distance every time the rubber sleeve 6 rotates for one circle, and the process is repeated until the rubber sleeve 6 is filled with the powder, at the moment, after the stroke limit switch positioned at the upper part of the mounting vertical frame senses the powder bin 82 in-place information, the background control electromagnetic valve 84 is closed to stop powder conveying, the lifting bracket 3 continues to ascend for a certain distance, the lower pressing rod 93 stops moving after time delay, the first rotating motor 51 stops driving the rubber sleeve 6 to rotate after time delay, at the moment, the lifting bracket 3 touches the limit switch at the top of the mounting vertical frame and stops ascending;

6) The push-down air cylinder 72 drives the push-down thimble 73 to ascend, and the first translation mechanism 4 drives the first translation plate 42 to push out the rubber sleeve 6.

In the embodiment, the first lifting mechanism 2 adopts a transmission mode that a motor is matched with a screw rod, and is provided with a lifting guide rod 23, so that the lifting stability of the lifting bracket 3 can be ensured; the rubber sleeve 6 is driven to rotate by adopting a mode of matching a motor with gear transmission, so that the rotating stability of the rubber sleeve can be ensured; the crank connecting rod assembly 92 can convert the circular motion into lifting motion, and further can drive the lower pressing rod 93 to do lifting reciprocating motion so as to compact powder materials, so that the operation is simple and convenient; this powder filling machine can realize automatic powder filling and with the process of powder compaction, and then practices thrift manpower resources, solves artifical manual powder filling, and the personnel physical demands that leads to is big, manufacturing cost is high and influence the healthy problem of personnel, can improve powder filling efficiency, reduce intensity of labour, guarantees the quality of product.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent replacements, and improvements made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. An automatic powder loading machine is characterized by comprising an installation rack, a first lifting mechanism arranged on the installation rack, and a lifting bracket connected with the first lifting mechanism; the mounting rack is also provided with a first translation mechanism, a rotating mechanism connected with the first translation mechanism and a rubber sleeve connected with the rotating mechanism and used for loading powder; a core rod is further arranged in the rubber sleeve, and a downward pressing limiting mechanism for tightly pressing and limiting the core rod in the rubber sleeve is further arranged on the first translation mechanism; the lifting bracket is also provided with a powder feeding mechanism and a downward pressing and compacting mechanism; the powder feeding mechanism is used for conveying powder into the rubber sleeve, and the pressing and compacting mechanism is used for compacting the powder in the rubber sleeve.

2. The automatic powder loading machine according to claim 1, wherein the first translation mechanism comprises a first slide rail assembly mounted on the mounting frame, a first translation plate slidably disposed on the first slide rail assembly, and a first translation cylinder mounted on the mounting frame and drivingly connected to the first translation plate; the rotating mechanism is mounted on the first translation plate.

3. The automatic powder loader of claim 2, wherein the rotating mechanism comprises a first rotating motor mounted on the first translating plate, a driving gear coupled to the first rotating motor, a driven gear in meshing engagement with the driving gear, and a rotating bed plate mounted on the driven gear; the rubber sleeve is arranged on the rotating bottom plate.

4. The automatic powder loading machine according to claim 3, wherein the press-down limiting mechanism comprises a press-down bracket mounted on the first translation plate, a press-down cylinder mounted on the press-down bracket, and a press-down thimble arranged above the core bar and connected with the press-down cylinder.

5. The automatic powder loader of claim 1, wherein the powder feeding mechanism comprises a support frame mounted on the lifting bracket, a powder bin disposed on the support frame, and a powder conveying pipe communicated with the powder bin; one end of the powder conveying pipe, which is used for outputting powder, is arranged in the rubber sleeve, and the electromagnetic valve is further installed on the powder conveying pipe.

6. The automatic powder loading machine according to claim 1, wherein the downward pressing and compacting mechanism comprises a downward pressing mounting frame arranged on the lifting bracket, a crank connecting rod assembly mounted on the downward pressing mounting frame, a downward pressing rod connected with the crank connecting rod assembly, and a second rotating motor connected with the crank connecting rod assembly; one end of the lower pressing rod is inserted into the rubber sleeve, and the second rotating motor is used for driving the lower pressing rod to do lifting reciprocating motion through the crank connecting rod assembly.

7. The automatic powder loading machine of claim 6, wherein the crank-link assembly comprises a first rotating rod, a second rotating rod; one end of the first rotating rod is connected with the second rotating motor, and the other end of the first rotating rod is rotatably connected with one end of the second rotating rod; the other end of the second rotating rod is rotatably connected with one end of the lower pressing rod; the lifting bracket is also provided with a first linear bearing, and the lower pressing rod penetrates through the first linear bearing to be arranged.

8. The automatic powder loading machine according to claim 1, wherein the first lifting mechanism comprises a first screw rod assembly mounted on the mounting frame, and a first lifting motor for driving the first screw rod assembly to operate; the lifting bracket is connected with the first screw rod assembly.

9. The automatic powder loading machine according to claim 8, wherein the first lifting mechanism further comprises a plurality of lifting guide rods, and a plurality of second linear bearings are further mounted on the lifting bracket; each lifting guide rod correspondingly penetrates through a second linear bearing.

10. The automatic powder loader of claim 1, wherein the upper portion and the lower portion of the mounting frame are each further provided with a travel limit switch.

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