CN116476439B

CN116476439B - Novel dry-bag type isostatic compaction machine

Info

Publication number: CN116476439B
Application number: CN202310434017.7A
Authority: CN
Inventors: 高绪良; 王良子
Original assignee: Zibo Aoheng Hydraulic Machinery Co ltd
Current assignee: Zibo Aoheng Hydraulic Machinery Co ltd
Priority date: 2023-04-21
Filing date: 2023-04-21
Publication date: 2023-09-29
Anticipated expiration: 2043-04-21
Also published as: CN116476439A

Abstract

The invention discloses a novel dry bag type isostatic pressing machine, and belongs to the technical field of material science. The utility model provides a novel dry pocket type isostatic compaction machine, includes the static pressure machine shell, static pressure machine shell lower extreme is provided with the jacking device, static pressure machine shell upper end is provided with the response closing device, automatic plain bumper is installed to static pressure machine shell inner chamber wall, just static pressure machine shell openly upper right side is connected and is spouted and fill out the device automatically, spout and fill out and install shower nozzle conversion equipment on the device automatically. According to the invention, the automatic filling, sealing and compacting processes are realized by arranging the spray head conversion device, the induction sealing device and the automatic compacting device, so that products facing different filling amount requirements of the equipment can be adaptively met, the processing efficiency is effectively improved, the collection and recycling of waste materials are realized by arranging the spray collecting barrel, and resources are saved.

Description

Novel dry-bag type isostatic compaction machine

Technical Field

The invention relates to the technical field of material science, in particular to a novel dry bag type isostatic pressing machine.

Background

Isostatic presses are forming devices that operate at ultra-high pressures. The isostatic pressing treatment is to place the processed object into one specific mold, then to place the mold with workpiece into a sealed container filled with liquid, to pressurize gradually with pressurizing system, to make the surfaces of the object to be pressed with equal pressure and to form under the limitation of the mold. In the compression process, the distance between the molecules of the actual workpiece is reduced, the density is increased, so that the physical properties of the pressed article are changed, the isostatic pressing machine can be divided into a wet bag type press and a dry bag type press according to whether a forming die is contacted with a medium or not, the isostatic pressing machine is contacted with the medium, the die is wet and commonly called wet bag type, is not contacted with the medium, the die is dry and commonly called dry bag type isostatic pressing machine, the existing dry bag type isostatic pressing machine needs to be subjected to charging, compaction and processing treatment, and in the charging, compaction and sealing stages, some dry bag type isostatic pressing machines also need to be manually operated, so that the efficiency is low, and the packing control for manufacturing finished products of different types is not accurate.

Disclosure of Invention

The invention aims to provide a novel dry bag type isostatic pressing machine, which solves the problems in the background art: the existing dry bag type isostatic pressing machine needs to be subjected to loading, compaction and processing treatment, and some dry bag type isostatic pressing machines in the loading, compaction and sealing stages also need to rely on manual operation, so that the efficiency is low, and the packing control for manufacturing finished products of different types is not accurate enough.

The utility model provides a novel dry pocket type isostatic compaction machine, includes the static press shell, the static press shell lower extreme is provided with the hold-up device, the static press shell upper end is provided with the response closing device, automatic plain bumper is installed to static press shell inner chamber wall, just the positive upper right side of static press shell is connected and is spouted and fill out the device, automatic spout and fill out and install shower nozzle conversion equipment on the device, be provided with four formula revolving stages in the place ahead of static press shell, four formula revolving stages bottom surface connection support post, four formula revolving stages circumference have been offered four and have been met the month type notch, it has placed the feed cylinder to meet on the month type notch, every two are adjacent be provided with between the feed cylinder and spout the material collecting vessel, just four formula revolving stage upper end intermediate position is connected and is adjusted the display instrument;

preferably, the induction sealing device comprises a protection frame arranged at the upper end of a static press shell, an electromagnetic connector is arranged at the top end inside the protection frame, the lower end of the electromagnetic connector is connected with a sealing cover, a strong magnetic ring is arranged on the outer ring of the bottom surface of the sealing cover, an electromagnetic sensing element is arranged on the inner ring of the bottom surface of the sealing cover, and an electromagnetic sensor is arranged on the electromagnetic connector;

preferably, the lifting device comprises a magnetic attraction tray arranged at the bottom end of the static press shell, the magnetic attraction tray is connected to a sliding block, the sliding block is connected with one end of a movable sliding rod in a penetrating mode, and the other end of the movable sliding rod is connected with a pneumatic pump.

Preferably, the automatic filling device comprises an air pressure spraying box, one end of a spraying pipe is connected to the front surface of the air pressure spraying box, the other end of the spraying pipe is connected to the front end of the supporting plate in a penetrating mode, the tail end of the supporting plate is connected with a motor box, a gear box is arranged above the supporting plate, and the motor box is installed at the front end of the connecting plate.

Preferably, the spray head conversion device comprises a servo motor arranged on the motor box and a ring gear arranged in the gear box, wherein the servo motor is connected with one end of the ring gear, the other end of the ring gear is connected with a telescopic rod, the upper end of the telescopic rod is connected with a wire, and the other end of the wire is connected with the motor box.

Preferably, the bottom end of the telescopic rod is connected with a triangular rotating plate, a connecting pipe is arranged at the triangular position of the upper end of the triangular rotating plate, and spray heads with different sizes are arranged at the triangular position of the lower end of the triangular rotating plate.

Preferably, the rear end of the pneumatic pump is provided with a moving block, the moving block is connected with two threaded rods in a penetrating manner, the lower end of each threaded rod is provided with a rotary gear, the rotary gears are connected with a conical gear, and the conical gears are arranged on a driving motor.

Preferably, the automatic compaction device comprises a fixing frame arranged in the inner cavity of the shell of the static press, a vibration motor is arranged on the fixing frame, and a vibration block is connected to the vibration motor.

Compared with the prior art, the invention has the advantages that:

1) According to the invention, the spray head conversion device is arranged, the spray heads with corresponding calibers are selected according to the sizes of different spraying amounts through automatic rotation of the triangular rotating plates, after the spray heads are determined, the motor box is used for providing power, the motor box is connected to the electric telescopic rod through the lead, the triangular rotating plates connected with the lower ends of the telescopic rod are lifted, the spraying pipe is connected with the determined spray heads, at the moment, the pneumatic spraying box works to spray powder materials in the box into the material cylinder through the spraying pipe connected with the spray heads through gas pressurization, and the product facing different filling amount requirements of the equipment can be met.

2) According to the invention, the automatic compaction device with the vibrating motor is arranged, so that the compaction treatment is carried out on the charging barrel in a sealed state before the static compaction treatment, the automation of the compaction process is realized, the processing efficiency is effectively improved, the manual compaction time is saved, and the labor cost is saved.

3) According to the invention, the spraying collecting barrel is arranged, the spraying collecting barrel stops again after passing through the spray head conversion device, and the pneumatic spraying box works to spray the residual powder in the spray head into the spraying collecting barrel, so that the waste collection and recycling are completed, and the resources are saved.

4) According to the invention, by arranging the induction sealing device with electromagnetic induction, when the magnetic suction tray ascends and the charging barrel contacts with the sealing cover of the induction sealing device, the strong magnetic ring arranged on the outer ring of the bottom surface of the sealing cover can attract the magnetic ring arranged on the top of the charging barrel, the top of the charging barrel can contact with the electromagnetic sensing element arranged on the inner ring of the bottom surface of the sealing cover, signals are transmitted to the electromagnetic sensor, the electromagnetic sensor receives signals to disconnect the electromagnetic connector from the bottom of the charging barrel, and the electromagnetic connector connecting rod can be retracted, so that the automatic cover-mounting sealing of the charging barrel is completed, the filling time of the dry bag type isostatic pressing machine is effectively shortened, the working efficiency of filling is increased, and the automatic treatment is realized.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the automatic filling device of the present invention;

FIG. 3 is an enlarged schematic view of a nozzle switching device according to the present invention;

FIG. 4 is an enlarged schematic view of the induction sealing device of the present invention;

fig. 5 is an enlarged schematic view of the structure of the lifting device of the present invention.

The reference numerals in the figures illustrate: 1. a hydrostatic machine housing; 2. a support column; 3. a four-type turntable; 4. an automatic spraying and filling device; 401. a pneumatic spraying box; 402. a spraying pipe; 403. a support plate; 404. a connecting plate; 405. a motor box; 406. a gear box; 5. sensing a sealing device; 501. a protective frame; 502. an electromagnetic connector; 503. sealing cover; 504. a strong magnetic ring; 505. an electromagnetic sensing element; 506. an electromagnetic sensor; 6. a lifting device; 601. a magnetic tray; 602. a slide block; 603. moving the slide bar; 604. a pneumatic pump; 605. a driving motor; 606. a bevel gear; 607. a rotary gear; 608. a threaded rod; 609. a moving block; 7. a charging barrel; 8. a spray collecting barrel; 9. adjusting a display instrument; 10. an automatic compaction device; 1001. a fixing frame; 1002. a vibration motor; 1003. a vibrating block; 11. a nozzle switching device; 1101. a servo motor; 1102. a ring gear; 1103. a wire; 1104. a telescopic rod; 1105. a triangular rotating plate; 1106. a connecting pipe; 1107. a spray head; 12. convex moon-shaped notch.

Detailed Description

Examples: referring to fig. 1-5, a novel dry bag type isostatic pressing forming machine comprises a static press shell 1, a supporting device 6 is arranged at the lower end of the static press shell 1, an induction sealing device 5 is arranged at the upper end of the static press shell 1, an automatic compaction device 10 is arranged on the inner cavity wall of the static press shell 1, an automatic filling device 4 is connected to the right upper side of the front of the static press shell 1, a spray head conversion device 11 is arranged on the automatic filling device 4, a four-type rotary table 3 is arranged right in front of the static press shell 1, a supporting upright post 2 is connected to the bottom surface of the four-type rotary table 3, four filling and protruding-month-shaped notches 12 are formed in the circumference of the four-type rotary table 3, a material barrel 7 is arranged on each two adjacent material barrels 7, an adjusting display instrument 9 is connected to the middle position of the upper end of the four-type rotary table 3, and a working motor is arranged in the supporting upright post 2, and the working motor is connected to drive the four-type rotary table 3 to rotate, and the material barrel 8 plays a role of collecting the spray head conversion device 11 for recycling.

The automatic filling device 4 comprises an air pressure spraying box 401, one end of a spraying pipe 402 is connected to the front face of the air pressure spraying box 401, the other end of the spraying pipe 402 is connected to the front end of a supporting plate 403 in a penetrating mode, the tail end of the supporting plate 403 is connected with a motor box 405, a gear box 406 is arranged above the supporting plate 403, and the motor box 405 is installed at the front end of a connecting plate 404.

The nozzle switching device 11 comprises a servo motor 1101 arranged on a motor box 405 and a ring gear 1102 arranged in a gear box 406, wherein the servo motor 1101 is connected with one end of the ring gear 1102, the other end of the ring gear 1102 is connected with a telescopic rod 1104, the upper end of the telescopic rod 1104 is connected with a wire 1103, the other end of the wire 1103 is connected with the motor box 405, the bottom end of the telescopic rod 1104 is connected with a triangular rotating plate 1105, a connecting pipe 1106 is arranged at the triangular position of the upper end of the triangular rotating plate 1105, and nozzles 1107 with different sizes are arranged at the triangular position of the lower end of the triangular rotating plate 1105.

Specifically, a working motor installed in the supporting upright post 2 is started, the working motor drives the four rotary tables 3 to rotate, the spray nozzles 1107 with corresponding apertures are stably placed in four convex month type notches 12 of the four rotary tables 3, the rotary feed cylinders 7 are rotated along with the four rotary tables 3 and stopped by the spray nozzle conversion device 11, the corresponding spray nozzle conversion device 11 controls the ring gear 1102 in the gear box 406 to work and rotate through the servo motor 1101, the triangular rotary plate 1105 connected with the telescopic rod 1104 is driven to rotate, (and each rotation angle of the triangular rotary plate 1105 is set at 120 degrees, a connecting pipe 1106 arranged at the triangular position of the upper end of the triangular rotary plate 1105 is aligned with the spray pipe 402 penetrating through the front end of the supporting plate 403 in the same line in order to keep the size of different spray materials, after the spray nozzles are determined, the motor box 405 is used for providing power, the spray nozzles are connected to the electric telescopic rod 1104 through a wire, the triangular rotary plate 1107 connected with the lower end of the telescopic rod 1104 is lifted, the spray pipe 402 is connected with the determined spray nozzles 1107 through the servo motor 1101, the pressurized spray pipe 401 is used for continuously rotating the spray nozzles 401 in the four spray nozzles, the powder material is continuously collected in the spray nozzle box 401, and the powder material is continuously sprayed into the spray nozzle box 11 through the spray nozzle box after the powder material is continuously connected with the spray nozzle 7, and the powder material is continuously collected by the spray pipe is continuously subjected to the rotary plate 8, and the powder material is collected by the spray material is collected by the rotary material in the spray mode, and the powder material is collected by the spray. The multi-caliber selection of the spray head 1107 is provided, so that products facing different filling amount requirements can be met adaptively, and the spray collecting barrel 8 is arranged for collecting and recycling residual materials in the spray head 1107, so that resources are saved.

The supporting device 6 comprises a magnetic attraction tray 601 arranged at the bottom end of the static press shell 1, the magnetic attraction tray 601 is connected to a sliding block 602, the sliding block 602 is connected with one end of a movable sliding rod 603 in a penetrating mode, the other end of the movable sliding rod 603 is connected with a pneumatic pump 604, a movable block 609 is arranged at the rear end of the pneumatic pump 604, the movable block 609 is connected with two threaded rods 608 in a penetrating mode, a rotary gear 607 is arranged at the lower end of each threaded rod 608, the rotary gear 607 is connected with a bevel gear 606, and the bevel gear 606 is arranged on a driving motor 605.

The induction sealing device 5 comprises a protection frame 501 arranged at the upper end of the static press shell 1, an electromagnetic connector 502 is arranged at the top end inside the protection frame 501, the lower end of the electromagnetic connector 502 is connected with a sealing cover 503, a powerful magnetic ring 504 is arranged on the outer ring of the bottom surface of the sealing cover 503, an electromagnetic sensing element 505 is arranged on the inner ring of the bottom surface of the sealing cover 503, and an electromagnetic sensor 506 is arranged on the electromagnetic connector 502.

Specifically, when the four-type turntable 3 rotates, the feed cylinder 7 rotates and passes through the spray head conversion device 11 and then goes above the magnetic suction tray 601 of the supporting device 6, then the driving motor 605 works to drive the bevel gear 606 to rotate, the bevel gear 606 rotates and drives the rotating gear 607 to rotate, the threaded rod 608 rotates, so that the sliding block 602 connected with the moving block 609 and the magnetic suction tray 601 move upwards along the inner cavity sliding groove of the static pressure machine shell 1, when the magnetic suction tray 601 ascends and contacts the feed cylinder 7 placed in the convex-moon-shaped notch 12, the magnetic suction tray 601 is in adsorptive connection with the bottom of the feed cylinder 7, then the magnetic suction tray 601 continues to ascend and moves up with the feed cylinder 7 until the magnetic suction tray is tightly attached to the sealing cover 503 of the induction sealing device 5, at this moment, the outer ring of the bottom of the sealing cover 503 is provided with the powerful magnetic ring 504 to attract the magnetic ring arranged on the top of the feed cylinder 7, and the top of the feed cylinder 7 contacts the electromagnetic sensor 505 arranged on the inner ring of the sealing cover 503, signals are transmitted to the electromagnetic sensor 506, and the electromagnetic sensor 506 receives signals, so that the electromagnetic connector 502 and the bottom of the feed cylinder 7 is disconnected, the electromagnetic sensor 502 is automatically connected, the static pressure machine is automatically sealed, and the static pressure sealing efficiency is improved, and the static pressure sealing efficiency is automatically is improved, and the static pressure is achieved, and the time is automatically, and the static pressure is automatically, and the sealing efficiency is automatically and the sealing time and the sealing machine is automatically and the sealing machine.

The automatic compaction device 10 comprises a fixing frame 1001 arranged in the inner cavity of the static press shell 1, a vibration motor 1002 is arranged on the fixing frame 1001, and a vibration block 1003 is connected to the vibration motor 1002.

Specifically, after the charging barrel 7 is in adsorption connection with the sealing cover 503 and is disconnected with the electromagnetic connector 502, the pneumatic pump 604 works to enable the sliding block 602 to move into the inner cavity of the static press shell 1 along the moving sliding rod 603, the charging barrel 7 stays at a position, the wall of the charging barrel 7 just contacts with the vibration block 1003 of the automatic compaction device 10, at the moment, the vibration motor 1002 of the automatic compaction device 10 mounted on the inner cavity wall of the static press shell 1 works to vibrate and drives the vibration block 1003 to vibrate at the same frequency, so that filling materials in the charging barrel 7 are uniformly distributed through vibration, and after the compaction work is finished, the static press at the top of the inner cavity of the static press shell 1 descends to carry out static press forming treatment on the charging barrel 7. By arranging the automatic compaction device 10 with the vibrating motor 1002, the compaction treatment is carried out on the charging barrel 7 in a sealed state before the static pressure forming treatment, the automation of the whole processes of filling, sealing and compaction is realized, the processing efficiency is effectively improved, the time of manual filling, sealing and compaction is saved, and the labor cost is saved.

The working principle of the invention is as follows:

starting a working motor installed in the support upright 2, the working motor driving the four rotary tables 3 to rotate, stably placing the charging barrel 7 in four convex moon-shaped notches 12 of the four rotary tables 3, rotating the charging barrel 7 along with the rotation of the four rotary tables 3 and stopping through the nozzle switching device 11, controlling the ring gear 1102 in the gear box 406 to work and rotate by the corresponding nozzle switching device 11 through the servo motor 1101, driving the triangle rotary plate 1105 connected with the telescopic rod 1104 to rotate, (and setting each rotation angle of the triangle rotary plate 1105 at 120 DEG, in order to keep the connecting pipe 1106 arranged at the triangle of the upper end of the triangle rotary plate 1105 aligned with the spraying pipe 402 penetrating the front end of the support plate 403 in the same line), and rotating the nozzle 1107 with the corresponding caliber according to the size of different spraying amounts, after the nozzle 1107 is determined, providing power by the motor box 405, the pneumatic spray box 401 works to utilize gas pressurization to connect powdery material in the box with the spray nozzle 1107 through the spray pipe 402 to spray powder into the feed cylinder 7, then the four-type rotary table 3 continues to rotate, the material collecting barrel 8 to be sprayed stops again through the spray nozzle conversion device 11, the pneumatic spray box 401 works to spray residual powder in the spray nozzle 1107 into the material collecting barrel 8 to finish waste collection, when the four-type rotary table 3 rotates, the feed cylinder 7 rotates and passes through the spray nozzle conversion device 11 to come to the position above the magnetic suction tray 601 of the supporting device 6, then the driving motor 605 drives the conical gear 606 to rotate, the conical gear 606 rotates and drives the rotating gear 607 to rotate, the threaded rod 608 rotates, so that the sliding block 602 connected with the moving block 609 and the magnetic attraction tray 601 move upwards along the inner cavity sliding groove of the hydrostatic machine shell 1, when the magnetic attraction tray 601 rises to contact the charging barrel 7 placed in the convex moon-shaped notch 12, the magnetic attraction tray 601 is in adsorption connection with the bottom of the charging barrel 7, then the magnetic attraction tray 601 continues to rise to move upwards with the charging barrel 7 until the magnetic attraction tray is tightly attached to the sealing cover 503 of the induction sealing device 5, at the moment, the strong magnetic ring 504 is arranged on the outer ring of the bottom surface of the sealing cover 503 and is attracted with the magnetic ring arranged on the top of the charging barrel 7, the top of the charging barrel 7 contacts the electromagnetic sensing element 505 arranged on the inner ring of the bottom surface of the sealing cover 503, signals are transmitted to the electromagnetic sensor 506, the electromagnetic sensor 506 receives the signals to disconnect the electromagnetic connector 502 from the bottom of the charging barrel 7, and the electromagnetic connector 502 connecting rod is retracted, thereby completing automatic capping and sealing of the charging barrel 7, finally, after the charging barrel 7 is in adsorption connection with the sealing cover 503 and is disconnected with the electromagnetic connector 502, the pneumatic pump 604 works to enable the sliding block 602 to move into the inner cavity of the static press shell 1 along the movable sliding rod 603, the charging barrel 7 stays at the position, the wall of the charging barrel 7 just contacts with the vibrating block 1003 of the automatic compaction device 10, at the moment, the vibrating motor 1002 of the automatic compaction device 10 arranged on the inner cavity wall of the static press shell 1 works to vibrate and drives the vibrating block 1003 to vibrate at the same frequency, so that filling materials in the charging barrel 7 are uniformly distributed through vibration, after the compaction work is finished, the static press arranged at the top of the inner cavity of the static press shell 1 descends to carry out static pressure forming treatment on the charging barrel 7, then the treated charging barrel 7 works again through the pneumatic pump 604 to enable the sliding block 602 to move out of the inner cavity of the static press shell 1 along the movable sliding rod 603, and the electromagnetic connector 502 is connected with the sealing cover 503 at the top of the charging barrel 7 through electromagnetic attraction in a descending manner, then the driving motor 605 works, the magnetic attraction tray 601 descends and returns to the convex-moon-shaped notch 12 of the four-type rotary table 3 with the charging barrel 7, the worker takes the charging barrel 7 out, and the finished product is taken out, namely, the one-time dry bag type isostatic pressing treatment is completed completely.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a novel dry pocket type isostatic compaction machine, includes static press shell (1), its characterized in that: the automatic spraying and filling device is characterized in that a supporting device (6) is arranged at the lower end of the static pressure machine shell (1), an induction sealing device (5) is arranged at the upper end of the static pressure machine shell (1), an automatic compaction device (10) is arranged on the inner cavity wall of the static pressure machine shell (1), an automatic spraying and filling device (4) is connected to the right upper side of the front of the static pressure machine shell (1), a spray head conversion device (11) is arranged on the automatic spraying and filling device (4), a four-type rotary table (3) is arranged right in front of the static pressure machine shell (1), a supporting upright post (2) is connected to the bottom surface of the four-type rotary table (3), four convex-moon-shaped notches (12) are circumferentially formed in the four-type rotary table (3), a material barrel (7) is arranged on each two adjacent material barrels (7), and a spraying and collecting barrel (8) is arranged between each two adjacent material barrels (7), and an adjusting display instrument (9) is connected to the middle position of the upper end of the four-type rotary table (3).

The induction sealing device (5) comprises a protection frame (501) arranged at the upper end of a static press shell (1), an electromagnetic connector (502) is arranged at the top end inside the protection frame (501), the lower end of the electromagnetic connector (502) is connected with a sealing cover (503), a powerful magnetic ring (504) is arranged on the outer ring of the bottom surface of the sealing cover (503), an electromagnetic sensing element (505) is arranged on the inner ring of the bottom surface of the sealing cover (503), and an electromagnetic sensor (506) is arranged on the electromagnetic connector (502);

the supporting device (6) comprises a magnetic suction tray (601) arranged at the bottom end of the static press shell (1), the magnetic suction tray (601) is connected to a sliding block (602), the sliding block (602) is connected with one end of a movable sliding rod (603) in a penetrating mode, and the other end of the movable sliding rod (603) is connected with a pneumatic pump (604).

2. The novel dry bag type isostatic pressing machine as claimed in claim 1, wherein: the automatic spraying and filling device (4) comprises an air pressure spraying box (401), one end of a spraying pipe (402) is connected to the front side of the air pressure spraying box (401), the other end of the spraying pipe (402) is connected to the front end of a supporting plate (403) in a penetrating mode, the tail end of the supporting plate (403) is connected with a motor box (405), a gear box (406) is arranged above the supporting plate (403), and the motor box (405) is installed at the front end of a connecting plate (404).

3. The novel dry bag type isostatic pressing machine as claimed in claim 1, wherein: the spray head conversion device (11) comprises a servo motor (1101) arranged on a motor box (405) and a ring gear (1102) arranged in a gear box (406), wherein the servo motor (1101) is connected with one end of the ring gear (1102), the other end of the ring gear (1102) is connected with a telescopic rod (1104), the upper end of the telescopic rod (1104) is connected with a wire (1103), and the other end of the wire (1103) is connected with the motor box (405).

4. A novel dry pocket isostatic pressing machine as defined in claim 3, wherein: the bottom end of the telescopic rod (1104) is connected with a triangular rotating plate (1105), a connecting pipe (1106) is arranged at the triangular position of the upper end of the triangular rotating plate (1105), and spray heads (1107) with different sizes are arranged at the triangular position of the lower end of the triangular rotating plate (1105).

5. The novel dry bag type isostatic pressing machine as claimed in claim 1, wherein: the pneumatic pump (604) rear end is provided with movable block (609), just movable block (609) through-connection has two threaded rods (608), threaded rod (608) lower extreme sets up rotary gear (607), conical gear (606) are connected to rotary gear (607), conical gear (606) set up on driving motor (605).

6. The novel dry bag type isostatic pressing machine as claimed in claim 1, wherein: the automatic compaction device (10) comprises a fixing frame (1001) arranged in the inner cavity of the static press shell (1), a vibrating motor (1002) is arranged on the fixing frame (1001), and a vibrating block (1003) is connected to the vibrating motor (1002).