CN113955699A - Sealing machine component of filling machine - Google Patents

Abstract

The invention discloses a sealing machine component of a filling machine, which comprises an input pipe, an output pipe, a piston pipe, a backflushing assembly and an aerodynamic assembly, wherein the top and the bottom of the input pipe are respectively provided with the piston pipe and the output pipe; the recoil component comprises a recoil pipe, a recoil cover, a piston rod, a piston block, a plugging block and a rubber sheet, wherein the input pipe is embedded with a plurality of recoil pipes, the bottom of the recoil pipe penetrates through the output pipe and extends to the inside of the recoil cover, the piston rod penetrates through the middle of the piston pipe in a movable manner, and the piston block is arranged in the middle of the piston rod. The recoil pipe and the recoil cover form recoil at the bottom of the blocking block, so that the pressure of fluid acts on the bottom of the blocking block to counteract the downward pressure of the fluid on the top of the blocking block, the fluid impacts the bottom of the blocking block after the blocking block moves upwards to provide power for the upward movement of the blocking block, and the recoil pipe and the recoil cover are matched to ensure that the blocking block moves in a labor-saving manner.

Description

Sealing machine component of filling machine

Technical Field

The invention relates to the technical field of filling machines, in particular to a sealing machine component of a filling machine.

Background

The output part of the filling machine controls the flow of the fluid through a valve, can quantitatively output the fluid to be filled into a packaging bottle, realizes the control of the flow through a blocking block moving up and down in the output part, controls the blocking block to move up and down through hydraulic pressure or air power, and realizes the quantitative output of the fluid through controlling the output time;

at present, when an output part of a filling machine is opened, a blocking block moves upwards to form a gap with a pipe wall, fluid flows through the gap between the blocking block and the pipe wall, and because the bottom of the blocking block does not have the pressure of the fluid, huge suction force is generated when the fluid flows through the gap between the blocking block and the pipe wall to enable the blocking block to move downwards, so that the following problems exist;

1. at the moment when the plugging block moves upwards to form a gap with the pipe wall, the fluid of the fluid can generate huge suction force, so that the plugging block needs huge force to move upwards, the plugging block is difficult to move upwards, and the fluid is inconvenient to control;

2. due to the generation of huge suction force, the outer edge of the blocking block can be subjected to huge impact force of fluid, the fluid quickly abrades the outer edge of the blocking block, so that the sealing property between the blocking block and the pipe wall is reduced, and the service life of the blocking block is short;

3. the blocking block is generally controlled by a timer and a central processing unit to move downwards, so that the fluid is cut off at regular time, the quantitative output of the fluid is realized, an output component does not have the function of quantitative output, the function is single, and the use is extremely inconvenient.

Disclosure of Invention

The invention aims to solve the problems that in the prior art, a piston block is difficult to move upwards, fluid is inconvenient to control, the fluid quickly abrades the outer edge of the piston block and does not have a quantitative output function, and therefore a sealing machine component of a filling machine is provided.

In order to achieve the purpose, the invention adopts the following technical scheme: a sealing machine component of a filling machine comprises an input pipe, an output pipe, a piston pipe, a backflushing assembly and an aerodynamic assembly, wherein the piston pipe and the output pipe are respectively arranged at the top and the bottom of the input pipe; the recoil component comprises a recoil pipe, a recoil cover, a piston rod, a piston block, a blocking block and a rubber sheet, wherein the plurality of recoil pipes are embedded in the input pipe, the bottom of the recoil pipe penetrates through the output pipe and extends to the inside of the recoil cover, the piston rod penetrates through the middle of the piston pipe in a movable manner, the piston block is arranged in the middle of the piston rod, the blocking block which is conical surface shaped up and down is fixed at the bottom of the piston rod, and the rubber sheet is attached to the bottom of the blocking block in a matched manner.

Further preferably, the aerodynamic force subassembly includes a pressure boost section of thick bamboo, lower piston, go up piston, screw ring, regulation pole, pneumatic tube and coupling hose, and the top of input tube is fixed with upper and lower open-ended pressure boost section of thick bamboo through branch, and the inner wall of pressure boost section of thick bamboo slides and is provided with lower piston and last piston, and the inner wall of pressure boost section of thick bamboo still is fixed with the screw ring through branch, and the middle screw thread of screw ring runs through there is the regulation pole, and the side embedding of pressure boost section of thick bamboo is provided with pneumatic tube, and the pot head of pneumatic tube is equipped with coupling hose.

Preferably, the lower piston is fixed to the top of the piston rod, the upper piston is fixed to the bottom of the adjusting rod, and three rubber rings are embedded around the peripheries of the lower piston and the upper piston.

Preferably, the pneumatic tube is provided with a primary ring and a secondary ring integrally formed on the outer surface of one end, the connection hose is sleeved on the peripheries of the primary ring and the secondary ring, and the connection hose and the pneumatic tube are fixed through the hoop ring.

Preferably, the front surface of the adjusting rod is provided with a plane section, the plane section is provided with scale marks, and one end of the pneumatic tube is positioned between the lower piston and the upper piston.

Preferably, the bottom of the pressurizing cylinder is sleeved with the top of the piston pipe, the lower piston is positioned below the upper piston, and the rubber ring is matched with the inner wall of the pressurizing cylinder.

Preferably, the top of the piston tube is a piston part which is communicated up and down, the piston rod is matched with the middle of the piston part, the piston block is matched with a groove formed at the bottom of the piston tube, and the top and the bottom of the piston block are conical surfaces.

Preferably, the sealing part of the top sealing part of the recoil cover is closely attached to the rubber sheet at the bottom of the blocking block, and the sealing part is matched with the conical surface-shaped rubber sheet.

Preferably, the bottom of the blocking block is matched with the inner wall of the output pipe, the backflushing cover is conical, and the included angle between the bottom of the backflushing cover and the horizontal plane is larger than that between the rubber sheet and the horizontal plane.

Preferably, the backflushing pipe is arranged around the bottom of the backflushing cover in a cross mode, the blocking block is located right above the backflushing cover, and the diameter of the periphery of the blocking block is smaller than the diameter of an inner ring at the top of the output pipe and larger than the diameter of an inner ring at the bottom of the delivery pipe.

The invention has the beneficial effects that:

1. the backflushing pipe and the backflushing cover form backflushing at the bottom of the blocking block, so that the pressure of the fluid acts on the bottom of the blocking block to counteract the downward pressure of the fluid on the top of the blocking block, the fluid impacts the bottom of the blocking block after the blocking block moves upwards to provide power for the upward movement of the blocking block, and the backflushing pipe and the backflushing cover are matched to enable the blocking block to move in a labor-saving manner;

2. when a gap is formed between the upward moving of the blocking block and the pipe wall of the output pipe, fluid flows along the bottom of the blocking block through the backflushing cover, and convection impact is formed between the blocking block and the pipe wall of the pipe, so that the flow velocity of the fluid at the moment when the blocking block moves upward is greatly reduced, the abrasion of the fluid to the outer edge of the blocking block can be reduced, the service life of the blocking block is prolonged, the suction force generated when the fluid flows can be reduced, and the blocking block can move more labor-saving;

3. the piston block is tightly attached to a groove formed in the bottom of the piston pipe, the pressure of fluid acts on the bottom of the piston block, the piston block is externally connected with a filling machine through a connecting hose, the filling machine continuously injects air into a lower piston and an upper piston in a pressurizing cylinder through an air pump, the increase of air pressure is in direct proportion to time, when the pressure of the air is greater than the pressure of the piston block to which the fluid is applied, the piston block, a blocking block and a piston rod move downwards, the blocking block blocks the flow of the fluid, the flow is closed at regular time, the purpose of quantitatively outputting the fluid is achieved, and the quantitative output device is very convenient to use.

Drawings

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

FIG. 2 is a schematic view of the overall use of the present invention;

FIG. 3 is a schematic structural diagram of a piston rod according to the present invention;

FIG. 4 is a schematic structural view of a recoil cover of the present invention;

FIG. 5 is a schematic view of the construction of the lower piston of the present invention;

FIG. 6 is a schematic view of the structure of the adjusting lever of the present invention;

FIG. 7 is a schematic view of the structure of the pneumatic tube of the present invention;

FIG. 8 is an enlarged schematic view of the pneumatic tube of the present invention;

fig. 9 is an enlarged view of the invention at a in fig. 2.

In the figure: the device comprises an input pipe 1, an output pipe 2, a piston pipe 3, a pressurizing cylinder 4, a backflushing pipe 5, a backflushing cover 6, a piston rod 7, a piston block 8, a blocking block 9, a piston part 10, a rubber sheet 11, a lower piston 12, an upper piston 13, a rubber ring 14, a threaded ring 15, an adjusting rod 16, a plain section 17, a pneumatic pipe 18, a connecting hose 19, a primary ring 20, a secondary ring 21, a hoop ring 22 and a sealing part 23.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-9, a sealing machine component of a filling machine comprises an input pipe 1, an output pipe 2, a piston pipe 3, a recoil assembly and an aerodynamic assembly, wherein the piston pipe 3 and the output pipe 2 are respectively arranged at the top and the bottom of the input pipe 1, the aerodynamic assembly is fixed at the top of the input pipe 1 through a support rod, and the recoil assembly is arranged at the bottom of the input pipe 1; the recoil component comprises a recoil pipe 5, a recoil cover 6, a piston rod 7, a piston block 8, a blocking block 9 and a rubber sheet 11, the input pipe 1 is embedded with a plurality of recoil pipes 5, the bottom of the recoil pipe 5 penetrates through the output pipe 2 and extends to the inside of the recoil cover 6, the piston rod 7 penetrates through the middle of the piston pipe 3 in a movable manner, the piston block 8 is arranged in the middle of the piston rod 7, the blocking block 9 which is in a conical surface shape is fixed at the bottom of the piston rod 7, and the rubber sheet 11 is attached to the bottom of the blocking block 9 in a matched manner.

Preferably, the top of the piston tube 3 is a piston part 10 which is communicated up and down, the middle of the piston rod 7 and the piston part 10 is matched, the groove formed at the bottom of the piston block 8 and the piston tube 3 is matched, the top and the bottom of the piston block 8 are both conical surfaces, the piston rod 7 moves in the piston part 10, the height of the piston part 10 can increase the contact area, so that the sealing performance between the piston part 10 and the piston rod 7 is better, and the fluid leakage is prevented.

Preferably, the top sealing part 23 of the recoil cover 6, the sealing part 23 is tightly attached to the rubber sheet 11 at the bottom of the blocking block 9, the sealing part 23 is matched with the conical rubber sheet 11, the sealing part 23 is sealed with the rubber sheet 11 at the bottom of the blocking block 9, the inside of the recoil cover 6 is communicated with the fluid inside the input pipe 1, so that the pressure of the fluid acts on the bottom of the blocking block 9 to counteract the downward pressure of the fluid on the top of the blocking block 9, the fluid impacts the bottom of the blocking block 9 after the blocking block 9 moves upwards to provide power for the upward movement of the blocking block 9, and the two parts are matched to enable the blocking block 9 to move in a labor-saving manner.

Preferably, the bottom of the blocking block 9 is matched with the inner wall of the output pipe 2, the backflushing cover 6 is conical, the included angle between the bottom of the backflushing cover 6 and the horizontal plane is larger than the included angle between the rubber sheet 11 and the horizontal plane, the rubber sheet 11 at the bottom of the blocking block 9 can increase the sealing performance between the blocking block 9 and the inner wall of the output pipe 2, and fluid is prevented from leaking.

Preferably, the backflushing pipes 5 are arranged in a cross manner and surround the bottom of the backflushing cover 6, the blocking block 9 is positioned right above the backflushing cover 6, the diameter of the periphery of the blocking block 9 is smaller than that of an inner ring at the top of the output pipe 2 and larger than that of the inner ring at the bottom of the conveying pipe 2, and the backflushing pipes 5 communicate the inside of the backflushing cover 6 with the inside of the input pipe 1, so that the pressure action of fluid and the bottom of the blocking block 9 are realized.

In this embodiment, the aerodynamic force component includes a pressure increasing cylinder 4, a lower piston 12, an upper piston 13, a threaded ring 15, an adjusting rod 16, a pneumatic pipe 18 and a connecting hose 19, the top of the input pipe 1 is fixed with the pressure increasing cylinder 4 with an upper opening and a lower opening through a supporting rod, the inner wall of the pressure increasing cylinder 4 is provided with the lower piston 12 and the upper piston 13 in a sliding manner, the inner wall of the pressure increasing cylinder 4 is further fixed with the threaded ring 15 through a supporting rod, the adjusting rod 16 penetrates through the middle thread of the threaded ring 15, the pneumatic pipe 18 is embedded into the side surface of the pressure increasing cylinder 4, and one end of the pneumatic pipe 18 is sleeved with the connecting hose 19.

Preferably, the lower piston 12 is fixed to the top of the piston rod 7, the upper piston 13 is fixed to the bottom of the adjusting rod 16, three rubber rings 14 are embedded around the peripheries of the lower piston 12 and the upper piston 13, and the rubber rings 14 can increase the sealing performance between the lower piston 12 and the inner wall of the pressurizing cylinder 4 and between the lower piston 12 and the inner wall of the pressurizing cylinder 4, so that the lower piston 12 is pushed to move downwards by the pressure of air.

Preferably, a primary ring 20 and a secondary ring 21 are integrally formed on the outer surface of one end of the pneumatic tube 18, the connecting hose 19 is sleeved on the peripheries of the primary ring 20 and the secondary ring 21, the connecting hose 19 and the pneumatic tube 18 are fixed through a hoop 22, and the primary ring 20 and the secondary ring 21 can increase the seal between the pneumatic tube 18 and the connecting hose 19, so that the pneumatic tube 18 and the connecting hose 19 are completely connected, and the pressurizing cylinder 4 is ensured to be externally connected with an air pump through the pneumatic tube 18 and the connecting hose 19.

Preferably, the front surface of the adjusting rod 16 is provided with a flat section 17, the flat section 17 is provided with a scale line, one end of the pneumatic tube 18 is positioned between the lower piston 12 and the upper piston 13, the scale of the flat section 17 can observe the position of the adjusting rod 16 moving up and down, so as to determine the position of the upper piston 13 inside the pressurizing cylinder 4, the speed of air pressurizing pressure is adjusted by adjusting the distance between the upper piston 13 and the lower piston 12, so as to control the time of the downward movement of the plugging block 9, and thus, the quality of the output fluid can be accurately controlled.

Preferably, the bottom of the pressurizing cylinder 4 is sleeved with the top of the piston tube 3, the lower piston 12 is positioned below the upper piston 13, and the rubber ring 14 is matched with the inner wall of the pressurizing cylinder 4;

during specific implementation, the adjusting rod 16 is rotated for a circle to move upwards for a certain distance, the downward movement distance of the adjusting rod 16 is obtained by observing scales, then the air pump continuously and stably injects air into the air pressurizing cylinder 4, the air pressure in the air pressurizing cylinder 4 is in direct proportion with time, the time interval of the downward movement of the blocking block 9 is tested, the quality of fluid flowing out of the output pipe 2 is measured through the interval time, the rotating circle of the adjusting rod 16 is measured, the increment of the fluid is output, and then the quality of the fluid output is controlled through the number of circles of the rotating adjusting rod 16.

In the invention, during installation, the input pipe 1 is installed on a filling machine, one end of the connecting hose 19 is fixed on the pneumatic pipe 18 through the hoop 22, and the other end of the connecting hose 19 is connected on the filling machine;

when the filling machine is used, the filling bottle is positioned right below the output tube 2, fluid in the filling machine is tightly attached to the input tube 1, the output tube 2, the backflushing tube 5 and the backflushing cover 6, the pressure of the fluid acts on the bottom of the blocking block 9, the blocking block 9 blocks the interior of the output tube 2 and the top of the backflushing cover 6, as shown in the attached figure 1 of the specification, the filling machine generates negative pressure through an air pump to evacuate air in the pressure cylinder 4, the air pump continuously injects the air to enable the lower piston 12, the piston rod 7, the piston block 8 and the blocking block 9 to synchronously move upwards, a gap is formed between the blocking block 9 and the output tube 2, the fluid enters the filling bottle from the output tube 2, then the air pump continuously injects the air into the pressure cylinder 4, the air pump continuously injects the air into the space between the lower piston 12 and the upper piston 13 in the pressure cylinder 4, the increase of the air pressure is in direct proportion to time, when the pressure of the air is greater than the pressure of the bottom of the piston block 8 of the fluid pair, the piston block 8, the blocking block 9, the piston rod 7 and the lower piston 12 synchronously move downwards, the blocking block 9 blocks the flow of fluid, as shown in the attached figure 2 in the specification, the automatic stopping of the fluid is realized, the piston block 8 moves downwards, the top of the piston block 8 and the inner wall of the piston pipe 3 form a gap, the pressure of the fluid above and below the piston block 8 is consistent, the pressure of the fluid on the piston block 8 disappears, and the time for blocking the fluid by rotating the adjusting rod 17 can be used for blocking the fluid by the blocking block 9.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. The utility model provides a capper part of liquid filling machine, includes input tube (1), output tube (2), piston tube (3), recoil subassembly and aerodynamic component, its characterized in that: the top and the bottom of the input pipe (1) are respectively provided with a piston pipe (3) and an output pipe (2), the top of the input pipe (1) is fixed with an aerodynamic assembly through a support rod, and the bottom of the input pipe (1) is provided with a recoil assembly;

the recoil component comprises a recoil pipe (5), a recoil cover (6), a piston rod (7) and a piston block (8), a blocking block (9) and a rubber sheet (11), wherein the input pipe (1) is embedded with a plurality of recoil pipes (5), the bottom of the recoil pipe (5) penetrates through the output pipe (2) and extends to the inside of the recoil cover (6), the piston rod (7) penetrates through the middle of the piston pipe (3) in a movable manner, the piston block (8) is arranged in the middle of the piston rod (7), the blocking block (9) which is in a conical surface shape is fixed at the bottom of the piston rod (7), and the rubber sheet (11) is attached to the bottom of the blocking block (9) in a matched manner.

2. The capper component of filling machine of claim 1, characterized in that said aerodynamic component comprises a pressurizing cylinder (4), a lower piston (12), an upper piston (13), a threaded ring (15), an adjusting rod (16), a pneumatic tube (18) and a connecting hose (19), the top of the input tube (1) is fixed with the pressurizing cylinder (4) with upper and lower openings through a support rod, the inner wall of the pressurizing cylinder (4) is slidably provided with the lower piston (12) and the upper piston (13), the inner wall of the pressurizing cylinder (4) is also fixed with the threaded ring (15) through a support rod, the middle thread of the threaded ring (15) penetrates through the adjusting rod (16), the side of the pressurizing cylinder (4) is embedded with the pneumatic tube (18), and one end of the pneumatic tube (18) is sleeved with the connecting hose (19).

3. The capper subassembly of the filling machine of claim 2 wherein said lower piston (12) is fixed to the top of the piston rod (7), said upper piston (13) is fixed to the bottom of the adjusting rod (16), and said lower piston (12) and said upper piston (13) each have three rubber rings (14) embedded around their periphery.

4. The capper subassembly of the filling machine of claim 2 wherein said pneumatic tube (18) has an outer surface at one end integrally formed with a primary ring (20) and a secondary ring (21), a connecting hose (19) being fitted around the outer periphery of said primary ring (20) and said secondary ring (21), said connecting hose (19) and said pneumatic tube (18) being secured by a clamp ring (22).

5. The capper subassembly of the filling machine of claim 2 wherein said adjusting lever (16) is provided with a flat cut surface (17) on the front side, said flat cut surface (17) being provided with a graduation mark, one end of said pneumatic tube (18) being located between said lower piston (12) and said upper piston (13).

6. The capper subassembly of the filling machine of claim 2 wherein the bottom of said pressurized cartridge (4) is nested with the top of said piston tube (3), said lower piston (12) being located below said upper piston (13), said rubber ring (14) fitting against the inner wall of said pressurized cartridge (4).

7. The machine part of the closing machine of the filling machine according to claim 1, characterized in that the top of the piston tube (3) is a piston part (10) which is connected up and down, the piston rod (7) fits in the middle of the piston part (10), the piston block (8) fits in the groove formed at the bottom of the piston tube (3), and the top and bottom of the piston block (8) are conical surfaces.

8. The machine part of the filling machine of claim 1, characterised in that the top seal (23) of the recoil cover (6) is attached to the rubber sheet (11) at the bottom of the stopper (9), the seal (23) fitting into the conical sheet (11).

9. The machine part of the closure of the filler machine according to claim 1, characterized in that the bottom of the stopper block (9) fits the inner wall of the delivery pipe (2), the recoil cover (6) is conical, and the angle between the bottom of the recoil cover (6) and the horizontal plane is greater than the angle between the rubber sheet (11) and the horizontal plane.

10. The capper subassembly of the filling machine of claim 1 wherein said backflush tube (5) is criss-cross wrapped around the bottom of the backflush cup (6), the blocking block (9) is located directly above the backflush cup (6), the diameter of the outer periphery of the blocking block (9) is smaller than the diameter of the inner ring at the top of the delivery tube (2) and larger than the diameter of the inner ring at the bottom of the delivery tube (2).

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