CN113697197A - Conveying system for axial plunger pump - Google Patents

Abstract

The invention belongs to the technical field of hydraulic accessory processing equipment, and particularly relates to a conveying system for an axial plunger pump, which comprises: the bag discharging device comprises a vibration mechanism, a bag filling mechanism, a bag feeding mechanism and a bag discharging mechanism; wherein, an oil seal for the axial plunger pump is put into the vibration mechanism, and is delivered to the bagging mechanism after being collided and vibrated by the vibration mechanism; the bag feeding mechanism feeds the opened plastic bag to the lower part of the bag filling mechanism so that the falling axial plunger pump is filled into the corresponding plastic bag by using the oil seal and seals the plastic bag; the bag unloading mechanism is suitable for conveying the sealed plastic bag to subsequent equipment; according to the invention, the vibration mechanism is arranged, so that the oil seal for the axial plunger pump can be automatically collided and vibrated, the automatic oil seal working procedure for the axial plunger pump is realized, the oil seal for the axial plunger pump is more flexible and suitable for use, meanwhile, the oil seal for the axial plunger pump is packaged and transported through the bagging mechanism, the bag feeding mechanism and the bag unloading mechanism, and the processing efficiency is improved.

Description

Conveying system for axial plunger pump

Technical Field

The invention belongs to the technical field of hydraulic accessory processing equipment, and particularly relates to a conveying system for an axial plunger pump.

Background

The oil blanket for the axial plunger pump that just produces hardens very easily, the oil blanket for the axial plunger pump after the hardening can not with axial plunger pump looks adaptation, the oil blanket for the axial plunger pump purpose of vibration makes the oil blanket for the axial plunger pump more soft, is fit for using, the oil blanket conveying system for the axial plunger pump that adopts at present does not possess the oil blanket function for the axial plunger pump of vibration, it is directly pack the oil blanket for the axial plunger pump into the plastic bag, consequently the oil blanket quality for the axial plunger pump of bagging-off is not high.

Meanwhile, the traditional oil seal packing method for the axial plunger pump adopts a manual or semi-automatic mode, so that the efficiency is low, and the packing quality is influenced due to the existence of residual glue in the heat sealing machine.

Therefore, there is a need to develop a new delivery system for an axial plunger pump to solve the above problems.

Disclosure of Invention

The invention aims to provide a delivery system for an axial plunger pump.

In order to solve the above technical problem, the present invention provides a delivery system for an axial plunger pump, comprising: the bag discharging device comprises a vibration mechanism, a bag filling mechanism, a bag feeding mechanism and a bag discharging mechanism; the bag feeding mechanism and the bag discharging mechanism are positioned below the bag feeding mechanism; the vibration mechanism is suitable for throwing an oil seal for the axial plunger pump, and conveying the oil seal to the bagging mechanism after collision and vibration of the oil seal by the vibration mechanism; the bag feeding mechanism is suitable for feeding the opened plastic bag to the lower part of the bagging mechanism so that the axial plunger pump falling from the bagging mechanism is filled into the corresponding plastic bag by using the oil seal and seals the plastic bag; and the bag discharging mechanism is suitable for conveying the sealed plastic bag to subsequent equipment.

Further, the vibration mechanism includes: the rotary component and the vibrating component are positioned in the charging bin; the top of the charging bin is provided with a feeding opening, and the bottom of the charging bin is provided with an output opening; the rotating assembly is positioned below the throwing port, and the vibrating assembly is connected with the output port; the feeding bin is suitable for receiving an oil seal for an axial plunger pump which is fed through a feeding opening, the rotating assembly is suitable for contacting the oil seal for the axial plunger pump which is fed, so that the oil seal for the axial plunger pump collides with the rotating assembly, the rotating assembly rotates to enable the oil seal for the axial plunger pump to be stirred in the feeding bin, namely, the vibrating assembly is suitable for receiving the oil seal for the axial plunger pump after the collision and the stirring of the rotating assembly and drives the oil seal for the axial plunger pump to vibrate, and therefore the oil seal for the axial plunger pump is gradually conveyed to the bagging mechanism from an output opening.

Further, the rotating assembly includes: a rotating motor and a rotating rod; rotatory stick is connected to the movable part of rotating electrical machines, rotatory stick is under the narrow width setting, just the mouth is put in to the stick head orientation of rotatory stick, promptly the rotating electrical machines is suitable for the rotatory stick of drive rotatory, so that follows the oil blanket for the axial plunger pump that drops of putting in the mouth constantly collides with rotatory stick, and by rotatory stick drives the oil blanket for the axial plunger pump and stirs.

Further, the vibration assembly includes: the vibration motor drives the disk-shaped vibration disk to vibrate; the spiral mountain-shaped vibration disc is arranged around the rotating rod, and the discharge end of the spiral mountain-shaped vibration disc is connected with an output port; the oil seal for the axial plunger pump after being collided and stirred by the rotating rod contacts the disk mountain-shaped vibration disk, and the vibration motor is suitable for driving the disk mountain-shaped vibration disk to vibrate, so that the oil seal for the axial plunger pump on the disk mountain-shaped vibration disk moves towards the discharge end on the disk surface until the oil seal for the axial plunger pump falls into the bagging mechanism from the output port.

Further, at least one annular baffle is arranged between the disk-mountain-shaped vibration disk and the rotary rod in a surrounding manner; and the annular baffles are arranged in a vertically staggered manner to guide the oil seal for the axial plunger pump which is collided and stirred on the rotating rod to rotate and fall onto the disc surface of the disc-mountain-shaped vibrating disc.

Further, an output plate for adjusting the size of the output port is arranged at the output port; the output plate is hinged to the output port, the size of the output port is adjusted by rotating the output plate, and the output plate and the output port are fixed through screws after the size of the output port is adjusted.

Further, the bagging mechanism includes: the material receiving shovel and the dropping pipe are sequentially arranged from top to bottom; the shovel opening of the receiving shovel is arranged towards the output opening of the charging bin, and the bottom of the falling pipe is provided with a falling opening; the oil seal for the axial plunger pump output by the output port touches the shovel port and then moves towards the lower dropping pipe, and the oil seal falls into the plastic bag through the dropping port.

Further, the bag feeding mechanism includes: a plastic bag conveyor belt; the bag discharge mechanism includes: the bag unloading sliding plate is arranged in a downward inclination manner; the plastic bag conveying belt conveys the opened plastic bag to the lower part of the dropping pipe; the sealed plastic bag slides down along the bag unloading sliding plate to be conveyed to subsequent equipment.

Further, the delivery system for an axial plunger pump further comprises: the sealing plate is positioned below the falling pipe and above the space between the bag feeding mechanism and the bag unloading mechanism, a sealing hole is formed in the sealing plate, the bag feeding mechanism feeds the opened plastic bag to the position below the sealing hole, and the falling pipe is filled into the plastic bag through the sealing hole to form an oil seal for the axial plunger pump; the movable frame is positioned on the sealing plate and is arranged along the edge of the sealing hole in the length direction; the first heat sealing plate is sleeved on the sealing plate, is hinged with the movable frame through a first connecting rod and is used for sealing the plastic bag, and moves towards the sealing hole or moves away from the sealing hole under the driving of the first connecting rod driven by the movable frame; the second heat sealing plate is sleeved on the sealing plate, is hinged with the movable frame through a second connecting rod and is used for sealing the plastic bag, and moves towards the sealing hole or moves away from the sealing hole under the driving of the second connecting rod driven by the movable frame; the first glue scraping mechanism is movably connected to the movable frame and used for propping against the first heat sealing plate and sliding along the length direction of the first heat sealing plate under the driving of the movable frame when the first heat sealing plate moves so as to scrape residual glue on the first heat sealing plate; and the second glue scraping mechanism is movably connected to the movable frame and used for pushing against the second heat sealing plate and sliding along the length direction of the second heat sealing plate under the driving of the movable frame when the second heat sealing plate moves so as to scrape the residual glue on the second heat sealing plate.

Furthermore, the first heat sealing plate and the second heat sealing plate are respectively positioned at two sides of the sealing hole, and the movable frame moves along the length direction of the sealing hole to drive the sealing hole to approach to the opening of the plastic bag, so that the plastic bag is sealed; after the plastic bag is sealed by the first heat-sealing plate and the second heat-sealing plate, the movable frame moves along the length direction of the sealing hole to drive the first heat-sealing plate and the second heat-sealing plate to be away from the sealing position of the plastic bag, and the first glue scraping mechanism and the second glue scraping mechanism respectively slide along the length direction of the first heat-sealing plate and the length direction of the second heat-sealing plate to scrape residual glue on the first heat-sealing plate and the second heat-sealing plate.

The axial plunger pump oil seal packing and transporting device has the advantages that the vibrating mechanism is arranged, so that the axial plunger pump oil seal can be automatically collided and vibrated, the automatic oil seal vibrating process for the axial plunger pump is realized, the axial plunger pump oil seal is softer and suitable for use, meanwhile, the bag packing mechanism, the bag feeding mechanism and the bag unloading mechanism are used for packing and transporting the axial plunger pump oil seal, and the processing efficiency is improved.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a self-contained view of the delivery system for an axial piston pump of the present invention;

FIG. 2 is an external structural view of the hopper of the present invention;

FIG. 3 is an internal structural view of the hopper of the present invention;

FIG. 4 is a block diagram of the bagging mechanism of the present invention;

FIG. 5 is a block diagram of the bag discharge mechanism of the present invention;

FIG. 6 is a partial view of the delivery system for the axial piston pump of the present invention;

FIG. 7 is a block diagram of the drop frame of the present invention;

FIG. 8 is a front view of the hush panel of the present invention;

fig. 9 is a rear view of the hush panel of the present invention.

In the figure:

the device comprises a vibration mechanism 1, a loading bin 100, a feeding port 101, an output port 102, a handle 103, a rotating assembly 110, a rotating rod 111, a vibration assembly 120, a spiral mountain-shaped vibration disc 121, a ring-shaped baffle 130 and an output plate 140;

the bag filling mechanism 2, the receiving shovel 200, a shovel port 201, a falling pipe 210 and a falling port 211;

a bag feeding mechanism 3 and a plastic bag conveying belt 300;

the bag unloading mechanism 4 and the bag unloading sliding plate 400;

a sealing plate 5 and a sealing hole 500;

the movable frame 6, the mounting plate 600, the first movable bar 610, the embedded groove 611, the second movable bar 620, the third movable bar 630 and the fourth movable bar 640;

the first heat seal plate 7, the first link 700, and the first guide face 710;

the second heat seal plate 8, the second link 800, and the second guide face 810;

the first glue scraping mechanism 9, a first upper glue scraping strip 900, an air hole 901 and a first upper elastic part 910;

and a second squeegee mechanism 10.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

In the present embodiment, as shown in fig. 1 to 9, the present embodiment provides a delivery system for an axial plunger pump, including: the bag discharging device comprises a vibration mechanism 1, a bag filling mechanism 2, a bag feeding mechanism 3 and a bag discharging mechanism 4; the bag filling mechanism 2 is positioned below the vibrating mechanism 1, and the bag feeding mechanism 3 and the bag discharging mechanism 4 are positioned below the bag filling mechanism 2; the vibration mechanism 1 is suitable for throwing an oil seal for the axial plunger pump, and the oil seal is collided and vibrated by the vibration mechanism 1 and then conveyed to the bagging mechanism 2; the bag feeding mechanism 3 is suitable for feeding the opened plastic bag to the lower part of the bagging mechanism 2, so that the axial plunger pump falling from the bagging mechanism 2 is filled into the corresponding plastic bag by using an oil seal, and the plastic bag is sealed; and the bag discharging mechanism 4 is suitable for conveying the sealed plastic bag to subsequent equipment.

Vibration mechanism 1

Vibration mechanism 1 mainly plays the effect that makes the oil blanket for axial plunger pump become soft, be fit for using, and vibration mechanism 1 can collide, vibrate the oil blanket for axial plunger pump, realizes the automatic oil blanket for axial plunger pump that plays.

Bagging mechanism 2

The bagging mechanism 2 mainly plays a role in conveying the oil seal for the axial plunger pump processed by the vibrating mechanism 1, and can place the oil seal for the axial plunger pump into a corresponding plastic bag in a falling mode.

Bag feeding mechanism 3

The bag feeding mechanism 3 mainly plays a role in feeding the opened plastic bag to the lower part of the bag filling mechanism 2, so that oil sealing bagging for the axial plunger pump is realized.

Bag unloading mechanism 4

The bag feeding mechanism 3 mainly plays a role of conveying the sealed plastic bag to subsequent equipment.

In this embodiment, this embodiment is through setting up vibration mechanism 1, can automize and collide, vibrate the oil blanket for axial plunger pump, realizes the automatic oil blanket process for vibration axial plunger pump, makes the oil blanket for axial plunger pump more soft, be fit for using, carries out the packing of oil blanket for axial plunger pump, transports through bagging-off mechanism 2, send bag mechanism 3 and bag unloading mechanism 4 simultaneously, has improved machining efficiency.

In the present embodiment, the vibration mechanism 1 includes: a hopper 100, a rotating assembly 110 located within the hopper 100, a vibrating assembly 120; the top of the charging bin 100 is provided with a feeding port 101, and the bottom of the charging bin 100 is provided with an output port 102; the rotating component 110 is positioned below the input port 101, and the vibrating component 120 is connected with the output port 102; the charging bin 100 is suitable for receiving thrown oil seals for the axial plunger pump through the throwing opening 101, the rotating assembly 110 is suitable for contacting the thrown oil seals for the axial plunger pump, so that the oil seals for the axial plunger pump collide with the rotating assembly 110, and the oil seals for the axial plunger pump are stirred in the charging bin 100 under the rotation of the rotating assembly 110, namely the vibrating assembly 120 is suitable for receiving the oil seals for the axial plunger pump after the collision and stirring of the rotating assembly 110 and driving the oil seals for the axial plunger pump to vibrate, so that the oil seals for the axial plunger pump are gradually conveyed to the bagging mechanism 2 from the output opening 102.

In this embodiment, the outer wall of the hopper 100 is provided with a handle 103, and the hopper 100 can be tilted by the handle 103 and the handle 103 is fixed by a corresponding support rod, so that the hopper 100 is kept tilted and the discharge port 102 is discharged more smoothly.

In this embodiment, the rotating assembly 110 includes: a rotating motor and rotating rod 111; rotatory stick 111 is connected to rotating electrical machines's movable part, rotatory stick 111 is under the narrow width setting, just mouth 101 is put in to the stick head orientation of rotatory stick 111, promptly rotating electrical machines is suitable for rotatory stick 111 rotation of drive, so that follows the oil blanket for the axial plunger pump that drops of putting in mouth 101 constantly collides with rotatory stick 111, and by rotatory stick 111 drives the oil blanket for the axial plunger pump and stirs.

In this embodiment, by setting the rotating rod 111 to be narrow at the top and wide at the bottom, the oil seal for the axial plunger pump can be well collided and agitated, and a good collision and agitation effect is achieved.

In the present embodiment, by providing the tip of the rotary rod 111 toward the input port 101, the oil seal for the axial plunger pump that falls from the input port 101 can be quickly collided.

In the present embodiment, the vibration assembly 120 includes: a disk-mountain-shaped vibration disk 121 and a vibration motor for driving the disk-mountain-shaped vibration disk 121 to vibrate; the disk-mountain-shaped vibration disk 121 is arranged around the rotating rod 111, and the discharge end of the disk-mountain-shaped vibration disk 121 is connected with the output port 102; the oil seal for the axial plunger pump after being collided and stirred by the rotating rod 111 contacts the disk mountain-shaped vibration disk 121, and the vibration motor is suitable for driving the disk mountain-shaped vibration disk 121 to vibrate, so that the oil seal for the axial plunger pump on the disk mountain-shaped vibration disk 121 moves towards the discharge end on the disk surface until the oil seal for the axial plunger pump falls into the bagging mechanism 2 from the output port 102.

In the present embodiment, the disk-mountain-shaped vibration disk 121 functions to vibrate and convey the oil seal for the axial plunger pump.

In this embodiment, at least one annular baffle 130 is disposed between the disk-mountain-shaped vibration disk 121 and the rotary rod 111; each annular baffle 130 is arranged in a vertically staggered manner to guide the oil seal for the axial plunger pump which is collided and stirred by the rotating rod 111 to rotate and fall onto the disk surface of the disk-shaped vibration disk 121.

In this embodiment, by providing each annular baffle 130, it is able to play a good guiding role, and the oil seal for the axial plunger pump that is collided and agitated by the rotating rod 111 is guided to rotate and fall onto the disk surface of the disk mountain-shaped vibration disk 121.

In the present embodiment, an output plate 140 for adjusting the size of the output port 102 is disposed at the output port 102; the output plate 140 is hinged at the output port 102, the size of the output port 102 is adjusted by rotating the output plate 140, and after the size of the output port 102 is adjusted, the output plate 140 and the output port 102 are fixed through screws.

In the present embodiment, the output plate 140 is provided to control the oil packing speed for the axial plunger pump, thereby realizing controllable management.

In the present embodiment, the bagging mechanism 2 includes: the material receiving shovel 200 and the dropping pipe 210 are arranged from top to bottom in sequence; the shovel port 201 of the receiving shovel 200 is arranged towards the output port 102 of the charging bin 100, and the bottom of the falling pipe 210 is provided with a falling port 211; the oil seal for the axial plunger pump output from the output port 102 hits the shovel port 201 and then moves to the drop tube 210, and falls into the plastic bag through the drop port 211.

In this embodiment, because the shovel mouth 201 of the receiving shovel 200 is large, a good receiving effect can be achieved, closed-loop transportation is achieved through the falling pipe 210, and the oil seal for the axial plunger pump performs free-fall movement on the falling pipe 210.

In the present embodiment, the bag feeding mechanism 3 includes: a plastic bag conveyor 300; the bag discharging mechanism 4 comprises: a bag unloading sliding plate 400 arranged obliquely downwards; the plastic bag conveyer belt 300 sends the opened plastic bag to the lower side of the dropping pipe 210; the sealed plastic bag slides down along the bag discharge slide 400 to be conveyed to subsequent equipment.

In this embodiment, the delivery system for an axial plunger pump further comprises: the sealing plate 5 is positioned below the falling pipe 210 and above the space between the bag feeding mechanism 3 and the bag discharging mechanism 4, a sealing hole 500 is formed in the sealing plate, the bag feeding mechanism 3 feeds the opened plastic bag to the position below the sealing hole 500, and the falling pipe 210 loads the oil seal for the axial plunger pump into the plastic bag through the sealing hole 500; a movable frame 6 positioned on the sealing plate 5 and arranged along the edge of the sealing hole 500 in the length direction; the first heat sealing plate 7 is sleeved on the sealing plate 5, is hinged with the movable frame 6 through a first connecting rod 700, is used for sealing the plastic bag, and moves towards the sealing hole 500 or moves away from the sealing hole 500 under the driving of the movable frame 6 driving the first connecting rod 700; the second heat sealing plate 8 is sleeved on the sealing plate 5, is hinged with the movable frame 6 through a second connecting rod 800, is used for sealing the plastic bag, and moves towards the sealing hole 500 or moves away from the sealing hole 500 under the driving of the movable frame 6 driving the second connecting rod 800; the first glue scraping mechanism 9 is movably connected to the movable frame 6, is used for abutting against the first heat sealing plate 7, and slides along the length direction of the first heat sealing plate 7 under the driving of the movable frame 6 when the first heat sealing plate 7 moves so as to scrape residual glue on the first heat sealing plate 7; and the second glue scraping mechanism 10 is movably connected to the movable frame 6, is used for abutting against the second heat sealing plate 8, and slides along the length direction of the second heat sealing plate 8 under the driving of the movable frame 6 when the second heat sealing plate 8 moves so as to scrape the residual glue on the second heat sealing plate 8.

In this embodiment, the first heat sealing plate 7 and the second heat sealing plate 8 are respectively located at two sides of the sealing hole 500, and the movable frame 6 moves along the length direction of the sealing hole 500 to drive the sealing hole 500 to close to the opening of the plastic bag, so as to seal the plastic bag; after the first heat-sealing plate 7 and the second heat-sealing plate 8 seal the plastic bag, the movable frame 6 moves along the length direction of the sealing hole 500 to drive the first heat-sealing plate 7 and the second heat-sealing plate 8 to be away from the sealing position of the plastic bag, and the first glue scraping mechanism 9 and the second glue scraping mechanism 10 respectively slide along the length direction of the first heat-sealing plate 7 and the length direction of the second heat-sealing plate 8 to scrape the residual glue on the first heat-sealing plate 7 and the second heat-sealing plate 8.

In this embodiment, this embodiment is through setting up movable frame 6, first heat-seal board 7, second heat-seal board 8, drive first heat-seal board 7 through movable frame 6, second heat-seal board 8 realizes sealing the oil blanket bagging-off for axial plunger pump, simultaneously through setting up first scraping gluey mechanism 9, second scraping gluey mechanism 10 in activity on movable frame 6, can realize scraping first heat-seal board 7, the last cull of second heat-seal board 8, can improve the packing quality, practice thrift the time of clearing up the cull simultaneously, improve machining efficiency.

In the present embodiment, the movable frame 6 includes: the mounting plate 600, a first movable bar 610, a second movable bar 620, a third movable bar 630 and a fourth movable bar 640 which are fixed on the mounting plate 600; the first movable strip 610, the second movable strip 620, the third movable strip 630 and the fourth movable strip 640 are arranged in parallel, and the first movable strip 610, the second movable strip 620, the third movable strip 630 and the fourth movable strip 640 are perpendicular to the plate surface of the mounting plate 600; the first movable strip 610 and the second movable strip 620 are respectively located at two side edges above the length direction of the sealing hole 500, and the third movable strip 630 and the fourth movable strip 640 are respectively located at two side edges below the length direction of the sealing hole 500.

In this embodiment, the first heat seal plate 7 and the second heat seal plate 8 are movably connected to the mounting plate 600 through a first connecting rod 700 and a second connecting rod 800, respectively; one end of the first connecting rod 700 is hinged with the first heat seal plate 7, the other end of the first connecting rod 700 is hinged with the mounting plate 600, one end of the second connecting rod 800 is hinged with the second heat seal plate 8, and the other end of the second connecting rod 800 is hinged with the mounting plate 600; when the mounting plate 600 moves towards the length direction of the sealing hole 500, the first connecting rod 700 and the second connecting rod 800 are driven to rotate, so that the first heat sealing plate 7 and the second heat sealing plate 8 are driven to approach towards the sealing hole 500 or to be far away from the sealing hole 500.

In this embodiment, the mounting plate 600 is pushed to move toward the length direction of the sealing hole 500, so as to drive the first movable strip 610, the second movable strip 620, the third movable strip 630 and the fourth movable strip 640 to move along the corresponding edges of the sealing hole 500 in the length direction.

In the present embodiment, the lengths of the first, second, third and fourth movable strips 610, 620, 630 and 640 are the same, and the mounting plate 600 is pushed to move the first, second, third and fourth movable strips 610, 620, 630 and 640 synchronously.

In this embodiment, the mounting plate 600 is driven by an air cylinder, so that the mounting plate 600 pushes the first movable strip 610, the second movable strip 620, the third movable strip 630 and the fourth movable strip 640 to move.

In this embodiment, the mounting plate 600 is provided with two U-shaped grooves corresponding to the first connecting rod 700 and the second connecting rod 800, and the first connecting rod 700 and the second connecting rod 800 are hinged in the corresponding U-shaped grooves, so that the mounting plate 600 drives the first connecting rod 700 and the second connecting rod 800 to rotate.

In this embodiment, the first heat sealing plate 7 and the second heat sealing plate 8 are respectively provided with a corresponding heating wire therein for heat sealing the plastic bag.

In this embodiment, the first heat-sealing plate 7 and the second heat-sealing plate 8 are movably sleeved on the sealing plate 5 through the first sleeving hole and the second sleeving hole respectively, so that the mounting plate 600 can drive the first heat-sealing plate 7 and the second heat-sealing plate 8 to approach towards the sealing hole 500, so that the first heat-sealing plate 7 and the second heat-sealing plate 8 clamp the opening of the plastic bag at the sealing hole 500, and heat the first heat-sealing plate 7 and the second heat-sealing plate 8 through corresponding heating wires to seal the plastic bag.

In this embodiment, the first heat seal plate 7 and the second heat seal plate 8 are respectively provided with a first guide surface 710 and a second guide surface 810, the first guide surface 710 and the second guide surface 810 are respectively located at the hinge joint of the first heat seal plate 7 and the first link 700, and the hinge joint of the second heat seal plate 8 and the second link 800, so that when the first heat seal plate 7 and the second heat seal plate 8 are folded, the first squeegee mechanism 9 and the second squeegee mechanism 10 respectively abut against the first guide surface 710 and the second guide surface 810, the first guide surface 710 and the second guide surface 810 are obliquely arranged, the first guide surface 710 is inclined downward toward the inner side along the outer side of the first heat seal plate 7, and the second guide surface 810 is inclined downward toward the inner side along the outer side of the second heat seal plate 8.

In this embodiment, the first heat seal plate 7 and the second heat seal plate 8 are provided with corresponding U-shaped grooves corresponding to the first link 700 and the second link 800, the first link 700 and the second link 800 are hinged in the corresponding U-shaped grooves of the first heat seal plate 7 and the second heat seal plate 8, respectively, the mounting plate 600 drives the first link 700 and the second link 800 to rotate, the first link 700 rotates in the U-shaped groove of the first heat seal plate 7 to drive the first heat seal plate 7 to move on the sealing plate 5, and the second link 800 rotates in the U-shaped groove of the second heat seal plate 8 to drive the second heat seal plate 8 to move on the sealing plate 5.

In this embodiment, the first squeegee mechanism 9 includes: a first upper bead 900, a first lower bead, a first upper elastic member 910, and a first lower elastic member; the second squeegee mechanism 10 includes: the second upper scraping rubber strip, the second lower scraping rubber strip, the second upper elastic piece and the second lower elastic piece are arranged on the upper surface of the base; the first upper frictioning strip 900 and the first lower frictioning strip are movably connected to the ends of the first movable strip 610 and the third movable strip 630 far away from the mounting plate 600 through the first upper elastic member 910 and the first lower elastic member, respectively; the second upper glue scraping strip and the second lower glue scraping strip are respectively movably connected to the end parts, far away from the mounting plate 600, of the second movable strip 620 and the fourth movable strip 640 through a second upper elastic part and a second lower elastic part; the first upper scraping strip 900 abuts against the upper heat-sealing surface of the first heat-sealing plate 7 under the elastic action of the first upper elastic member 910, and slides along the length direction of the first heat-sealing plate 7 under the driving of the mounting plate 600 and the first connecting rod 700, so as to scrape off the residual glue on the upper heat-sealing surface of the first heat-sealing plate 7; the first lower scraping adhesive tape abuts against the lower heat-sealing surface of the first heat-sealing plate 7 under the elastic action of the first lower elastic member, and slides along the length direction of the first heat-sealing plate 7 under the driving of the mounting plate 600 and the first connecting rod 700 so as to scrape off residual adhesive on the lower heat-sealing surface of the first heat-sealing plate 7; the second upper scraping rubber strip abuts against the upper heat sealing surface of the second heat sealing plate 8 under the elastic action of the second upper elastic piece, and slides along the length direction of the second heat sealing plate 8 under the driving of the mounting plate 600 and the second connecting rod 800 so as to scrape the residual rubber on the upper heat sealing surface of the second heat sealing plate 8; the second lower adhesive tape is abutted against the lower heat-sealing surface of the second heat-sealing plate 8 under the elastic action of the second lower elastic member, and slides along the length direction of the second heat-sealing plate 8 under the driving of the mounting plate 600 and the second connecting rod 800 so as to scrape off the residual adhesive on the lower heat-sealing surface of the second heat-sealing plate 8.

In this embodiment, the first upper elastic member 910, the first lower elastic member, the second upper elastic member, and the second lower elastic member are arc springs, that is, when the first heat sealing plate 7 and the second heat sealing plate 8 are closed at the sealing hole 500, the first upper elastic member 910, the first lower elastic member, the second upper elastic member, and the second lower elastic member are in a compressed state, and when the first heat sealing plate 7 and the second heat sealing plate 8 are far away from the sealing hole 500, the first upper elastic member 910, the first lower elastic member, the second upper elastic member, and the second lower elastic member gradually return to their original states.

In this embodiment, the first, third, second and fourth movable strips 610, 630, 620 and 640 are respectively provided with corresponding embedded grooves 611, for embedding the first upper scraping rubber strip 900, the first lower scraping rubber strip, the second upper scraping rubber strip, the second lower scraping rubber strip, namely, when the first heat seal plate 7 and the second heat seal plate 8 are closed at the seal hole 500, the first upper glue scraping strip 900, the first lower glue scraping strip, the second upper glue scraping strip and the second lower glue scraping strip are respectively embedded into the first movable strip 610, the third movable strip 630, the second movable strip 620 and the fourth movable strip 640 through the corresponding embedding grooves 611, so that the first upper scraping adhesive tape 900 and the first heat sealing plate 7 are in a straight line shape, the first lower scraping adhesive tape and the first heat sealing plate 7 are in a straight line shape, the second upper scraping adhesive tape and the second heat sealing plate 8 are in a straight line shape, and the second lower scraping adhesive tape and the second heat sealing plate 8 are in a straight line shape; when the first heat seal plate 7 and the second heat seal plate 8 are far away from the seal hole 500, the first upper glue scraping strip 900, the first lower glue scraping strip, the second upper glue scraping strip and the second lower glue scraping strip are respectively inserted into the corresponding insertion grooves 611 of the first movable strip 610, the third movable strip 630, the second movable strip 620 and the fourth movable strip 640 and are ejected out, so that the first upper glue scraping strip 900, the first heat seal plate 7, the first connecting rod 700 and the first movable strip 610 are quadrilateral, the first lower glue scraping strip, the first heat seal plate 7, the first connecting rod 700 and the third movable strip 630 are quadrilateral, the second upper glue scraping strip, the second heat seal plate 8, the second connecting rod 800 and the second movable strip 620 are quadrilateral, and the second lower glue scraping strip, the second heat seal plate 8, the second connecting rod 800 and the fourth movable strip 640 are quadrilateral.

In this embodiment, the first upper adhesive tape scraping strip 900, the first lower adhesive tape scraping strip, the second upper adhesive tape scraping strip, and the second lower adhesive tape scraping strip are all provided with corresponding sharp heads, that is, the first upper adhesive tape scraping strip 900, the first lower adhesive tape scraping strip, the second upper adhesive tape scraping strip, and the second lower adhesive tape scraping strip respectively abut against the upper heat-sealing surface of the first heat-sealing plate 7, the lower heat-sealing surface of the first heat-sealing plate 7, the upper heat-sealing surface of the second heat-sealing plate 8, and the lower heat-sealing surface of the second heat-sealing plate 8 through the corresponding sharp heads, so as to scrape off the residual adhesive.

In this embodiment, by providing the pointed portions on the first upper adhesive tape wiper 900, the first lower adhesive tape wiper, the second upper adhesive tape wiper, and the second lower adhesive tape wiper, it is possible to realize that the first upper adhesive tape wiper 900 makes linear-surface contact with the upper heat-sealing surface of the first heat-sealing plate 7, the first lower adhesive tape wiper makes linear-surface contact with the lower heat-sealing surface of the first heat-sealing plate 7, the second upper adhesive tape wiper makes linear-surface contact with the upper heat-sealing surface of the second heat-sealing plate 8, and the second lower adhesive tape wiper makes linear-surface contact with the lower heat-sealing surface of the second heat-sealing plate 8, so that the first upper adhesive tape wiper 900, the first lower adhesive tape wiper, the second upper adhesive tape wiper, and the second lower adhesive tape wiper respectively slide on the upper heat-sealing surface of the first heat-sealing plate 7, the lower heat-sealing surface of the first heat-sealing plate 7, the upper heat-sealing surface of the second heat-sealing plate 8, and the lower heat-sealing surface of the second heat-sealing plate 8.

In this embodiment, the air holes 901 are formed in two end portions of the first upper adhesive tape scraping strip 900, the first lower adhesive tape scraping strip, the second upper adhesive tape scraping strip and the second lower adhesive tape scraping strip, and the two air holes 901 are communicated with each other through a cavity; air pipes are arranged on the first upper rubber scraping strip 900, the first lower rubber scraping strip, the second upper rubber scraping strip and the second lower rubber scraping strip and are communicated with corresponding cavities and air pumps, namely the air pumps blow or suck air through corresponding air holes 901.

In this embodiment, when the first heat-seal plate 7 and the second heat-seal plate 8 are far away from the sealing hole 500, the air pump blows air into each cavity, so that each air hole 901 blows air to a position where the first upper sealant strip 900 abuts against the upper heat-seal surface of the first heat-seal plate 7, a position where the first lower sealant strip abuts against the lower heat-seal surface of the first heat-seal plate 7, a position where the second upper sealant strip abuts against the upper heat-seal surface of the second heat-seal plate 8, and a position where the second lower sealant strip abuts against the lower heat-seal surface of the second heat-seal plate 8, so as to cool the residual sealant on the corresponding heat-seal surface; when the first heat sealing plate 7 is perpendicular to the first connecting rod 700 and the second heat sealing plate 8 is perpendicular to the second connecting rod 800, the air pump sucks air through each cavity, so that the air holes 901 at the joint of the first upper glue scraping strip 900 and the first movable strip 610, the joint of the first lower glue scraping strip and the third movable strip 630, the joint of the second upper glue scraping strip and the second movable strip 620, and the joint of the second lower glue scraping strip and the fourth movable strip 640 form negative pressure, thereby adsorbing the plastic bag opened on the plastic bag conveyor belt 300, i.e. pushing the mounting plate 600 to move towards the length direction of the sealing hole 500, so as to drive the first movable strip 610, the second movable strip 620, the third movable strip 630, and the fourth movable strip 640 to move along the corresponding edges of the length direction of the sealing hole 500, thereby introducing the opened plastic bag below the sealing hole 500 and driving the first connecting rod 700 and the second connecting rod 800 to rotate, and then the first heat sealing plate 7 and the second heat sealing plate 8 are driven to fold to seal the plastic bag.

In this embodiment, by providing the corresponding air holes 901, the cavity and the air pump, the plastic bag can be cooled and sealed by introducing the plastic bag during the glue scraping process.

In this embodiment, after the first heat sealing plate 7 and the second heat sealing plate 8 are unfolded, the plastic bag is just on top of the bag unloading sliding plate 400, and slides down along the bag unloading sliding plate 400 under the gravity of the plastic bag, so as to be conveyed to the subsequent equipment.

In conclusion, the vibration mechanism is arranged, so that the oil seal for the axial plunger pump can be automatically collided and vibrated, the automatic oil seal working procedure for vibrating the axial plunger pump is realized, the oil seal for the axial plunger pump is softer and is suitable for use, and meanwhile, the oil seal for the axial plunger pump is packed and transported through the bagging mechanism, the bag feeding mechanism and the bag unloading mechanism, so that the processing efficiency is improved.

The components selected for use in the present application (components not illustrated for specific structures) are all common standard components or components known to those skilled in the art, and the structure and principle thereof can be known to those skilled in the art through technical manuals or through routine experimentation.

In the description of the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units is only one logical division, and there may be other divisions when actually implemented, and for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection of devices or units through some communication interfaces, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (9)

1. A delivery system for an axial plunger pump, comprising:

the bag discharging device comprises a vibration mechanism, a bag filling mechanism, a bag feeding mechanism and a bag discharging mechanism; wherein

The bag loading mechanism is positioned below the vibrating mechanism, and the bag feeding mechanism and the bag unloading mechanism are positioned below the bag loading mechanism;

the vibration mechanism is suitable for throwing an oil seal for the axial plunger pump, and conveying the oil seal to the bagging mechanism after collision and vibration of the oil seal by the vibration mechanism;

the bag feeding mechanism is suitable for feeding the opened plastic bag to the lower part of the bagging mechanism so that the axial plunger pump falling from the bagging mechanism is filled into the corresponding plastic bag by using the oil seal and seals the plastic bag; and

the bag unloading mechanism is suitable for conveying the sealed plastic bag to subsequent equipment;

the vibration mechanism includes: the rotary component and the vibrating component are positioned in the charging bin;

the top of the charging bin is provided with a feeding opening, and the bottom of the charging bin is provided with an output opening;

the rotating assembly is positioned below the throwing port, and the vibrating assembly is connected with the output port;

the charging bin is suitable for receiving the thrown oil seal for the axial plunger pump through the throwing opening, the rotating assembly is suitable for contacting the thrown oil seal for the axial plunger pump, so that the oil seal for the axial plunger pump collides with the rotating assembly, and the oil seal for the axial plunger pump is stirred in the charging bin under the rotation of the rotating assembly, namely

The vibration component is suitable for receiving the oil seal for the axial plunger pump after collision and stirring of the rotating component, and drives the oil seal for the axial plunger pump to vibrate, so that the oil seal for the axial plunger pump gradually follows the output port conveying to the bagging mechanism.

2. The delivery system for an axial piston pump of claim 1,

the rotating assembly includes: a rotating motor and a rotating rod;

the movable part of the rotating motor is connected with a rotating rod, the rotating rod is narrow at the top and wide at the bottom, and the rod head of the rotating rod faces the throwing opening, namely

The rotating motor is suitable for driving the rotating rod to rotate, so that the oil seal for the axial plunger pump falling from the throwing opening continuously collides with the rotating rod, and the rotating rod drives the oil seal for the axial plunger pump to stir.

3. The delivery system for an axial piston pump of claim 2,

the vibration assembly includes: the vibration motor drives the disk-shaped vibration disk to vibrate;

the spiral mountain-shaped vibration disc is arranged around the rotating rod, and the discharge end of the spiral mountain-shaped vibration disc is connected with an output port;

the oil seal for the axial plunger pump after being collided and stirred by the rotating rod contacts the disk mountain-shaped vibration disk, and the vibration motor is suitable for driving the disk mountain-shaped vibration disk to vibrate, so that the oil seal for the axial plunger pump on the disk mountain-shaped vibration disk moves towards the discharge end on the disk surface until the oil seal for the axial plunger pump falls into the bagging mechanism from the output port.

4. The delivery system for an axial plunger pump of claim 3,

at least one annular baffle is arranged between the disk-mountain-shaped vibration disk and the rotary rod in a surrounding manner;

the annular baffles are arranged in a vertically staggered mode to guide the oil seal for the axial plunger pump which is collided and stirred by the rotating rod to rotate and fall onto the disc surface of the disc-mountain-shaped vibration disc.

5. The delivery system for an axial piston pump of claim 1,

an output plate for adjusting the size of the output port is arranged at the output port;

the output plate is hinged to the output port, the size of the output port is adjusted by rotating the output plate, and the output plate and the output port are fixed through screws after the size of the output port is adjusted.

6. The delivery system for an axial piston pump of claim 1,

the bagging mechanism comprises: the material receiving shovel and the dropping pipe are sequentially arranged from top to bottom;

the shovel opening of the receiving shovel is arranged towards the output opening of the charging bin, and the bottom of the falling pipe is provided with a falling opening;

the oil seal for the axial plunger pump output by the output port touches the shovel port and then moves towards the lower dropping pipe, and the oil seal falls into the plastic bag through the dropping port.

7. The delivery system for an axial piston pump of claim 6,

send a bag mechanism to include: a plastic bag conveyor belt;

the bag discharge mechanism includes: the bag unloading sliding plate is arranged in a downward inclination manner;

the plastic bag conveying belt conveys the opened plastic bag to the lower part of the dropping pipe;

the sealed plastic bag slides down along the bag unloading sliding plate to be conveyed to subsequent equipment.

8. The delivery system for an axial piston pump of claim 6,

the delivery system for an axial plunger pump further comprises:

the sealing plate is positioned below the falling pipe and above the space between the bag feeding mechanism and the bag unloading mechanism, a sealing hole is formed in the sealing plate, the bag feeding mechanism feeds the opened plastic bag to the position below the sealing hole, and the falling pipe is filled into the plastic bag through the sealing hole to form an oil seal for the axial plunger pump;

the movable frame is positioned on the sealing plate and is arranged along the edge of the sealing hole in the length direction;

the first heat sealing plate is sleeved on the sealing plate, is hinged with the movable frame through a first connecting rod and is used for sealing the plastic bag, and moves towards the sealing hole or moves away from the sealing hole under the driving of the first connecting rod driven by the movable frame;

the second heat sealing plate is sleeved on the sealing plate, is hinged with the movable frame through a second connecting rod and is used for sealing the plastic bag, and moves towards the sealing hole or moves away from the sealing hole under the driving of the second connecting rod driven by the movable frame;

the first glue scraping mechanism is movably connected to the movable frame and used for propping against the first heat sealing plate and sliding along the length direction of the first heat sealing plate under the driving of the movable frame when the first heat sealing plate moves so as to scrape residual glue on the first heat sealing plate;

and the second glue scraping mechanism is movably connected to the movable frame and used for pushing against the second heat sealing plate and sliding along the length direction of the second heat sealing plate under the driving of the movable frame when the second heat sealing plate moves so as to scrape the residual glue on the second heat sealing plate.

9. The delivery system for an axial piston pump of claim 8,

the first heat sealing plate and the second heat sealing plate are respectively positioned at two sides of the sealing hole, and the movable frame moves along the length direction of the sealing hole to drive the sealing hole to approach to the opening of the plastic bag, so that the plastic bag is sealed;

after the plastic bag is sealed by the first heat-sealing plate and the second heat-sealing plate, the movable frame moves along the length direction of the sealing hole to drive the first heat-sealing plate and the second heat-sealing plate to be away from the sealing position of the plastic bag, and the first glue scraping mechanism and the second glue scraping mechanism respectively slide along the length direction of the first heat-sealing plate and the length direction of the second heat-sealing plate to scrape residual glue on the first heat-sealing plate and the second heat-sealing plate.

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