CN209935135U - Pneumatic pressurizing glue injection machine - Google Patents

Abstract

The utility model relates to a pneumatic pressurizing glue injection machine, which comprises a skip car and a material cylinder arranged on the skip car, wherein the material cylinder is connected with a pneumatic liquid booster pump through a glue inlet pipeline, the pneumatic liquid booster pump is connected with a shunt through a glue outlet pipeline, and the shunt is connected with a plurality of injectors through a plurality of injection pipelines; the pneumatic liquid booster pump is connected with an air compressor which is used for providing an air source for the pneumatic liquid booster pump. This pneumatic pressurization injecting glue machine is equipped with pneumatic liquid booster pump between feed cylinder and shunt, pneumatic liquid booster pump can carry out the pressure boost to the liquid of various non-corrosiveness, pneumatic liquid booster pump can increase the pressure that silica gel flows in the gluey pipeline of play, can extrude silica gel to biological tissue's more depths, make silica gel can infiltrate the deep of biological tissue, and silica gel infiltrates more fully, make the comparatively closely knit that silica gel filled in the biological tissue, under vacuum environment, biological tissue is difficult for producing the shrink deformation scheduling problem.

Description

Pneumatic pressurizing glue injection machine

Technical Field

The utility model belongs to the technical field of the automatic mucilage binding that supplies of injecting glue machine, concretely relates to pneumatic pressurization injecting glue machine.

Background

Bioplasticization is a special technique that can preserve tissue like a living body. Under the vacuum condition, the living beings specimen is permeated by active high molecular polymer such as silica gel, epoxy resin and the like, i.e. the silica gel, the epoxy resin and the like are injected into the living beings tissue. Silica gel is typically injected into biological tissue using a gel injection machine. When the existing injection molding machine plasticizes the specimen, the deep infiltration and replacement are not in place in the silica gel infiltration process, and the specimen is extruded under the vacuum environment to cause the problems of shrinkage, deformation and the like.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a gas pressurization injection molding machine soaks not in place and can make the sample produce the technical problem of shrinkage and deformation in order to solve current injection molding machine silica gel deep when biological plastify easily.

In order to realize the above purpose, the utility model discloses the technical scheme who takes does: the pneumatic pressurizing glue injection machine comprises a skip car and a material cylinder arranged on the skip car, wherein the material cylinder is connected with a pneumatic liquid booster pump through a glue inlet pipeline, the pneumatic liquid booster pump is connected with a flow divider through a glue outlet pipeline, and the flow divider is connected with a plurality of injectors through a plurality of injection pipelines; the pneumatic liquid booster pump is connected with an air compressor which is used for providing an air source for the pneumatic liquid booster pump.

Furthermore, the pneumatic liquid booster pump is connected with the air compressor through an air inlet pipeline, and an oil-water separator for separating water is arranged between the air compressor and the pneumatic liquid booster pump.

Further, the shunt is including dividing the main pipe and a plurality of reposition of redundant personnel to connect, and injection line connects on dividing the reposition of redundant personnel and connecting, is equipped with the injection control valve that is used for flow control on dividing the reposition of redundant personnel to connect.

Further, the skip includes the lower sweep of lower floor, the last sweep on upper strata and is used for supporting and connecting the support of sweep and last sweep down, and pneumatic liquid booster pump sets up under on the sweep, and the feed cylinder setting is on last sweep, and the feed cylinder bottom is equipped with the glue introduction joint that is arranged in introducing the material in the feed cylinder to gluey pipeline, goes into gluey pipeline cover and establishes on the glue introduction joint, goes into to be equipped with the pressure-increasing control valve that is used for controlling the material flow who gets into pneumatic liquid booster pump from the feed cylinder on gluey pipeline.

Furthermore, the feed cylinder is of a cylindrical structure, the bottom of the feed cylinder is fixed on the upper turning plate, and glue outlet holes matched with the glue leading connectors are formed in the bottom of the feed cylinder and the upper turning plate.

Further, the support includes fore-stock and after-poppet, and the after-poppet is higher than the fore-stock, and the shunt sets up on the after-poppet, and oil water separator sets up on the fore-stock.

Furthermore, the front support is also provided with a control assembly for adjusting and controlling the air compressor, and the control assembly comprises a pressure regulating valve for regulating the pressure of the air compressor and a pressure gauge for displaying the pressure.

The utility model has the advantages that:

the utility model discloses a pneumatic pressurization injecting glue machine, be equipped with pneumatic liquid booster pump between feed cylinder and shunt, pneumatic liquid booster pump uses gas pressure as the power supply, can carry out the pressure boost to various non-corrosive liquid, pneumatic liquid booster pump can increase the pressure that silica gel flows in the gluey pipeline of play, can extrude silica gel to the more depths of biological tissue, make the deep of biological tissue can be infiltrated to silica gel, and the more plump that silica gel infiltrated, the replacement is comparatively thorough, make the comparatively closely knit that silica gel filled in the biological tissue, can prop the pad with the position of warping, even under vacuum environment, biological tissue is difficult for producing the shrink deformation scheduling problem yet.

Drawings

FIG. 1 is a schematic view of a pneumatic pressurized glue injection machine in example 1;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

FIG. 3 is an enlarged view of a portion of FIG. 1 at B;

fig. 4 is a schematic view of the working principle of the pneumatic pressurized glue injection machine in embodiment 1.

In the figure: 1. a skip car; 11. a lower vehicle plate; 111. a fixed mount; 12. a vehicle loading plate; 13. a support; 131. a front bracket; 132. a rear bracket; 2. a charging barrel; 21. a glue inlet pipeline; 22. a glue leading joint; 23. a pressure increasing control valve; 3. a pneumatic liquid booster pump; 31. a glue outlet pipeline; 4. a flow divider; 41. a main flow distribution pipe; 42. a tap joint; 43. an injection conduit; 44. an injection control valve; 5. an injector; 6. an air compressor; 61. an air intake duct; 7. an oil-water separator; 8. a control component; 81. a pressure regulating valve; 82. a pressure gauge; 9. a universal wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art all belong to the protection scope of the present invention.

The embodiment of the pneumatic pressurized glue injection machine of the utility model is shown in figures 1-4.

Example 1

The pneumatic pressurization glue injection machine of this embodiment includes skip 1 and sets up feed cylinder 2 on the skip, and skip 1 includes lower sweep 11, the last sweep 12 and the support 13 that is used for supporting and connecting lower sweep and last sweep of lower floor. Go up the sweep and get off the sweep and be square flat structure, the feed cylinder sets up on last sweep, and the feed cylinder is cylindric structure, and the bottom of feed cylinder is fixed on last sweep through the bolt-up to improve overall structure's stability. The bracket 13 includes a front bracket 131 and a rear bracket 132, which is higher than the front bracket. The front support comprises two front support rods, and the top and the bottom of each front support rod are respectively fixedly connected with the upper frame and the lower frame. The rear support comprises two rear supporting rods and a cross rod fixed at the tops of the rear supporting rods, and the bottoms of the rear supporting rods are fixed on the lower vehicle plate. The charging barrel and the bracket are made of stainless steel. The size of the cartridge is determined by the charge size.

The charging barrel 2 is connected with a pneumatic liquid booster pump 3 through a glue inlet pipeline 21, the pneumatic liquid booster pump 3 is fixedly arranged on the lower vehicle plate 11, and a fixing frame 111 for fixing the pneumatic liquid booster pump is arranged on the lower vehicle plate 11. The pneumatic liquid booster pump 3 is connected with a flow divider 4 through a glue outlet pipe 31, and the flow divider 4 is fixedly arranged on the rear bracket 132. The flow divider 4 comprises a flow dividing main pipe 41 and four flow dividing joints 42, wherein the flow dividing main pipe is connected with the glue outlet pipeline, and the flow dividing joints are fixed on the flow dividing main pipe and communicated with the flow dividing main pipe. Each flow dividing joint 42 is connected with an injection pipeline 43, the flow divider is connected with four injectors 5 through four injection pipelines, an injection control valve 44 used for controlling the injection flow and the flow rate of the injectors is arranged on the flow dividing joint 42, the injection control valve is a manual valve, and the flow rate of silica gel injected by the injectors can be adjusted by screwing the injection control valve back and forth. The shunt can divide a plurality of injection pipelines, and every injection pipeline all is connected with the syringe, and a plurality of syringes can carry out the silica gel injection simultaneously, improves work efficiency.

The pneumatic liquid booster pump 3 is connected with an air compressor 6 for providing an air source for the pneumatic liquid booster pump 3. The pneumatic liquid booster pump is connected with the air compressor through an air inlet pipeline 61, and an oil-water separator 7 for separating water is arranged between the air compressor and the pneumatic liquid booster pump. The oil-water separator 7 can separate impurities such as condensed water and oil in the compressed air, and the impurities are prevented from entering biological tissues along with the silica gel.

The bottom of the charging barrel 2 is provided with a glue guiding joint 22 for guiding the materials in the charging barrel 2 to the glue inlet pipeline 21, the glue inlet pipeline 21 is sleeved on the glue guiding joint 22, and the glue guiding joint 22 can smoothly guide the silica gel into the glue inlet pipeline from the charging barrel. And a pressurizing control valve 23 for controlling the flow of the material entering the pneumatic liquid booster pump from the material barrel is arranged on the glue inlet pipeline 21, and the pressurizing control valve can be used for controlling the flow and the flow rate of the silica gel flowing into the pneumatic liquid booster pump from the material barrel. The bottom of the charging barrel and the upper turning plate are both provided with glue outlet holes (not shown in the figure) matched with the glue leading connectors, and the glue outlet holes are convenient for the glue leading connectors to penetrate through the bottom of the upper turning plate and the charging barrel.

The oil-water separator 7 is provided on the front bracket 131. The front bracket 131 is also provided with a control assembly 8 for adjusting and controlling the air compressor, and the control assembly 8 is fixed on the front bracket 131. The control module 8 comprises a pressure regulating valve 81 for regulating the pressure of the air compressor and a pressure gauge 82 for indicating the pressure. Silica gel is different at the resistance that the biological tissue of difference flowed and received, and the manometer can show air compressor's pressure, is convenient for monitor and is convenient for use the air-vent valve to adjust to adapt to different biological tissue. The pressure regulating valve and the pressure gauge are of the existing structures, and the existing structures are adopted for regulating and monitoring the air compressor by the pressure regulating valve and the pressure gauge.

Four universal wheels 9 are further fixed at the bottom of the skip car 1, so that the skip car can be conveniently moved to a proper position.

Example 2

The pneumatic pressure glue injection machine described in the present embodiment has a general structure that is the same as that of embodiment 1, but is different from embodiment 1 in that: the charging barrel is of a square tubular structure.

Example 3

The pneumatic pressure glue injection machine described in the present embodiment has a general structure that is the same as that of embodiment 1, but is different from embodiment 1 in that: the flow divider comprises a flow dividing main pipe and six flow dividing joints, and injection control valves used for controlling the injection flow and the flow rate of the injector are arranged on the flow dividing joints.

Claims (7)

1. Pneumatic pressurization injecting glue machine, its characterized in that: the pneumatic liquid booster pump is connected with a flow divider through a glue outlet pipeline, and the flow divider is connected with a plurality of injectors through a plurality of injection pipelines; the pneumatic liquid booster pump is connected with an air compressor which is used for providing an air source for the pneumatic liquid booster pump.

2. The pneumatic pressure glue injection machine according to claim 1, characterized in that: the pneumatic liquid booster pump is connected with the air compressor through an air inlet pipeline, and an oil-water separator for separating water is arranged between the air compressor and the pneumatic liquid booster pump.

3. The pneumatic pressure glue injection machine according to claim 1, characterized in that: the shunt is responsible for and a plurality of reposition of redundant personnel connects including the reposition of redundant personnel, and injection line connects on the reposition of redundant personnel connects, is equipped with the injection control valve that is used for the control flow on the reposition of redundant personnel connects.

4. The pneumatic pressure glue injection machine according to claim 1, characterized in that: the skip includes the lower sweep of lower floor, the last sweep on upper strata and is used for supporting and connecting the support of sweep and last sweep down, and pneumatic liquid booster pump sets up under on the sweep, and the feed cylinder sets up on last sweep, and the feed cylinder bottom is equipped with and is used for leading the material in the feed cylinder to the gluey joint of drawing of going into gluey pipeline, goes into gluey pipeline cover and establishes on leading the gluey joint, goes into to be equipped with the pressure-increasing control valve that is used for controlling the material flow who gets into pneumatic liquid booster pump from the feed cylinder on gluey pipeline.

5. The pneumatic pressure glue injection machine according to claim 4, characterized in that: the feed cylinder is cylindric structure, and the bottom of feed cylinder is fixed on going up the sweep, all be equipped with on feed cylinder bottom and the last sweep and lead gluey joint complex and go out gluey hole.

6. The pneumatic pressure glue injection machine according to claim 1, characterized in that: the support includes fore-stock and after-poppet, and the after-poppet is higher than the fore-stock, and the shunt sets up on the after-poppet, and oil water separator sets up on the fore-stock.

7. The pneumatic pressure glue injection machine according to claim 6, characterized in that: the front support is also provided with a control assembly for adjusting and controlling the air compressor, and the control assembly comprises a pressure regulating valve for regulating the pressure of the air compressor and a pressure gauge for displaying the pressure.

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