CN102319833A

CN102319833A - Vacuum-pumping and synchronous packaging device for superconducting heat pipe

Info

Publication number: CN102319833A
Application number: CN201110203969A
Authority: CN
Inventors: 张爱军; 刘杰
Original assignee: Individual
Current assignee: Shandong Qingdi Energy Co Ltd
Priority date: 2011-07-20
Filing date: 2011-07-20
Publication date: 2012-01-18
Anticipated expiration: 2031-07-20
Also published as: CN102319833B

Abstract

The invention relates to a vacuum-pumping and synchronous packaging device for a superconducting heat pipe. The device mainly comprises a machine head part, a hydraulic part, a vacuum-pumping part and a support part, wherein the machine head part is arranged at the top end of the support part, the vacuum-pumping part is arranged at the lower end of the support part, a hydraulic working station of the hydraulic part is connected with an oil cylinder of the machine head part through an electromagnetic reversing valve and a high-pressure oil pipe, and a vacuum pump of the vacuum-pumping part is connected with a vacuum suction nozzle of the machine head part through a pipeline and a vacuum gauge. When the device provided by the invention is in use, the hydraulic working station and a power supply of the vacuum pump are switched on, the tail part of the heat pipe which is well perfused with a working medium is inserted into a suction nozzle seal ring at the lower end of the suction nozzle from a workpiece insertion hole, a switch of the vacuum pump is pressed, when a pointer of the vacuum gauge achieves the set value, a hydraulic reversing switch is pressed, a piston rod of the oil cylinder is pushed out for performing forward extrusion motion, an opposite pressing sliding block is used for extruding symmetrical extrusion knives from the two sides to an air extraction pipe at the tail end of the heat pipe, the tail end of the heat pipe subjected to vacuum-pumping is squashed and closed, and the device has the advantages of simple structure, convenience in operation, reliable quality and the like.

Description

A kind of super heat-conductive pipe vacuumizes synchronous sealed in unit

Technical field

The present invention relates to a kind of super heat-conductive pipe and vacuumize synchronous sealed in unit, belong to super heat-conductive pipe manufacturing technology field.

Background technology

In the present super heat-conductive pipe production process, vacuumize and encapsulate extruding and do not have the production technology of carrying out synchronously, fill heat pipe cavity behind the working media with after vavuum pump is connected; Reach when setting limit when vacuumizing; Push sealing by hand-held hydraulic pincers or non-Unitary compression tool opposite heat tube afterbody capillary, get into following one welded seal operation, inefficiency then; Extruding dynamics disunity forms easily and leaks and defective work.

Summary of the invention

The present invention is directed to the deficiency of prior art, provide a kind of reasonable in design, easy to use, the high-efficiency reliable super heat-conductive pipe vacuumizes synchronous sealed in unit, has advantages such as simple in structure, easy to operate, reliable in quality.

The objective of the invention is to realize through following technical scheme: a kind of super heat-conductive pipe vacuumizes synchronous sealed in unit; Form by head section, hydraulic part, vacuumized part and holder part four parts; Wherein, Head section is arranged at holder part topmost; Vacuumized part is arranged at the holder part lower end, and the hydraulic workstation of hydraulic part is connected with the oil cylinder of head section through solenoid directional control valve and high-pressure oil pipe, and the vavuum pump of vacuumized part is connected with the vacuum slot of head section through pipeline and vacuum meter.

Each several part concrete structure: 1, head section: push cutter, extruding cutter return spring, workpiece patchhole, vacuum slot, suction nozzle sealing ring, form to pressing 11 parts such as sliding shoe, sliding shoe return spring, sliding shoe guide pillar by fixing branch frame plate, head rotating shaft, central slide piece, symmetry; Wherein, The fixed support front edge of board is provided with the central slide piece; Be respectively equipped with in central slide piece both sides band sliding shoe return spring to pressing sliding shoe; And three sliding shoes pass the sliding shoe guide pillar of two symmetries simultaneously, and the horizontal direction of central slide piece is provided with the symmetry extruding cutter that has extruding cutter return spring, is provided with the workpiece patchhole in the bottom with extruding cutter vertical direction; Top is provided with the suction nozzle of band suction nozzle sealing ring, and suction nozzle is connected with the vavuum pump of third part through pipeline; The both sides position of centre of gravity of fixing branch frame plate is provided with the head rotating shaft, is fixed with oil cylinder at the rear portion of fixing branch frame plate, and this oil cylinder is connected with hydraulic workstation through the high-pressure oil pipe and the solenoid directional control valve of part 2.2, hydraulic part: form by 5 parts such as hydraulic workstation, oil cylinder, solenoid directional control valve, high-pressure oil pipe, hydraulic pressure reversing switches; Wherein, Hydraulic workstation is connected with oil cylinder with high-pressure oil pipe through solenoid directional control valve, and the hydraulic pressure reversing switch is connected with solenoid directional control valve through electric line.3, vacuumized part: form by 5 parts such as vavuum pump, vacuum filtration jar, vacuum line, vacuum meter, vacuum pump switch; Wherein, Vavuum pump is connected with vacuum pump switch through control circuit, is connected with the suction nozzle of head section with vacuum filtration jar, vacuum meter through vacuum line simultaneously.4, holder part: be made up of 4 parts such as column, vavuum pump platform, guidance panel and head shaft seats, wherein, column is connected as a whole with parts such as vavuum pump platform, guidance panel and head shaft seats.

Described central slide piece is the core part of head section, and its horizontal center line is provided with the through hole of rectangle, and vertical center line is provided with manhole; And manhole and rectangular through-hole are perpendicular and perforation, at the two ends of rectangular through-hole, are respectively equipped with a symmetry extruding cutter; Between symmetry extruding cutter and central slide piece both side surface, be provided with extruding cutter return spring, the upper end of manhole is provided with suction nozzle, and the lower end is the workpiece patchhole; Both sides before and after the central slide piece; The i.e. symmetry extruding cutter outside is provided with pressing sliding shoe, is equipped with the sliding shoe return spring to pressing between sliding shoe and the central slide piece.

The squeezing knife tools that described symmetrical extruding cutter is two measure-alike form symmetries are processed by hard material, and symmetry extruding cutter inboard is a circular arc with the workpiece contact surface; The outside is a platform that stretches out; Platform is provided with extruding cutter return spring, and extruding cutter return spring is a stage clip, outwards ejects symmetry extruding cutter respectively; Make between two cuttves to keep certain interval, workpiece can stretch in the sealing ring of suction nozzle through this gap.

Described vacuum filtration jar is the closed cavity that is formed by one section transparent pipe of ring flange clamping at two ends up and down; Function with linker and discharge liquid; A ring flange is provided with three vacuum line interfaces in the above; Be connected with vacuum meter, vavuum pump and suction nozzle respectively, below ring flange be provided with the screw of the band sealing gasket of discharge liquid.

When the present invention uses, connect hydraulic workstation and vacuum-pump power supply, with the heat pipe afterbody that has poured into working medium from workpiece inserts in the hole the suction nozzle sealing ring that is inserted into the suction nozzle lower end; Press vacuum pump switch, when the vacuum list index reaches setting value, pull the hydraulic pressure reversing switch; The oil cylinder piston bar is released compressional movement forward, pushes from both sides to heat pipe tail end exhaust tube pressing sliding shoe that symmetry is pushed cutter, and the heat pipe tail end after vacuumizing is flattened sealing; Oppositely pull the hydraulic pressure reversing switch; The withdrawal of oil cylinder piston bar is returned pressing sliding shoe and symmetry extruding cutter under the return spring effect, to eject, and accomplishes an operation cycle.

Description of drawings

Fig. 1 is an overall structure sketch map of the present invention;

Fig. 2 is the anatomical structure sketch map of head section.

Wherein: 1, head section: 1-1 fixing branch frame plate, the rotating shaft of 1-2 head, 1-3 central slide piece, 1-4 symmetry extruding cutter, 1-5 extruding cutter return spring, 1-6 workpiece patchhole, 1-7 vacuum slot, 1-8 suction nozzle sealing ring, 1-9 are to pressing sliding shoe, 1-10 sliding shoe return spring, 1-11 sliding shoe guide pillar; 2, hydraulic part: 2-1 hydraulic workstation, 2-2 oil cylinder, 2-3 solenoid directional control valve, 2-4 high-pressure oil pipe, 2-5 hydraulic pressure reversing switch; 3, vacuumized part: 3-1 vavuum pump, 3-2 vacuum filtration jar, 3-3 vacuum line, 3-4 vacuum meter, 3-5 vacuum pump switch; 4, holder part: 4-1 column, 4-2 vavuum pump platform, 4-3 guidance panel, 4-4 head shaft seat.

The specific embodiment

Embodiment: structure such as Fig. 1, shown in Figure 2; Form by head section, hydraulic part, vacuumized part and holder part four parts; Wherein, head section is arranged at holder part topmost, and vacuumized part is arranged at the holder part lower end; The hydraulic workstation of hydraulic part is connected with the oil cylinder of head section through solenoid directional control valve and high-pressure oil pipe, and the vavuum pump of vacuumized part is connected with the vacuum slot of head section through pipeline and vacuum meter.During use, connect hydraulic workstation and vacuum-pump power supply, with the heat pipe afterbody that has poured into working medium from workpiece inserts in the hole the suction nozzle sealing ring that is inserted into the suction nozzle lower end; Press vacuum pump switch, when the vacuum list index reaches setting value, pull the hydraulic pressure reversing switch; The oil cylinder piston bar is released compressional movement forward, pushes from both sides to heat pipe tail end exhaust tube pressing sliding shoe that symmetry is pushed cutter, and the heat pipe tail end after vacuumizing is flattened sealing; Oppositely pull the hydraulic pressure reversing switch; The withdrawal of oil cylinder piston bar is returned pressing sliding shoe and symmetry extruding cutter under the return spring effect, to eject, and accomplishes an operation cycle.

Claims

1. a super heat-conductive pipe vacuumizes synchronous sealed in unit; It is characterized in that, mainly form, wherein by head section, hydraulic part, vacuumized part and holder part four parts; Head section is arranged at holder part topmost; Vacuumized part is arranged at the holder part lower end, and the hydraulic workstation of hydraulic part is connected with the oil cylinder of head section through solenoid directional control valve and high-pressure oil pipe, and the vavuum pump of vacuumized part is connected with the vacuum slot of head section through pipeline and vacuum meter.

2. a kind of super heat-conductive pipe according to claim 1 vacuumizes synchronous sealed in unit, it is characterized in that, described central slide piece is the core part of head section; Its horizontal center line is provided with the through hole of rectangle, and vertical center line is provided with manhole, and manhole and rectangular through-hole is perpendicular and connect; At the two ends of rectangular through-hole, be respectively equipped with a symmetry extruding cutter, between symmetry extruding cutter and central slide piece both side surface, be provided with extruding cutter return spring; The upper end of manhole is provided with suction nozzle; The lower end is the workpiece patchhole, both sides before and after the central slide piece, i.e. the symmetry extruding cutter outside; Be provided with pressing sliding shoe, be equipped with the sliding shoe return spring pressing between sliding shoe and the central slide piece.

3. a kind of super heat-conductive pipe according to claim 1 vacuumizes synchronous sealed in unit, it is characterized in that, described symmetry extruding cutter is the squeezing knife tool of two measure-alike form symmetries; Process by hard material; Symmetry extruding cutter inboard is a circular arc with the workpiece contact surface, and the outside is a platform that stretches out, and platform is provided with extruding cutter return spring; Extruding cutter return spring is a stage clip; Outwards eject symmetry extruding cutter respectively, make between two cuttves to keep certain interval, workpiece stretches in the sealing ring of suction nozzle through this gap.

4. a kind of super heat-conductive pipe according to claim 1 vacuumizes synchronous sealed in unit; It is characterized in that; Described vacuum filtration jar is the closed cavity that is formed by one section transparent pipe of ring flange clamping at two ends up and down, linker and discharge liquid, and a ring flange is provided with three vacuum line interfaces in the above; Be connected with vacuum meter, vavuum pump and suction nozzle respectively, below ring flange be provided with the screw of the band sealing gasket of discharge liquid.