CN209273069U - Micro filling spray cooling device - Google Patents

Abstract

The utility model relates to a kind of micro filling spray cooling devices, including control cabinet and distributor, and the control cabinet includes control cabinet and fluid reservoir；The control cabinet is equipped with intake valve, the first solenoid valve, second solenoid valve；The intake valve includes air inlet and the first gas outlet, the second gas outlet, the air inlet and compressed gas source piping connection of the intake valve, the first gas outlet and fluid reservoir piping connection, the air inlet piping connection of the second gas outlet and the first solenoid valve；The gas outlet of first solenoid valve and the air inlet piping connection of distributor；The inlet piping connection of the liquid outlet piping connection of described second solenoid valve one end and fluid reservoir, the other end and distributor.The utility model has the particular advantages such as install convenient, micro, environmentally friendly and movable operation.

Description

Micro filling spray cooling device

Technical field

The utility model relates to a kind of micro filling spray cooling devices, are in particular a kind of micro coolant liquid atomizations The cooling device of injection belongs to lathe metal cutting cooling technology field.

Background technique

Coolant liquid is passed through connection using the dispenser pump in liquid storage tank cooling built in lathe, pumping by the traditional machine tool type of cooling Pipeline is flushed in the workpiece surface that machine tool and cutter close on, cooling machine tool, and takes away metal cutting process The heat of generation.Existing lathe cooling system is arranged inside lathe, is flushed in machine tool with a large amount of coolant liquids by pipeline The workpiece surface closed on cutter, cooling effect is general, and coolant consumption amount is big, and coolant liquid splashing causes ring around lathe Border pollution, or even formed largely to the harmful coolant liquid chemical vapor of machine operation person's human respiratory, it is not able to satisfy higher The metal cutting cooling requirement of efficiency, more especially currently without or can not install the traditional machine tool of cooling system and some additional Hand-held mobile metal-cutting machine tool, cutter and lathe itself do not obtain effective cooling protection, cutter longevity when machining Order short, lathe abrasion is big, and Workpiece Machining Accuracy and surface smoothness are unable to reach drawing regulation requirement sometimes.

Utility model content

The shortcomings that technical problem to be solved in the utility model is, overcomes the prior art, provide a kind of good cooling results, The micro filling cooling device of low, clean environmental protection is lost in coolant liquid.

In order to solve the above technical problems, the utility model provides a kind of micro filling spray cooling device, including control Cabinet and distributor, it is characterised in that: the control cabinet includes control cabinet and fluid reservoir；The control cabinet is equipped with air inlet Valve, the first solenoid valve, second solenoid valve；The intake valve includes air inlet and the first gas outlet, the second gas outlet, the air inlet The air inlet and compressed gas source piping connection of valve, the first gas outlet and fluid reservoir piping connection, the second gas outlet and the first electromagnetism The air inlet piping connection of valve；The gas outlet of first solenoid valve and the air inlet piping connection of distributor；Second electricity The inlet piping connection of the liquid outlet piping connection of magnet valve one end and fluid reservoir, the other end and distributor.

The technical solution that the utility model further limits are as follows: be equipped on pipeline between intake valve and the first solenoid valve Safety valve and the first pressure regulator valve.

Further, the second pressure regulator valve is installed on pipeline between intake valve and fluid reservoir.

Further, the distributor includes ontology and is arranged in intrinsic cavity lane；The first body side wall Equipped with the distributor air inlet and inlet；The cavity lane include the fluid passage being connect with distributor inlet and with point The air flue of orchestration air inlet connection；The fluid passage at least bifurcates fluid passage, and branch fluid passage one end is connected with liquid stream adjusting Valve, the other end are connected to by punching casing with the liquid transmission line of gas-liquid coaxial transmission pipeline；The air flue passes through air-flow tune It is divided into bypassed airways identical with branch fluid passage quantity after section valve；The gas delivery tube of bypassed airways and gas-liquid coaxial transmission pipeline Road connection；The end of the liquid transmission line is equipped with nozzle core.

Further, the gas-liquid coaxial transmission pipeline is ball-joint jet pipe；Liquid stream is coaxially provided with inside the ball-joint jet pipe Hose constitutes gas delivery conduit between the liquid stream hose outer tube wall and ball-joint nozzle wall；The nozzle core is installed on liquid Flow the end of hose.

Further, the end of the ball-joint jet pipe is equipped with the nozzle cage being connected to gas delivery conduit；The nozzle core It is installed in nozzle cage, and there are the gaps for gas-liquid mixed between nozzle of the nozzle core away from nozzle cage end.

The beneficial effects of the utility model are: the utility model has install convenient, micro, environmentally friendly and movable operation etc. Particular advantages, applying on existing lathe has install or reequip the convenient, response quickly that works additional, efficient, ulv spraying is cooling etc. Feature；Workpiece surface is dry clean and tidy after processing, improves operating environment, improves occupational health and safety；The cutter longevity is greatly improved Life reduces lathe abrasion, and then improves production efficiency, and metal cutting process unit cost is effectively reduced.In addition distributor can be with Gas-liquid two-way or multiplexing are carried out, Multipoint synchronous spray cooling is realized, improves atomized spray efficiency, meet multiplexing The requirement of position work；Secondly gas-liquid coaxially exports, simple for structure, good appearance.Therefore, this infrastructure product is a kind of ideal height The metal cutting process cooling system of effect.

Detailed description of the invention

Fig. 1 is the stereochemical structure schematic diagram of the utility model embodiment 1.

Fig. 2 is the overall structure main view of the utility model embodiment 1.

Fig. 3 is the distributor stereochemical structure enlarged diagram of the utility model embodiment 1.

Fig. 4 is the enlarged front view of Fig. 3 structure.

Fig. 5 is the amplification main sectional view of Fig. 3 structure.

Fig. 6 is the sectional view along A-A of Fig. 4 structure.

Specific embodiment

The utility model is described further with reference to the accompanying drawings and detailed description.

Embodiment 1

Micro filling spray cooling device provided in this embodiment, as shown in Figs. 1-2: including at least control cabinet and coaxially Distributor, the control cabinet includes control cabinet 13 and fluid reservoir 18.

Control cabinet 13 is equipped with intake valve 19, the first solenoid valve 22, second solenoid valve 21；The intake valve includes air inlet With the first gas outlet, the second gas outlet, the air inlet of the intake valve 19 and compressed gas source piping connection, the first gas outlet and storage 18 piping connection of flow container, the air inlet piping connection of the second gas outlet and the first solenoid valve 22；First solenoid valve 22 goes out 3 piping connection of air inlet of port and coaxial distributor；The liquid outlet pipeline of described 21 one end of second solenoid valve and fluid reservoir 18 Connection, 4 piping connection of inlet of the other end and coaxial distributor.

Preferably, as seen in figures 3-6, the coaxial distributor in the present embodiment includes ontology 1 and is arranged in ontology 1 Cavity lane 2, the right side wall of ontology 1 is equipped with air inlet 3 and an inlet 4 described in one；1 front side wall of ontology is equipped with One barometric damper 5, liquid stream regulating valve 6 and liquid stream regulating valve 7.

Cavity lane 2 includes fluid passage 2-1 and air flue 2-2；Fluid passage 2-1 bifurcates fluid passage, two branch fluid passage one end difference It is connect with liquid stream regulating valve 6, liquid stream regulating valve 7, the other end passes through respectively in punching casing 8 and gas-liquid coaxial transmission pipeline 9 Liquid transmission line 9-1 connection, the end of liquid transmission line 9-1 is equipped with nozzle core 10.

The one end air flue 2-2 is connected to air inlet 3, and the other end is divided into two gas channels 2-2- after passing through barometric damper 5 1,2-2-2；Two gas circuit by-paths are connected to the gas delivery conduit 9-2 in gas-liquid coaxial transmission pipeline 9 respectively.

Preferably, the gas-liquid coaxial transmission pipeline 9 in the present embodiment is ball-joint jet pipe；It is coaxial inside the ball-joint jet pipe Equipped with liquid stream hose, the liquid stream hose constitutes liquid transmission line 9-1；The liquid stream hose outer tube wall and ball-joint nozzle wall Between constitute gas delivery conduit 9-2；The nozzle core is installed on the end of liquid stream hose.

Preferably, the present embodiment is equipped with safety valve 20 and between intake valve 19 and the first solenoid valve 22 on pipeline One pressure regulator valve 14.

Preferably, the present embodiment is equipped with the second pressure regulator valve 15 between intake valve 19 and fluid reservoir 18 on pipeline.

Preferably, the end of ball-joint jet pipe is equipped with the nozzle cage 11 for disposing nozzle core in the present embodiment.

Preferably, barometric damper and liquid stream regulating valve are outsourcing piece in the present embodiment, model is that Ya De visitor is unidirectional Throttle valve A SC200-08.

Preferably, the top of the coaxial distributor body 1 in the present embodiment is additionally provided with fluid passage plug 12.

The working principle of the utility model are as follows: after power supply line 17 powers on, turn on the switch 16, the first, second solenoid valve Open valve simultaneously, compressed gas enter after intake valve and enter all the way after the second pressure regulator valve fluid reservoir, it is hydraulic drive it is cold in tank But liquid enters coaxial distributor entrance by perfusion tube 24 by the second solenoid valve opened, then by two on coaxial distributor A liquid stream regulating valve reaches nozzle by two co-axial nozzles, forms coolant liquid jet stream；Another way compressed gas by safety valve, First pressure regulator valve enters the first solenoid valve, reaches another entrance of coaxial distributor by appendix 23, then by coaxial distributor On a barometric damper reach nozzles, coolant liquid and compressed air by two co-axial nozzles and mixed in nozzle exit, Micro coolant liquid is sufficiently atomized, the workpiece surface that machine tooling cutter and cutter close on is ejected into, it is cold to form efficient spray But.

In addition to the implementation, the utility model can also have other embodiments.It is all to use equivalent replacement or equivalent change The technical solution to be formed is changed, the protection scope of the requires of the utility model is all fallen within.

Claims (6)

1. micro filling spray cooling device, including control cabinet and distributor, it is characterised in that: the control cabinet includes control Case and fluid reservoir processed；The control cabinet is equipped with intake valve, the first solenoid valve, second solenoid valve；The intake valve includes air inlet Mouth and the first gas outlet, the second gas outlet, the air inlet and compressed gas source piping connection of the intake valve, the first gas outlet and storage Flow container piping connection, the air inlet piping connection of the second gas outlet and the first solenoid valve；The gas outlet of first solenoid valve with The air inlet piping connection of distributor；The liquid outlet piping connection of described second solenoid valve one end and fluid reservoir, the other end with point The inlet piping connection of orchestration.

2. micro filling spray cooling device according to claim 1, it is characterised in that: in intake valve and the first solenoid valve Between safety valve and the first pressure regulator valve are installed on pipeline.

3. micro filling spray cooling device according to claim 2, it is characterised in that: between intake valve and fluid reservoir Second pressure regulator valve is installed on pipeline.

4. micro filling spray cooling device according to claim 3, it is characterised in that: the distributor include ontology and It is arranged in intrinsic cavity lane；The first body side wall is equipped with the distributor air inlet and inlet；The chamber Body channel includes the fluid passage connecting with distributor inlet and the air flue that connect with distributor air inlet；The fluid passage is at least divided to two Branch fluid passage, branch fluid passage one end are connected with liquid stream regulating valve, and the other end passes through punching casing and gas-liquid coaxial transmission pipe The liquid transmission line in road is connected to；The air flue is divided into branch gas identical with branch fluid passage quantity after passing through barometric damper Road；Bypassed airways are connected to the gas delivery conduit of gas-liquid coaxial transmission pipeline；The end of the liquid transmission line is equipped with Nozzle core.

5. micro filling spray cooling device according to claim 4, it is characterised in that: the gas-liquid coaxial transmission pipeline For ball-joint jet pipe；Liquid stream hose, the liquid stream hose outer tube wall and ball-joint nozzle wall are coaxially provided with inside the ball-joint jet pipe Between constitute gas delivery conduit；The nozzle core is installed on the end of liquid stream hose.

6. micro filling spray cooling device according to claim 5, it is characterised in that: the end of the ball-joint jet pipe is set There is the nozzle cage being connected to gas delivery conduit；The nozzle core is installed in nozzle cage, and nozzle core is away from nozzle cage end There are the gaps for gas-liquid mixed between nozzle.