CN205327887U - Oily automatic discharge system is amassed in vacuum - Google Patents

Abstract

The utility model discloses an oily automatic discharge system is amassed in vacuum, including vacuum pump and numerical control device, still include an oil and gas separator, be provided with liquid level sensilla switch in the oil and gas separator, oil and gas separator bottom is equipped with the oil -out, be provided with the fourth pneumatic valve on the oil -out, the oil -out is connected with the oil storage tank through the vacuum pipe, the oil storage tank bottom is provided with the oil drain port, an oil and gas separator's income gas port passes through the vacuum pipe and is connected formation income gas passageway with the numerical control device, it still is provided with the second exhaust passage to go into between gas passageway and the exhaust passage, be provided with liquid level early warning device in the oil and gas separator of this product, but when predetermined altitude is arrived to the liquid level trigger sensor, realize automatic oil extraction, need not artificial intervention, the reliability promotes by a wide margin, be provided with the second exhaust passage, can realize not shutting down the oil extraction, save a large amount of oil extraction time for every numerical control device every day, improved production efficiency, dwindle the production process.

Description

A kind of vacuum deposited oil automatic discharge system

Technical field

This utility model relates to numerical control device, particularly relates to a kind of vacuum deposited oil automatic discharge system。

Background technology

In recent years, along with CNC numerical control device progressively large-scale application is in every field, traditional mechanical grip and pneumatic method of clamping can not meet needs of production, vac sorb clamping is in industry just widely used as a kind of convenient and reliable installation way, but each part sealing effectiveness differs when the shortcoming of vac sorb is in that to use, a small amount of cooling oil is inevitably had to be inhaled in vacuum pump tank body with air。As the long-pending oil in vacuum tank can not be discharged in time, can be inhaled in vacuum pump body when being accumulated to a certain degree, ultimately result in vacuum pump and damage。

The vacuum pump used on the market at present is owing to being limited by this body structure, and there are the following problems: vacuum tank volume that the pump housing carries is little needs frequent shutdown oil extraction；When discharging long-pending oil, vacuum pump and numerical control device all need to shut down to wait so that the process-cycle is elongated。

Summary of the invention

In order to overcome above-mentioned the deficiencies in the prior art, this utility model provide a kind of unify to collect long-pending oil, possess automatic-discharging function, can realize not shutting down oil extraction, vacuum deposited oil automatic discharge system that reliability is substantially improved。

To achieve these goals, the technical solution adopted in the utility model is:

A kind of vacuum deposited oil automatic discharge system, including vacuum pump, also include the first gs-oil separator, described first gs-oil separator upper end is provided with first row QI KOU, described first row QI KOU is provided with the second valve, described first row QI KOU is connected with described vacuum pump by main pipeline and is formed exhaust passage, described first gs-oil separator upper end is additionally provided with the 5th valve, it is provided with oil-out bottom described first gs-oil separator, described oil-out is provided with the 4th valve, described first gs-oil separator lower end is provided with the first air intake, described first air intake is provided with the first valve, described first air intake is connected with numerical control device by vacuum pipe and is formed into gas passage, described enter between gas passage and exhaust passage, to be additionally provided with the second exhaust passage being made up of vacuum pipe, described second exhaust passage is provided with the 3rd valve。

As the further improvement of such scheme, the oil-out of described first gs-oil separator is connected to oil storage tank by vacuum pipe, is provided with oil drain out bottom described oil storage tank。

As the further improvement of such scheme, described vacuum pump is provided with at least one, and all vacuum pump parallel connections are unified is placed and is connected with main pipeline by subtube。

As the further improvement of such scheme, in described first gs-oil separator, it is provided with the first drainage screen。

As the further improvement of such scheme, in described first gs-oil separator, it is provided with liquid level sensor switch。

Further improvement as such scheme, it is additionally provided with the second gs-oil separator between described first gs-oil separator and vacuum pump, described second gs-oil separator lower end is provided with the second air intake, described second gs-oil separator lower end is provided with second exhaust port, described second air intake is connected with first row QI KOU, described second exhaust port is connected with vacuum pump, and the gas outlet of described second exhaust passage is arranged between the second air intake and first row QI KOU。

As the further improvement of such scheme, being provided with the second drainage screen, be provided with second row hydraulic fluid port bottom it in described second gs-oil separator, described second row hydraulic fluid port is connected with oil storage tank by pipeline。

Further improvement as such scheme, it is additionally provided with electrical control cubicles, described first valve, the second valve, the 3rd valve, the 4th valve are pneumatic operated valve, and described 5th valve is solenoid electric valve, and described first valve, the second valve, the 3rd valve, the 4th valve and the 5th valve are all electrically connected with electrical control cubicles。

The beneficial effects of the utility model:

This utility model one vacuum deposited oil automatic discharge system, is provided with the second exhaust passage, it may be achieved do not shut down oil extraction, saves a large amount of oil extraction times for every numerical control device every day, improves production efficiency, reduce production process；It is provided with liquid level source of early warning in first gs-oil separator, induction apparatus can be triggered when liquid level arrives predetermined altitude, it is achieved automatic oil draining, it is not necessary to manual intervention, reliability is substantially improved；One vacuum pump can 3～4 numerical control devices of load；Vacuum pump is unified to be deposited, and facilitates equipment later maintenance and maintenance；Having installed the second gs-oil separator additional, stopped long-pending oil and sucked the risk in vacuum pump, negative pressure of vacuum is more stable before comparing。

Accompanying drawing explanation

Fig. 1 is this utility model preferred embodiment structural representation。

Detailed description of the invention

Below in conjunction with accompanying drawing and preferred embodiment of the present utility model, this utility model is described further:

With reference to Fig. 1, a kind of vacuum deposited oil automatic discharge system, including vacuum pump 1, also include the first gs-oil separator 3, described first gs-oil separator 3 upper end is provided with first row QI KOU 17, described first row QI KOU 17 is provided with the second valve 4, described first row QI KOU 17 is connected by main pipeline with described vacuum pump 1 and forms exhaust passage, described first gs-oil separator 3 upper end is additionally provided with the 5th valve 5, it is provided with oil-out bottom described first gs-oil separator 3, described oil-out is provided with the 4th valve 7, described first gs-oil separator 3 lower end is provided with the first air intake 18, described first air intake 18 is provided with the first valve 9。Described first air intake 18 is connected with numerical control device by vacuum pipe and is formed into gas passage, described in enter between gas passage and exhaust passage, to be additionally provided with the second exhaust passage 10 being made up of vacuum pipe, described second exhaust passage 10 is provided with the 3rd valve 11。

Being additionally provided with electrical control cubicles 15, described first valve the 9, second valve the 4, the 3rd valve the 11, the 4th valve 7 is pneumatic operated valve, and described 5th valve 5 is solenoid electric valve, and described first valve the 9, second valve the 4, the 3rd valve the 11, the 4th valve 7 and the 5th valve 5 are all electrically connected with electrical control cubicles 15。

The oil-out of described first gs-oil separator 3 is connected to oil storage tank 8 by vacuum pipe, it is provided with oil drain out 16 bottom described oil storage tank 8, it is provided with the first drainage screen 12 in described first gs-oil separator 3, described vacuum pump 1 is provided with 3, during practical application, number according to numerical control device arranges the number of vacuum pump 1, can being the different numbers such as 2,3 or 5,8, all of vacuum pump 1 is all in parallel unified to be put together and is connected with main pipeline by subtube。

It is additionally provided with the second gs-oil separator 13 between described first gs-oil separator 3 and vacuum pump 1, described second gs-oil separator 13 lower end is provided with the second air intake 19, during described second gs-oil separator 13, upper end is provided with second exhaust port 20, described second air intake 19 is connected with first row QI KOU 17, described second exhaust port 20 is connected with vacuum pump 1, the gas outlet of described second exhaust passage is arranged between the second air intake 19 and first row QI KOU 17, described second gs-oil separator 13 is provided with the second drainage screen 14, second row hydraulic fluid port it is provided with bottom it, described second row hydraulic fluid port is connected with oil storage tank 8 by pipeline。

During native system work: the unified parallel connection of multiple stage vacuum pump 1 is placed and is connected to the first row QI KOU 17 of the first gs-oil separator 3 by vacuum pipe, multiple stage numerical control device is connected in parallel, the first air intake 19 of the first gs-oil separator 3 it is connected to by vacuum pipe, after numerical control device is opened, electrical control cubicles 15 controls the first valve 9 and the second valve 4 is opened, 3rd valve 11 and the 4th valve 7 are closed, vacuum pump 1 starts and enters in the first gs-oil separator 3 by gas through entering gas passage, gas is through the filtration of the first drainage screen 12, it is discharged in the second gs-oil separator 13 from first row QI KOU 17, enter in vacuum pump 1 after the second drainage screen 14 filters。

When the liquid level inductive switch 6 in the first gs-oil separator 13 detects that pasta is higher than setting value, electrical control cubicles 15 controls the first valve 9 and the second valve 4 cuts out, 3rd valve 11 and the 4th valve 7 are opened, injecting compressed air in the first gs-oil separator 3 opened by 5th valve 5, long-pending oil is discharged from the oil drain out 16 of oil storage tank 8, and system realizes automatically carrying out oil extraction。Gas in numerical control device enters in the second gs-oil separator 13 through the second exhaust passage simultaneously; gas is filtered in the second gs-oil separator 13; and enter vacuum pump 1 from second exhaust port 20; when utilizing the second exhaust passage can realize oil extraction, numerical control device is not shut down; save a large amount of oil extraction times for every numerical control device every day; improve production efficiency, and the mode of this automatic oil draining and multiple times of filtration can realize a vacuum pump 1 energy load multiple stage numerical control device, has saved cost。

It is above preferred embodiment of the present utility model has been illustrated, but this utility model is created and is not limited to described embodiment, those of ordinary skill in the art also can make all equivalent modifications or replacement under the premise without prejudice to this utility model spirit, and these equivalent modification or replacement are all contained in the application claim limited range。

Claims (8)

1. a vacuum deposited oil automatic discharge system, including vacuum pump (1), it is characterized in that: also include the first gs-oil separator (3), described first gs-oil separator (3) upper end is provided with first row QI KOU (17), described first row QI KOU (17) is provided with the second valve (4), described first row QI KOU (17) is connected by main pipeline with described vacuum pump (1) and forms exhaust passage, described first gs-oil separator (3) upper end is additionally provided with the 5th valve (5), described first gs-oil separator (3) bottom is provided with oil-out, described oil-out is provided with the 4th valve (7), described first gs-oil separator (3) lower end is provided with the first air intake (18), described first air intake (18) is provided with the first valve (9), described first air intake (18) is connected with numerical control device by vacuum pipe and is formed into gas passage, described enter between gas passage and exhaust passage, to be additionally provided with the second exhaust passage (10) being made up of vacuum pipe, described second exhaust passage (10) is provided with the 3rd valve (11)。

2. a kind of vacuum deposited oil automatic discharge system according to claim 1, it is characterised in that: the oil-out of described first gs-oil separator (3) is connected to oil storage tank (8) by vacuum pipe, and described oil storage tank (8) bottom is provided with oil drain out (16)。

3. a kind of vacuum deposited oil automatic discharge system according to claim 1, it is characterised in that: described vacuum pump (1) is provided with at least one, and all vacuum pumps (1) unification in parallel is placed and is connected with main pipeline by subtube。

4. a kind of vacuum deposited oil automatic discharge system according to claim 1, it is characterised in that: it is provided with the first drainage screen (12) in described first gs-oil separator (3)。

5. a kind of vacuum deposited oil automatic discharge system according to claim 1, it is characterised in that: it is provided with liquid level sensor switch (6) in described first gs-oil separator (1)。

6. a kind of vacuum deposited oil automatic discharge system according to claim 2, it is characterized in that: between described first gs-oil separator (3) and vacuum pump (1), be additionally provided with the second gs-oil separator (13), described second gs-oil separator (13) lower end is provided with the second air intake (19), during described second gs-oil separator (13), upper end is provided with second exhaust port (20), described second air intake (19) is connected with first row QI KOU (17), described second exhaust port (20) is connected with vacuum pump (1), the gas outlet of described second exhaust passage is arranged between the second air intake (19) and first row QI KOU (17)。

7. a kind of vacuum deposited oil automatic discharge system according to claim 6, it is characterized in that: described second gs-oil separator (13) is provided with the second drainage screen (14), being provided with second row hydraulic fluid port bottom it, described second row hydraulic fluid port is connected with oil storage tank (8) by pipeline。

8. a kind of vacuum deposited oil automatic discharge system according to claim 1, it is characterized in that: be additionally provided with electrical control cubicles (15), described first valve (9), the second valve (4), the 3rd valve (11), the 4th valve (7) are pneumatic operated valve, described 5th valve (5) is solenoid electric valve, and described first valve (9), the second valve (4), the 3rd valve (11), the 4th valve (7) and the 5th valve (5) are all electrically connected with electrical control cubicles (15)。