CN219433029U - Uniform oil-gas mixing and distributing device - Google Patents

Abstract

The uniform oil-gas mixing and distributing device comprises a device main body and an oil supply device, wherein the device main body comprises a main body shell and an oil-gas mixing cavity, an air inlet is formed in the side wall of the main body shell, an oil inlet and an oil-gas mixing outlet are formed in the main body shell, an oil-gas mixing interlayer is arranged in the oil-gas mixing cavity, and an air pipe is connected to the air inlet in the oil-gas mixing cavity; the oil supply device is provided with an oil supply port, and the oil supply port is tightly connected with the oil inlet. The oil-gas mixing and distributing device is provided with independent oil-gas mixing interlayer, and lubricant is injected into the corresponding oil-gas mixing interlayer through different oil inlets to be mixed with compressed air, so that different types of mixed lubricant are sprayed out; the internal space of the oil-gas mixing interlayer is small, compressed air can fully act on the lubricant, the lubricant is fully dispersed and then fused to form turbulent oil-gas mixing flow for ejection, and meanwhile, the blade mechanism is arranged to stir the lubricant and the compressed air, so that the fusion of the lubricant and the compressed air is quickened.

Description

Uniform oil-gas mixing and distributing device

Technical Field

The utility model particularly relates to a uniform oil-gas mixing and distributing device.

Background

The oil-gas lubrication is to mix the supplied lubricant and the compressed air to form a turbulent oil-gas mixed flow, and then to supply the mixed flow to a lubrication point, and the conventional oil-gas mixing device has the problem of uneven oil-gas mixing distribution;

the Chinese patent document with the publication number of CN215807895U discloses an oil-gas mixing and distributing device, which can play a role in controlling oil-gas flow through matching a baffle cylinder with a flow hole, realize the purpose of regulating uniform distribution of oil gas, but has some problems in practical application:

1. because an independent oil-gas mixing interlayer is not arranged, different types of lubricants cannot be sprayed out after being mixed with compressed air;

2. the traditional oil-gas mixing cavity has a large internal space, and when the lubricant and the compressed air are mixed in the traditional oil-gas mixing cavity, the pressure of the compressed air possibly becomes small, the lubricant cannot be fully mixed to form turbulent-flow-shaped oil-gas mixing flow, and a stirring mechanism capable of stirring the lubricant and the compressed air is not arranged, so that the fusion of the lubricant and the compressed air cannot be accelerated.

Disclosure of Invention

In view of the foregoing, the present utility model provides a uniform oil-gas mixing and distributing device to solve the problems set forth in the background art.

The technical scheme adopted for solving the technical problems is as follows: the device main body comprises a main body shell with tightness and an oil-gas mixing cavity with an installation space, the side wall of the main body shell is provided with an air inlet, the upper end surface of the main body shell is provided with a plurality of through oil inlets, the lower end surface of the main body shell is provided with a plurality of oil-gas mixing outlets matched and butted with the oil inlets, a plurality of oil-gas mixing interlayers are arranged in the oil-gas mixing cavity and are composed of partition plates which are arranged on two sides of each group of oil inlets and the oil-gas mixing outlets and are tightly adhered to the inner wall of the oil-gas mixing cavity, the air inlet is internally connected with an air pipe which penetrates through the partition plates and is connected to the inner wall of the other side of the oil-gas mixing cavity, and a plurality of air holes for mixing lubricant and compressed air are formed between each oil-gas mixing interlayer; the oil supply device is provided with a plurality of oil supply ports, and the oil supply ports can be tightly connected with the oil inlets; when the oil-gas mixing device is used, the lubricant is injected into the oil-gas mixing interlayer through the oil inlet, compressed air is injected into the air holes in the oil-gas mixing interlayer to perform oil-gas mixing to form a turbulent flow shape, and the turbulent flow shape is sprayed out from the oil-gas mixing outlet.

Further, a plurality of all be provided with rotatable blade mechanism in the oil gas mixing interlayer, blade mechanism includes sealed rotating electrical machines, blade, and rotating electrical machines connection blade is vertical to be set up in oil gas mixing interlayer bottom.

Further, the oil inlets are at least not less than two.

Further, the number of the oil-gas mixture outlets is at least not less than two.

Further, the number of the oil-gas mixing interlayer is at least not less than two, and the oil inlet and the oil-gas mixing outlet are matched with the same.

Further, the connecting part of the air pipe penetrating through the partition plate is provided with a sealing gasket.

Further, the oil supply device comprises a progressive distributor and a two-wire distributor.

Further, the upper end face of the main body shell is transversely provided with a transparent observation window.

The beneficial effects of the utility model are as follows:

1. the oil-gas mixing and distributing device is provided with the independent oil-gas mixing interlayer, and the lubricants are injected into the corresponding oil-gas mixing interlayer through different oil inlets to be mixed with compressed air, so that different types of mixed lubricants are sprayed out;

2. the oil-gas mixing interlayer has smaller internal space, the injection force is larger after the compressed air is injected into the oil-gas mixing interlayer, the oil-gas mixing interlayer can completely act on the lubricant, the lubricant is fully dispersed and fused to form turbulent flow-shaped oil-gas mixing flow for ejection, and meanwhile, the vane mechanism is arranged to stir the lubricant and the compressed air, so that the fusion of the lubricant and the compressed air is quickened.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is an internal schematic view of the present utility model.

In the figure, 1, a device main body; 2. an oil inlet; 3. an oil-gas mixing outlet; 4. an air inlet; 5. an observation window; 6. an oil supply port; 7. an oil supply device; 8. an oil-gas mixing cavity; 9. an oil-gas mixing interlayer; 10. a partition plate; 11. an air pipe; 12. air holes; 13. a sealing gasket; 14. a rotating electric machine; 15. and (3) a blade.

Detailed Description

The utility model will be further described with reference to the drawings and some embodiments.

In fig. 1-2, there is provided a uniform oil-gas mixing distribution device, including a device main body 1, an oil supply device 7 for uniformly discharging oil, the device main body 1 includes a main body housing with tightness, an oil-gas mixing cavity 8 with installation space, the sidewall of the main body housing is provided with an air inlet 4, the upper end surface of the main body housing is provided with a plurality of through oil inlets 2, the lower end surface of the main body housing is provided with a plurality of oil-gas mixing outlets 3 matched and butted with the oil inlets 2, the oil-gas mixing cavity 8 is internally provided with a plurality of oil-gas mixing barriers 9, the oil-gas mixing barriers 9 are formed by partition plates 10 arranged at both sides of each group of oil inlets 2 and the oil-gas mixing outlets 3 and closely attached to the inner wall of the oil-gas mixing cavity 8, the air inlet 4 is internally connected with an air pipe 11, the air pipe 11 penetrates through the partition plates 10 and is connected to the inner wall of the other side of the oil-gas mixing cavity 8, and the air pipe 11 is provided with a plurality of air holes 12 for mixing lubricant and compressed air between each oil-gas mixing barrier 9; the oil supply device 7 is provided with a plurality of oil supply ports 6, and the oil supply ports 6 can be tightly connected with the oil inlets 2; when the oil supply device is used, the oil supply device 7 with the proper oil supply ports 6 is selected according to the number of the oil inlets 2, the oil supply ports 6 are tightly connected with the oil inlets 2, the lubricant is injected into the oil-gas mixing partition layer 9 corresponding to the oil inlets 2 through the oil supply device 7, meanwhile, the air inlet 4 is connected with an external air source, compressed air is injected through the air pipe 11, the compressed air is injected from the air holes 12, the injection force is large, the compressed air can fully act on the lubricant, the lubricant is fully dispersed and then is fused to form turbulent-flow-shaped oil-gas mixing flow, and finally the turbulent-flow-shaped oil-gas mixing flow is sprayed out from the oil-gas mixing outlet 3, the oil-gas mixing distribution device is provided with the independent oil-gas mixing partition layer 9, the oil supply ports 6 of the oil supply device 7 are connected with different oil inlets 2, and different types of lubricants are injected into the corresponding oil-gas mixing partition layers 9 to be mixed with the compressed air, so that different types of mixed lubricants are sprayed out.

In this embodiment, rotatable vane mechanisms are disposed in the plurality of oil-gas mixing interlayers 9, each vane mechanism includes a sealed rotating motor 14 and a vane 15, and the rotating motor 14 is connected with the vane 15 and is vertically disposed at the bottom of the oil-gas mixing interlayer 9; when the rotary motor 14 is used, the blades 15 are driven to rotate in the oil-gas mixing interlayer 9, after the lubricant and the compressed air are injected into the oil-gas mixing interlayer 9, the rotating blades 15 stir the air-gas mixing lubricant, so that the fusion of the lubricant and the compressed air is quickened, the purpose of uniform oil-gas lubrication distribution is achieved, the rotary motor 14 is in a sealed state, the oil-gas mixture is prevented from entering the motor part of the rotary motor 14, and the normal use of the rotary motor 14 is influenced.

In this embodiment, the oil inlets 2 are at least not less than two; at least not less than two oil-gas mixing outlets 3; the number of the oil-gas mixing interlayer 9 is at least not less than two, and the oil-gas mixing interlayer is the same as the number of the groups matched with the oil inlet 2 and the oil-gas mixing outlet 3; when the oil-gas mixing and distributing device is used, the oil-gas mixing and distributing device with the proper number of groups of oil inlets 2 and oil-gas mixing outlets 3 is manufactured according to the requirements of working application, the oil-gas mixing interlayer 9 with the corresponding number of groups is arranged in the oil-gas mixing and distributing device, different types of lubricants can be injected into the corresponding oil-gas mixing interlayer 9 to be mixed with compressed air, and different types of mixed lubricants are sprayed out.

In this embodiment, a sealing pad 13 is disposed at the connection part of the air pipe 11 penetrating through the partition board 10; the gasket 13 prevents the compressed air of the air pipe 11 from leaking, and affects the mixing operation of the lubricant and the compressed air.

In this embodiment, the oil supply device 7 includes a progressive distributor and a two-wire distributor; the progressive distributor and the double-wire distributor supply oil according to the quantity of the oil inlets 2, so that the oil content of the mixed oil gas is ensured to be uniform, and the progressive distributor and the double-wire distributor are common lubrication oil supply equipment, such as a JPQS-D model, a BEKA (MX-F) model progressive distributor and the like, or a VSG-KR model, a VSKV2-KR model double-wire distributor and the like.

In this embodiment, a transparent observation window 5 is transversely disposed on the upper end surface of the main body casing. The observation window 5 is made of transparent glass materials, so that the mixing condition of the lubricant and the compressed air in the oil-gas mixing interlayer 9 can be conveniently observed, and corresponding measures can be timely made.

In this embodiment, the rotating electrical machine 14 is a common rotating electrical machine device, and a storage battery is built in the rotating electrical machine device to supply electric power, for example, a GB/T4831-2016 type rotating electrical machine, a Y160M-4 type rotating electrical machine, and the like.

The utility model is implemented in particular: when the oil-gas mixing and distributing device is used, according to the requirements of working application, an oil-gas mixing and distributing device with proper oil inlets 2 and oil-gas mixing and distributing outlets 3 is manufactured, oil-gas mixing and distributing layers 9 with corresponding groups are arranged in the oil-gas mixing and distributing device, an oil supply port 6 is tightly connected with the oil inlets 2, lubricant is injected into the oil-gas mixing and distributing layers 9 corresponding to the oil inlets 2 through the oil supply device 7, meanwhile, an air inlet 4 is connected with an external air source, compressed air is injected through an air pipe 11, the compressed air is injected from an air hole 12, the injection force is large, the lubricant can be fully acted on the lubricant, the lubricant is fused to form turbulent oil-gas mixing flow after being fully scattered, and finally the lubricant is sprayed out of the oil-gas mixing and distributing device is provided with independent oil-gas mixing and distributing layers 9, the oil supply port 6 of the oil supply device 7 is connected with different oil inlets 2, different types of lubricant are injected into the corresponding oil-gas mixing and distributing layers 9 to be mixed with compressed air, so that different types of mixed lubricant is sprayed out, meanwhile, a rotating motor 14 drives blades 15 to rotate in the oil-gas mixing and distributing layers 9, and after the lubricant and the compressed air are injected into the oil-gas mixing and distributing layers 9, the lubricant is mixed evenly.

Noteworthy are: in the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise. In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; may be a mechanical connection, and the specific meaning of the terms above in the present utility model may be understood by those of ordinary skill in the art according to the specific circumstances.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. A uniform oil-gas mixing and distributing device is characterized in that: the device comprises a device main body and an oil supply device for evenly discharging oil, wherein the device main body comprises a main body shell with tightness and an oil-gas mixing cavity with an installation space, the side wall of the main body shell is provided with an air inlet, the upper end surface of the main body shell is provided with a plurality of through oil inlets, the lower end surface of the main body shell is provided with a plurality of oil-gas mixing outlets matched and butted with the oil inlets, the oil-gas mixing cavity is internally provided with a plurality of oil-gas mixing interlayers, each oil-gas mixing interlayer is composed of partition plates which are arranged on two sides of each group of oil inlets and the oil-gas mixing outlets and are tightly attached to the inner wall of the oil-gas mixing cavity, the air inlet is internally connected with an air pipe, the air pipe penetrates through the partition plates and is connected to the inner wall of the other side of the oil-gas mixing cavity, and a plurality of air holes for mixing lubricant and compressed air are formed between each oil-gas mixing interlayer;

the oil supply device is provided with a plurality of oil supply ports, and the oil supply ports can be tightly connected with the oil inlets; when the oil-gas mixing device is used, the lubricant is injected into the oil-gas mixing interlayer through the oil inlet, compressed air is injected into the air holes in the oil-gas mixing interlayer to perform oil-gas mixing to form a turbulent flow shape, and the turbulent flow shape is sprayed out from the oil-gas mixing outlet.

2. A homogeneous gas-oil mixture distribution apparatus according to claim 1, wherein: and rotatable blade mechanisms are arranged in the oil-gas mixing interlayers, each blade mechanism comprises a sealed rotating motor and blades, and the rotating motor is connected with the blades and is vertically arranged at the bottom of the oil-gas mixing interlayer.

3. A homogeneous gas-oil mixture distribution apparatus according to claim 1, wherein: at least two oil inlets are formed.

4. A homogeneous gas-oil mixture distribution apparatus according to claim 3, wherein: at least two oil-gas mixing outlets are arranged.

5. The homogeneous gas-oil mixture distribution apparatus of claim 4, wherein: the number of the oil-gas mixing interlayer is at least not less than two, and the oil-gas mixing interlayer is the same as the number of the groups matched with the oil inlet and the oil-gas mixing outlet.

6. A homogeneous gas-oil mixture distribution apparatus according to claim 1, wherein: the air pipe penetrates through the connecting part of the partition board and is provided with a sealing gasket.

7. A homogeneous gas-oil mixture distribution apparatus according to claim 1, wherein: the oil supply device comprises a progressive distributor and a double-line distributor.

8. A homogeneous gas-oil mixture distribution apparatus according to claim 1, wherein: the upper end face of the main body shell is transversely provided with a transparent observation window.