CN207169247U - A kind of high-efficiency cyclone panel assembly - Google Patents

Abstract

It the utility model is related to a kind of high-efficiency cyclone panel assembly, including cylinder and the eddy flow mechanism being arranged in cylinder, eddy flow mechanism includes newel and eddy flow component, eddy flow component includes the first swirl vane, the first mounting cylinder, the second swirl vane and the second mounting cylinder, first mounting cylinder is arranged between the first swirl vane and the second swirl vane, second mounting cylinder is arranged between the second swirl vane and the inwall of cylinder, collecting tank is provided between the second mounting cylinder and the inwall of cylinder, discharging tube is provided with collecting tank.Using double blade structure, reduce the length of each blade circumferentially, so that the intensity of integral blade greatly increases, it is particularly suitable for the gas-liquid separation purification of atm number, and the firm linking of the first swirl vane and the second swirl vane is realized by the first mounting cylinder and the second mounting cylinder, the rotation of air-flow is more steady, is not easy to form turbulent flow, effectively improves gas-liquid separation efficiency.

Description

A kind of high-efficiency cyclone panel assembly

Technical field

It the utility model is related to a kind of high-efficiency cyclone panel assembly.

Background technology

The gateway that gas-liquid separator can be arranged on gas compressor is used for gas-liquid separation, after being fractionated tower top condensate cooler Gas phase demisting of gas phase demisting, various gas scrubbing towers, absorption tower and Analytic Tower etc..Gas-liquid separator can also be applied to gas and remove Dirt, a variety of industry such as water-oil separating and liquid removal impurity and civil applications occasion.From the point of view of the requirement of gas-liquid separator it is necessary to It is asked to separate gas as far as possible with liquid, after gas-liquid separator, liquid is exactly liquid, does not contain gas, and gas Body is exactly gas, does not contain liquid.Certain separator actually its separative efficiency impossible 100%, it is real because of various reasons The situation on border is to select gas-liquid separator according to different separation requirements.The operation principle of blade-type separator is, due to gas Different from the density of liquid, when liquid flows together with gas mixing, the centrifugal force for the blade that liquid is subject to is more than gas, so Liquid has the tendency of centrifugation, and liquid is attached on separation wall because the effect of gravity pools together downwards, passes through row Put pipe discharge.

As the U of Authorization Notice No. CN 205323464, the China of entitled " a kind of high-efficiency blade formula gas-liquid separator " are practical In new patent, kind of a high-efficiency blade formula gas-liquid separator is disclosed, it includes shell separator, gas-liquid raw material inlet, gas phase Outlet, liquid phase outlet, deflector, straight line plane blade, cambered surface blade, spiral board, discharging tube and check valve, described point Upper end from device housing is provided with the gas phase outlet, and the lower end of the shell separator is provided with the liquid phase outlet, The gas-liquid raw material inlet is provided with the middle part of the shell separator, corresponds to the described of the gas-liquid raw material inlet position The deflector is provided with shell separator, the straight line plane blade, the straight line are provided with above the deflector The cambered surface blade is provided with above plane blade, inclined spiral board, the eddy flow are provided with below the deflector The upper end of plate is provided with liquid-phase reflux road, and the lower end of the spiral board is provided with discharging tube, is provided with the discharging tube described Check valve, liquid phase outlet described in the discharging tube face of the check valve lower end are set.

Above-mentioned this gas-liquid separator is only used for the gas-liquid separation of small air quantity, when gas-liquid amount is larger, when blade is long Between stress easily come off and either deformation or rock, so as to have impact on the stationarity of air-flow, and then have impact on gas-liquid separation efficiency.

In consideration of it, inventor furthers investigate to above mentioned problem, there is this case generation then.

Utility model content

The purpose of this utility model is to provide a kind of high-efficiency cyclone panel assembly that can improve gas-liquid separation efficiency.

In order to achieve the above object, technical scheme as the utility model use：

A kind of high-efficiency cyclone panel assembly, including cylinder and the eddy flow mechanism being arranged in cylinder, the both ends of cylinder vertically For inlet end and outlet side, eddy flow mechanism includes newel and the eddy flow group being laid between the inwall of newel and the cylinder Part, the eddy flow component include the first swirl vane, the first mounting cylinder, the second swirl vane and the second mounting cylinder, the first peace Fitted tube is arranged between the first swirl vane and the second swirl vane, and the second mounting cylinder is arranged on the second swirl vane and the cylinder Between the inwall of body, one end of the first swirl vane is connected with the newel, and the other end is connected with the inwall of the first mounting cylinder, One end of second swirl vane is connected with the outer wall of the first mounting cylinder, and the other end is connected with the inwall of the second mounting cylinder, the first rotation Blade is flowed to be multiple, and multiple first swirl vanes are laid along the circumference of the newel, and the second swirl vane is multiple, Duo Ge Two swirl vanes are laid along the circumference of the first mounting cylinder, and collecting tank is provided between the inwall of the second mounting cylinder and the cylinder, Discharging tube is provided with collecting tank.

As a kind of preferred embodiment of the present utility model, ring is provided between second mounting cylinder and the inwall of the cylinder Shape supporting plate, the inwall of the upper surface of annular backup pad, the outer wall of second mounting cylinder and the cylinder surround the collection Liquid bath.

As a kind of preferred embodiment of the present utility model, the annular backup pad is provided with pod apertures, pod apertures be it is multiple, Multiple pod apertures are laid along the circumference of the annular backup pad, and pod apertures are through to following table from the upper surface of the annular backup pad Face, the discharging tube correspond to the lower end that pod apertures are connected to the annular backup pad.

As a kind of preferred embodiment of the present utility model, to be cylindrical in shape, the newel is centrally formed the newel Apocenosis passage, one end of the discharging tube are connected in the pod apertures, and the other end connects with the apocenosis passage of the newel.

As a kind of preferred embodiment of the present utility model, first mounting cylinder and second mounting cylinder are that both ends are opened The cylinder of mouth, first mounting cylinder, second mounting cylinder and the newel are coaxially disposed.

As a kind of preferred embodiment of the present utility model, first swirl vane and corresponding second swirl vane In same plane, first swirl vane is inclined relative to horizontal setting.

After the technical solution of the utility model, using double blade structure, the length of each blade circumferentially is reduced, So that the intensity of integral blade greatly increases, it is particularly suitable for the gas-liquid separation purification of atm number, and passes through the first mounting cylinder and the Two mounting cylinders realize the firm linking of the first swirl vane and the second swirl vane, and the rotation of air-flow is more steady, is not easy to be formed Turbulent flow, gas-liquid separation efficiency is effectively improved, in use, air-flow tangentially enters the first swirl vane and the second eddy flow leaf Piece, swirling eddy is formed by the first swirl vane and the second swirl vane, separates gas-liquid, liquid is got rid of to collection by rotary centrifugal force In liquid bath.

Brief description of the drawings

Fig. 1 is the structural representation of eddy flow mechanism in the utility model；

Fig. 2 is the top view of eddy flow mechanism in the utility model；

Fig. 3 is the upward view of eddy flow mechanism in the utility model；

Fig. 4 is the front view of eddy flow mechanism in the utility model；

Fig. 5 be in Fig. 4 A-A to sectional view；

Fig. 6 is structure diagram of the present utility model；

In figure：

10- cylinder 20- newels

21- apocenosis passages the first mounting cylinders of 30-

40- the second mounting cylinder the first swirl vanes of 51-

52- the second swirl vane 60- annular backup pads

61- pod apertures 70- discharging tubes

Embodiment

In order to which the technical solution of the utility model is explained further, it is described in detail below in conjunction with the accompanying drawings.

Referring to figs. 1 to Fig. 6, in figure, arrow represents the direction of air-flow, a kind of high-efficiency cyclone panel assembly, including the He of cylinder 10 The eddy flow mechanism being arranged in cylinder 10, cylinder 10 can be tower body, and the both ends of cylinder 10 vertically are inlet end and outlet side, In embodiment, inlet end is arranged on the lower end of cylinder 10, and outlet side is arranged on the upper end of cylinder 10.In the utility model, rotation Stream mechanism includes newel 20 and the eddy flow component being laid between the inwall of newel 20 and the cylinder 10, the eddy flow group Part includes the first swirl vane 51, the first mounting cylinder 30, the second swirl vane 52 and the second mounting cylinder 40, the first mounting cylinder 30 It is arranged between the first swirl vane 51 and the second swirl vane 52, the second mounting cylinder 40 is arranged on the second swirl vane 52 and institute Between the inwall for stating cylinder 10, can specifically connect using welding or by the way of being spirally connected, one end of the first swirl vane 51 with The newel 20 connects, and the other end is connected with the inwall of the first mounting cylinder 30, one end of the second swirl vane 52 and the first peace The outer wall linking of fitted tube 30, the other end are connected with the inwall of the second mounting cylinder 40, the first swirl vane 51 and the second swirl vane 52 connected mode is using welding.

In the utility model, the first swirl vane 51 is multiple, and multiple first swirl vanes 51 are along the newel 20 Circumferential to lay, the second swirl vane 52 is multiple, and multiple second swirl vanes 52 are laid along the circumference of the first mounting cylinder 30, the Collecting tank is provided between two mounting cylinders 40 and the inwall of the cylinder 10, discharging tube 70 is provided with collecting tank.

As a kind of preferred embodiment of the present utility model, set between the inwall of second mounting cylinder 40 and the cylinder 10 There is annular backup pad 60, annular backup pad 60 is laid in the horizontal direction, the upper surface of annular backup pad 60, second mounting cylinder The inwall of 40 outer wall and the cylinder 10 surrounds the collecting tank.

As a kind of preferred embodiment of the present utility model, the annular backup pad 60 is provided with pod apertures 61, pod apertures 61 To be multiple, multiple pod apertures 61 are laid along the circumference of the annular backup pad 60, and pod apertures 61 are from the annular backup pad 60 Upper surface is through to lower surface, and the corresponding pod apertures 61 of the discharging tube 70 are connected to the lower end of the annular backup pad 60.

As a kind of preferred embodiment of the present utility model, the newel 20 is is cylindrical in shape, the center of the newel 20 Apocenosis passage 21 is formed, one end of the discharging tube 70 is connected in the pod apertures 61, the other end and the newel 20 Apocenosis passage 21 is connected, and the liquid in collecting tank is flowed in apocenosis passage 21 by discharging tube 70, and apocenosis passage 21 is connected to In corresponding collection vessel.

As a kind of preferred embodiment of the present utility model, first mounting cylinder 30 and second mounting cylinder 40 are two The cylinder 10 of end opening, first mounting cylinder 30, second mounting cylinder 40, the newel 20 and cylinder 10 are coaxially set Put.

As a kind of preferred embodiment of the present utility model, first swirl vane 51 and the corresponding second eddy flow leaf Piece 52 is in same plane, and first swirl vane 51 is inclined relative to horizontal setting.Installed from newel 20 to the first Cylinder 30, the width of the first swirl vane 51 gradually increases, from the mounting cylinder 40 of the first mounting cylinder 30 to the second, the second swirl vane 52 Width gradually increase.

Product form of the present utility model is not limited to this case diagram and embodiment, and anyone carries out similar thinking to it Appropriate change or modification, all should be regarded as not departing from patent category of the present utility model.

Claims (6)

1. a kind of high-efficiency cyclone panel assembly, including cylinder and the eddy flow mechanism being arranged in cylinder, the both ends of cylinder vertically are Inlet end and outlet side, eddy flow mechanism include newel and the eddy flow group being laid between the inwall of newel and the cylinder Part, it is characterised in that：The eddy flow component includes the first swirl vane, the first mounting cylinder, the second swirl vane and the second peace Fitted tube, the first mounting cylinder are arranged between the first swirl vane and the second swirl vane, and the second mounting cylinder is arranged on the second eddy flow Between the inwall of blade and the cylinder, one end of the first swirl vane is connected with the newel, the other end and the first installation The inwall linking of cylinder, one end of the second swirl vane are connected with the outer wall of the first mounting cylinder, and the other end is interior with the second mounting cylinder Wall is connected, and the first swirl vane is multiple, and multiple first swirl vanes are laid along the circumference of the newel, the second swirl vane To be multiple, multiple second swirl vanes are laid along the circumference of the first mounting cylinder, the second mounting cylinder and the cylinder inwall it Between be provided with collecting tank, be provided with discharging tube in collecting tank.

A kind of 2. high-efficiency cyclone panel assembly as claimed in claim 1, it is characterised in that：Second mounting cylinder and the cylinder Inwall between be provided with annular backup pad, the upper surface of annular backup pad, the outer wall of second mounting cylinder and the cylinder Inwall surround the collecting tank.

A kind of 3. high-efficiency cyclone panel assembly as claimed in claim 2, it is characterised in that：The annular backup pad is provided with water conservancy diversion Hole, pod apertures to be multiple, along the circumference of the annular backup pad lay by multiple pod apertures, and pod apertures are from the annular backup pad Upper surface is through to lower surface, and the discharging tube corresponds to the lower end that pod apertures are connected to the annular backup pad.

A kind of 4. high-efficiency cyclone panel assembly as claimed in claim 3, it is characterised in that：The newel is described to be cylindrical in shape Newel is centrally formed apocenosis passage, and one end of the discharging tube is connected in the pod apertures, the other end and the center The apocenosis passage connection of post.

A kind of 5. high-efficiency cyclone panel assembly as claimed in claim 4, it is characterised in that：First mounting cylinder and described second Mounting cylinder is the cylinder of both ends open, and first mounting cylinder, second mounting cylinder and the newel are coaxially disposed.

A kind of 6. high-efficiency cyclone panel assembly as described in any one of claim 1 to 5, it is characterised in that：The first eddy flow leaf Piece is in same plane with corresponding second swirl vane, and first swirl vane is inclined relative to horizontal setting.