阅读说明：本技术 一种采用旋转结构调节的降噪喷嘴 (Noise reduction nozzle adjusted by adopting rotating structure ) 是由 胡晓冬 李元龙 许雪峰 张若冲 王明环 于 2021-08-30 设计创作，主要内容包括：本发明提供一种采用旋转结构调节的降噪喷嘴,主要包括喷嘴、连接组件和紧固组件,喷嘴包括喷嘴头和液管,喷嘴头呈中空结构,内部设有液管固定孔,液管固定孔内部加工螺纹,液管固定孔通过侧翼板与喷嘴头外壁连接,在远离喷嘴头出口的液管固定孔的一端设有喷嘴头内环台,用于安装橡胶垫圈,喷嘴头远离喷嘴出口的一端设有喷嘴头外凸环台,液管外壁上设有螺纹,与液管固定孔内部的螺纹旋合,本发明通过设计具有侧翼板连接同轴内螺纹的喷嘴结构,扩大了气道流通面积,减小了内部噪声,同时可利用液管外螺纹与喷嘴头上的外螺纹旋合,实现液管头与喷嘴口的距离调节。(The invention provides a noise reduction nozzle adjusted by a rotating structure, which mainly comprises a nozzle, a connecting component and a fastening component, wherein the nozzle comprises a nozzle head and a liquid pipe, the nozzle head is of a hollow structure, a liquid pipe fixing hole is arranged in the nozzle head, a thread is processed in the liquid pipe fixing hole, the liquid pipe fixing hole is connected with the outer wall of the nozzle head through a side wing plate, a nozzle head inner annular table is arranged at one end of the liquid pipe fixing hole far away from the nozzle head outlet and used for mounting a rubber gasket, a nozzle head outer annular table is arranged at one end of the nozzle head far away from the nozzle outlet, threads are arranged on the outer wall of the liquid pipe, the invention is screwed with the thread inside the liquid tube fixing hole, the invention enlarges the flow area of the air passage and reduces the internal noise by designing the nozzle structure with the side wing plate connected with the coaxial internal thread, meanwhile, the distance between the liquid pipe head and the nozzle opening can be adjusted by screwing the external thread of the liquid pipe with the external thread on the nozzle head.)

1. A noise reduction nozzle adopting a rotary structure for adjustment mainly comprises a nozzle, a connecting assembly and a fastening assembly, and is characterized in that the nozzle comprises a nozzle head and a liquid pipe, the nozzle head is of a hollow structure, a liquid pipe fixing hole is formed in the nozzle head, threads are machined in the liquid pipe fixing hole, the liquid pipe fixing hole is connected with the outer wall of the nozzle head through a side wing plate, an inner annular platform of the nozzle head is arranged at one end of the liquid pipe fixing hole far away from an outlet of the nozzle head and used for installing a rubber gasket, and an outer annular platform of the nozzle head is arranged at one end of the nozzle head far away from the outlet of the nozzle; the outer wall of the liquid pipe is provided with threads which are screwed with the threads inside the liquid pipe fixing hole; the connecting assembly comprises a bamboo joint pipe, a rubber gasket and a base, the base is of a rotary body structure, the middle part of the base is a base annular table, the two ends of the base annular table are respectively provided with a base circular pipe and a base connector, the base circular pipe is arranged on the rubber gasket in the nozzle head and pushes against the nozzle head inner annular table, the base annular table is matched with the nozzle outer convex annular table, and the base connector is connected with the bamboo joint pipe; the fastening assembly comprises a fastening ring and screws, an inner fastening ring groove is formed in the inner side of the fastening ring, and the base annular table and the nozzle outer convex annular table are clamped in the inner fastening ring groove through the screws.

2. The nozzle of claim 1, wherein the fluid tube comprises a fluid hose and a metal tube, the metal tube has a fluid tube boss for limiting the position of the nozzle tip, and an inverted cone-shaped fluid tube connector at one end for connecting the fluid hose; the transfusion hose is arranged in the bamboo joint pipe, one end of the transfusion hose is connected with the metal pipe, and the other end of the transfusion hose is connected with the micro-lubricating device main body.

3. A noise reducing nozzle adapted for rotary structural adjustment according to claim 1 or 2, wherein said bamboo joint pipe comprises a plurality of segments.

Technical Field

The invention belongs to the technical field of mechanical equipment, and particularly relates to a noise reduction nozzle adjusted by a rotary structure.

Background

The method for producing the spray by atomizing liquid drops by using high-pressure gas is a common method for producing the spray, and the method comprises the following steps: the air flow and the liquid are converged into a mutually nested pipeline through the confluence plate, the liquid is conveyed by the central pipeline, the air flow flows through a gap between the inner pipeline and the outer pipeline, and liquid drops are atomized and sprayed out at the nozzle. It is common in industrial production to achieve a directed transport of cooling or lubricating fluid in this way.

The nozzle is the important component that realizes that liquid droplet atomizes and the effective injection of gas-liquid mixture, but technical indicator such as atomization effect, jet distance are often only considered in the design process to current nozzle, and do not consider the influence of nozzle noise production noise to the environment, lack the optimal design to reduce the nozzle noise, its structure ubiquitous following problem:

(1) the air flow channel in the nozzle is narrow and easy to generate larger noise. The prior art nozzle generally consists of a base, a connecting tube and a nozzle tip, the internal threads of the tail of the connecting tube engaging the external threads of the base. The connecting pipe head is processed with the internal and external screw threads which are slightly smaller in diameter and are mutually nested, the external screw thread is meshed with the internal screw thread on the nozzle head, the internal screw thread is meshed with the external screw thread on the liquid pipe to be used for fixing the liquid pipe, the air flow can only reach the nozzle head end through a notch on the liquid pipe thread at the position, and the narrow notch on the liquid pipe thread is easy to cause the air flow to generate stronger turbulence so as to cause noise.

(2) The distance from the liquid tube head to the nozzle opening is not convenient to adjust and is not suitable for conversion of different application scenes.

Experimental studies have found that variations in the distance from the head to the nozzle opening not only affect the magnitude of the noise but also alter the diameter of the atomized droplets. In the application operating mode of difference, atmospheric pressure and liquid flow exist the difference, in order to realize the atomizing effect of ideal among the application operating mode, often need adjust the liquid tube head to the nozzle mouth between the distance, but the design scheme of being convenient for adjust liquid tube head and nozzle mouth distance is rarely considered in the structure of current nozzle, can not make nimble regulation according to actual need.

Disclosure of Invention

In order to solve the technical problems, the invention provides a noise reduction nozzle adjusted by a rotary structure, which adopts the following technical scheme:

a noise reduction nozzle adopting a rotary structure for adjustment mainly comprises a nozzle, a connecting assembly and a fastening assembly, and is characterized in that the nozzle comprises a nozzle head and a liquid pipe, the nozzle head is of a hollow structure, a liquid pipe fixing hole is formed in the nozzle head, threads are machined in the liquid pipe fixing hole, the liquid pipe fixing hole is connected with the outer wall of the nozzle head through a side wing plate, an inner annular platform of the nozzle head is arranged at one end of the liquid pipe fixing hole far away from an outlet of the nozzle head and used for installing a rubber gasket, and an outer annular platform of the nozzle head is arranged at one end of the nozzle head far away from the outlet of the nozzle; the outer wall of the liquid pipe is provided with threads which are screwed with the threads inside the liquid pipe fixing hole; the connecting assembly comprises a bamboo joint pipe, a rubber gasket and a base, the base is of a rotary body structure, the middle part of the base is a base annular table, the two ends of the base annular table are respectively provided with a base circular pipe and a base connector, the base circular pipe is arranged on the rubber gasket in the nozzle head and pushes against the nozzle head inner annular table, the base annular table is matched with the nozzle outer convex annular table, and the base connector is connected with the bamboo joint pipe; the fastening assembly comprises a fastening ring and screws, an inner fastening ring groove is formed in the inner side of the fastening ring, and the base annular table and the nozzle outer convex annular table are clamped in the inner fastening ring groove through the screws.

Furthermore, the liquid pipe comprises a transfusion hose and a metal pipe, wherein a liquid pipe boss for limiting the position of the nozzle head is arranged on the metal pipe, and an inverted cone-shaped liquid pipe connector is arranged at one end of the metal pipe and is used for connecting the transfusion hose; the transfusion hose is arranged in the bamboo joint pipe, one end of the transfusion hose is connected with the metal pipe, and the other end of the transfusion hose is connected with the micro-lubricating device main body.

Further, the bamboo joint pipe comprises a plurality of sections.

Compared with the prior art, the invention has the following advantages:

(1) the distance between the liquid pipe head and the nozzle opening is adjusted by screwing the external thread of the liquid pipe and the coaxial internal thread on the nozzle head, so that the axial quick rotation adjustment of the liquid pipe is realized, the quick adjustment can not only control the noise, but also adjust the atomization effect according to the requirements in practical application so as to adapt to different working conditions, and the application range and the flexibility of the nozzle are improved.

(2) The internal thread which is coaxial with the nozzle is arranged in the nozzle head, and the internal thread is connected with the nozzle head into a whole by the side wing plates on the two sides, so that the structure increases the flow area of the internal air passage, changes the condition that the cross section area of the air passage of the existing nozzle is suddenly changed, ensures that the air flow is smoother, and reduces the noise caused by the sudden change of the cross section area of the air passage.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of a noise reduction nozzle with rotary adjustment of the present invention mounted on a minimal quantity lubrication device;

FIG. 2 is a schematic illustration and cross-sectional view of the noise reducing nozzle of FIG. 1;

fig. 3 is a schematic structural view of the nozzle head 11 in fig. 2;

FIG. 4 is a schematic view of the details of fluid tube 12 of FIG. 2;

fig. 5 is a schematic structural view of the rubber gasket 13 in fig. 2;

FIG. 6 is a schematic structural view of the base 21 of FIG. 2;

FIG. 7 is a schematic view of the details of the fastening assembly 3 of FIG. 2;

in the figure, a nozzle 1, a connecting component 2, a fastening component 3, a minimal quantity lubrication device body 4, a nozzle head 11, a rubber gasket 13, a fastening component 3, a base 21, a connecting buckle 23, a liquid pipe 12, a transfusion hose 22, a bamboo joint pipe 24, a fastening ring 31, an inner hexagon screw 32, a liquid pipe fixing hole 111, a nozzle outer convex ring platform 112, a nozzle opening 113, a nozzle head inner ring platform 114, a side wing plate 115, a liquid pipe thread 121, a liquid pipe boss 122, a liquid pipe connector 123, a liquid pipe 124, a base circular pipe 211, a base ring platform 212, a base connector 213, a screw mounting hole 311 and a fastening ring inner groove 312.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-7, the noise reduction nozzle adjusted by a rotary structure of the present invention mainly comprises a nozzle 1, a connecting assembly 2 and a fastening assembly 3. The method is characterized in that the distance between the liquid nozzle head 124 and the nozzle opening 113 is adjusted by rotating the nozzle head 11, so that the effect of controlling noise and adjusting the atomization degree of liquid drops is achieved. The rubber gasket 13 between the base and the nozzle head 11 plays a role of sealing and providing axial elasticity, the fastening ring is provided with a fastening ring inner groove 312, and the fastening ring inner groove 312 is matched with the rubber gasket 13 to play a role of connecting and fixing the nozzle; the redesigned nozzle gas flow passage is smoother, and the condition of no cross section area mutation also reduces the generation of nozzle noise.

As shown in FIG. 1, the overall structure of the noise reduction nozzle which is adjusted by a rotary structure and is arranged on a minimal quantity lubrication device is schematically shown. The gas-liquid pipeline of the minimal quantity lubrication device is collected into the mutually nested pipelines through the confluence plate, and the nozzle is connected with the minimal quantity lubrication device main body 4 through the bamboo joint pipe 24 of the connecting component. The mutual matching of the multiple sections of the bamboo joint pipes ensures the freedom degree of the nozzle in the space.

FIG. 2 is a schematic illustration and cross-sectional view of a noise reducing nozzle. The structure of the device comprises a nozzle, a fastening assembly and a connecting assembly. The liquid is delivered through the infusion hose 22 of the connector assembly and the compressed air is delivered through the passage inside the bamboo tube 24, and eventually the two join at the front end of the liquid tube head 124 to form an aerosol. One end of the transfusion hose 22 is connected with the machine main body, the other end is sleeved on the liquid pipe connector 123, and the connecting buckle 23 is used for connecting the base 21 and the bamboo joint pipe 24.

As shown in fig. 3, a liquid pipe fixing hole 111 is formed in the nozzle head 11, a thread is formed in the center of the liquid pipe fixing hole 111 for screwing with a liquid pipe thread 121 on the liquid pipe 12, and the side wings 115 not only connect the liquid pipe fixing hole 111 and the nozzle head 11 together, but also increase the gas flow area in the nozzle head 11 and reduce noise. The relative movement of the nozzle head 11 and the liquid pipe 12 in the axial direction is achieved by rotating the nozzle head 11. Outside the liquid pipe fixing hole 111, there is a nozzle head inner ring platform 114 for placing the rubber gasket 13, and at the tail of the nozzle head 11, there is a nozzle outer convex ring platform 112 flush with the tail, which together with the base ring platform 212 and the fastening component 3, keeps the nozzle fixed.

As shown in fig. 4, the liquid tube 12 is a hollow metal tube, on which a liquid tube thread 121 is formed, the liquid tube thread 121 cooperates with a thread on the liquid tube fixing hole 111 for adjusting the position of the liquid tube 12 relative to the nozzle head 11, the liquid tube boss 122 protruding from the middle part plays a limiting role to prevent unnecessary trouble caused by excessive adjustment of the nozzle head 11 during rotation, the inverted cone-shaped liquid tube connector 123 at the tail part is used for connecting the infusion hose 22, and the inverted cone-shaped design prevents the infusion hose from falling off during use.

As shown in fig. 5, the rubber gasket 13 is a schematic structural diagram, and the rubber gasket is annular, is installed in the nozzle head inner ring table 114 inside the nozzle head 11, and is pressed by the pedestal 21 and the nozzle head 11 during operation to generate a certain elastic deformation in the axial direction, thereby performing a sealing function on the nozzle. The elastic deformation of the rubber washer 13 also produces a force to separate the nozzle head 11 and the base 21 from each other in the axial direction. This axial force is mainly balanced by the fastening assembly 3, so that the conditions for sealing and securing the nozzle are met.

As shown in fig. 6, which is a schematic structural diagram of the base 21, the base 21 is a revolving body structure, the front base circular tube 211 is inserted into the nozzle head 11 to abut against the rubber gasket 13 when being installed, the middle base annular table 212 is matched with the nozzle outer convex annular table 112 to play a role of fixing the nozzle, and the tail hemispherical base connector 213 is matched with the connector 23 to connect the bamboo joint tube and the nozzle together.

As shown in FIG. 7, the fastening assembly 3 comprises a fastening ring 31 and a socket head cap 32, wherein the fastening ring 31 has an inner fastening ring groove 312 formed therein, and the nozzle is adjusted and then the socket head cap 32 is screwed to insert the outer nozzle collar 112 and the base collar 212 into the inner fastening ring groove 312 for fixation.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention 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.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.