CN116412102B

CN116412102B - High-performance compressor with built-in active dredging structure

Info

Publication number: CN116412102B
Application number: CN202310682417.XA
Authority: CN
Inventors: 黄泽鑫; 黄达平; 宋占明; 苏美燕; 曾国民; 林坤
Original assignee: Lida China Machine Equipment Co ltd
Current assignee: Lida China Machine Equipment Co ltd
Priority date: 2023-06-09
Filing date: 2023-06-09
Publication date: 2023-09-05
Anticipated expiration: 2043-06-09
Also published as: CN116412102A

Abstract

The application relates to the technical field of compressors, in particular to a high-performance compressor with a built-in active dredging structure, which comprises a base, wherein the middle part of the upper end surface of the base is provided with a positioning bracket, the front end of the positioning bracket is provided with a cooler, the left side of the positioning bracket is provided with a first frequency converter, the right side of the cooler is connected with a pressure valve through a pipeline, the right part of the upper end surface of the base is provided with an oil-gas separation barrel, the input end of the pressure valve is connected with the output end of the top of the oil-gas separation barrel, the outer wall of the oil-gas separation barrel is sequentially provided with a pressure gauge, an oil filling port and an oil mark from top to bottom, the bottom of the oil-gas separation barrel is provided with a sewage outlet, the inside of the compressor is provided with an active dredging type air inlet box structure, the flow velocity inside the air filter is detected within the normal use time limit, and then dust locally accumulated inside the air filter is scattered in a vibration mode, so that the normal use state of the air filter is effectively ensured.

Description

High-performance compressor with built-in active dredging structure

Technical Field

The application relates to the technical field of compressors, in particular to a high-performance compressor with a built-in active dredging structure.

Background

An air compressor, also known as an air compressor, is a device for compressing air. The air compressor is similar in construction to the water pump. Most air compressors are reciprocating piston type, rotary vane or rotary screw, and in the working process of the existing air compressors, the air filter in the existing air compressors can filter the sucked air, and after a fixed time limit is used, the air filter needs to be replaced.

Disclosure of Invention

Additional features and advantages of the application will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the application. The objectives and other advantages of the application may be realized and attained by the structure particularly pointed out in the written description and the appended drawings.

The application aims to overcome the defects and provide the high-performance compressor with the built-in active dredging structure.

In order to achieve the above object, the technical solution of the present application is: the high-performance compressor with the built-in active dredging structure comprises a base, wherein a positioning bracket is arranged in the middle of the upper end face of the base, a cooler is arranged at the front end of the positioning bracket, a first frequency converter is arranged at the left side of the positioning bracket, a pressure valve is connected to the right side of the cooler through a pipeline, an oil-gas separation barrel is arranged at the right part of the upper end face of the base, the input end of the pressure valve is connected with the top output end of the oil-gas separation barrel, a pressure gauge, an oil filling port and an oil level are sequentially arranged on the outer wall of the oil-gas separation barrel from top to bottom, a drain outlet is arranged at the bottom of the oil-gas separation barrel, an electric cabinet is arranged at the left part of the upper end face of the base, a second frequency converter is arranged in the electric cabinet, an air outlet pipe is arranged at the bottom of the front end face of the cooler, a fan case is arranged at the rear end of the positioning bracket, two centrifugal fans are arranged at intervals inside the fan case, a compression driving mechanism is arranged at the rear of the fan case, an active dredging type air inlet box structure is connected to the compression driving mechanism through a pipeline;

the compression driving mechanism comprises a machine head and a motor, the motor is connected to the right end of the machine head, an air inlet valve is arranged at the upper end of the machine head, an air inlet pipe is arranged at the upper end of the air inlet valve, an air filter is arranged at the end part of the air inlet pipe, an air inlet interface is arranged at the front end of the air filter, a host bracket is arranged at the lower end of the machine head, a bolt at the rear end of the host bracket is fixed on a positioning bracket, a motor bracket is arranged at the lower end of the motor, and oil scraping type vibration reduction pads are arranged at the lower ends of the host bracket and the motor bracket;

the active dredging type air inlet box structure comprises a box body and a connecting positioning sleeve, an air inlet notch is formed in the middle of the rear end of the box body, a transmission groove is formed in the top of the front end of the box body, the connecting positioning sleeve is movably embedded in the transmission groove, the connecting positioning sleeve is fixedly sleeved on the outer wall of an air inlet interface, a detection pipe nested in the air inlet interface is arranged on the inner side of the connecting positioning sleeve in an extending mode, the end portion of the detection pipe extends into an air filter and is provided with a flow velocity sensor, an air inlet hole communicated with the transmission groove is formed in the top surface of the air inlet notch, a telescopic pipeline is connected between the air inlet hole and the connecting positioning sleeve, a vibration groove is formed in the top surface of the transmission groove, a miniature vibration motor is arranged in the vibration groove, and a vibration guide block matched in the vibration groove and contacted with the output end of the miniature vibration motor is arranged on the outer wall of the connecting positioning sleeve.

Further, scrape oily damping pad includes the location pad body, arc damping seat, the location pad body and base contact, the location pad body upper end is located to the arc damping seat, location pad body middle part is equipped with deformation notch, arc damping seat middle part activity is run through has the support spliced pole, support spliced pole top outer wall has the helical line structure, the transmission ring has been cup jointed to the screw thread on the helical line structure, the transmission ring outside is equipped with the scraping of slip laminating in arc damping seat outer wall oil sheet, deformation notch inner wall is equipped with the spacing piece with support spliced pole bottom fixed connection.

Further, the oil filter structure comprises an oil filter seat and oil filters, wherein two oil filters are arranged at the lower end of the oil filter seat, and flange connecting pieces are arranged at two ends of the oil filter seat.

Further, the device also comprises a terminal controller, wherein the terminal controller is arranged outside the base, and the terminal controller is connected with the flow rate sensor and the miniature vibration motor by adopting radio signals.

Further, the machine head is connected with the oil-gas separation barrel through a pipeline.

Further, the positioning pad body and the arc vibration reduction seat are of an integrated structure, and are made of silica gel materials.

Further, the inner wall of the transmission ring is provided with an internal thread structure corresponding to the spiral line structure.

The beneficial effects of the application are as follows: set up initiative mediation formula air inlet box structure in the compressor, in normal use time limit, detect the velocity of flow in the air cleaner, then through the mode of vibration, vibrate the dust of piling up in the air cleaner locally, the effectual normal use state of guaranteeing the air cleaner.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

It is apparent that these and other objects of the present application will become more apparent from the following detailed description of the preferred embodiments, which is to be read in connection with the accompanying drawings and figures.

The foregoing and other objects, features and advantages of the application will be apparent from the following more particular description of preferred embodiments, as illustrated in the accompanying drawings.

Drawings

The accompanying drawings are included to provide a further understanding of the application, and are incorporated in and constitute a part of this specification, illustrate the application and together with the embodiments of the application, serve to explain the application, without limitation to the application.

In the drawings, like parts are designated with like reference numerals and are illustrated schematically and are not necessarily drawn to scale.

In order to more clearly illustrate the embodiments of the application or the technical solutions in the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are only one or several embodiments of the application, and that other drawings can be obtained according to such drawings without inventive effort to a person skilled in the art.

FIG. 1 is a schematic diagram of a front perspective view of a high performance compressor with an active dredge structure built in accordance with the present application;

FIG. 2 is a schematic rear perspective view of a high performance compressor with an active dredge structure incorporated therein according to the present application;

FIG. 3 is a detailed schematic of the compression drive mechanism;

FIG. 4 is a schematic side sectional view of an active dredging type air inlet box structure;

FIG. 5 is a detailed schematic of the oil filter structure;

fig. 6 is a schematic cross-sectional structure of the oil scraping type vibration damping pad.

Detailed Description

The following will describe embodiments of the present application in detail with reference to the drawings and examples, thereby solving the technical problems by applying technical means to the present application, and realizing the technical effects can be fully understood and implemented accordingly. It should be noted that, as long as no conflict is formed, each embodiment of the present application and each feature of each embodiment may be combined with each other, and the formed technical solutions are all within the protection scope of the present application.

In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of the embodiments of the application. It will be apparent, however, to one skilled in the art that the present application may be practiced without some of these specific details or in the specific manner described herein.

Referring to fig. 1, 2, 3, 4, 5 and 6, the present application provides a technical solution for a high performance compressor with an active dredging structure: the structure of the oil-gas separation device comprises a base 1, wherein a positioning support 2 is arranged in the middle of the upper end surface of the base 1, a cooler 3 is arranged at the front end of the positioning support 2, a first frequency converter 4 is arranged at the left side of the positioning support 2, a pressure valve 5 is connected to the right side of the cooler 3 through a pipeline, an oil-gas separation barrel 6 is arranged at the right part of the upper end surface of the base 1, the input end of the pressure valve 5 is connected with the top output end of the oil-gas separation barrel 6, a pressure gauge 7, an oil filling opening 8 and an oil level 9 are sequentially arranged on the outer wall of the oil-gas separation barrel 6 from top to bottom, a drain outlet 10 is arranged at the bottom of the oil-gas separation barrel 6, an electric cabinet 11 is arranged at the left part of the upper end surface of the base 1, a second frequency converter 12 is arranged in the electric cabinet 11, an air outlet pipe 13 is arranged at the bottom of the front end surface of the cooler 3, a fan case 14 is arranged at the rear end of the positioning support 2, two centrifugal fans 15 are arranged at intervals inside the fan case 14, a compression driving mechanism 16 is arranged behind the fan case 14, an active dredging type air inlet box structure 17 is connected to the rear end of the compression driving mechanism 16, and an oil filtering structure 18 is connected to the compression driving mechanism 16 through the pipeline; the compression driving mechanism 16 comprises a machine head 1601 and a motor 1602, the motor 1602 is connected to the right end of the machine head 1601, an air inlet valve 1603 is arranged at the upper end of the machine head 1601, an air inlet pipe 1604 is arranged at the upper end of the air inlet valve 1603, an air filter 1605 is arranged at the end of the air inlet pipe 1604, an air inlet interface 1606 is arranged at the front end of the air filter 1605, a host bracket 1607 is arranged at the lower end of the machine head 1601, the rear end of the host bracket 1607 is fixed on a positioning bracket 2 through bolts, a motor bracket 1608 is arranged at the lower end of the motor 1602, and oil scraping type vibration damping pads 1609 are arranged at the lower ends of the host bracket 1607 and the motor bracket 1608; the active dredging type air inlet box structure 17 comprises a box body 1701 and a connecting positioning sleeve 1702, wherein an air inlet notch 1703 is arranged in the middle of the rear end of the box body 1701, a transmission groove 1704 is arranged at the top of the front end of the box body 1701, the connecting positioning sleeve 1702 is movably embedded in the transmission groove 1704, the connecting positioning sleeve 1702 is fixedly sleeved on the outer wall of an air inlet interface 1606, a detection tube 1705 embedded in the air inlet interface 1606 is arranged on the inner side of the connecting positioning sleeve 1702 in an extending mode, the end portion of the detection tube 1705 stretches into an air filter 1605 and is provided with a flow velocity sensor 1706, an air inlet hole 1707 communicated with the transmission groove 1704 is arranged on the top surface of the air inlet notch 1703, a telescopic pipeline 1708 is connected between the air inlet hole 1707 and the connecting positioning sleeve 1702, a vibrating groove 1709 is arranged on the top surface of the transmission groove 1704, a miniature vibrating motor 1710 is arranged in the vibrating groove 1709, a vibrating guide block 1711 which is matched into the vibrating groove 1709 and is contacted with the output end of the miniature vibrating motor 1710 is arranged on the outer wall of the connecting positioning sleeve 1702, the oil scraping type vibration damping pad 1609 comprises a positioning pad body 16091 and an arc vibration damping seat 16092, the positioning pad body 16091 is contacted with a base 1, the arc vibration damping seat 16092 is arranged at the upper end of the positioning pad body 16091, a deformation notch 16093 is arranged in the middle of the positioning pad body 16091, a support connecting column 16094 movably penetrates through the middle of the arc vibration damping seat 16092, a spiral grain structure 16095 is arranged on the outer wall of the top of the support connecting column 16094, a transmission ring 16096 is sheathed on the spiral grain structure 16095 in a threaded manner, an oil scraping sheet 16097 which is in sliding fit with the outer wall of the arc vibration damping seat 16092 is arranged on the outer side of the transmission ring 16096, a limiting sheet 16098 fixedly connected with the bottom of the support connecting column 16094 is arranged on the inner wall of the deformation notch 16093, the oil filter structure 18 comprises an oil filter seat 1801 and an oil filter 1802, the oil filter 1802 is provided with two oil filters and is arranged at the lower end of the oil filter seat 1801, the oil filter seat 1801 both ends all are equipped with a flange connection 1803, still include terminal controller, terminal controller locates outside the base 1, terminal controller adopts radio signal to be connected with flow velocity transducer 1706, miniature vibrating motor 1710, aircraft nose 1601 meets with oil-gas separation bucket 6 through the pipeline, location pad 16091 and arc damping seat 16092 are integrated structure, adopt the silica gel material to make, the transmission ring 16096 inner wall has the internal thread structure corresponding with helical line structure 16095.

The active dredging type air inlet box structure 17 is arranged in the compressor, the flow rate in the air filter 1605 is detected in the normal use time limit, then the dust locally accumulated in the air filter 1605 is vibrated and dispersed in a vibration mode, the normal use state of the air filter 1605 is effectively ensured, the flow rate sensor 1706 positioned on the detection tube 1705 in the air filter 1605 detects the introduced air flow in the working process, the air flow speed is slowed down when the air flow is locally accumulated or integrally accumulated, the flow rate sensor 1706 sends an electric signal to the terminal controller, the terminal controller controls the micro vibration motor 1710 to operate, the micro vibration motor 1710 transmits vibration force to the vibration guide block 1711, the vibration guide block 1711 vibrates the air inlet interface 1606 of the air filter 1605 through the connection positioning sleeve 1702, the filter structure close to the air inlet interface 1606 is vibrated, the accumulated dust is vibrated and the air filter 1605 needs to be replaced after vibration or when the flow rate is not changed;

the vibration reduction structure that the bottom of the compression driving mechanism 16 contacts with the base 1 is easy to cause that oil leaked from the compression driving mechanism 16 is accumulated outside the vibration reduction structure to influence vibration reduction work in the use process, so the oil scraping type vibration reduction pad 1609 is designed, when the compression driving mechanism 16 operates to generate vibration, the support connecting column 16094 moves up and down under vibration, and in the up and down movement process, the transmission ring 16096 rotates along the spiral line structure 16095 of the outer wall of the support connecting column 16094, and the transmission ring 16096 can drive the oil scraping sheet 16097 to scrape oil on the outer wall of the arc-shaped vibration reduction seat 16092 in a reciprocating manner to prevent the vibration reduction work from being influenced.

It is to be understood that the disclosed embodiments are not limited to the specific process steps or materials disclosed herein, but are intended to extend to equivalents of such features as would be understood by one of ordinary skill in the relevant arts. It is also to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting.

Reference in the specification to "an embodiment" means that a particular feature, or characteristic, described in connection with the embodiment is included in at least one embodiment of the application. Thus, appearances of the phrase or "an embodiment" in various places throughout this specification are not necessarily all referring to the same embodiment.

Furthermore, the described features or characteristics may be combined in any other suitable manner in one or more embodiments. In the above description, certain specific details are provided, such as thicknesses, numbers, etc., to provide a thorough understanding of embodiments of the application. One skilled in the relevant art will recognize, however, that the application can be practiced without one or more of the specific details, or with other methods, components, materials, etc.

Claims

1. A high performance compressor with an active dredge structure, comprising:

the oil-gas separation device comprises a base, wherein a positioning support is arranged in the middle of the upper end face of the base, a cooler is arranged at the front end of the positioning support, a first frequency converter is arranged at the left side of the positioning support, a pressure valve is connected to the right side of the cooler through a pipeline, an oil-gas separation barrel is arranged at the right part of the upper end face of the base, the input end of the pressure valve is connected with the output end of the top of the oil-gas separation barrel, a pressure gauge, an oil filling port and an oil indicator are sequentially arranged on the outer wall of the oil-gas separation barrel from top to bottom, a drain outlet is arranged at the bottom of the oil-gas separation barrel, an electric cabinet is arranged at the left part of the upper end face of the base, a second frequency converter is arranged in the electric cabinet, an air outlet pipe is arranged at the bottom of the front end face of the cooler, a fan case is arranged at the rear end of the positioning support, two centrifugal fans are arranged in the fan case at intervals, a compression driving mechanism is arranged at the rear of the fan case, an active dredging type air inlet case structure is connected to the rear end of the compression driving mechanism, and an oil filtering structure is connected to the compression driving mechanism through a pipeline;

the active dredging type air inlet box structure comprises a box body and a connecting positioning sleeve, wherein an air inlet notch is formed in the middle of the rear end of the box body, a transmission groove is formed in the top of the front end of the box body, the connecting positioning sleeve is movably embedded in the transmission groove, the connecting positioning sleeve is fixedly sleeved on the outer wall of an air inlet interface, a detection pipe nested in the air inlet interface is arranged on the inner side of the connecting positioning sleeve in an extending mode, the end of the detection pipe extends into an air filter and is provided with a flow velocity sensor, an air inlet hole communicated with the transmission groove is formed in the top surface of the air inlet notch, a telescopic pipeline is connected between the air inlet hole and the connecting positioning sleeve, a vibration groove is formed in the top surface of the transmission groove, a miniature vibration motor is arranged in the vibration groove, and a vibration guide block matched in the vibration groove and contacted with the output end of the miniature vibration motor is arranged on the outer wall of the connecting positioning sleeve;

the oil scraping type vibration damping pad comprises a positioning pad body and an arc vibration damping seat, wherein the positioning pad body is in contact with a base, the arc vibration damping seat is arranged at the upper end of the positioning pad body, a deformation notch is formed in the middle of the positioning pad body, a supporting connecting column is movably penetrated in the middle of the arc vibration damping seat, the outer wall of the top of the supporting connecting column is provided with a spiral line structure, a transmission ring is sleeved with threads on the spiral line structure, an oil scraping sheet which is in sliding fit with the outer wall of the arc vibration damping seat is arranged on the outer side of the transmission ring, and a limiting sheet fixedly connected with the bottom of the supporting connecting column is arranged on the inner wall of the deformation notch.

2. The high performance compressor with built-in active dredging structure according to claim 1, wherein: the oil filter structure comprises an oil filter seat and oil filters, wherein two oil filters are arranged at the lower end of the oil filter seat, and flange connectors are arranged at two ends of the oil filter seat.

3. The high performance compressor with built-in active dredging structure according to claim 1, wherein: the device also comprises a terminal controller, wherein the terminal controller is arranged outside the base, and the terminal controller is connected with the flow rate sensor and the miniature vibration motor by adopting radio signals.

4. The high performance compressor with built-in active dredging structure according to claim 1, wherein: the machine head is connected with the oil-gas separation barrel through a pipeline.

5. The high performance compressor with built-in active dredging structure according to claim 1, wherein: the positioning pad body and the arc vibration reduction seat are of an integrated structure and are made of silica gel materials.

6. The high performance compressor with built-in active dredging structure according to claim 1, wherein: the inner wall of the transmission ring is provided with an internal thread structure corresponding to the spiral line structure.