CN112502934A

CN112502934A - Automatic pneumatics device of industrial gas pressure stability type

Info

Publication number: CN112502934A
Application number: CN202011386975.4A
Authority: CN
Inventors: 璧电窘; 赵羽
Original assignee: Hangzhou Wulun Machinery Technology Co ltd
Current assignee: Hangzhou Wulun Machinery Technology Co ltd
Priority date: 2020-12-02
Filing date: 2020-12-02
Publication date: 2021-03-16

Abstract

The invention discloses an industrial air pressure stable type automatic air compression device which comprises an air storage tank, a control mechanism, a power mechanism, an air compression mechanism and an oil recycling mechanism, wherein the control mechanism, the power mechanism, the air compression mechanism and the oil recycling mechanism are arranged on the upper side of the air storage tank; the air compression mechanism comprises two support columns which are fixed on the upper side of the air storage tank and are arranged in bilateral symmetry, a mature reciprocating piston type air compressor is used, the piston capable of changing stroke is arranged on the piston, the piston is different from a traditional air compressor, the stroke and air compression quantity are influenced by changing the size of the piston, the change of the piston stroke is determined by the flow speed of the air storage tank during air exhaust, and the air compression quantity is accurately controlled by the air exhaust, so that the problem that the output air pressure of the traditional air compressor is continuously reduced during use is solved, the service life of a motor is prolonged by keeping the running of the rotating speed to be more frequently started and stopped, the whole automation of the treatment process is realized, the air compression efficiency is greatly improved, and the cost of the air compressor is reduced.

Description

Automatic pneumatics device of industrial gas pressure stability type

Technical Field

The invention relates to an industrial gas pressure stable type automatic air compressor, and mainly relates to the technical field of air compressor control.

Background

The air compressors are vacuum equipment for compressing air, and are divided into reciprocating piston type air compressors, impeller type air compressors, screw type air compressors and the like according to different working principles, wherein the reciprocating piston type air compressors are the most common air compressors;

in the use process of the air compressor at the present stage, the opening and closing of the motor are mainly controlled by detecting the change of the air pressure in the air storage tank, when the air pressure reaches a rated value, the motor is turned off, when the partial pressure of the used gas is reduced to a set value, the motor is restarted for pressurization, however, the design of the structure has a certain problem that the upper limit and the lower limit of the air pressure can not be set too close, otherwise, the sensitivity is too high, the motor may be damaged easily due to repeated opening and closing for a short time, but when the upper and lower limit ranges are set to be wider, the output air pressure can be continuously reduced when in use, is not suitable for high-precision use, secondly, in the occasions needing to be opened for a long time in industrial production and the like, the traditional structure can not meet the requirements on air pressure stability and motor opening and closing, the traditional air compressor is low in use efficiency, and the air compressor is improved aiming at the defects.

Disclosure of Invention

The invention aims to solve the technical problem of providing an industrial air pressure stable type automatic air compression device, and overcomes the problems.

The invention is realized by the following technical scheme.

The invention relates to an industrial gas pressure stable type automatic air compression device which comprises a gas storage tank, a control mechanism, a power mechanism, a gas compression mechanism and an oil recycling mechanism, wherein the control mechanism, the power mechanism, the gas compression mechanism and the oil recycling mechanism are arranged on the upper side of the gas storage tank;

the air compressing mechanism comprises two support columns which are fixed on the upper side of the air storage tank and are arranged in a bilateral symmetry manner, a piston box is arranged on the upper side of each support column, a piston cavity is arranged in each piston box, a fixed piston plate is arranged in each piston cavity in a sliding manner, a movable piston plate is arranged on the left side of each fixed piston plate, air holes are formed in each movable piston plate, the left side of each movable piston plate is connected with the corresponding fixed piston plate through a threaded rod, a limiting block fixed on the bottom wall of each piston cavity is arranged on the left side of each movable piston plate, an air outlet pipe is connected to the left wall of each piston cavity, an air passing pipe is arranged on the left side of the air outlet pipe, an air inlet pipe is arranged on the top wall of each piston cavity, an air combining pipe is arranged on the upper side of the air inlet pipe, the air outlet pipe is connected with the air passing pipe and, the lower side of the one-way valve core is connected with the bottom wall of the one-way valve cavity through a one-way spring, a filter box is arranged on the upper side of the gas synthesizing pipe, the upper side of the filter box is connected with a gas inlet pipe, the left side of the gas passing pipe is connected with a cyclone separator, an oil filter screen is arranged on the inner side of the cyclone separator, and the upper side of the oil filter screen is connected with the gas storage tank through a purified gas;

the control mechanism comprises an airflow pipe positioned on the right side of the gas storage tank, the right side of the airflow pipe is connected with an impeller box, the right side of the impeller box is connected with a discharge pipe, an impeller is arranged in the impeller box, the upper side of the impeller is connected with a driving bevel gear through an impeller shaft, the left side of the driving bevel gear is engaged with a driven bevel gear, the left side of the driven bevel gear is connected with a transmission shaft, the transmission shaft is fixed on the upper side of the gas storage tank through two bilateral symmetry support rods, six inertia pipes are uniformly arranged on the driving shaft, the outer ends of the six inertia pipes are fixedly connected through a fixed frame, an inertia cavity is arranged in each inertia pipe, a receiving plate is arranged in each inertia cavity in a sliding manner, the outer side of each receiving plate is connected with an outer plate which, the inner side of the fixing ring is connected with the receiving plate through an inertia spring, a movable inertia ball is arranged in the receiving plate, when the rotating speed of the transmission shaft is not high, the gear structure of the outer plate is retracted inside the inertia cavity, when the gear structure of the outer plate extends out, a ratchet wheel is meshed on the upper side, a ratchet wheel cavity is arranged in the ratchet wheel, a shaft sleeve connected with the end part of the threaded rod through a spring roll is arranged in the ratchet wheel cavity, vertically symmetrical bolts are arranged on the shaft sleeve, a pawl is rotationally arranged on the bolts and connected with the ratchet wheel structure on the inner wall of the ratchet wheel cavity, and the other side of the pawl is connected with the shaft sleeve through a ratchet wheel spring.

Further, power unit is including fixed being located power motor on the gas holder, power motor upside swivelling joint has the power shaft, power shaft swivelling joint has the crank, the crank left end has the transfer line through bolt swivelling joint, the transfer line left end is equipped with the sliding block, the fixed slide bar that is equipped with in piston box right side, the slide bar downside with sliding block sliding connection, the sliding block left side is equipped with the mobile jib, the mobile jib left end extend to in the piston cavity with decide piston plate right side fixed connection.

Further, fluid retrieval and utilization mechanism includes cyclone, the fixed oil pump that is equipped with of cyclone downside, the oil pump right side is equipped with defeated oil pipe, defeated oil pipe upper end is connected with the nine cooling plates of even setting, connect through eight the same trickle between the cooling plate, the rightmost side the cooling plate passes through out oil pipe and connects close the trachea, transmission shaft one end extends to the cooling plate downside is connected with the action wheel, the meshing of action wheel upside has from the driving wheel, from the driving wheel upside to be connected with the rotation axis, there is heat dissipation frame in the piston box left side through dead lever connection, the rotation axis upper end extends to the heat dissipation frame in-connection has the fan.

The invention has the beneficial effects that: the invention uses a mature reciprocating piston type air compressor, which is different from the traditional air compressor in that a piston capable of changing stroke is arranged on the piston, the stroke and the air compression amount are influenced by changing the size of the piston, the change of the piston stroke is determined by the flow speed of an air storage tank during air exhaust, and the air compression amount is accurately controlled by the air exhaust, so that the problem that the output air pressure of the traditional air compressor is continuously reduced during use is solved, the service life of a motor is prolonged by keeping the running of the rotating speed to be more frequent than frequent starting and stopping, meanwhile, the invention realizes the integral automation of the treatment process, greatly improves the air compression efficiency and reduces the cost of the air compressor.

Drawings

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

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

FIG. 3 is a schematic diagram of B-B in FIG. 1.

Fig. 4 is an enlarged schematic view of C in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The industrial gas pressure stable automatic air compression device described with reference to fig. 1-4 includes an air storage tank 32, and a control mechanism 100, a power mechanism 101, an air compression mechanism 102 and an oil recycling mechanism 103 disposed on the upper side of the air storage tank 32;

the air compressing mechanism 102 comprises two support columns 77 which are fixed on the air storage tank 32 and are arranged in a bilateral symmetry manner, a piston box 10 is arranged on the upper side of each support column 77, a piston cavity 11 is arranged in each piston box 10, a fixed piston plate 12 is arranged in each piston cavity 11 in a sliding manner, a movable piston plate 14 is arranged on the left side of each fixed piston plate 12, an air hole 15 is formed in each movable piston plate 14, the left side of each movable piston plate 14 is connected with the corresponding fixed piston plate 12 through a threaded rod 34, a limiting block 16 fixed on the bottom wall of each piston cavity 11 is arranged on the left side of each movable piston plate 14, an air outlet pipe 44 is connected on the left wall of each piston cavity 11, an air passing pipe 43 is arranged on the left side of each air outlet pipe 44, an air inlet pipe 55 is arranged on the top wall of each piston cavity 11, an air combining pipe 52 is arranged on the upper side of, a one-way valve cavity 73 is arranged in the one-way valve 72, a one-way valve core 74 is slidably arranged in the one-way valve cavity 73, four air passing holes 75 are uniformly formed in the one-way valve core 74, the lower side of the one-way valve core 74 is connected with the bottom wall of the one-way valve cavity 73 through a one-way spring 76, a filter box 53 is arranged on the upper side of the air combining pipe 52, an air inlet pipe 54 is connected to the upper side of the filter box 53, a cyclone separator 41 is connected to the left side of the air passing pipe 43, an oil filter screen 42 is arranged on the inner side of the cyclone separator 41, and the;

the control mechanism 100 comprises an airflow pipe 31 positioned on the right side of the air storage tank 32, an impeller box 28 is connected on the right side of the airflow pipe 31, a discharge pipe 30 is connected on the right side of the impeller box, an impeller 29 is arranged in the impeller box 28, the upper side of the impeller 29 is connected with a driving bevel gear 26 through an impeller shaft 27, a driven bevel gear 25 is engaged on the left side of the driving bevel gear 26, a transmission shaft 24 is connected on the left side of the driven bevel gear 25, the transmission shaft 24 is fixed on the upper side of the air storage tank 32 through two bilateral symmetry support rods 33, six inertia pipes 65 are uniformly arranged on the driving shaft 71, the outer ends of the six inertia pipes 65 are connected and fixed through a fixed frame 62, an inertia cavity 64 is arranged in each inertia pipe 65, a receiving plate 69 is arranged in each inertia cavity 64 in a sliding manner, the outer side of each, the utility model discloses a bearing structure, including planking 63, inertia chamber 64 internal fixation is equipped with solid fixed ring 66, gu fixed ring 66 is inboard to be connected through inertia spring 68 receiving plate 69, be equipped with mobilizable inertia ball 70 in the receiving plate 69, when the transmission shaft 24 rotational speed is not high, planking 63's gear structure is received inertia chamber 64 is inboard, works as planking 63's gear structure upside can be meshed with ratchet 56 when stretching out, be equipped with ratchet chamber 57 in the ratchet 56, be equipped with in the ratchet chamber 57 through spring book 71 with threaded rod 34 end connection's axle sleeve 61, be equipped with vertically symmetrical bolt 60 on the axle sleeve 61, the rotation is equipped with pawl 58 on the bolt 60, pawl 58 with ratchet structural connection on the ratchet chamber 57 inner wall, pawl 58 the opposite side pass through ratchet spring 59 with axle sleeve 61 is connected.

Beneficially, power unit 101 includes power motor 23 fixedly located on gas holder 32, power shaft 22 is rotationally connected to the upper side of power motor 23, power shaft 22 is rotationally connected with crank 21, the left end of crank 21 is rotationally connected with transmission rod 19 through bolt 20, the left end of transmission rod 19 is provided with sliding block 18, piston box 10 is fixedly provided with sliding rod 13 on the right side, the lower side of sliding rod 13 is slidably connected with sliding block 18, sliding block 18 is provided with main rod 17 on the left side, the left end of main rod 17 extends to piston cavity 11 and is fixedly connected with the right side of fixed piston plate 12.

Beneficially, fluid retrieval and utilization mechanism 103 includes cyclone 41, the fixed oil pump 39 that is equipped with of cyclone 41 downside, oil pump 39 right side is equipped with defeated oil pipe 40, defeated oil pipe 40 upper end is connected with nine cooling plates 48 of even setting, connect through eight the same thin flow tubes 49 between the cooling plates 48, the rightmost side cooling plates 48 connect through a play oil pipe 50 the air-tube 52, transmission shaft 24 one end extends to cooling plates 48 downside is connected with action wheel 36, action wheel 36 upside meshing has from driving wheel 37, from driving wheel 37 upside connection have rotation axis 38, piston box 10 left side is connected with heat dissipation frame 45 through dead lever 47, rotation axis 38 upper end extends to the heat dissipation frame in-connection has fan 46.

Sequence of mechanical actions of the whole device:

1. when the air is discharged from the right side of the discharge pipe 30, the air in the air storage tank 32 blows the impeller 29 through the air flow pipe 31, the impeller 29 starts to rotate through the impeller shaft 27, the driving bevel gear 26, the driven bevel gear 25, the transmission shaft 24, the inertia pipe 65 and the fixed frame 62, when the flow rate is fast enough, the inertia ball 70 ejects the outer plate 63 out through the receiving plate 69 and the connecting rod 67 to be meshed with the ratchet 56, and the pawl 58 controls the distance between the movable piston plate 14 and the fixed piston plate 12 through the ratchet spring 59, the shaft sleeve 61, the driving shaft 71 and the threaded rod 34 to adjust the piston stroke;

2. meanwhile, the power motor 23 is started to drive the fixed piston plate 12, the threaded rod 34 and the movable piston plate 14 to reciprocate left and right for compressing air through the power shaft 22, the crank 21, the bolt 20, the transmission rod 19, the sliding block 18 and the main rod 17;

3. when the threaded rod 14 moves to the right, the gas in the gas inlet pipe 54 pushes away the one-way valve core 74 through the filter box 53 and the gas combining pipe 52, enters the piston cavity 11 through the one-way valve cavity 73, the gas passing pipe 75 and the gas inlet pipe 55, when the threaded rod 14 moves to the left, the one-way valve core 74 at the upper side is closed, the one-way valve core 74 at the left side is opened, the gas in the piston cavity 11 enters the cyclone separator 41 through the gas outlet pipe 44, the one-way valve cavity 73 at the left side and the gas passing pipe 43, and at the moment, the gas in the cyclone separator 41 enters the gas storage tank 32 through the oil filter;

4. when the lubricating oil in the piston cavity 11 needs lubricating oil during operation and cannot enter the air storage tank 32, the lubricating oil in the piston cavity 11 enters the cyclone separator 41 through the air outlet pipe 44, the one-way valve cavity 73 and the air passing pipe 43, the oil enters the cooling plate 48 and the trickle pipe 49 through the oil pump 39 and the oil conveying pipe 40 by the double oil filtering structure in the cyclone separator 41, meanwhile, the driving shaft 24 drives the driving wheel 36, the driven wheel 37, the rotating shaft 38 and the fan 46 to blow air upwards so that the oil in the cooling plate 48 is cooled, and the cooled oil enters the air combining pipe 52 through the oil outlet pipe 50 to complete a cycle;

5. when the gas consumption at one end of the discharge pipe 30 is increased, the rotating speed of the transmission shaft 24 is increased, so that the movable piston plate 14 continuously moves rightwards, the piston stroke is continuously lengthened, and the gas pressed into the gas storage tank 32 is continuously increased, on the contrary, when the gas consumption at one end of the discharge pipe 30 is reduced, the threaded rod 34 rotates under the action of the spring coil 71, and the piston plate 14 moves leftwards, so that the gas pressed into the gas storage tank 32 is reduced, and the aim of stabilizing the gas pressure is fulfilled.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides an automatic pneumatics device of industrial gas pressure stability type which characterized in that: the device comprises a gas storage tank, a control mechanism, a power mechanism, a pneumatic mechanism and an oil recycling mechanism, wherein the control mechanism, the power mechanism, the pneumatic mechanism and the oil recycling mechanism are arranged on the upper side of the gas storage tank; the air compressing mechanism comprises two support columns which are fixed on the upper side of the air storage tank and are arranged in a bilateral symmetry manner, a piston box is arranged on the upper side of each support column, a piston cavity is arranged in each piston box, a fixed piston plate is arranged in each piston cavity in a sliding manner, a movable piston plate is arranged on the left side of each fixed piston plate, air holes are formed in each movable piston plate, the left side of each movable piston plate is connected with the corresponding fixed piston plate through a threaded rod, a limiting block fixed on the bottom wall of each piston cavity is arranged on the left side of each movable piston plate, an air outlet pipe is connected to the left wall of each piston cavity, an air passing pipe is arranged on the left side of the air outlet pipe, an air inlet pipe is arranged on the top wall of each piston cavity, an air combining pipe is arranged on the upper side of the air inlet pipe, the air outlet pipe is connected with the air passing pipe and, the lower side of the one-way valve core is connected with the bottom wall of the one-way valve cavity through a one-way spring, a filter box is arranged on the upper side of the gas synthesizing pipe, the upper side of the filter box is connected with a gas inlet pipe, the left side of the gas passing pipe is connected with a cyclone separator, an oil filter screen is arranged on the inner side of the cyclone separator, and the upper side of the oil filter screen is connected with the gas storage tank through a purified gas; the control mechanism comprises an airflow pipe positioned on the right side of the gas storage tank, the right side of the airflow pipe is connected with an impeller box, the right side of the impeller box is connected with a discharge pipe, an impeller is arranged in the impeller box, the upper side of the impeller is connected with a driving bevel gear through an impeller shaft, the left side of the driving bevel gear is engaged with a driven bevel gear, the left side of the driven bevel gear is connected with a transmission shaft, the transmission shaft is fixed on the upper side of the gas storage tank through two bilateral symmetry support rods, six inertia pipes are uniformly arranged on the driving shaft, the outer ends of the six inertia pipes are fixedly connected through a fixed frame, an inertia cavity is arranged in each inertia pipe, a receiving plate is arranged in each inertia cavity in a sliding manner, the outer side of each receiving plate is connected with an outer plate which, the inner side of the fixing ring is connected with the receiving plate through an inertia spring, a movable inertia ball is arranged in the receiving plate, when the rotating speed of the transmission shaft is not high, the gear structure of the outer plate is retracted inside the inertia cavity, when the gear structure of the outer plate extends out, a ratchet wheel is meshed on the upper side, a ratchet wheel cavity is arranged in the ratchet wheel, a shaft sleeve connected with the end part of the threaded rod through a spring roll is arranged in the ratchet wheel cavity, vertically symmetrical bolts are arranged on the shaft sleeve, a pawl is rotationally arranged on the bolts and connected with the ratchet wheel structure on the inner wall of the ratchet wheel cavity, and the other side of the pawl is connected with the shaft sleeve through a ratchet wheel spring.

2. An industrial gas pressure stabilized automatic air compressor unit according to claim 1, characterized in that: power unit is including fixed being located power motor on the gas holder, power motor upside swivelling joint has the power shaft, power shaft swivelling joint has the crank, the crank left end has the transfer line through bolt swivelling joint, the transfer line left end is equipped with the sliding block, the fixed slide bar that is equipped with in piston box right side, the slide bar downside with sliding block sliding connection, the sliding block left side is equipped with the mobile jib, the mobile jib left end extend to in the piston cavity with fixed piston board right side fixed connection.

3. An industrial gas pressure stabilized automatic air compressor unit according to claim 1, characterized in that: fluid retrieval and utilization mechanism includes cyclone, the fixed oil pump that is equipped with of cyclone downside, the oil pump right side is equipped with defeated oil pipe, defeated oil pipe upper end is connected with nine cooling plates of even setting, connect through eight the same trickle between the cooling plate, the rightmost side the cooling plate passes through out oil pipe and connects close the trachea, transmission shaft one end extends to the cooling plate downside is connected with the action wheel, the meshing of action wheel upside has from the driving wheel, from the driving wheel upside is connected with the rotation axis, piston box left side is connected with radiator frame through the dead lever, the rotation axis upper end extends to the radiator frame in-connection has the fan.