CN213775660U - Air compressor - Google Patents

Air compressor Download PDF

Info

Publication number
CN213775660U
CN213775660U CN202022578983.0U CN202022578983U CN213775660U CN 213775660 U CN213775660 U CN 213775660U CN 202022578983 U CN202022578983 U CN 202022578983U CN 213775660 U CN213775660 U CN 213775660U
Authority
CN
China
Prior art keywords
air
pump body
air inlet
cavity
controller
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN202022578983.0U
Other languages
Chinese (zh)
Inventor
汪俊良
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Intradin Shanghai Machinery Co Ltd
Original Assignee
Intradin Shanghai Machinery Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Intradin Shanghai Machinery Co Ltd filed Critical Intradin Shanghai Machinery Co Ltd
Priority to CN202022578983.0U priority Critical patent/CN213775660U/en
Application granted granted Critical
Publication of CN213775660U publication Critical patent/CN213775660U/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Landscapes

  • Structures Of Non-Positive Displacement Pumps (AREA)

Abstract

An air compressor comprises a controller, a pump body and an air storage tank, wherein the pump body is communicated with the air storage tank, and a first air inlet and a first air outlet are formed in the pump body; the pump body is used for taking out the outside air and annotates in to the gas holder, the controller sets up in the first air intake department of the pump body to be connected with pump body electricity, the controller is used for controlling the operation of the pump body, outside air can contact the controller and in first air intake entering pump body, then flow out the pump body through first air outlet, in order to realize the heat dissipation to the pump body and controller, in this application, owing to set up the controller in first air intake department, outside air is when first air intake entering pump body, dispels the heat to the controller simultaneously.

Description

Air compressor
Technical Field
The utility model relates to an air compression field, in particular to air compressor machine.
Background
In the prior art, the temperature of a controller of an air compressor can rise when the air compressor works, and the controller cannot work for a long time at a high temperature, so that when the temperature of the controller exceeds a preset value, the controller needs to stop working immediately to cool and reduce the temperature, and the air compressor can not start working again until the temperature of the controller is recovered to be within the preset value.
SUMMERY OF THE UTILITY MODEL
Based on this, the utility model discloses a main objective provides one kind can carry out cooling's air compressor machine to the controller at the during operation.
In order to achieve the above object, the utility model provides an air compressor, include:
a gas storage tank;
the pump body is communicated with the gas storage tank, and a first air inlet and a first air outlet are formed in the pump body; the pump body is used for pumping and injecting external air into the air storage tank; and
the controller, set up in the first air intake department of the pump body, and with the pump body electricity is connected, the controller is used for control the operation of the pump body, outside air can contact the controller and warp first air intake gets into in the pump body, then the warp first air outlet flows out the pump body, in order to realize right the pump body with the heat dissipation of controller.
Preferably, the pump body includes a first housing, a driving assembly and a push rod, the push rod is disposed in the first housing and divides the interior of the first housing into a first cavity and a second cavity, the driving assembly is disposed in the first cavity and connected to the push rod, the controller is electrically connected to the driving assembly, the controller is configured to control the driving assembly to drive the push rod to move along a first direction or along a second direction opposite to the first direction, the sidewall of the first housing is provided with the first air inlet and the first air outlet, the first air inlet and the first air outlet are communicated with the first cavity, and external air can contact the controller, enter the first cavity through the first air inlet, and then flow out of the first cavity through the first air outlet, the air inlet is communicated with the second containing cavity, the air outlet is communicated with the second containing cavity and the air storage tank, when the driving assembly drives the push rod to move along the first direction, the volume of the second containing cavity can be increased to reduce the air pressure in the second containing cavity, so that external air enters the second containing cavity through the air inlet, and when the driving assembly drives the push rod to move along the second direction, the volume of the second containing cavity can be reduced to increase the air pressure in the second containing cavity, so that the air in the second containing cavity enters the air storage tank through the air outlet.
Preferably, the drive assembly includes driving piece, drive shaft and eccentric cover, the drive shaft with the driving piece is connected, eccentric cover is located in the drive shaft, the push rod deviates from a pot head that the second holds the chamber is established in the periphery of eccentric cover, the axis of drive shaft arrives the distance of the periphery each point of eccentric cover is different, just eccentric cover can for the push rod rotates, the driving piece is used for the drive shaft rotates in order to drive eccentric cover around the axis eccentric rotation of drive shaft makes eccentric cover for the push rod rotates, with the drive cover establish in the periphery of eccentric cover the push rod is in first direction or the second direction removes.
Preferably, the eccentric sleeve, the push rod and the first shell all include a plurality of, and a plurality of eccentric sleeve interval cover is located on the drive shaft, a plurality of eccentric sleeve, a plurality of push rod and a plurality of first shell one-to-one.
Preferably, the pump body still includes the pump cover, the pump cover lid is established on the first casing, the push rod, first casing reach the pump cover forms the second holds the chamber, be provided with on the pump cover the air inlet with the gas outlet.
Preferably, the pump body further includes a first fan blade, the first fan blade is connected to one end of the driving assembly, which is close to the first air inlet, and the driving assembly is further configured to drive the first fan blade to rotate, so as to suck external air into the first accommodating cavity through the first air inlet, and blow out the air in the first accommodating cavity out of the first accommodating cavity through the first air outlet.
Preferably, the pump body is further provided with a second air inlet arranged at an interval with the first air inlet, and external air can enter the pump body through the second air inlet and then flows out of the pump body through the first air outlet, so that heat dissipation of the pump body is realized.
Preferably, the air compressor further comprises a joint assembly, one end of the joint assembly is communicated with the air storage tank, the other end of the joint assembly is used for being communicated with an external pneumatic tool, and the joint assembly is used for outputting air in the air storage tank to the external pneumatic tool.
Preferably, the air compressor further comprises a second casing, the pump body and the controller are arranged in the second casing, the air storage tank is connected with the second casing, a third air inlet and a second air outlet are formed in the second casing, external air can enter the second casing through the third air inlet and then enter the first casing through the first air inlet, and air in the first casing can be discharged out of the first casing through the first air outlet and then discharged out of the second casing through the second air outlet.
Preferably, the air compressor further includes a wind shielding member, the wind shielding member is disposed on one side of the third air inlet close to the first air inlet to cover the first air inlet, so as to prevent the air exhausted from the first housing through the first air outlet from entering the first housing through the first air inlet.
The utility model discloses technical scheme has following advantage, and the operation of the controller control pump body to take out the air of outside and annotate to the gas holder in. Outside air can be internal through first air intake entering pump, then flows out the pump body through first air outlet to the realization is to the heat dissipation of the pump body, in this application, because the controller sets up in first air intake department, when outside air gets into the pump through first air intake internal, can dispel the heat to the controller simultaneously, has accelerated the cooling of controller, thereby has prolonged the operating time of controller.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.
FIG. 1 is an isometric view of an air compressor with a second housing hidden according to one embodiment;
FIG. 2 is a cross-sectional view of a pump body according to one embodiment;
FIG. 3 is an isometric view of a pump body of one embodiment;
FIG. 4 is an isometric view of an air compressor according to one embodiment;
FIG. 5 is an isometric view of a joint assembly of an embodiment;
FIG. 6 is a schematic structural diagram of a second housing according to an embodiment;
FIG. 7 is a further isometric view of an air compressor according to one embodiment;
fig. 8 is a schematic structural view of the air compressor with the second housing hidden according to an embodiment.
Wherein, 100, the controller; 200. a pump body; 210. a first housing; 211. a first air inlet; 212. a first air outlet; 213. a first cavity; 214. a second cavity; 220. a drive assembly; 221. a drive member; 222. a drive shaft; 223. an eccentric sleeve; 230. a push rod; 240. a first bearing; 250. a fan blade cover; 251. an opening; 260. a network structure; 270. a pump cover; 271. an air inlet; 272. an air outlet; 280. a second bearing; 290. a first fan blade; 2100. a second air inlet; 2110. a second fan blade; 300. a gas storage tank; 310. an exhaust valve; 400. an air tube; 500. a muffler; 510. opening a hole; 600. a joint assembly; 610. a pressure regulating valve body; 620. a first joint; 630. a second joint; a third joint; 650. a first pressure sensor; 660. a second pressure sensor; 670. a safety valve; 700. a second housing; 710. a third air inlet; 720. a second air outlet; 730. a handle; 740. a power switch; 750. a switch; 800. a wind shielding member; 900. a battery; 1000. a base plate; 1100. a support member; 1200. a shock absorbing member; control panel 1300.
The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.
It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly. In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, "and/or" in the whole text includes three schemes, taking a and/or B as an example, including a technical scheme, and a technical scheme that a and B meet simultaneously; in addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.
The specific structure of the air compressor will be mainly described below.
As shown in fig. 1-2, an air compressor includes a controller 100, a pump body 200 and an air storage tank 300, wherein the pump body 200 is communicated with the air storage tank 300, and the pump body 200 is provided with a first air inlet 211 and a first air outlet 212; the pump body 200 is used for pumping and injecting external air into the air storage tank 300, the controller 100 is arranged at the first air inlet 211 of the pump body 200 and electrically connected with the pump body 200, the controller 100 is used for controlling the operation of the pump body 200, and the external air can contact the controller 100, enter the pump body 200 through the first air inlet 211 and then flow out of the pump body 200 through the first air outlet 212, so that heat dissipation of the pump body 200 and the controller 100 is realized.
The controller 100 controls the pump body 200 to operate to draw external air into the air tank 300. In addition, outside air can get into in the pump body 200 through first air intake 211, then flow out the pump body 200 through first air outlet 212 to the realization is to the heat dissipation of pump body 200 and controller 100, in this application, because controller 100 sets up in first air intake 211 department, when outside air gets into in the pump body 200 through first air intake 211, can dispel the heat to controller 100 simultaneously, has accelerated the cooling of controller 100, thereby has prolonged the operating time of controller 100.
As shown in fig. 2, the pump body 200 includes a first housing 210, a driving assembly 220 and a push rod 230, the push rod 230 is disposed in the first housing 210 and divides the interior of the first housing 210 into a first cavity 213 and a second cavity 214, the driving assembly 220 is disposed in the first cavity 213 and connected to the push rod 230, the controller 100 is electrically connected to the driving assembly 220, the controller 100 is configured to control the driving assembly 220 to drive the push rod 230 to move along a first direction or along a second direction opposite to the first direction, a first air inlet 211 and a first air outlet 212 are disposed on a sidewall of the first housing 210, the first air inlet 211 and the first air outlet 212 are communicated with the first cavity 213, external air can contact the controller 100 and enter the first cavity 213 through the first air inlet 211, and then flow out of the first cavity 213 through the first air outlet 212, so as to dissipate heat of the driving assembly 220 and the controller 100, the first housing 210 is further provided with an air inlet 271 and an air outlet 272, the air inlet 271 is communicated with the second cavity 214, the air outlet 272 is communicated with the second cavity 214 and the air storage tank 300, when the driving assembly 220 drives the push rod 230 to move along the first direction, the volume of the second cavity 214 can be increased to reduce the air pressure in the second cavity 214, so that the external air enters the second cavity 214 through the air inlet 271, when the driving assembly 220 drives the push rod 230 to move along the second direction, the volume of the second cavity 214 can be reduced to increase the air pressure in the second cavity 214, so that the air in the second cavity 214 enters the air storage tank 300 through the air outlet 272, specifically, the first direction is a direction indicated by an arrow of an X axis in fig. 4, and the second direction is a direction opposite to the direction indicated by the arrow of the X axis in fig. 4.
As shown in fig. 1-2, the driving assembly 220 includes a driving member 221, a driving shaft 222 and an eccentric sleeve 223, the driving shaft 222 is connected to the driving member 221, the eccentric sleeve 223 is sleeved on the driving shaft 222, distances from an axis of the driving shaft 222 to points on an outer periphery of the eccentric sleeve 223 are different, an end of the push rod 230 away from the second cavity 214 is sleeved on an outer periphery of the eccentric sleeve 223, and the eccentric sleeve 223 is capable of rotating relative to the push rod 230, the driving member 221 is configured to drive the driving shaft 222 to rotate so as to drive the eccentric sleeve 223 to eccentrically rotate around the axis of the driving shaft 222, so that the eccentric sleeve 223 rotates relative to the push rod 230 to drive the push rod 230 sleeved on the outer periphery of the eccentric sleeve 223 to move in the first direction or the second direction, specifically, the eccentric sleeve 223 eccentrically rotates around the axis of the driving shaft 222, so that a distance between an upper end of the outer periphery of the eccentric sleeve 223 and the axis of the driving shaft 222 changes, so that the distance between the position where the push rod 230 sleeved on the outer circumference of the eccentric sleeve 223 contacts the upper end of the outer circumference of the eccentric sleeve 223 and the axis of the driving shaft 222 is changed to realize the movement of the push rod 230 in the first direction or the second direction.
As shown in fig. 2, the pump body 200 further includes a first bearing 240, the first bearing 240 is sleeved on the driving shaft 222, and the first bearing 240 is limited in the first cavity 213, specifically, the first bearing 240 is used for improving the rotation precision of the driving shaft 222 during rotation.
In an embodiment, as shown in fig. 2, the first bearings 240 include two, the two first bearings 240 are both sleeved on the driving shaft 222, and the two first bearings 240 are located at two sides of the driving member 221, and specifically, the two first bearings 240 cooperate to more reliably improve the rotation precision of the driving shaft 222 during rotation.
As shown in fig. 2 to 3, the pump body 200 further includes a blade cover 250, the blade cover 250 is disposed at the first air inlet 211, the blade cover 250 has an opening 251, external air can enter the first cavity 213 through the opening 251, and meanwhile, the blade cover 250 can block large-volume dirt outside the first cavity 213.
In an embodiment, as shown in fig. 3, the controller 100 is disposed on a side of the blade cover 250 away from the driving member 221, so as to implement that the controller 100 is disposed at the first air inlet 211, specifically, the controller 100 is disposed on a side of the blade cover 250 away from the driving member 221, that is, the controller 100 is disposed on a side of the blade cover 250 facing the outside air, so that the outside air can more fully contact with the controller 100 when entering the first cavity 213 through the opening 251, and thus more heat of the controller 100 can be taken away, so as to accelerate cooling of the controller 100.
As shown in fig. 3, the pump body 200 further includes a mesh structure 260, the mesh structure 260 is disposed at the second air inlet 2100, external air can enter the first cavity 213 through the mesh structure 260, and meanwhile, the mesh structure 260 can block large-volume dirt outside the first cavity 213
In an embodiment, the eccentric sleeve 223, the push rod 230 and the first housing 210 include a plurality of eccentric sleeves 223, the plurality of eccentric sleeves 223 are alternately sleeved on the driving shaft 222, the plurality of eccentric sleeves 223, the plurality of push rods 230 and the plurality of first housings 210 are in one-to-one correspondence, in this embodiment, the number of eccentric sleeves 223, the number of push rods 230 and the first housings 210 include two, and the number of two eccentric sleeves 223 are alternately sleeved on the driving shaft 222, the number of two eccentric sleeves 223, the number of two push rods 230 and the number of first housings 210 are in one-to-one correspondence. The driving shaft 222 drives the two connecting rods to work through the two eccentric sleeves 223, so that the speed of the external air entering the second cavity 214 can be increased, and the speed of the air in the second cavity 214 entering the air storage tank 300 can be increased.
As shown in fig. 2-3, the pump body 200 further includes a pump cover 270, the pump cover 270 covers the first housing 210, the push rod 230, the first housing 210 and the pump cover 270 form a second cavity 214, and the pump cover 270 is provided with an air inlet 271 and an air outlet 272.
In an embodiment, the pump covers 270 include a plurality of pump covers 270, and the plurality of pump covers 270 are covered on the plurality of first housings 210 in a one-to-one correspondence manner, and in this embodiment, the pump covers 270 include two, and two pump covers 270 are covered on the two first housings 210 in a one-to-one correspondence manner.
As shown in fig. 2, the pump body 200 further includes a second bearing 280, the eccentric sleeve 223 is sleeved on the driving shaft 222 through the second bearing 280, and the second bearing 280 reduces friction between the eccentric sleeve 223 and the driving shaft 222, so as to prolong the service life of the eccentric sleeve 223, and at the same time, the second bearing 280 can also improve the rotation precision of the eccentric sleeve 223.
In one embodiment, the second bearings 280 include a plurality of second bearings 280 corresponding to the plurality of eccentric sleeves 223 one by one, and in this embodiment, the second bearings 280 include two second bearings 280 corresponding to the two eccentric sleeves 223 one by one.
As shown in fig. 2, the pump body 200 further includes a first fan blade 290, the first fan blade 290 is connected to one end of the driving assembly 220 close to the first air inlet 211, the driving assembly 220 is further configured to drive the first fan blade 290 to rotate, so as to suck external air into the first cavity 213 through the first air inlet 211 and discharge the external air out of the first cavity 213 through the first air outlet 212, specifically, the first fan blade 290 is sleeved at one end of the driving shaft 222 close to the first air inlet 211, and the driving member 221 is configured to drive the driving shaft 222 to rotate, so as to drive the first fan blade 290 to rotate around an axis of the driving shaft 222.
As shown in fig. 2, the pump body 200 is further provided with a second air inlet 2100 spaced from the first air inlet 211, and external air can enter the pump body 200 through the second air inlet 2100 and then flow out of the pump body 200 through the first air outlet 212, so as to dissipate heat of the pump body 200, specifically, the second air inlet 2100 and the first air inlet 211 are spaced from each other on the first housing 210, and the second air inlet 2100 is communicated with the first cavity 213.
As shown in fig. 2, the pump body 200 further includes a second blade 2110, the second blade 2110 is connected to one end of the driving assembly 220 close to the second air inlet 2100, the driving member 221 is configured to drive the first blade 290 and the second blade 2110 to rotate synchronously, so as to suck external air into the first cavity 213 through the first air inlet 211 and the second air inlet 2100, and then blow out the air in the first cavity 213 out of the first cavity 213 through the first air outlet 212, specifically, the second blade 2110 is sleeved on one end of the driving shaft 222 close to the second air inlet 2100, and the driving member 221 is configured to drive the driving shaft 222 to rotate, so as to drive the first blade 290 and the second blade 2110 to rotate synchronously around an axis of the driving shaft 222.
As shown in fig. 2-3, the air compressor further includes an air pipe 400, and the air pipe 400 is used for connecting the two pump covers 270 to communicate the two second cavities 214.
In an embodiment, the air pipes 400 include a plurality of air pipes 400, the air pipes 400 are used for connecting the two pump covers 270, the air pipes 400 are arranged at intervals, the air pipes 400 can accelerate the air flow between the two second accommodating cavities 214, in this embodiment, the air pipes 400 include two air pipes 400, and the air pipes 400 are arranged at intervals, and the air flow between the two second accommodating cavities 214 can be accelerated by the two air pipes 400.
In an embodiment, the pump body 200 further includes a second one-way valve disposed at the air inlet 271, such that external air can only enter the second cavity 214 through the air inlet 271, and the air in the second cavity 214 cannot be exhausted to the external environment through the air inlet 271.
As shown in fig. 1 and 3, the air compressor further includes a muffler 500, the muffler 500 is disposed on the pump cover 270, the muffler 500 is communicated with the second cavity 214, an opening 510 is disposed on the muffler 500, external air can enter the muffler 500 through the opening 510 and then enter the second cavity 214 through the air inlet 271, and the muffler 500 is used for reducing sound when the external air enters the second cavity 214.
In an embodiment, the first check valve is disposed in the muffler 500, such that external air can only enter the muffler 500 through the opening 510 and then enter the second cavity 214 through the air inlet 271, and the air in the muffler 500 cannot be discharged out of the muffler 500 through the opening 510.
In one embodiment, the pump body 200 further includes a second one-way valve disposed at the air outlet 272, such that air in the second cavity 214 can only enter the air reservoir 300 through the air outlet 272, and air in the air reservoir 300 cannot enter the second cavity 214 through the air outlet 272.
As shown in fig. 4, the air container 300 is provided with an exhaust valve 310, and the exhaust valve 310 is used for exhausting air remaining in the air container 300 when the air compressor is stopped, so as to prevent the air container 300 from exploding due to accidents such as collision. In addition, after the air compressor works for a long time, water is accumulated in the air storage tank 300, and the water in the air storage tank 300 can be discharged through the exhaust valve 310.
As shown in fig. 4, the air compressor further includes a joint assembly 600, one end of the joint assembly 600 is communicated with the air tank 300, the other end of the joint assembly 600 is communicated with an external pneumatic tool, and the joint assembly 600 is used for outputting the air in the air tank 300 to the external pneumatic tool.
As shown in fig. 4 to 5, the joint assembly 600 includes a pressure regulating valve main body 610, a first joint 620 and a second joint 630, the first joint 620 and the second joint 630 are both connected to the pressure regulating valve main body 610, the first joint 620 is communicated with the air tank 300, air in the air tank 300 can enter the pressure regulating valve main body 610 through the first joint 620, the second joint 630 is used for outputting the air entering the pressure regulating valve main body 610, specifically, the second joint 630 is used for being connected with an external pneumatic tool, and the air in the pressure regulating valve main body 610 can be output to the external pneumatic tool through the second joint 630 to drive the pneumatic tool to work.
As shown in fig. 5, the joint assembly 600 further includes a third joint 640, the third joint 640 is connected to the pressure regulating valve body 610, the pressure regulating valve body 610 can regulate the pressure of air entering the pressure regulating valve body 610, the third joint 640 is used for outputting air with the pressure regulated by the pressure regulating valve body 610, and the third joint 640 is matched with the second joint 630 to realize the output of air with different pressures, so that air with different pressures can be output to external pneumatic tools which need to be driven by air with different pressures.
In one embodiment, as shown in fig. 5, the third joints 640 include a plurality of third joints 640, each of the plurality of third joints 640 is connected to the pressure regulating valve body 610, the plurality of third joints 640 are disposed at intervals, the plurality of third joints 640 simultaneously output air whose pressure is regulated by the pressure regulating valve body 610, so that a plurality of external pneumatic tools can be simultaneously driven to operate, in this embodiment, the plurality of third joints 640 include two third joints 640, two third joints 640 are connected to the pressure regulating valve body 610, and the two third joints 640 are disposed at intervals, and the two third joints 640 simultaneously output air whose pressure is regulated by the pressure regulating valve body 610, so that two external pneumatic tools can be simultaneously driven to operate.
As shown in fig. 5, the joint assembly 600 further includes a first pressure sensor 650 and a second pressure sensor 660, the first pressure sensor 650 and the second pressure sensor 660 each being connected to the first joint 620, the first pressure sensor 650 and the second pressure sensor 660 each being electrically connected to the controller 100, the first pressure sensor 650 for detecting the pressure of air within the pressure regulating valve body 610, the second pressure sensor 660 for detecting the pressure of air within the air tank 300, and, in particular, when the second pressure sensor 660 detects that the pressure of the air in the air tank 300 reaches the first set value, the pump body 200 stops working and no more air is input into the air tank 300, when the first pressure sensor 650 detects that the pressure of the air in the pressure regulating valve body 610 reaches the second set value, the second joint 630 outputs air whose pressure is regulated by the pressure regulating valve body 610 from the pressure regulating valve body 610, and the first set value and the second set value may be appropriately set according to actual needs.
As shown in fig. 5, the joint assembly 600 further includes a safety valve 670, the safety valve 670 being connected to the pressure regulating valve body 610, the safety valve 670 serving to discharge pressure when the pressure inside the pressure regulating valve body 610 is excessive.
As shown in fig. 4, the air compressor further includes a second casing 700, the pump body 200 and the controller 100 are disposed in the second casing 700, the air storage tank 300 is connected to the second casing 700, a third air inlet 710 and a second air outlet 720 are disposed on the second casing 700, external air can enter the second casing 700 through the third air inlet 710 and then enter the first casing 210 through the first air inlet 211, air in the first casing 210 can be discharged out of the first casing 210 through the first air outlet 212 and then be discharged out of the second casing 700 through the second air outlet 720, specifically, external air can enter the second casing 700 through the third air inlet 710 and then enter the first cavity 213 through the first air inlet 211, and air in the first cavity 213 can be discharged out of the first cavity 213 through the first air outlet 212 and then be discharged out of the second casing 700 through the second air outlet 720.
In one embodiment, the third air inlets 710 include two, one third air inlet 710 corresponds to the first air inlet 211, and the other third air inlet 710 corresponds to the second air inlet 2100.
In one embodiment, the number of the second air outlets 720 is two, and the two second air outlets 720 can increase the speed of the air flowing out of the second housing 700.
In this embodiment, as shown in fig. 4, the joint assembly 600 is connected to the second housing 700 to achieve the fixation of the joint assembly 600.
As shown in fig. 6, the air compressor further includes a wind shielding member 800, the wind shielding member 800 is disposed at a side of the third air inlet 710 close to the first air inlet 211 to enclose the first air inlet 211, so as to block the air exhausted from the first housing 210 through the first air outlet 212 from entering the first housing 210 through the first air inlet 211, specifically, the air exhausted from the first cavity 213 of the first housing 210 through the first air outlet 212 becomes hot air due to taking away heat of the controller 100 and the driving member 221, if the hot air returns to the first cavity 213 of the first housing 210 through the first air inlet 271, it is not favorable for heat dissipation of the controller 100 and the driving member 221, that is, the wind shield 800 separates hot and cold air, preventing the hot air from being repeatedly sucked into the first receiving cavity 213 of the first housing 210, the controller 100 and the driving member 221 can be rapidly radiated to increase the operating time of the air compressor.
In this embodiment, the wind shielding members 800 include two wind shielding members 800, one wind shielding member 800 is disposed at one side of the third air inlet 710 close to the first air inlet 211 to enclose the first air inlet 211, and the other wind shielding member 800 is disposed at one side of the other third air inlet 710 close to the second air inlet 2100 to enclose the second air inlet 2100.
As shown in fig. 7, a handle 730 is further disposed on the second casing 700, and the transfer of the air compressor is facilitated by holding the handle 730 by hand.
As shown in fig. 7, the air compressor further includes a battery 900, the battery 900 is disposed on the second casing 700, the battery 900 is electrically connected to the controller 100, and the battery 900 is used for supplying power to the controller 100.
As shown in fig. 7, in an embodiment, the battery 900 includes a plurality of batteries 900, the plurality of batteries 900 are disposed on the second casing 700 at intervals, and when the battery 900 runs out of charge, the other batteries 900 can be used to continue to supply power to prolong the operation time of the air compressor.
As shown in fig. 7, a power switch 740 is further disposed on the second casing 700, the power switch 740 is electrically connected to the controller 100, and the power switch 740 is used for controlling the battery 900 to start or stop supplying power, so as to control the start and stop of the air compressor.
As shown in fig. 7, the second casing 700 is further provided with a switch 750, both batteries 900 are electrically connected to the switch 750, the switch 750 is used for switching the operating states of the two batteries 900, specifically, when one battery 900 runs out of charge, the switch 750 stops the battery 900 running out of charge from supplying power to the controller 100, and starts the other battery 900 to operate to supply power to the controller 100.
As shown in fig. 8, the air compressor further includes a bottom plate 1000, the pump body 200 is disposed on the bottom plate 1000, and the bottom plate 1000 is connected to the air storage tank 300, so that the pump body 200 and the air storage tank 300 are more stably mounted.
As shown in fig. 8, the air compressor further includes a support 1100, and the support 1100 is used to support the base plate 1000 and the air tank 300.
As shown in fig. 8, in an embodiment, the support 1100 includes a plurality of supports 1100, the plurality of supports 1100 support the base plate 1000 and the air tank 300 at the same time, and stability of supporting the base plate 1000 and the air tank 300 is improved, in the embodiment, the number of supports 1100 includes three, one support 1100 is used for supporting the air tank 300, the other two supports 1100 support the base plate 1000 through the second housing 700, the three supports 1100 are distributed in a triangle, and the triangle has stability, so that the three supports 1100 support the base plate 1000 and the air tank 300 more reliably.
As shown in fig. 8, the air compressor further includes a shock absorbing member 1200, the shock absorbing member 1200 is disposed between the bottom plate 1000 and the pump body 200, and the shock absorbing member 1200 is used for reducing the shock of the pump body 200 during operation.
In an embodiment, the damping member 1200 includes a plurality of damping members 1200, the plurality of damping members 1200 are disposed between the bottom plate 1000 and the pump body 200 at intervals, and the plurality of damping members 1200 can generate a better damping effect on the pump body 200, in this embodiment, the damping member 1200 includes four damping members, the four damping members 1200 are disposed between the bottom plate 1000 and the pump body 200 at intervals, and the four damping members 1200 can generate a better damping effect on the pump body 200, in this embodiment, the damping members 1200 may be, but are not limited to, made of rubber.
As shown in fig. 4, the air compressor further includes a control panel 1300, the control panel 1300 is connected to the second housing 700, the control panel 1300 is electrically connected to the controller 100, and the control function of the controller 100 can be realized through the control panel 1300.
Referring to fig. 1-8, the coordination and action process among the mechanisms of the air compressor is as follows:
the power switch 740 is turned on, the battery 900 supplies power to the controller 100, and the controller 100 controls the pump body 200 to work, specifically, the controller 100 controls the driving part 221 to drive the driving shaft 222 to rotate so as to drive the eccentric sleeve 223 to eccentrically rotate around the axis of the driving shaft 222, the eccentric sleeve 223 rotates relative to the push rod 230 so that the distance between the push rod 230 and the axis of the driving shaft 222 is changed, so that the push rod 230 moves in the first direction or the second direction, when the push rod 230 moves in the first direction, external air can enter the second cavity 214 through the opening 510 and the air inlet 271, when the push rod 230 moves in the second direction, air in the second cavity 214 can enter the air storage tank 300 through the air outlet 272, when the second pressure sensor 660 detects that the pressure of air in the air storage tank 300 reaches the first set value, the pump body 200 stops working and no more air is input into the air storage tank 300, and air with the pressure reaching the first set value in the air storage tank 300 enters the pressure regulating valve body 610, when the first pressure sensor 650 detects that the pressure of the air in the pressure regulating valve body 610 reaches a second set value, the air in the pressure regulating valve body 610, the pressure of which is regulated by the pressure regulating valve body 610, can be output to the external pneumatic tool through the second joint 630, and the third joint 640 and the second joint 630 are matched to realize the output of air with different pressures;
when the driving member 221 drives the driving shaft 222 to rotate so as to drive the eccentric sleeve 223 to rotate eccentrically around the axis of the driving shaft 222, the driving shaft 222 also drives the first blade 290 and the second blade 2110 to rotate synchronously, so that the external air enters the second housing 700 through the third air inlet 271, then enters the first cavity 213 through the first air inlet 271 and the second air inlet 271 after contacting the controller 100, the external air sucked into the first cavity 213 contacts the driving member 221 to take away heat of the controller 100 and the driving member 221, and then is discharged out of the first cavity 213 through the first air outlet 212, and then discharged out of the second casing 700 through the second air outlet 272, thereby realizing cooling of the controller 100 and the driving member 221, realizing taking away heat of the controller 100 and the driving member 221 when the air compressor is in operation, thereby accelerating the cooling of the controller 100 and the driving member 221 and prolonging the working time of the controller 100 and the driving member 221.
The above is only the preferred embodiment of the present invention, not so limiting the patent scope of the present invention, all of which are in the utility model discloses a conceive, utilize the equivalent structure transform that the content of the specification and the attached drawings did, or directly/indirectly use all to include in other relevant technical fields the patent protection scope of the present invention.

Claims (10)

1. An air compressor machine, its characterized in that includes:
a gas storage tank;
the pump body is communicated with the gas storage tank, and a first air inlet and a first air outlet are formed in the pump body; the pump body is used for pumping and injecting external air into the air storage tank; and
the controller, set up in the first air intake department of the pump body, and with the pump body electricity is connected, the controller is used for control the operation of the pump body, outside air can contact the controller and warp first air intake gets into in the pump body, then the warp first air outlet flows out the pump body, in order to realize right the pump body with the heat dissipation of controller.
2. The air compressor as claimed in claim 1, wherein the pump body includes a first housing, a driving assembly and a push rod, the push rod is disposed in the first housing and divides the interior of the first housing into a first cavity and a second cavity, the driving assembly is disposed in the first cavity and connected to the push rod, the controller is electrically connected to the driving assembly, the controller is configured to control the driving assembly to drive the push rod to move along a first direction or along a second direction opposite to the first direction, the sidewall of the first housing is provided with the first air inlet and the first air outlet, the first air inlet and the first air outlet are communicated with the first cavity, external air can contact the controller and enter the first cavity through the first air inlet, and then flow out of the first cavity through the first air outlet, the air inlet is communicated with the second containing cavity, the air outlet is communicated with the second containing cavity and the air storage tank, when the driving assembly drives the push rod to move along the first direction, the volume of the second containing cavity can be increased to reduce the air pressure in the second containing cavity, so that external air enters the second containing cavity through the air inlet, and when the driving assembly drives the push rod to move along the second direction, the volume of the second containing cavity can be reduced to increase the air pressure in the second containing cavity, so that the air in the second containing cavity enters the air storage tank through the air outlet.
3. The air compressor as claimed in claim 2, wherein the driving assembly includes a driving member, a driving shaft and an eccentric sleeve, the driving shaft is connected to the driving member, the eccentric sleeve is sleeved on the driving shaft, distances from an axis of the driving shaft to points on the periphery of the eccentric sleeve are different, a end of the push rod away from the second cavity is sleeved on the periphery of the eccentric sleeve, the eccentric sleeve can rotate relative to the push rod, the driving member is configured to drive the driving shaft to rotate so as to drive the eccentric sleeve to eccentrically rotate around the axis of the driving shaft, so that the eccentric sleeve rotates relative to the push rod, and the push rod sleeved on the periphery of the eccentric sleeve is driven to move in the first direction or the second direction.
4. The air compressor as claimed in claim 3, wherein the eccentric sleeves, the push rods and the first housings are provided in plural numbers, the eccentric sleeves are provided on the driving shaft at intervals, and the eccentric sleeves, the push rods and the first housings are in one-to-one correspondence.
5. The air compressor according to claim 2, wherein the pump body further includes a pump cover, the pump cover is disposed on the first housing, the push rod, the first housing and the pump cover form the second cavity, and the pump cover is provided with the air inlet and the air outlet.
6. The air compressor according to claim 2, wherein the pump body further includes a first blade, the first blade is connected to an end of the driving assembly near the first air inlet, and the driving assembly is further configured to drive the first blade to rotate, so as to suck external air into the first cavity through the first air inlet and discharge the external air out of the first cavity through the first air outlet.
7. The air compressor as claimed in claim 1, wherein the pump body is further provided with a second air inlet spaced from the first air inlet, and external air can enter the pump body through the second air inlet and then flow out of the pump body through the first air outlet, so as to dissipate heat of the pump body.
8. The air compressor as claimed in claim 1, further comprising a joint assembly, one end of said joint assembly being in communication with said air tank, the other end of said joint assembly being adapted to be in communication with an external pneumatic tool, said joint assembly being adapted to output air from said air tank to said external pneumatic tool.
9. The air compressor as claimed in claim 2, wherein the pump body and the controller are disposed in a second housing, the air storage tank is connected to the second housing, the second housing is provided with a third air inlet and a second air outlet, external air can enter the second housing through the third air inlet and then enter the first housing through the first air inlet, and air in the first housing can be discharged out of the first housing through the first air outlet and then be discharged out of the second housing through the second air outlet.
10. The air compressor according to claim 9, further comprising a wind shielding member disposed at a side of the third air inlet close to the first air inlet to cover the first air inlet, so as to block air exhausted from the first casing through the first air outlet from entering the first casing through the first air inlet.
CN202022578983.0U 2020-11-10 2020-11-10 Air compressor Active CN213775660U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022578983.0U CN213775660U (en) 2020-11-10 2020-11-10 Air compressor

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202022578983.0U CN213775660U (en) 2020-11-10 2020-11-10 Air compressor

Publications (1)

Publication Number Publication Date
CN213775660U true CN213775660U (en) 2021-07-23

Family

ID=76914926

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202022578983.0U Active CN213775660U (en) 2020-11-10 2020-11-10 Air compressor

Country Status (1)

Country Link
CN (1) CN213775660U (en)

Similar Documents

Publication Publication Date Title
CN112196768A (en) Air compressor
CN213775660U (en) Air compressor
US20060231239A1 (en) Battery cooler
CN212660028U (en) Air conditioner motor installation fixing device
JP2014213295A (en) High pressure washer
ES2163133T3 (en) QUICK START ELECTRIC MOTOR.
CN213574729U (en) Volute type high-temperature-resistant centrifugal impeller fan
CN210463340U (en) Multistage adjustment low-consumption combined type fresh air constant-temperature constant-humidity dehumidifier
CN210977963U (en) Fan with bearing temperature reduction device
CN113054821A (en) Linear motor with buffering function at limit position and power tool
CN219500586U (en) Hair drier
CN217783697U (en) Low-interference high-temperature-resistant miniature air pump for respirator
CN211082177U (en) Four-cylinder vacuum pump
CN218606361U (en) Dust absorption fan and dust catcher
CN215521311U (en) High-temperature-resistant centrifugal fan
US20240149423A1 (en) Power tool having a hammer mechanism
CN214318552U (en) Fascia gun
CN221003214U (en) Miniature air pump
CN218266332U (en) Vortex main machine
CN210949048U (en) Cooling fan for air compressor
CN209818348U (en) Simplified fan and electric fan drum
CN114992082B (en) Wireless control type full-automatic high-pressure pump station based on battery power supply
CN214945155U (en) Adjustable fan outer wall heat dissipation device
CN220748627U (en) Inflator pump with high heat conduction and heat dissipation
CN218124484U (en) Flywheel vacuum and cooling integrated system

Legal Events

Date Code Title Description
GR01 Patent grant
GR01 Patent grant