CN114856966A - Safe, stable and efficient heat dissipation type air compressor and control method thereof - Google Patents

Abstract

The invention discloses a safe, stable and efficient heat dissipation type air compressor and a control method thereof. The invention has the beneficial effects that: according to the invention, by utilizing the design of the damping component, when the first damping pad is separated from the ground, the second damping pad is always kept in contact with the ground under the action of the damping spring, so that the air compressor is prevented from generating a position offset phenomenon.

Description

Safe, stable and efficient heat dissipation type air compressor and control method thereof

Technical Field

The invention relates to a safe, stable and efficient heat dissipation type air compressor, in particular to a safe, stable and efficient heat dissipation type air compressor and a control method thereof, and belongs to the technical field of air compressors.

Background

An air compressor is a device for compressing gas. The air compressor is constructed similarly to a water pump. Most air compressors are of a reciprocating piston type, rotating blades or rotating screws, and in order to improve the heat dissipation performance of the air compressor, the efficient heat dissipation type air compressor is applied in time;

the existing air compressor capable of efficiently dissipating heat generally generates vibration in the using process, so that a shock pad at the bottom of the air compressor is pulled away from the ground by 0-1cm, the shock pad cannot be in contact with the ground, the air compressor is caused to have a displacement phenomenon and deviates from an initial designated position, meanwhile, the air compressor is generally provided with a group of rollers, a roller seat is generally fixed at the bottom of the air compressor, and when the shock pad is separated from the ground, the air compressor is easy to move through the rollers, and then the connection between a connector on the air compressor and an external connecting pipe is easy to loosen.

Disclosure of Invention

The present invention is directed to solving the above problems and providing a safe, stable and efficient heat dissipation type air compressor and a control method thereof.

The invention achieves the above purpose through the following technical scheme, and a safe, stable and efficient heat dissipation type air compressor comprises:

the high-efficiency heat radiator is arranged at the top end of the storage tank, and two support frames are fixedly connected to the bottom end of the storage tank;

the shock absorption assemblies are respectively arranged at the bottom ends of the two support frames and comprise support legs and anti-skidding mechanisms, the anti-skidding mechanisms are used for preventing the storage tank from being subjected to position deviation, first shock absorption pads are fixedly and alternately connected to the bottom ends of the support legs, and the anti-skidding mechanisms are arranged inside the support legs;

the anti-skid mechanism comprises a guide sliding rod, a second damping pad and a damping spring, the second damping pad is fixedly connected to the bottom end of the guide sliding rod, and the damping spring is fixedly connected to the top end of the guide sliding rod;

the supporting device comprises a supporting frame, a plurality of groups of movable supporting components and a plurality of clamping rods, wherein the supporting frame is provided with a supporting frame, the two groups of movable supporting components are arranged on two sides of the supporting frame, each movable supporting component comprises a bearing plate, two fixing mechanisms and two positioning mechanisms, movable bearing rods are slidably and alternately connected inside two ends of the bearing plate, the clamping rods are slidably and alternately connected inside one end of each movable bearing rod, the fixing mechanisms are arranged at one end of the bearing plate, and the positioning mechanisms are arranged at the top end of one side of the bearing plate;

the fixing mechanism comprises an external connecting rod, a connecting rod and a locking rod, the connecting rod is slidably inserted into the external connecting rod, and the locking rod is fixedly connected to one end of the connecting rod;

the positioning mechanism comprises a locking plate and a rotating rod.

Preferably, the inside middle part of supporting leg has been seted up and has been led smooth chamber, the inside both sides of supporting leg all set up with the spacing spout that leads smooth chamber intercommunication each other, lead smooth chamber and cup joint in the outside of direction slide bar, two the inside of spacing spout all is overlapped and is equipped with limit slider, two the relative one end of limit slider all with the side fixed connection of direction slide bar, the inside roof of spacing spout and damping spring's top fixed connection.

Preferably, a groove is formed in the middle of the bottom end of the first shock pad, the groove corresponds to the second shock pad, and the bottom end of the second shock pad and the bottom end of the first shock pad are fixedly connected with anti-skid nails.

Preferably, two transverse grooves are formed in one end of the bearing plate, the external connecting rod is fixedly connected to one end of the bearing plate, the top of the connecting rod is rotatably and alternately connected with the rotating plate, a fastening spring is sleeved at the bottom of the connecting rod, one end of the fastening spring is fixedly connected with the end, opposite to the rotating plate, of the rotating plate, and the other end of the fastening spring is fixedly connected with the inner wall of one side of the external connecting rod.

Preferably, the two ends of the locking rod are fixedly connected with guide sliding blocks, the outer connecting rod is provided with an annular groove, the top and the bottom of the inner portion of the outer connecting rod are provided with guide sliding grooves communicated with the annular groove, the guide sliding grooves are sleeved on the outer portion of the guide sliding blocks, and one side of the connecting rod is fixedly connected with an auxiliary rod.

Preferably, two joint grooves have been seted up to the other end of loading board, the joint groove corresponds with the joint pole each other, the traction groove has all been seted up to the inside both sides of removal carrier bar, the inside cover in traction groove is equipped with the traction block, traction block fixed connection is in the side of joint pole, the first traction spring of one side fixedly connected with of traction block, the one end of first traction spring and the inner wall fixed connection of traction groove one side, the one end rotation of removal carrier bar is provided with the gyro wheel.

Preferably, the guide way has been seted up to the inside of loading board one end, the inside cover of guide way is equipped with assists the piece, assist the one end fixedly connected with second traction spring of piece, the one end of second traction spring and the inner wall fixed connection of guide way one side, assist the other end fixedly connected with club of piece, the inside of bull stick is located in the rotation of club.

Preferably, a positioning groove is fixedly formed in one end of the bearing plate, a positioning rod is sleeved in the positioning groove, and one end of the positioning rod is fixedly connected with the end, opposite to the locking plate, of the locking plate.

Preferably, one side fixedly connected with handle at holding vessel top, one side fixedly connected with on holding vessel top rather than the inside outlet duct that communicates each other, the one end threaded connection of outlet duct has the ball valve.

Preferably, the use method of the air compressor comprises the following steps:

the first step is as follows: firstly, holding a handle by hand, and then pushing the storage tank by the handle to drive the roller to rotate so as to move the storage tank to a specified working position;

secondly, the auxiliary rod is held by hands, then the auxiliary rod is pulled to the outside of the external connecting rod, the auxiliary rod drives the connecting rod to move, the connecting rod drives the locking rod rotating plate and the guide sliding block to move until one end of the guide sliding block is attached to the inner wall of one side of the guide sliding groove, and then the auxiliary rod is rotated to enable the auxiliary rod to rotate to the inside of the annular groove;

at the moment, the clamping rod is not stressed, and the first traction spring drives the clamping rod to move through the traction block, so that the clamping rod is arranged in the movable bearing rod;

thirdly, the locking plate is held by hands, the positioning mechanism is driven by the locking plate to rotate anticlockwise, then the roller is held by hands and then pulled to move towards one end of the bearing plate, the roller drives the movable bearing rod to move along the inside of the bearing plate until one end of the clamping rod is attached to the inner wall of the transverse groove, then the roller is pulled towards the top end of the storage tank, the roller drives the movable bearing rod to rotate, the bearing rod is moved, the clamping rod is driven to rotate, and the operation is stopped until the movable bearing rod is in a vertical state;

then, the locking plate is held by hand, and then the movable bearing rod is fixed through the locking mechanism;

fourthly, under the self gravity of the storage tank, the storage tank drives the supporting legs to move towards the direction close to the ground through the supporting frame, the supporting legs drive the first shock pad to move, meanwhile, the supporting legs extrude the shock absorption springs to contract and store force, meanwhile, the supporting legs drive the limiting sliding grooves in the supporting legs to slide along the outer part of the limiting sliding blocks, the storage tank stops until the second shock pad is clamped in the first shock pad, and at the moment, the anti-skid nails are in contact with the ground;

when the storage tank is in use, the first damping pad is separated from the ground by 0-1cm when vibration is generated, and at the moment, the damping spring releases elasticity to push the guide sliding rod to move, so that the second damping pad is ensured to be always in contact with the ground, and the storage tank is prevented from displacing.

The invention has the beneficial effects that: firstly, the invention utilizes the design of the damping component, the air compressor can be prevented from displacing by the damping component, when the first damping pad is separated from the ground, the second damping pad is always kept in contact with the ground under the action of the damping spring, and meanwhile, the friction force between the second damping pad and the ground is increased under the action of the anti-skid nails, so that the air compressor is prevented from being displaced.

Secondly, the movable bearing rod can be positioned in the horizontal direction and the vertical direction by the movable supporting component by utilizing the design of the movable supporting, so that the position of the roller is convenient to change, and the air compressor can be used and moved.

Thirdly, the position adjustment process of the idler wheels is very simple through the structural design, and the idler wheels are arranged in two groups, so that the phenomenon that the connecting part of a connecting port on the air compressor and an external connecting pipe is loosened is avoided.

Drawings

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

FIG. 2 is a bottom view of a storage tank bottom structure according to the present invention;

FIG. 3 is a side cross-sectional view of the support leg structure of the present invention;

FIG. 4 is a schematic structural view of the mobile centralizer assembly of the present invention;

FIG. 5 is a sectional view of the bearing plate, the external connecting rod and the movable bearing rod of the present invention;

FIG. 6 is a side cross-sectional view of the external connecting rod structure of the present invention;

FIG. 7 is a top view of the positioning mechanism of the present invention.

In the figure: 1. a storage tank; 11. an air outlet pipe; 12. a handle; 2. a high efficiency heat sink; 3. a support frame; 31. supporting legs; 3101. a first cushion pad; 3102. a guide slide bar; 3103. a second cushion pad; 3104. a limiting slide block; 3105. a damping spring; 3106. anti-skid nails; 4. a carrier plate; 41. an extension rod; 4101. a locking lever; 4102. a connecting rod; 4103. rotating the plate; 4104. a fastening spring; 4105. a guide slider; 4106. an auxiliary rod; 4107. an annular groove; 4108. a guide chute; 42. moving the carrier bar; 4201. a clamping and connecting rod; 4202. a traction block; 4203. a first traction spring; 4204. a roller; 43. a locking plate; 4301. positioning a rod; 4302. a rotating rod; 4303. an auxiliary block; 4304. a second traction spring.

Detailed Description

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

Referring to fig. 1-7, a safe, stable and efficient heat dissipation type air compressor and a control method thereof includes:

the high-efficiency heat radiator comprises a storage tank 1, wherein the top end of the storage tank 1 is provided with a high-efficiency heat radiator 2, and the bottom end of the storage tank 1 is fixedly connected with two support frames 3;

a handle 12 is fixedly connected to one side of the top of the storage tank 1, an air outlet pipe 11 communicated with the interior of the storage tank 1 is fixedly connected to one side of the top of the storage tank 1, and a ball valve is connected to one end of the air outlet pipe 11 in a threaded manner;

the two groups of shock absorption assemblies are respectively arranged at the bottom ends of the two support frames 3, each shock absorption assembly comprises a support leg 31 and an anti-skidding mechanism, the anti-skidding mechanism is used for preventing the storage tank 1 from being subjected to position deviation, the bottom end of the support leg 31 is fixedly connected with a first shock absorption pad 3101 in an inserting mode, and the anti-skidding mechanism is arranged inside the support leg 31;

the antiskid mechanism comprises a guide slide bar 3102, a second shock absorption pad 3103 and a shock absorption spring 3105, the second shock absorption pad 3103 is fixedly connected to the bottom end of the guide slide bar 3102, and the shock absorption spring 3105 is fixedly connected to the top end of the guide slide bar 3102;

the inside middle part of supporting leg 31 has been seted up and has been led smooth chamber, the inside both sides of supporting leg 31 all set up with the spacing spout that leads smooth chamber and communicate each other, lead smooth chamber and cup joint in the outside of direction slide bar 3102, the inside of two spacing spouts all is overlapped and is equipped with limit slider 3104, the one end that two limit slider 3104 are relative all with the side fixed connection of direction slide bar 3102, the inside roof of spacing spout and damping spring 3105's top fixed connection.

The middle part of the bottom end of the first shock pad 3101 is provided with a groove, the groove corresponds to the second shock pad 3103, the side of the second shock pad 3103 is in a certain arc surface shape, namely a trapezoidal shape, and the shape of the side is consistent with the radian of the inner wall of the groove, the bottom end of the second shock pad 3103 and the bottom end of the first shock pad 3101 are fixedly connected with anti-skid nails 3106, and the friction force between the first shock pad 3101 and the second shock pad 3103 and the ground can be improved through the mutual matching of the anti-skid nails 3106 and the ground;

the two groups of movable supporting components are arranged on two sides of the supporting frame 3 and comprise a bearing plate 4, two fixing mechanisms and two positioning mechanisms, movable bearing rods 42 are slidably and alternately connected inside two ends of the bearing plate 4, clamping rods 4201 are slidably and alternately connected inside one end of each movable bearing rod 42, the fixing mechanisms are arranged at one ends of the bearing plate 4, the movable bearing rods 42 can be fixed in the horizontal direction through the fixing mechanisms, the positioning mechanisms are arranged at the top ends of one sides of the bearing plate 4, the movable bearing rods 42 can be fixed in the vertical direction through the positioning mechanisms, and accordingly position change of the idler wheels 4204 is facilitated;

the fixing mechanism comprises an external connecting rod 41, a connecting rod 4102 and a locking rod 4101, wherein the connecting rod 4102 is slidably inserted into the external connecting rod 41, and the locking rod 4101 is fixedly connected to one end of the connecting rod 4102;

one end of the bearing plate 4 is provided with two transverse grooves, the external connecting rod 41 is fixedly connected to one end of the bearing plate 4, the top of the connecting rod 4102 is rotatably inserted and connected with a rotating plate 4103, the bottom of the connecting rod 4102 is sleeved with a fastening spring 4104, one end of the fastening spring 4104 is fixedly connected with the end opposite to the rotating plate 4103, and the other end of the fastening spring 4104 is fixedly connected with the inner wall of one side of the external connecting rod 41;

two ends of the locking rod 4101 are fixedly connected with guide sliding blocks 4105, an annular groove 4107 is formed in the external connecting rod 41, guide sliding grooves 4108 communicated with the annular groove 4107 are formed in the top and the bottom of the internal part of the external connecting rod 41, the guide sliding grooves 4108 are sleeved outside the guide sliding blocks 4105, and one side of the connecting rod 4102 is fixedly connected with an auxiliary rod 4106;

the other end of the bearing plate 4 is provided with two clamping grooves, the clamping grooves correspond to the clamping rods 4201, traction grooves are formed in two sides of the interior of the movable bearing rod 42, a traction block 4202 is sleeved in each traction groove, the traction block 4202 is fixedly connected to the side surface of the clamping rod 4201, one side of the traction block 4202 is fixedly connected with a first traction spring 4203, one end of the first traction spring 4203 is fixedly connected with the inner wall of one side of each traction groove, and one end of the movable bearing rod 42 is rotatably provided with a roller 4204;

the positioning mechanism comprises a locking plate 43 and a rotating rod 4302;

a guide groove is formed in one end of the bearing plate 4, an auxiliary block 4303 is sleeved in the guide groove, one end of the auxiliary block 4303 is fixedly connected with a second traction spring 4304, one end of the second traction spring 4304 is fixedly connected with the inner wall of one side of the guide groove, the other end of the auxiliary block 4303 is fixedly connected with a ball rod, and the ball rod is rotatably embedded in the rotating rod 4302;

the fixed constant head tank of having seted up in inside of loading board 4 one end, the inside cover of constant head tank is equipped with locating lever 4301, and the one end of locating lever 4301 and the relative one end fixed connection of lockplate 43.

The use method of the air compressor comprises the following steps:

the first step is as follows: firstly, the handle 12 is held by hand, and then the storage tank 1 is pushed by the handle 12 to drive the roller 4204 to rotate, so that the storage tank 1 is moved to a work appointed position;

secondly, the auxiliary rod 4106 is held by hand again, then the auxiliary rod 4106 is pulled to the outside of the external connecting rod 41, the auxiliary rod 4106 drives the connecting rod 4102 to move, the connecting rod 4102 drives the locking rod 4101 rotating plate 4103 and the guide sliding block 4105 to move until one end of the guide sliding block 4105 is jointed with the inner wall of one side of the guide sliding chute 4108, and then the auxiliary rod 4106 is rotated again, so that the auxiliary rod 4106 is rotated to the inside of the annular groove 4107;

at this time, the bayonet rod 4201 is not stressed, and the first traction spring 4203 drives the bayonet rod 4201 to move through the traction block 4202, so that the bayonet rod 4201 is placed inside the movable carrier rod 42;

thirdly, the locking plate 43 is held by hand, the locking plate 43 drives the positioning mechanism to rotate counterclockwise, then the roller 4204 is held by hand and then the roller 4204 is pulled to move towards one end of the bearing plate 4, the roller 4204 drives the movable carrying rod 42 to move along the inside of the bearing plate 4 until one end of the bayonet rod 4201 is attached to the inner wall of the transverse groove, then the roller 4204 is pulled towards the top end of the storage tank 1, the roller 4204 drives the movable carrying rod 42 to rotate, the carrying rod 42 is moved, the bayonet rod 4201 is driven to rotate, and the operation is stopped until the movable carrying rod 42 is in a vertical state;

then, the locking plate 43 is held by hand, and then the movable bearing rod 42 is fixed through the locking mechanism;

fourthly, under the self gravity of the storage tank 1, the storage tank 1 drives the supporting leg 31 to move towards the direction close to the ground through the supporting frame 3, the supporting leg 31 drives the first shock pad 3101 to move, meanwhile, the supporting leg 31 extrudes the shock absorption spring 3105 to shrink and store force, meanwhile, the supporting leg 31 drives the limiting sliding groove inside the supporting leg to slide along the outside of the limiting sliding block 3104 until the second shock pad 3103 is clamped inside the first shock pad 3101, and at the moment, the anti-skid nails 3106 are contacted with the ground;

when the storage tank 1 is in use, the first shock absorption pad 3101 is separated from the ground by 0-1cm during the generated vibration, and at the moment, the shock absorption spring 3105 releases the elastic force to push the guide slide bar 3102 to move, so that the second shock absorption pad 3103 is ensured to be always in contact with the ground, and the storage tank 1 is prevented from displacing.

In use, the invention is described with reference to figures 1 to 7 of the accompanying drawings:

the first step is carried out, the operator firstly holds the handle 12, and then pushes the storage tank 1 by the handle 12 to rotate the roller 4204, thereby moving the storage tank 1 to the work appointed position;

performing a second step of operation, holding the auxiliary lever 4106 by hand, pulling the auxiliary lever 4106 towards the outside of the external connecting rod 41, the auxiliary lever 4106 driving the connecting rod 4102 to move, the connecting rod 4102 driving the locking rod 4101 to move, the locking rod 4101 driving the rotary plate 4103 and the guide slider 4105 to move, the guide slider 4105 moving along the inside of the guide sliding chute 4108, the rotary plate 4103 compressing the fastening spring 4104 to contract and store force until one side of the guide slider 4105 and the inner wall of one side of the guide sliding chute 4108 are jointed with each other;

then, the auxiliary lever 4106 is rotated, the auxiliary lever 4106 drives the connecting lever 4102, the locking lever 4101 and the guiding slider 4105 to rotate, so that the guiding slider 4105 rotates along the inside of the guiding annular groove 4107, and the locking lever 4101 is positioned inside the external connecting rod 41;

at this time, one end of the latch rod 4201 is not pressed by the locking rod 4101, and the first pulling spring 4203 recovers its elastic force to pull the pulling block 4202 to move, so that the pulling block 4202 drives the latch rod 4201 to move, and thus one end of the latch rod 4201 is located inside the movable carrier rod 42;

performing a third step, then holding the locking plate 43 by hand, pulling the locking plate 43 toward one end of the source flow bearing plate 4, the locking plate 43 driving the positioning rod 4301 to move along the inside of the positioning groove, and stopping until the positioning rod 4301 moves out of the inside of the positioning groove;

meanwhile, the locking plate 43 drives the rotating rod 4302 to move, the rotating rod 4302 drives the auxiliary block 4303 to move through the ball rod, and the auxiliary block 4303 stretches the second traction spring 4304 to contract and store force;

then the locking plate 43 is rotated counterclockwise, the locking plate 43 drives the rotating rod 4302 to rotate, one end of the rotating rod 4302 rotates along the outside of the club, and the rotation stops until the locking plate 43 rotates to ninety degrees;

performing a fourth step of operation, then holding the roller 4204 again and pulling the roller 4204 to move towards one end of the carrier plate 4, the roller 4204 driving the movable carrier bar 42 to move along the inside of the carrier plate 4 until one end of the snap rod 4201 and the inner wall of the transverse groove are mutually attached, then pulling the roller 4204 towards the top end of the storage tank 1, the roller 4204 driving the movable carrier bar 42 to rotate, moving the carrier bar 42, driving the snap rod 4201 to rotate, and stopping until the movable carrier bar 42 is in a vertical state;

then, the locking plate 43 is held by hand, and then the movable bearing rod 42 is fixed through the locking mechanism;

at this moment, under the self gravity of the storage tank 1, the storage tank 1 drives the supporting leg 31 to move towards the direction close to the ground through the supporting frame 3, the supporting leg 31 drives the first shock pad 3101 to move, meanwhile, the supporting leg 31 extrudes the shock absorption spring 3105 to shrink and store force, meanwhile, the supporting leg 31 drives the limiting sliding chute inside the supporting leg to slide along the outside of the limiting sliding block 3104, the supporting leg stops until the second shock pad 3103 is clamped inside the first shock pad 3101, and at this moment, the non-slip nails 3106 are in contact with the ground;

when the storage tank 1 is in use, the first shock absorption pad 3101 is separated from the ground by 0-1cm during the generated vibration, and at the moment, the shock absorption spring 3105 releases the elastic force to push the guide slide bar 3102 to move, so that the second shock absorption pad 3103 is ensured to be always in contact with the ground, and the storage tank 1 is prevented from displacing.

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

Claims (10)

1. The utility model provides a but safety and stability high efficiency heat dissipation type air compressor which characterized in that includes:

the high-efficiency heat radiator comprises a storage tank (1), wherein the top end of the storage tank (1) is provided with a high-efficiency heat radiator (2), and the bottom end of the storage tank (1) is fixedly connected with two support frames (3);

the shock absorption assemblies are respectively arranged at the bottom ends of the two support frames (3), each shock absorption assembly comprises a support leg (31) and an anti-skidding mechanism, the anti-skidding mechanism is used for preventing the storage tank (1) from being subjected to position deviation, a first shock absorption pad (3101) is fixedly inserted and connected at the bottom end of the support leg (31), and the anti-skidding mechanism is arranged inside the support leg (31);

the anti-skid mechanism comprises a guide sliding rod (3102), a second shock absorption pad (3103) and a shock absorption spring (3105), wherein the second shock absorption pad (3103) is fixedly connected to the bottom end of the guide sliding rod (3102), and the shock absorption spring (3105) is fixedly connected to the top end of the guide sliding rod (3102);

the device comprises two groups of movable supporting and supporting components, wherein the two groups of movable supporting and supporting components are arranged on two sides of a supporting frame (3) respectively, each movable supporting and supporting component comprises a bearing plate (4), two fixing mechanisms and two positioning mechanisms, movable bearing rods (42) are slidably and alternately connected inside two ends of each bearing plate (4), clamping rods (4201) are slidably and alternately connected inside one ends of the movable bearing rods (42), the fixing mechanisms are arranged at one ends of the bearing plates (4), and the positioning mechanisms are arranged at the top ends of one sides of the bearing plates (4);

the fixing mechanism comprises an external connecting rod (41), a connecting rod (4102) and a locking rod (4101), the connecting rod (4102) is slidably inserted into the external connecting rod (41), and the locking rod (4101) is fixedly connected to one end of the connecting rod (4102);

the positioning mechanism includes a lock plate (43) and a turn bar (4302).

2. The air compressor of claim 1, wherein: the inside middle part of supporting leg (31) has been seted up and has been led the sliding chamber, the inside both sides of supporting leg (31) all set up with the spacing spout that leads the sliding chamber and communicate each other, lead the sliding chamber and cup joint in the outside of direction slide bar (3102), two the inside of spacing spout all is overlapped and is equipped with limit slider (3104), two the relative one end of limit slider (3104) all with the side fixed connection of direction slide bar (3102), the inside roof of spacing spout and damping spring (3105) top fixed connection.

3. The air compressor of claim 1, wherein: the middle part of the bottom end of the first shock pad (3101) is provided with a groove, the groove corresponds to the second shock pad (3103), and the bottom end of the second shock pad (3103) and the bottom end of the first shock pad (3101) are fixedly connected with anti-skid nails (3106).

4. The air compressor of claim 1, wherein: two transverse grooves are formed in one end of the bearing plate (4), the external connecting rod (41) is fixedly connected to one end of the bearing plate (4), the top of the connecting rod (4102) is rotatably and penetratingly connected with a rotating plate (4103), a fastening spring (4104) is sleeved at the bottom of the connecting rod (4102), one end of the fastening spring (4104) is fixedly connected with the end, opposite to the rotating plate (4103), of the other end of the fastening spring (4104) is fixedly connected with the inner wall of one side of the external connecting rod (41).

5. The air compressor of claim 1, wherein: the two ends of the locking rod (4101) are fixedly connected with guide sliding blocks (4105), an annular groove (4107) is formed in the external connecting rod (41), guide sliding grooves (4108) communicated with the annular groove (4107) are formed in the top and the bottom of the internal part of the external connecting rod (41), the guide sliding grooves (4108) are sleeved outside the guide sliding blocks (4105), and one side of the connecting rod (4102) is fixedly connected with an auxiliary rod (4106).

6. The air compressor of claim 1, wherein: the other end of the bearing plate (4) is provided with two clamping grooves, the clamping grooves correspond to clamping rods (4201), traction grooves are formed in two sides of the interior of the movable bearing rod (42), a traction block (4202) is sleeved in the traction grooves, the traction block (4202) is fixedly connected to the side face of the clamping rods (4201), one side of the traction block (4202) is fixedly connected with a first traction spring (4203), one end of the first traction spring (4203) is fixedly connected with the inner wall of one side of each traction groove, and one end of the movable bearing rod (42) is rotatably provided with a roller (4204).

7. The air compressor of claim 1, wherein: the inside of loading board (4) one end has been seted up the guide way, the inside cover of guide way is equipped with assists piece (4303), assist one end fixedly connected with second traction spring (4304) of piece (4303), the one end of second traction spring (4304) and the inner wall fixed connection of guide way one side, assist the other end fixedly connected with club of piece (4303), the inside of locating bull stick (4302) is rotated to the club.

8. The air compressor of claim 1, wherein: the positioning groove is fixedly formed in one end of the bearing plate (4), the positioning rod (4301) is sleeved in the positioning groove, and one end of the positioning rod (4301) is fixedly connected with one end, opposite to the locking plate (43), of the positioning plate.

9. The air compressor of claim 1, wherein: one side fixedly connected with handle (12) at holding vessel (1) top, one side fixedly connected with on holding vessel (1) top rather than inside outlet duct (11) of intercommunication each other, the one end threaded connection of outlet duct (11) has the ball valve.

10. The air compressor as claimed in any one of claims 1 to 9, wherein: the use method of the air compressor comprises the following steps:

the first step is as follows: firstly, a handle (12) is held by a hand, and then the storage tank (1) is pushed by the handle (12) to drive a roller (4204) to rotate, so that the storage tank (1) is moved to a work appointed position;

secondly, the auxiliary rod (4106) is held by hands, the auxiliary rod (4106) is pulled to the outside of the external connecting rod (41), the auxiliary rod (4106) drives the connecting rod (4102) to move, the connecting rod (4102) drives the locking rod (4101), the rotating plate (4103) and the guide sliding block (4105) to move until one end of the guide sliding block (4105) is attached to the inner wall of one side of the guide sliding chute (4108), and then the auxiliary rod (4106) is rotated to enable the auxiliary rod (4106) to rotate to the inside of the annular groove (4107);

at the moment, the clamping rod (4201) is not stressed, and the first traction spring (4203) drives the clamping rod (4201) to move through the traction block (4202), so that the clamping rod (4201) is placed inside the movable carrier rod (42);

thirdly, the locking plate (43) is held by a hand, the positioning mechanism is driven to rotate anticlockwise through the locking plate (43), then the roller (4204) is held by the hand and then pulled to one end of the bearing plate (4) to move, the roller (4204) drives the movable bearing rod (42) to move along the inner portion of the bearing plate (4) until one end of the clamping rod (4201) is attached to the inner wall of the transverse groove, then the roller (4204) is pulled to the top end direction of the storage tank (1), the roller (4204) drives the movable bearing rod (42) to rotate, the movable bearing rod (42) drives the clamping rod (4201) to rotate, and the movable bearing rod (42) stops rotating until the movable bearing rod (42) is in a vertical state;

then, the locking plate (43) is held by hand, and then the movable bearing rod (42) is fixed through the locking mechanism;

the fourth step, this moment under the self gravity of holding vessel (1), holding vessel (1) leads to support frame (3) to drive supporting leg (31) and moves to the direction that is close to ground, supporting leg (31) drive first shock pad (3101) and move, supporting leg (31) extrusion damping spring (3105) shrink and hold power simultaneously, supporting leg 31 drives its inside spacing spout and slides along the outside of spacing slider (3104) simultaneously, stop when second shock pad (3103) block is in the inside of first shock pad (3101), non slipping nail (3106) and ground contact this moment;

when the storage tank (1) is in use, the first shock absorption pad (3101) is separated from the ground by 0-1cm during the generated vibration, and at the moment, the shock absorption spring (3105) releases the elastic force to push the guide slide rod (3102) to move, so that the second shock absorption pad (3103) is ensured to be always in contact with the ground, and the storage tank (1) is prevented from displacing.

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