CN215979775U - Corrosion-resistant vacuum pump of integral type - Google Patents

Abstract

The utility model discloses an integrated corrosion-resistant vacuum pump which comprises a pump box, a heat dissipation unit, a damping unit and a vacuum pump main body, wherein the pump box is provided with a heat dissipation hole; the lower end of the pump box is provided with a heat dissipation unit, and the vacuum pump main body is arranged on a damping unit; the shock attenuation unit contains damper, shock attenuation board, slide bar and shock attenuation groove, the shock attenuation groove has been seted up at the both ends of the inside left and right sides of pump case, the internally mounted of shock attenuation groove has the slide bar, and the upper and lower end of slide bar is connected with the upper and lower both sides in shock attenuation groove, the upside of shock attenuation board is installed to the vacuum pump main part, the slider is installed at the both ends of the left and right sides of shock attenuation board, the shock attenuation board passes through the slide opening on the slider and the vertical slip of slide bar, carries out the shock attenuation through damper to the shock attenuation board, and the shock attenuation groove is used for hiding the slide bar, and the slide bar is used for injecing the position of shock attenuation board, damper contains blotter and spring, and the shock attenuation is effectual, possesses the heat dissipation function, and equipment long service life.

Description

Corrosion-resistant vacuum pump of integral type

Technical Field

The utility model relates to the technical field of vacuum pumps, in particular to an integrated corrosion-resistant vacuum pump.

Background

The vacuum pump refers to a device or equipment for obtaining vacuum by pumping a pumped container by using a mechanical, physical, chemical or physicochemical method, and in popular terms, the vacuum pump is a device for improving, generating and maintaining vacuum in a certain closed space by using various methods, and has the characteristic of corrosion resistance.

Application number 202022383253.5 has provided the corrosion-resistant vacuum pump of integral type among the prior art, including the corrosion-resistant vacuum pump main part, the outer fixed surface of lower extreme of corrosion-resistant vacuum pump main part is connected with the bottom plate, the lower extreme of bottom plate is provided with the base.

Its shock attenuation effect is poor, does not possess the heat dissipation function, and equipment life is short.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art, provides an integrated corrosion-resistant vacuum pump which is good in damping effect, has a heat dissipation function and long service life, and can effectively solve the problems in the background art.

In order to achieve the purpose, the utility model provides the following technical scheme: an integrated corrosion-resistant vacuum pump comprises a pump box, a heat dissipation unit, a damping unit and a vacuum pump main body;

a pump box: the lower end of the vacuum pump is provided with a heat dissipation unit, and the vacuum pump main body is arranged on a damping unit;

a damping unit: contain damper, shock attenuation board, slide bar and shock attenuation groove, the shock attenuation groove has been seted up at the both ends of the left and right sides of pump incasement portion, the internally mounted of shock attenuation groove has the slide bar, and the upper and lower both sides in slide bar are connected with the upper and lower both sides in shock attenuation groove, the upside of shock attenuation board is installed to the vacuum pump main part, the slider is installed at the both ends of the left and right sides of shock attenuation board, the shock attenuation board passes through the slide opening on the slider and the vertical slip of slide bar.

Carry out the shock attenuation to the shock attenuation board through damper, the shock attenuation groove is used for hiding the slide bar, and the slide bar is used for injecing the position of shock attenuation board.

Further, damper unit contains blotter and spring, the blotter is installed to the upper and lower both sides of shock attenuation board slider, the spring is all installed to the upper and lower both sides in shock attenuation groove, and the spring housing is in the outside of slide bar, and the blotter is located between two springs.

The springs are arranged above and below the damping plate sliding block, so that when the vacuum pump main body vibrates up and down, the springs above and below the vacuum pump main body are used for damping, and the buffer pads are arranged on the upper side and the lower side of the sliding block, so that impact force caused by vibration is further reduced.

Further, the radiating unit contains fixed subassembly, heat-conducting plate one, accomodates groove, spout and heat-conducting plate two, heat-conducting plate one is installed to the bottom side equidistance of pump box, and the one end of heat-conducting plate one is located the pump incasement portion, and the other end of heat-conducting plate one is located the outside of pump box, the heat-conducting plate one is located the one end in the pump case outside and has been seted up and has been accomodate the groove, the both sides of accomodating the groove are equipped with the spout, the both ends of heat-conducting plate two are passed through slider and the vertical slip of spout.

The heat in the pump box is led out through the first heat conducting plate, the second heat conducting plate is pulled down, the second heat conducting plate is pulled out of the accommodating groove, the second heat conducting plate is in contact with the ground, the temperature of the ground is lower, the heat transferred by the second heat conducting plate is absorbed quickly, and therefore the heat in the pump box is dissipated.

Further, fixed subassembly contains card post and draw-in groove, the card post is installed to the upside of heat-conducting plate two, the inside upside of accomodating the groove is equipped with the draw-in groove, card post and draw-in groove cooperation joint.

Through card post and draw-in groove cooperation joint, can make heat-conducting plate two fix and accomodate the groove in accomodating.

Further, still contain fan and dead lever, the fan has two, the fan passes through the dead lever and installs in pump case left side bottom, the fan corresponds the left side of heat-conducting plate one, and the input of fan is connected with external power supply's output electricity through external control switch group.

If the ground temperature is higher in summer, the fan can be started, the fan is controlled to blow and radiate heat of the first heat conducting plate, so that heat inside the pump box is radiated, and the fixing rod fixes the fan.

Furthermore, the pump box also comprises supporting legs, and the supporting legs are arranged at four corners of the bottom side of the pump box.

The supporting legs support the pump box.

Compared with the prior art, the utility model has the beneficial effects that: the vacuum pump has the following advantages:

1. the vibration of the vacuum pump main body is up-down vibration, and the springs are arranged above and below the damping plate sliding block, so that the vacuum pump main body is damped by the springs above and below when vibrating up and down, and the vibration force of the vacuum pump main body is quickly buffered.

2. The heat in the pump box is led out through the first heat conducting plate, the second heat conducting plate is pulled down, the second heat conducting plate is pulled out of the accommodating groove, the second heat conducting plate is in contact with the ground, the temperature of the ground is lower, the heat transferred by the second heat conducting plate is absorbed quickly, and therefore the heat in the pump box is dissipated.

3. If summer ground temperature is higher, can start the fan, the control fan is bloied the heat dissipation to heat-conducting plate one to dispel the heat to the heat of pump incasement portion, prevent that it from because inside high temperature, and lead to equipment rapid ageing.

Drawings

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

FIG. 2 is a schematic cross-sectional view of the present invention.

In the figure: the vacuum pump comprises a pump box 1, supporting legs 2, a heat dissipation unit 3, a first heat conduction plate 31, a 32 accommodating groove, a sliding groove 33, a second heat conduction plate 34, a clamping column 35, a clamping groove 36, a damping unit 4, a damping plate 41, a spring 42, a buffering cushion 43, a sliding rod 44, a damping groove 45, a fan 5, a fixing rod 6 and a vacuum pump main body 7.

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. 1-2, the present embodiment provides a technical solution: an integrated corrosion-resistant vacuum pump comprises a pump box 1, a heat dissipation unit 3, a damping unit 4 and a vacuum pump main body 7;

pump box 1: the lower end of the vacuum pump body is provided with a heat dissipation unit 3, and a vacuum pump body 7 is arranged on a damping unit 4;

the pump box further comprises supporting legs 2, and the supporting legs 2 are installed at four corners of the bottom side of the pump box 1.

The legs 2 support the pump housing 1.

The damping unit 4: contain damper, damper 41, slide bar 44 and damping slot 45, damping slot 45 has been seted up at the both ends of the inside left and right sides of pump box 1, damping slot 45's internally mounted has slide bar 44, slide bar 44 last lower extreme and damping slot 45's upper and lower both sides are connected, the upside of damper 41 is installed to vacuum pump main part 7, the slider is installed at the both ends of the left and right sides of damper 41, damper 41 passes through the slide opening on the slider and slide bar 44 vertical slip.

The shock absorbing plate 41 is damped by the shock absorbing assembly, the shock absorbing groove 45 is used to hide the sliding rod 44, and the sliding rod 44 is used to define the position of the shock absorbing plate 41.

The shock absorption assembly comprises a buffer pad 43 and a spring 42, the buffer pad 43 is installed on the upper side and the lower side of the slide block of the shock absorption plate 41, the spring 42 is installed on the upper side and the lower side of the shock absorption groove 45, the spring 42 is sleeved on the outer side of the slide rod 44, and the buffer pad 43 is located between the two springs 42.

Springs 42 are installed above and below the slider of the damper plate 41, so that when the vacuum pump body 7 vibrates up and down, the springs 42 above and below absorb the vibration, and cushions 43 are installed on the upper and lower sides of the slider, thereby further reducing the impact force caused by the vibration.

Radiating element 3 contains fixed subassembly, heat-conducting plate 31, accomodate groove 32, spout 33 and heat-conducting plate two 34, heat-conducting plate 31 is installed to the bottom side equidistance of pump case 1, and the one end of heat-conducting plate 31 is located inside pump case 1, the other end of heat-conducting plate 31 is located the outside of pump case 1, heat-conducting plate 31 is located the one end in the pump case 1 outside and has been seted up and has been accomodate groove 32, the both sides of accomodating groove 32 are equipped with spout 33, the vertical slip of slider and spout 33 is passed through at the both ends of heat-conducting plate two 34.

The heat inside the pump box 1 is conducted out through the first heat conducting plate 31, the second heat conducting plate 34 is pulled down, the second heat conducting plate 34 is pulled out of the accommodating groove 32, the second heat conducting plate 34 is made to contact the ground, the temperature of the ground is lower, and the heat transferred by the second heat conducting plate 34 is absorbed quickly, so that the heat inside the pump box 1 is dissipated.

The fixed subassembly contains card post 35 and draw-in groove 36, and card post 35 is installed to the upside of two 34 heat-conducting plates, and the inside upside of accomodating groove 32 is equipped with draw-in groove 36, and card post 35 and the cooperation joint of draw-in groove 36.

The second heat-conducting plate 34 can be fixed in the accommodating groove 32 for accommodating through the matching and clamping of the clamping column 35 and the clamping groove 36.

Still contain fan 5 and dead lever 6, fan 5 has two, and fan 5 passes through dead lever 6 to be installed in 1 left side bottom of pump box, and fan 5 corresponds the left side of heat-conducting plate 31, and fan 5's input is connected with external power supply's output electricity through external control switch group.

If the ground temperature is higher summer, can start fan 5, control fan 5 bloies the heat dissipation to heat-conducting plate 31 to dispel the heat to the heat of pump box 1 inside, dead lever 6 is fixed fan 5.

The working principle of the integrated corrosion-resistant vacuum pump provided by the utility model is as follows: when the vacuum pump main body 7 works, the vacuum pump main body 7 vibrates up and down, and the vibration force is damped through the springs 42 above and below, so that the vibration force is quickly buffered, the severe vibration is prevented, the service life is shortened, if the heat in the pump box 1 is too high, the heat in the pump box 1 is conducted out through the first heat conduction plate 31, the clamping between the clamping column 35 and the clamping groove 36 is removed, the second heat conduction plate 34 is pulled down, the second heat conduction plate 34 is pulled out of the accommodating groove 32, the second heat conduction plate 34 is in contact with the ground, the temperature of the ground is lower, the heat transferred by the second heat conduction plate 34 is quickly absorbed, thereby dissipating heat in the pump box 1, preventing damage to the service life of the equipment due to high internal temperature, if the ground temperature is high in summer, the fan 5 can be started, and the fan 5 is controlled to blow the first heat conduction plate 31 for heat dissipation, so that heat inside the pump box 1 is dissipated.

It is noted that the fan 5 disclosed in the above embodiment is of the type DR6025H15B, and the control switch group controls the operation of the fan 5 by a method commonly used in the art.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (6)

1. An integral type corrosion-resistant vacuum pump which characterized in that: comprises a pump box (1), a heat dissipation unit (3), a damping unit (4) and a vacuum pump main body (7);

pump box (1): the lower end of the vacuum pump is provided with a heat dissipation unit (3), and a vacuum pump main body (7) is arranged on a damping unit (4);

damping unit (4): contain damper, damper (41), slide bar (44) and damping slot (45), damping slot (45) have been seted up at the both ends of the inside left and right sides of pump box (1), the internally mounted of damping slot (45) has slide bar (44), and the last lower extreme of slide bar (44) is connected with the upper and lower both sides of damping slot (45), the upside of damper (41) is installed in vacuum pump main part (7), the slider is installed at the both ends of the left and right sides of damper (41), damper (41) are through slide opening and the vertical slip of slide bar (44) on the slider.

2. An integrated corrosion resistant vacuum pump according to claim 1, wherein: damping component contains blotter (43) and spring (42), blotter (43) are installed to the upper and lower both sides of shock attenuation board (41) slider, spring (42) are all installed to the upper and lower both sides of shock attenuation groove (45), and spring (42) cover is in the outside of slide bar (44), and blotter (43) are located between two spring (42).

3. An integrated corrosion resistant vacuum pump according to claim 1, wherein: radiating element (3) contain fixed subassembly, heat-conducting plate (31), accomodate groove (32), spout (33) and heat-conducting plate two (34), heat-conducting plate (31) are installed to the bottom side equidistance of pump box (1), and the one end of heat-conducting plate (31) is located inside pump box (1), and the other end of heat-conducting plate (31) is located the outside of pump box (1), the one end that heat-conducting plate (31) is located the pump box (1) outside has been seted up and has been accomodate groove (32), the both sides of accomodating groove (32) are equipped with spout (33), the both ends of two heat-conducting plates (34) are passed through slider and spout (33) vertical slip.

4. An integrated corrosion resistant vacuum pump according to claim 3, wherein: fixed subassembly contains card post (35) and draw-in groove (36), card post (35) are installed to the upside of heat-conducting plate two (34), the inside upside of accomodating groove (32) is equipped with draw-in groove (36), card post (35) and draw-in groove (36) cooperation joint.

5. An integrated corrosion resistant vacuum pump according to claim 1, wherein: still contain fan (5) and dead lever (6), fan (5) have two, install in pump box (1) left side bottom through dead lever (6) fan (5), fan (5) correspond the left side of heat-conducting plate (31), and the input of fan (5) is connected through the output electricity of external control switch group with external power source.

6. An integrated corrosion resistant vacuum pump according to claim 1, wherein: the pump box is characterized by further comprising supporting legs (2), wherein the supporting legs (2) are installed at four corners of the bottom side of the pump box (1).

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