CN215265114U - DR real machine operation training machine - Google Patents

Abstract

The utility model provides a DR real machine operation training machine, which relates to the technical field of simulation machine equipment and comprises a simulation machine body, wherein both sides of the simulation machine body are respectively provided with an air inlet and an air outlet, the air inlet and one end of the air outlet are respectively provided with an air inlet machine and an air outlet machine, one side of the air inlet machine and one side of the air outlet machine are respectively provided with an air inlet cover and an air outlet cover, at least one ventilation box is arranged between the air inlet cover and the air outlet cover, the ventilation box is provided with at least one air groove, the air groove is provided with at least one heat dissipation ring, one side of the heat dissipation ring is provided with a connecting sheet, the heat dissipation rings are connected with the circle center through the connecting sheet, one side of the heat dissipation ring is provided with four U-shaped water pipes, one end of each U-shaped water pipe is provided with an annular water pipe, the inner annular wall of the annular water pipe is provided with a bending pipe, one end of the bending pipe is provided with a water filling port, the bending pipe is connected with the water filling port, and a fan disc is arranged on the other side of the heat dissipation ring. The utility model discloses stable in structure, the practicality is high.

Description

DR real machine operation training machine

Technical Field

The utility model belongs to the technical field of monitor terminal equipment, concretely relates to true quick-witted operation training machine of DR.

Background

When the existing DR real-machine operation training machine is used, a heat dissipation device is lacked in the existing DR real-machine operation training machine, so that equipment is easily damaged due to overheating of components when the existing DR real-machine operation training machine is used, simulation of the device is affected, and the DR real-machine operation training machine capable of stably dissipating heat is needed.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model aims at providing a true quick-witted operation training machine of DR.

The utility model provides a following technical scheme:

the DR real machine operation training machine comprises a simulation machine body, wherein an air inlet and an air outlet are respectively arranged on two sides of the simulation machine body, an air inlet machine and an air outlet machine are respectively arranged at one end of the air inlet and one end of the air outlet machine, an air inlet cover and an air outlet cover are respectively arranged on one side of the air inlet machine and one side of the air outlet machine, at least one ventilation box is arranged between the air inlet cover and the air outlet cover, at least one air groove is arranged on the ventilation box, at least one heat dissipation ring is arranged at the air groove, a connecting sheet is arranged on one side of the heat dissipation ring, the heat dissipation rings are connected with each other in the same circle center through the connecting sheet, four U-shaped water pipes are arranged on one side of the heat dissipation ring, an annular water pipe is arranged at one end of each U-shaped water pipe, a bending pipe is arranged on the inner ring wall of the annular water pipe, a water filling port is arranged at one end of each bending pipe, and a fan disc is arranged on the other side of each heat dissipation ring, the fan disc is characterized in that a mounting ring is arranged at one end of the fan disc, the fan disc is connected with the ventilation box through the mounting ring, at least one inclined fan blade is arranged on one side of the fan disc, a first round opening is formed between the fan blades, the first round opening is arranged on the fan disc in a surrounding mode, a second round opening is formed between the first round openings, and the second round opening is arranged on the fan disc.

Preferably, emulation organism both sides wall is equipped with the support frame, support frame one side is equipped with the installation pole, and installation pole one side is equipped with at least one drive gear, be equipped with the roll fan between the drive gear, the roll fan is established wind groove one side, installation pole one side is equipped with drive arrangement.

Preferably, the supporting frame is wound with a spring.

Preferably, a rear cover is arranged on one side of the simulation machine body, and a heat dissipation port is arranged on one side of the rear cover.

Preferably, the air inlet and one side of the air outlet are provided with dust screens.

Preferably, one side of the simulation machine body is provided with at least one plug wire port.

Preferably, one end of the simulation machine body is provided with a switch.

The utility model has the advantages that: the utility model has reasonable design and structure, the air is sucked into the air outlet cover in the simulation machine body through the air inlet machine and then reaches a plurality of ventilation boxes through the air outlet cover, because the plurality of air grooves are arranged at the ventilation box, the fan disc works, the inclined fan blades are used for increasing the air quantity discharged from the air grooves by the fan disc, the first round port and the second round port are used for preventing the fan disc from influencing the air discharge from the air grooves, increasing the air speed of the fan disc and increasing the heat dissipation performance of the device, because the front side of the fan disc is provided with a plurality of radiating rings, the wind passes through the radiating rings, the radiating effect is enhanced, the radiating rings are connected through the connecting sheet, the radiating rings are provided with U-shaped water pipes, when the wind passes through the radiating rings, and the U-shaped water pipe and the annular water pipe on one side of the U-shaped water pipe can be used for conveniently replacing the refrigerating fluid in the pipe through the bent pipe on one side of the annular water pipe and the water filling port, so that the heat dissipation is not influenced, and the convenience of the device is improved.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

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

FIG. 2 is an enlarged schematic view of the utility model at A;

fig. 3 is a schematic structural diagram of the utility model at 24.

Labeled as: 1. the fan comprises a simulation machine body, 2 parts of an air inlet cover, 3 parts of an air inlet machine, 4 parts of an air inlet, 5 parts of a driving device, 6 parts of a driving gear, 7 parts of a supporting frame, 8 parts of a rear cover, 9 parts of a rolling fan, 10 parts of an air groove, 11 parts of a ventilation box, 12 parts of a heat dissipation opening, 13 parts of a spring, 14 parts of a wire insertion opening, 15 parts of an air outlet, 16 parts of a dustproof net, 17 parts of an air outlet machine, 18 parts of an air outlet cover, 19 parts of a switch, 20 parts of a heat dissipation ring, 21 parts of a connecting piece, 22 parts of a U-shaped water pipe, 23 parts of an annular water pipe, 24 parts of a fan disc, 25 parts of a bent pipe, 26 parts of a water injection opening, 27 parts of fan blades, 28 parts of a mounting ring, 29 parts of a first round opening and 30 parts of a second round opening.

Detailed Description

As shown in fig. 1-3, the training machine for DR real machine operation of the present invention comprises a simulation machine body 1, wherein an air inlet 4 and an air outlet 15 are respectively disposed on two sides of the simulation machine body 1, an air inlet 3 and an air outlet 17 are respectively disposed on one end of the air inlet 4 and one end of the air outlet 15, an air inlet housing 2 and an air outlet housing 18 are respectively disposed on one side of the air inlet 3 and one side of the air outlet 17, at least one ventilation box 11 is disposed between the air inlet housing 2 and the air outlet housing 18, at least one air duct 10 is disposed on the ventilation box 11, at least one heat dissipation ring 20 is disposed at the air duct 10, a connection sheet 21 is disposed on one side of the heat dissipation ring 20, the heat dissipation ring 20 is concentrically connected through the connection sheet 21, four U-shaped water pipes 22 are disposed on one side of the heat dissipation ring 20, an annular water pipe 23 is disposed at one end of the U-shaped water pipe 22, a bending pipe 25 is disposed on an inner annular wall of the annular water pipe 23, bent pipe 25 one end is equipped with water filling port 26, pass through between the bent pipe 25 water filling port 26 links to each other, the opposite side of heat dissipation ring 20 is equipped with fan dish 24, fan dish 24 one end is equipped with collar 28, fan dish 24 passes through collar 28 with the box 11 that ventilates links to each other, fan dish 24 one side is equipped with the flabellum 27 of at least one slope, be equipped with first round mouth 29 between the flabellum 27, first round mouth 29 encircles and establishes on the fan dish 24, be equipped with second round mouth 30 between the first round mouth 29, second round mouth 30 is established on the fan dish 24.

Specifically, as shown in fig. 1-3, the utility model comprises a simulation machine body 1, wherein both sides of the simulation machine body 1 are respectively provided with an air inlet 4 and an air outlet 15, one end of each of the air inlet 4 and the air outlet 15 is respectively provided with an air inlet machine 3 and an air outlet machine 17, one side of each of the air inlet machine 3 and the air outlet machine 17 is respectively provided with an air inlet hood 2 and an air outlet hood 18, at least one ventilation box 11 is arranged between the air inlet hood 2 and the air outlet hood 18, at least one air duct 10 is arranged on the ventilation box 11, at least one heat dissipation ring 20 is arranged at the air duct 10, a connecting sheet 21 is arranged at one side of the heat dissipation ring 20, the heat dissipation rings 20 are concentrically connected through the connecting sheet 21, one side of each heat dissipation ring 20 is provided with four U-shaped water pipes 22, one end of each U-shaped water pipe 22 is provided with an annular water pipe 23, the inner annular wall of the annular water pipe 23 is provided with a bending pipe 25, one end of the bending pipe 25 is provided with a water filling port 26, the bending pipes 25 are connected through the water filling port 26, the other side of the heat dissipation ring 20 is provided with a fan disc 24, one end of the fan disc 24 is provided with a mounting ring 28, the fan disc 24 is connected with the ventilation box 11 through the mounting ring 28, one side of the fan disc 24 is provided with at least one inclined fan blade 27, a first round opening 29 is arranged between the fan blades 27, the first round opening 29 is arranged on the fan disc 24 in a surrounding mode, a second round opening 30 is arranged between the first round openings 29, and the second round opening 30 is arranged on the fan disc 24. The air is sucked into the air outlet cover 18 in the simulation machine body 1 through the air inlet fan 3 and then reaches a plurality of ventilation boxes 11 through the air outlet cover 18, because a plurality of air grooves 10 are arranged at the ventilation boxes 11, the fan disc 24 works, the fan disc 24 is increased through the inclined fan blades 27 to discharge the air from the air grooves 10, the first round port 29 and the second round port 30 are used for preventing the fan disc 24 from influencing the air discharge from the air grooves 10 and increasing the air speed of the fan disc 24, the heat dissipation performance of the device is increased, because a plurality of heat dissipation rings 20 are arranged at the front side of the fan disc 24, the air passes through the heat dissipation rings 20, the heat dissipation effect is increased, the heat dissipation rings 20 are connected through connecting sheets 21, U-shaped water pipes 22 are arranged on the heat dissipation rings 20, when the air passes through the heat dissipation rings 20, the U-shaped water pipes 22 and the annular water pipes 23 at one side of the U-shaped water pipes 22 can also pass through the bent pipes 25 and the water filling ports 26, so as to facilitate the replacement of the refrigerant in the pipes, the heat dissipation is not influenced, and the convenience of the device is improved.

Specifically, as shown in fig. 1-3, two side walls of the simulation machine body 1 are provided with support frames 7, one side of each support frame 7 is provided with an installation rod, one side of each installation rod is provided with at least one driving gear 6, a rolling fan 9 is arranged between the driving gears 6, the rolling fan 9 is arranged on one side of the air duct 10, one side of each installation rod is provided with a driving device 5, the driving gears 6 drive the rolling fans 9, and the air coming out from the air duct 10 can be dispersed to each part of the simulation machine body 1, so that the air circulation is increased. The support frame 7 is wound with a spring 13, and the spring 13 plays a role in shock absorption. One side of the simulation machine body 1 is provided with a rear cover 8, one side of the rear cover 8 is provided with a heat dissipation port 12, the rear cover 8 is used for being installed on the simulation machine body 1, and the heat dissipation port 12 is used for dissipating heat. One side of the air inlet 4 and one side of the air outlet 15 are provided with a dust screen 16, and the dust screen 16 plays a role of dust prevention. At least one plug wire port 14 is arranged on one side of the simulation machine body 1, and the plug wire port 14 is convenient for installing wiring. One end of the simulation machine body 1 is provided with a switch 19, and the switch 19 is used for starting the device.

The utility model discloses a theory of operation is: the utility model comprises a simulation machine body 1, both sides of the simulation machine body 1 are respectively provided with an air inlet 4 and an air outlet 15, one end of each of the air inlet 4 and the air outlet 15 is respectively provided with an air inlet machine 3 and an air outlet machine 17, one side of each of the air inlet machine 3 and the air outlet machine 17 is respectively provided with an air inlet cover 2 and an air outlet cover 18, at least one ventilation box 11 is arranged between the air inlet cover 2 and the air outlet cover 18, at least one air groove 10 is arranged on the ventilation box 11, the air groove 10 is provided with at least one heat dissipation ring 20, one side of the heat dissipation ring 20 is provided with a connecting sheet 21, the heat dissipation rings 20 are connected with the same circle center through the connecting sheet 21, one side of the heat dissipation ring 20 is provided with four U-shaped water pipes 22, one end of each U-shaped water pipe 22 is provided with an annular water pipe 23, the annular water pipe 23 is provided with a bending pipe 25, one end of the bending pipe 25 is provided with a water filling port 26, the bending pipe 25 is connected through the water filling port 26, the other side of the heat dissipation ring 20 is provided with a fan disc 24, fan dish 24 one end is equipped with collar 28, and fan dish 24 passes through collar 28 and links to each other with ventilation box 11, and fan dish 24 one side is equipped with the flabellum 27 of at least one slope, is equipped with first round mouth 29 between the flabellum 27, and first round mouth 29 encircles and establishes on fan dish 24, is equipped with second round mouth 30 between the first round mouth 29, and second round mouth 30 is established on fan dish 24. The air is sucked into the air outlet cover 18 in the simulation machine body 1 through the air inlet fan 3 and then reaches a plurality of ventilation boxes 11 through the air outlet cover 18, because a plurality of air grooves 10 are arranged at the ventilation boxes 11, the fan disc 24 works, the fan disc 24 is increased through the inclined fan blades 27 to discharge the air from the air grooves 10, the first round port 29 and the second round port 30 are used for preventing the fan disc 24 from influencing the air discharge from the air grooves 10 and increasing the air speed of the fan disc 24, the heat dissipation performance of the device is increased, because a plurality of heat dissipation rings 20 are arranged at the front side of the fan disc 24, the air passes through the heat dissipation rings 20, the heat dissipation effect is increased, the heat dissipation rings 20 are connected through connecting sheets 21, U-shaped water pipes 22 are arranged on the heat dissipation rings 20, when the air passes through the heat dissipation rings 20, the U-shaped water pipes 22 and the annular water pipes 23 at one side of the U-shaped water pipes 22 can also pass through the bent pipes 25 and the water filling ports 26, so as to facilitate the replacement of the refrigerant in the pipes, the heat dissipation is not influenced, and the convenience of the device is improved.

To sum up, the utility model has reasonable design and structure, the air is sucked into the air outlet cover in the simulation machine body through the air inlet machine, and then reaches a plurality of ventilation boxes through the air outlet cover, because the ventilation boxes are provided with a plurality of air grooves, the fan disc works, the inclined fan blades are used for increasing the air discharged from the air grooves by the fan disc, the first round port and the second round port are used for preventing the fan disc from influencing the air discharged from the air grooves, the air speed of the fan disc can be increased, the heat dissipation performance of the device is increased, because the front side of the fan disc is provided with a plurality of heat dissipation rings, the air passes through the heat dissipation rings, the heat dissipation effect is increased, the heat dissipation rings are connected through the connecting sheets, the U-shaped water pipe is arranged on the heat dissipation rings, when the air passes through the heat dissipation rings, the U-shaped water pipe can pass through the annular water pipe on one side of the U-shaped water pipe and the water filling port, the refrigerant liquid in the pipe can be conveniently replaced, and the heat dissipation is not influenced, the convenience of the device is increased.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The DR real machine operation training machine is characterized in that: the simulation machine body comprises a simulation machine body, wherein an air inlet and an air outlet are respectively arranged on two sides of the simulation machine body, an air inlet machine and an air outlet machine are respectively arranged at one end of the air inlet and one end of the air outlet, an air inlet cover and an air outlet cover are respectively arranged on one side of the air inlet machine and one side of the air outlet machine, at least one ventilation box is arranged between the air inlet cover and the air outlet cover, at least one air groove is arranged on the ventilation box, at least one heat dissipation ring is arranged at the air groove, a connecting sheet is arranged on one side of the heat dissipation ring, the heat dissipation rings are connected with the circle center through the connecting sheet, four U-shaped water pipes are arranged on one side of the heat dissipation ring, an annular water pipe is arranged at one end of the U-shaped water pipe, a bending pipe is arranged on the inner annular wall of the annular water pipe, a water filling port is arranged at one end of the bending pipe, the bending pipe is connected with the water filling port, a fan disc is arranged on the other side of the heat dissipation ring, and a mounting ring is arranged at one end of the fan disc, the fan disc is connected with the ventilation box through the mounting ring, at least one inclined fan blade is arranged on one side of the fan disc, a first round opening is formed between the fan blades, the first round opening is arranged on the fan disc in a surrounding mode, a second round opening is formed between the first round openings, and the second round opening is arranged on the fan disc.
2. 2. The DR live-action training machine of claim 1, wherein: the simulation machine body is characterized in that two side walls of the simulation machine body are provided with support frames, one side of each support frame is provided with an installation rod, one side of each installation rod is provided with at least one driving gear, a rolling fan is arranged between the driving gears, the rolling fan is arranged on one side of the air groove, and one side of each installation rod is provided with a driving device.
3. 3. The DR live-action training machine of claim 2, wherein: the supporting frame is wound with a spring.
4. 4. The DR live-action training machine of claim 1, wherein: a rear cover is arranged on one side of the simulation machine body, and a heat dissipation opening is formed in one side of the rear cover.
5. 5. The DR live-action training machine of claim 1, wherein: and dust screens are arranged on one sides of the air inlet and the air outlet.
6. 6. The DR live-action training machine of claim 1, wherein: one side of the simulation machine body is provided with at least one plug wire port.
7. 7. The DR live-action training machine of claim 1, wherein: one end of the simulation machine body is provided with a switch.

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