CN219910212U - Alloy ripple integration computer lab - Google Patents

Abstract

The utility model belongs to the field of outdoor machine rooms, and particularly relates to an alloy corrugated integrated machine room. The utility model provides an alloy ripple integrated machine room which comprises a room body and a roof, wherein the roof is arranged on the room body, and limit rods are arranged at the contact positions of four corners of the roof and the room body; the two opposite wall inner walls of the house body are provided with jacking mechanisms; the jacking mechanism comprises a gear motor, a gear, a rack, a chute and a stay bar; the output end of the speed reducing motor is connected with a gear; the gear is meshed with the rack; slide rails are arranged at two ends of the rack; the two sliding rails of the rack are respectively arranged in the two sliding grooves; the vaulting pole is V-arrangement, and the both ends and the roof of vaulting pole are fixed, and the one end of slide rail is connected to the turning end of vaulting pole. According to the alloy corrugated integrated machine room provided by the utility model, the roof is jacked up by the jacking mechanism, so that the roof is separated from the room body by a distance, outside air is circulated with air in the machine room, and the air in the machine room can be well discharged to the outside due to density.

Description

Alloy ripple integration computer lab

Technical Field

The utility model belongs to the field of outdoor machine rooms, and particularly relates to an alloy corrugated integrated machine room.

Background

The existing integrated machine room has higher integration level, and an air conditioning system, an emergency ventilation system, an intelligent monitoring system, a power supply system, a fire protection system and the like are integrated inside. The integrated machine room with high integration level is often in a modularized design, a machine room body and each system are modularized, interfaces are arranged among the modularized systems, and the integrated machine room is transported to an outdoor field environment for simple assembly by the interfaces after being produced in a workshop. The machine room simplifies the installation requirement, can be directly replaced when various modularized systems are damaged, and has higher interchangeability.

However, the integrated machine room is high in integration level, so that the heat dissipation effect is often not good, and particularly, for a machine room body with smaller volume, the integrated machine room is generally installed in a production workshop, and is directly transported to the site to be fixed at a place where the machine room is required by means of anchor bolts or welding and the like; for a large-size machine room, a wall body and a roof are usually manufactured in a production workshop and then transported to the site for assembly.

Whether the machine room is large or small, the system is used as a closed shell, and each system is arranged in the shell, so that the heat dissipation effect is necessarily poor, and even if the heat dissipation fan and the window are arranged on the wall of the machine room, the heat dissipation effect is still poor.

Disclosure of Invention

The alloy corrugated integrated machine room provided by the utility model can effectively solve the problems in the background technology.

The utility model provides an alloy ripple integrated machine room which comprises a room body and a roof, wherein the roof is arranged on the room body, and limit rods are arranged at the contact positions of four corners of the roof and the room body; the two opposite wall inner walls of the house body are provided with jacking mechanisms; the jacking mechanism comprises a gear motor, a gear, a rack, a chute and a stay bar; the output end of the speed reducing motor is connected with a gear; the gear is meshed with the rack; slide rails are arranged at two ends of the rack; the two sliding rails of the rack are respectively arranged in the two sliding grooves; the vaulting pole is V-arrangement, and the both ends and the roof of vaulting pole are fixed, and the one end of slide rail is connected to the turning end of vaulting pole.

As a further optimization of the utility model, the roof comprises an inner layer and an outer layer; the outer layer is corrugated color steel plate, and the inner layer is aluminum sheet.

As a further optimization of the utility model, the inner layer of the roof is provided with a circle of convex shape which is matched with the end part of the house body.

As a further optimization of the utility model, one end of the limiting rod is fixed on the outer convex inner wall, and the rest part of the limiting rod is attached to four corners of the house body.

As a further optimization of the utility model, under the action of the jacking mechanism, the separation distance between the roof and the house body is not more than the limit rod.

As a further optimization of the utility model, the limiting rod is made of aluminum alloy.

As a further optimization of the utility model, the outer protrusion is made of aluminum alloy material.

As a further optimization of the utility model, a lock catch is arranged between the outer protrusion and the house body.

As a further optimization of the utility model, the house body comprises a frame body and a wall body; the frame body is formed by welding aluminum alloy sections; the wall body is provided with a heat insulation core layer, and the wall body is fixed on the frame body to form a house body.

As a further refinement of the utility model, the roof is of planar or triangular construction.

According to the alloy corrugated integrated machine room provided by the utility model, the roof is jacked up by the jacking mechanism, so that the roof is separated from the room body by a distance, outside air is circulated with air in the machine room, and the air in the machine room can be well discharged to the outside due to density.

Drawings

Fig. 1 is a schematic diagram of the front structure of a machine room in the present embodiment;

FIG. 2 is a schematic diagram of a side structure of a machine room in the present embodiment;

FIG. 3 is a schematic view of the jack-up structure of the roof and the house in the closed state of the present embodiment;

FIG. 4 is a schematic view of the roof structure in the embodiment in a state where the roof and the house are separated;

the house comprises a house body 1, a roof 2, an inner layer 2a, an outer layer 2b, a gear motor 3, a gear 4, a rack 5, a sliding rail 5a, a sliding chute 6, a supporting rod 7 and a limiting rod 8.

Detailed Description

As shown in fig. 1 and 2, the present embodiment includes a house 1 and a roof 2, and the roof 2 is covered on the house 1. In this embodiment, the roof 2 has a triangular structure, and in other embodiments, the roof 2 may have a planar structure. The roof 2 in this embodiment includes an inner layer 2a and an outer layer 2b, the outer layer 2b is a corrugated color steel plate, and the inner layer 2a is an aluminum sheet. In this embodiment, the house body 1 includes support body and wall body, and the support body adopts aluminium alloy ex-trusions to weld to form, and the wall body is equipped with thermal-insulated sandwich layer, and the wall body is fixed on the support body and forms house body 1.

As shown in fig. 3 and 4, the inner layer 2a of the roof 2 in this embodiment is provided with a circle of protruding portion 2a1, and the shape of the protruding portion 2a1 is exactly fit with the end of the room body 1, that is, when the roof 2 is covered on the room body 1, the end face of the protruding portion 2a1 is attached to the end face of the end of the room body 1, so that the room body 1 and the roof 2 form a closed machine room.

The embodiment is also provided with four limiting rods 8, wherein the limiting rods 8 are arranged in the roof 2, and the limiting rods 8 are just positioned at four corners of the house body 1. Specifically, one end of the limiting rod 8 is fixed on the inner wall of the outer protrusion 2a1, and the rest part of the limiting rod 8 is attached to four corners of the house body 1. In the process that roof 2 is jacked up, gag lever post 8 plays spacing effect, prevents that roof 2 from rocking by the in-process of jack-up, guarantees that roof 2 is vertical up-and-down motion. The length of the limiting rod 8 is limited in this embodiment, the limiting rod 8 in this embodiment is long enough, so that the separation distance between the roof 2 and the house body 1 does not exceed the limiting rod 8, and the preferred structure can ensure that the roof 2 cannot be easily tilted when the roof 2 is jacked up on one hand, and on the other hand, the limiting rod 8 can also prevent the possibility that the roof is blown over by wind when heat dissipation is not needed.

Preferably, the stop lever 8 is aluminum alloy material, and evagination 2a1 adopts aluminum alloy material equally, like this, inlayer 2a, evagination 2a1, the stop lever 8 of roof 2 all adopt aluminum alloy material, be convenient for weld when processing, and aluminum alloy material is lighter moreover, and is comparatively laborsaving when jack-up roof 2.

The jacking mechanisms are arranged on the inner walls of two opposite walls of the house body 1. The jacking mechanism comprises a gear motor 3, a gear 4, a rack 5, a chute 6 and a stay bar 7.

The output end of the gear motor 3 is connected with a gear 4, and the gear motor 3 can drive the gear 4 to rotate forwards and reversely. The gear 4 is meshed with the rack 5, and the rotation of the gear 4 can drive the rack 5 to slide back and forth at the upper and lower positions. The two ends of the rack 5 are provided with slide rails 5a, the two slide rails 5a are respectively arranged in the two slide grooves 6, the slide grooves 6 are used for installing the slide rails 5a on one hand, and the sliding direction of the slide rails 5a is limited on the other hand, so that the slide rails 5a can only slide back and forth in the up-down direction.

The stay bar 7 is V-shaped, two ends of the stay bar 7 are fixed with the roof 2, and the corner end of the stay bar 7 is connected with one end of the sliding rail 5 a. The bracing rod 7 plays the effect of jack-up roof 2 on the one hand, on the other hand can also play the effect of tensioning roof 2, makes under the non-jack-up state, roof 2 can firmly fix on the room body 1, of course, preferably, can also set up the hasp between evagination 2a1 and the room body 1, when not needing the heat dissipation, further fix roof 2 on the room body 1 through the hasp.

The embodiment provides a new solution for heat dissipation of the existing outdoor machine room. It is known from the physical knowledge that after the gas is heated, the volume is expanded and the density is reduced under the condition of unchanged mass, and the density of the hot gas is smaller than that of the air, so that the hot gas floats upwards. Since various electrical equipment in the machine room operates to generate a large amount of heat, the density of these hot gases is greater than that of air, and the hot gases loiter at the top of the machine room. In the embodiment, the roof 2 is jacked up by the jacking mechanism, so that the roof 2 is separated from the room body 1 by one end distance, and thus, outside air and air in the machine room circulate mutually, and the air in the machine room can be well discharged to the outside due to the density urine.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the scope of the present utility model, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made to the technical solution of the present utility model without departing from the spirit and scope of the technical solution of the present utility model.

Claims (10)

1. The utility model provides an alloy ripple integration computer lab, includes the room body and roof, and the roof lid is established on the room body, its characterized in that: limiting rods are arranged at the contact positions of the four corners of the roof and the house body; the two opposite wall inner walls of the house body are provided with jacking mechanisms;

the jacking mechanism comprises a gear motor, a gear, a rack, a chute and a stay bar; the output end of the speed reducing motor is connected with a gear; the gear is meshed with the rack; slide rails are arranged at two ends of the rack; the two sliding rails of the rack are respectively arranged in the two sliding grooves; the vaulting pole is V-arrangement, and the both ends and the roof of vaulting pole are fixed, and the one end of slide rail is connected to the turning end of vaulting pole.

2. The integrated machine room of alloy corrugation of claim 1, wherein the roof comprises an inner layer and an outer layer; the outer layer is corrugated color steel plate, and the inner layer is aluminum sheet.

3. The integrated machine room of claim 2, wherein the inner layer of the roof is provided with a circle of convex shape which is matched with the end part of the room body.

4. An alloy corrugated integrated machine room according to claim 3, wherein one end of the limit rod is fixed on the outer convex inner wall, and the rest of the limit rod is attached to four corners of the room body.

5. The integrated machine room of claim 4, wherein the roof is separated from the room body by a distance not exceeding the limit bar by the jack-up mechanism.

6. The integrated machine room of alloy corrugation according to claim 2, wherein the stop lever is made of aluminum alloy.

7. An alloy corrugated integrated machine room according to claim 3, wherein the outer protrusion is made of aluminum alloy.

8. An alloy corrugated integrated machine room according to claim 3, wherein a lock catch is arranged between the outer protrusion and the room body.

9. The integrated machine room of claim 1, wherein the room body comprises a frame body and a wall body; the frame body is formed by welding aluminum alloy sections; the wall body is provided with a heat insulation core layer, and the wall body is fixed on the frame body to form a house body.

10. The integrated machine room of claim 1, wherein the roof is of planar or triangular construction.