CN210418924U - Vertical and horizontal transportation device for equipment in machine room - Google Patents

Abstract

The utility model discloses a vertical and horizontal transportation device for equipment in a machine room, which comprises equipment, two frame supports arranged on two sides of the equipment, a connecting rod connected between the tops of the two frame supports, a group of chain blocks connected on the connecting rod, a cross brace connected between the two frame supports, and a track connected above the cross brace; the whole equipment is rectangular, the four corners of the top of the equipment are provided with hanging rings connected with a chain block, and the bottom of the equipment is provided with trundles used for walking on a track; an outer inclined strut is connected between the top of the frame support and the ground. The utility model has the advantages that through the arrangement of the chain block and the track, the chain block can vertically lift the equipment, and the track can horizontally slide the equipment upwards when being laid, thereby realizing the bidirectional movement of the equipment in the vertical and horizontal directions; the frame support, the outer inclined support, the inner inclined support and the like are arranged, so that the support stress is facilitated; the frame support is connected with the top structure and the ground respectively, so that the stability of the frame support is improved.

Description

Vertical and horizontal transportation device for equipment in machine room

Technical Field

The utility model relates to an electromechanical device installation transportation technical field, in particular to be used for interior equipment vertical and horizontal transport device of computer lab.

Background

In the installation process of electromechanical equipment, the situation that the board falls in the machine room can be met, and at the moment, the equipment needs to be transported from a higher position of the ground elevation to a lower position of the ground elevation. The equipment needs to move in a certain distance in both the vertical direction and the horizontal direction during transportation. The traditional electromechanical equipment transportation adopts tools such as a gantry crane, a cantilever crane and a truck crane, but under the conditions of small machine room space and short moving distance, the equipment is not beneficial to field operation, and the construction and installation cost is increased. Accordingly, there is a need for a transportation device that can be used in a small space, is easy to install, and can be moved in both vertical and horizontal directions.

SUMMERY OF THE UTILITY MODEL

The utility model provides a be used for equipment vertical and horizontal conveyer in computer lab for solve the vertical and level of narrow and small, the conveyer of computer lab inner space and easily install operation and equipment to technical problem such as removal.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a vertical and horizontal transportation device for equipment in a machine room comprises equipment, two frame supports arranged on two sides of the equipment in a supporting mode, a connecting rod connected between the tops of the two frame supports, a group of chain blocks connected to the connecting rod, cross braces connected between the two frame supports and a track connected above the cross braces; the whole equipment is rectangular, the four corners of the top of the equipment are provided with hanging rings connected with a chain block, and the bottom of the equipment is provided with trundles used for walking on a track; the frame support is formed by vertically connecting horizontal supports and vertical supports which are arranged at intervals, and an outer inclined support is connected between the top of the frame support and the ground.

Furthermore, the rail elevation is flush with or higher than the bottom elevation of the upper machine room; the upper machine room and the lower machine room are distributed in a step manner in the machine room, wherein the ground of the upper machine room corresponds to the top, and the ground of the lower machine room corresponds to the bottom.

Furthermore, the bottom of the frame support is connected with the ground of the lower machine room through foundation bolts or connecting plates, and the top of the frame support is structurally connected with the top of the machine room through connecting plates or bolts.

Further, the frame supports are longer than the length of the equipment, and the lateral distance between the beam frame supports is adapted to pass through the equipment.

Furthermore, the height of the cross support from the top of the frame support is adapted to the height required by equipment hoisting, and the cross support is arranged at intervals in the length direction of the frame support.

Furthermore, the frame supports the peripheral structure for the rectangle, supports inside four corners relative angle at the frame and is provided with interior bracing between.

Further, the outer inclined struts are arranged in the longitudinal direction of the frame support at intervals and at least arranged at two end parts of the longitudinal direction of the frame support; outer inclined struts are symmetrically arranged on the two frame supports.

Furthermore, the connecting rods are arranged at intervals inwards along the length direction of the frame support, and at least one group of chain blocks are respectively arranged on the connecting rods at the two end parts along the length direction of the frame support.

Furthermore, the number of the chain blocks is two, and the length of the chain blocks is suitable for the hoisting height of the equipment or the horizontal running length of the equipment.

Furthermore, the track is a slat track, the width of the track is greater than the width of the casters on the equipment, and the track is perpendicular to the cross arm and the distance between the tracks is adapted to the distance between the casters on two sides of the equipment.

The beneficial effects of the utility model are embodied in:

1) the utility model has the advantages that through the arrangement of the chain block and the track, the chain block can vertically lift the equipment, and the track can horizontally slide the equipment upwards when being laid, thereby realizing the bidirectional movement of the equipment in the vertical and horizontal directions;

2) the utility model provides basic support for the equipment in the transportation process through the frame supports, the outer diagonal braces, the inner diagonal braces and the like, wherein the chain block is arranged on the connecting rod between the frame supports, the track is arranged on the cross braces between the frame supports, and the frame supports and the outer diagonal braces are arranged in an angular shape, thus being beneficial to supporting stress; the frame support is respectively connected with the top structure and the ground, so that the stability of the frame support is improved;

3) the utility model has the advantages that the design of laying the track on the cross brace can place the frame support above the lower machine room, when the equipment is transported above the lower machine room, the equipment is lifted and the cross brace and the track are removed, so that the equipment can directly enter the lower machine room;

the device of the utility model has simple composition, easy site construction, small occupied construction field, strong practical operability for vertical and horizontal transportation of equipment in the machine room dropping plate and low cost; additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention; the primary objects and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description.

Drawings

FIG. 1 is a schematic diagram of the construction of a vertical and horizontal transport device of equipment in a machine room;

FIG. 2 is a schematic view of the construction process when the top surface of the rail is flush with the ground of the upper machine room.

Reference numerals: 1-equipment, 2-frame support, 3-connecting rod, 4-cross brace, 5-track, 6-chain block, 7-inner diagonal brace, 8-outer diagonal brace, 9-lower machine room and 10-upper machine room.

Detailed Description

Taking a magnetic suspension centrifugal water chilling unit of a certain machine room as an example, the total amount of the unit is 17 tons, and the length, the width and the height are 4300mm, 3200mm and 2400mm respectively. The equipment 1 needs to be transported from the upper machine room 10 with a higher ground elevation to the lower machine room 9 with a lower ground elevation, at which time, the vertical and horizontal transport devices of the equipment 1 in the machine room will be used. As shown in fig. 1, lifting rings are welded at four corners of the top of equipment 1, casters are installed at four corners of the bottom of the equipment through welded clamps, two frame supports 2 are supported at two sides of the equipment 1, a connecting rod 3 is welded between the tops of the two frame supports 2, a group of chain blocks 6 are hung on the connecting rod 3, cross braces 4 are welded between the two frame supports 2, and rails 5 are welded above the cross braces 4; the frame support 2 is formed by vertically welding two transverse supports and four vertical supports which are arranged at intervals, and the frame support 2 is rectangular as a whole; three outer inclined struts 8 are connected with the ground at intervals welded on the top of the frame support 2, the bottom ends of the outer inclined struts 8 are mutually welded and connected through channel steel, and the channel steel at the bottom ends of the outer inclined struts 8 is connected with a ground bolt; the inner inclined struts 7 are welded at four corners inside the frame support 2, and the inner inclined struts 7 are beneficial to enhancing the integrity of the frame support 2.

In this embodiment, the upper machine room 10 and the lower machine room 9 are distributed in a stepped manner inside the machine room, wherein the ground of the upper machine room 10 corresponds to the top of the stepped distribution, and the ground of the lower machine room 9 corresponds to the bottom of the stepped distribution; the frame supports 2 are distributed on the ground of the upper machine room 10 on two sides of the top of the lower machine room 9 in the longitudinal direction.

In the embodiment, the transverse support and the vertical support in the frame support 2 are made of I-steel, channel steel or H-shaped steel, and the inner inclined support 7 and the outer inclined support 8 are made of steel pipes, channel steel or I-steel and the like; the cross brace 4 is made of rectangular steel pieces, I-shaped steel pieces or H-shaped steel pieces, and the strength required by the cross brace 4 is determined according to the weight of the equipment 1; the height of the cross brace 4 from the top of the frame support 2 is suitable for the required height of the equipment 1 during hoisting, and the cross brace 4 is arranged at intervals in the length direction of the frame support 2. Track 5 is the slat type steel track, and the width of track 5 is greater than the width of equipment 1 upper truckle, and track 5 perpendicular to stull 4 and the distance between track 5 adapt to the distance between the truckle of equipment 1 both sides. The model of the chain block 6 is HSZ-10, and the length of the chain block is 12 m. As shown in FIG. 2, the rail 5 may be at an elevation level with or above the bottom elevation of the upper housing 10.

In the embodiment, the top of the frame support 2 is welded or fixed with a steel keel at the top of the machine room through a connecting steel plate, and the bottom of the frame support 2 is connected with the ground of the upper machine room 10 through a foundation bolt or a connecting plate; the inclined struts are arranged in the length direction of the frame support 2 at intervals and at least arranged at two end parts of the frame support 2 in the length direction; outer inclined struts 8 are symmetrically arranged on the two frame supports 2.

In this embodiment, the connecting rods 3 are arranged at intervals in the longitudinal direction of the frame support 2, and at least one group of chain blocks 6 are respectively arranged on the connecting rods 3 at the two longitudinal end parts of the frame support 2; the number of the chain blocks 6 is two, and the length of the chain blocks 6 is suitable for the hoisting height of the equipment 1 or the horizontal running length of the equipment 1.

When the equipment 1 is constructed, firstly, a frame support 2 is prefabricated in advance and the model of a chain block 6 is selected according to the size and the weight of the equipment 1; installing two frame supports 2 on the ground of a lower machine room 9, connecting the bottoms of the frame supports 2 with the ground, and connecting the tops of the frame supports 2 with steel keels of the machine room; then welding a connecting rod 3 and a cross brace 4 on the frame support 2, installing a chain block 6 on the connecting rods 3 at the front end and the rear end, and laying a track 5 on the cross brace 4; one end of the frame support 2 is butted with the upper machine room 10, and the top surface of the rail 5 on the frame support 2 is flush with the ground of the upper machine room 10. Equipment 1 that will go up computer lab 10 through rear end chain block 6 pulls into frame support 2, pulls equipment 1 slowly level through front end chain block 6 again, pulls out computer lab 10 until equipment 1 is whole, and chain block 6 combined action around the rethread lifts equipment 1, then demolishs track 5 and stull 4 to transfer equipment 1 to computer lab 9 ground down, thereby accomplish equipment 1 fall the board construction.

The above description is only for the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be considered by those skilled in the art within the technical scope of the present invention should be covered by the protection scope of the present invention.

Claims (10)

1. A vertical and horizontal transportation device for equipment in a machine room is characterized by comprising equipment (1), two frame supports (2) arranged on two sides of the equipment (1) in a supporting mode, a connecting rod (3) connected between the tops of the two frame supports (2), a group of chain blocks (6) connected to the connecting rod (3), a cross brace (4) connected between the two frame supports (2) and a track (5) connected above the cross brace (4); hanging rings connected with a chain block (6) are arranged at four corners of the top of the equipment (1), and trundles used for walking on the track (5) are arranged at the bottom of the equipment; the frame support (2) is formed by vertically connecting horizontal supports and vertical supports which are arranged at intervals, and an outer inclined support (8) is connected between the top of the frame support (2) and the ground.

2. A device for vertical and horizontal transport of equipment in a machine room according to claim 1, characterized in that the rail (5) level is level with or higher than the bottom level of the upper machine room (10); the upper machine room (10) and the lower machine room (9) are distributed in a step manner in the machine room, wherein the ground of the upper machine room (10) corresponds to the top, and the ground of the lower machine room (9) corresponds to the bottom.

3. A device for vertical and horizontal transport of equipment in a machine room as claimed in claim 1 or 2, characterized in that the bottom of the frame support (2) is connected to the ground of the lower machine room (9) by means of anchor bolts or connecting plates, and the top of the frame support (2) is connected to the structure of the top of the machine room by means of connecting plates or bolts.

4. A device for vertical and horizontal transport of equipment in a machine room according to claim 3, characterized in that the frame supports (2) are longer upwards than the length of the equipment (1) and that the transverse distance between the beam frame supports (2) is adapted to pass the equipment (1).

5. A device for vertical and horizontal transport of equipment in a machine room as claimed in claim 1, characterized in that the height of the cross braces (4) from the top of the frame support (2) is adapted to the height required for hoisting the equipment (1), and the cross braces (4) are spaced apart from each other in the longitudinal direction of the frame support (2).

6. A device for vertical and horizontal transport of equipment in a machine room as claimed in claim 1, characterized in that the frame support (2) is rectangular in its peripheral configuration and that inner braces (7) are provided at the inner four corners of the frame support (2) between the opposite corners.

7. The vertical and horizontal transport device for equipment in a machine room as claimed in claim 1, wherein the outer diagonal braces (8) are arranged at intervals in the longitudinal direction of the frame support (2) and at least at the two ends of the frame support (2) in the longitudinal direction; the outer inclined struts (8) are symmetrically arranged on the two frame supports (2).

8. The vertical and horizontal transportation device for equipment in a machine room as claimed in claim 1, wherein the connecting rods (3) are arranged at intervals in the longitudinal direction of the frame support (2), and at least one group of chain blocks (6) are respectively arranged on the connecting rods (3) at the two longitudinal end parts of the frame support (2).

9. A device for vertical and horizontal transport of equipment in a machine room according to claim 8, characterised in that there are two chain blocks (6), the length of the chain blocks (6) being adapted to the hoisting height of the equipment (1) or to the length of the horizontal travel of the equipment (1).

10. A device for vertical and horizontal transport of equipment in a machine room according to claim 1, characterized in that the rails (5) are slat rails, the width of the rails (5) is larger than the width of the casters on the equipment (1), the rails (5) are perpendicular to the crossbars (4) and the distance between the rails (5) is adapted to the distance between the casters on both sides of the equipment (1).

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