CN214420498U - A transportation structure for computer lab air conditioner - Google Patents

Abstract

The utility model relates to a transportation structure for computer lab air conditioner, it relates to air conditioner transportation technical field, including bottom plate, baffle, extension subassembly, operating means, bottom plate bottom fixedly connected with transport wheel, the baffle is equipped with two, two the baffle is respectively along bottom plate length direction fixed connection in bottom plate top surface length direction's both sides, the spout has been seted up along baffle direction of height to the lateral wall of baffle width direction both sides, it is equipped with two, two to extend the subassembly and wear to locate in the spout of two baffles respectively, operating means fixed connection is in one side of bottom plate top surface width direction, operating means is used for controlling the lift of extension subassembly. This application has the effect that can transport the higher computer lab air conditioner of height comparatively safely.

Description

A transportation structure for computer lab air conditioner

Technical Field

The application relates to the technical field of air conditioner transportation, in particular to a transportation structure for a machine room air conditioner.

Background

The main service object of the machine room air conditioner is a computer, stable and reliable IDC is provided for the machine room, the working temperature, the relative humidity and the air cleanliness of the machine room are detected, the machine room air conditioner has the characteristics of high apparent heat ratio, high energy efficiency ratio, high reliability, high precision and the like, and a transport structure such as a transport cart is generally required to be used for transporting the machine room air conditioner to the computer room.

Present transport trolley is usually by the bottom plate, the transport wheel, the push rod, the baffle is constituteed, the transport wheel is located the bottom plate bottom surface and is used for driving the bottom plate to remove, push rod and bottom plate fixed connection, baffle fixed connection is in the border position department of bottom plate top surface, if take place to empty in the computer lab air conditioner transportation on the bottom plate, the baffle can be used for preventing that the computer lab air conditioner of empting from directly pouring out the transport trolley outside and receive serious damage, but the baffle also can produce the hindrance to loading and unloading computer lab air conditioner, for the ease of loading and unloading computer lab air conditioner on the transport trolley, the lower ratio that the baffle set up usually, however, there are more computer lab air conditioner height higher on the market at present, thereby still can empty the trolley and cause the air conditioner to damage when transporting and taking place to empty when highly higher computer lab air conditioner is on the lower transport trolley of baffle height.

In view of the above-mentioned related art, the inventor believes that there is a drawback in that it is difficult to more safely transport a high-height room air conditioner with a transport structure.

SUMMERY OF THE UTILITY MODEL

In order to improve the defect that a transportation structure is difficult to transport a machine room air conditioner with a high height safely, the application provides the transportation structure for the machine room air conditioner.

The application provides a transportation structure for computer lab air conditioner adopts following technical scheme:

the utility model provides a transportation structure for computer lab air conditioner, includes bottom plate, baffle, extension subassembly, operating means, bottom plate bottom fixedly connected with transport wheel, the baffle is equipped with two, two the baffle is respectively along bottom plate length direction fixed connection in bottom plate top surface length direction's both sides, the spout has been seted up along baffle direction of height to the lateral wall of baffle width direction both sides, it is equipped with two, two to extend the subassembly and wear to locate in the spout of two baffles respectively, operating means fixed connection is in one side of bottom plate top surface width direction, operating means is used for controlling the lift of extension subassembly.

Through adopting above-mentioned technical scheme, when the high computer lab air conditioner of height was loaded to the bottom plate on, operating personnel can rise through operating means control extension subassembly, and the extension subassembly after rising blocks toppling over of computer lab air conditioner jointly with the baffle, when the computer lab air conditioner need be lifted off from the bottom plate, can control extension subassembly through operating means and descend to be convenient for operating personnel lift off the computer lab air conditioner.

Optionally, the extension subassembly includes carriage release lever, auxiliary rod, shelves pole, the carriage release lever is worn to locate in the baffle is close to the spout of operating means one side, the auxiliary rod is worn to locate in the spout that operating means one side was kept away from to the baffle, the other end that the baffle was kept away from to carriage release lever, auxiliary rod is fixed connection respectively in the both ends of shelves pole length direction.

Through adopting above-mentioned technical scheme, operating personnel passes through operating means control movable rod and slides from top to bottom in the spout, and the gliding in-process from top to bottom of movable rod, auxiliary rod also slides in the spout, and movable rod and auxiliary rod drive shelves pole go up and down in step simultaneously, and shelves pole can reduce the possibility that the computer lab air conditioner emptys outside the transport structure.

Optionally, the operation device includes an operation box, an operation assembly and a positioning assembly, the operation box is fixedly connected to one side of the width direction of the top surface of the bottom plate along the width direction of the bottom plate, the operation box is hollow, a first operation hole is formed in the top of the side wall of the operation box along the width direction of the bottom plate, a control hole is formed in the top of the side wall of the operation box close to one side of the sliding groove, a positioning hole is formed in the bottom of the side wall of the operation box close to one side of the sliding groove, second operation holes are formed in two ends of the length direction of the top surface of the operation box, third operation holes are formed in the tops of two ends of the side wall of the operation box far away from the sliding groove along the length direction, and one end of the second operation hole far away from the moving rod is communicated with one end of the third operation hole far away from the bottom plate;

the operation assembly penetrates through the operation box along the length direction of the operation box, two ends of the operation assembly, which are positioned in the operation box, penetrate through first operation holes on two sides of the operation box in the width direction respectively, one end, which is close to the sliding chute, of the operation assembly penetrates through the control hole and is in transmission connection with the moving rod, and one end, which is far away from the sliding chute, of the operation assembly penetrates through a second operation hole;

the locating component is used for limiting the movement of the moving rod, the locating component is provided with two locating components, two locating components are respectively arranged at two ends of the bottom in the operation box in the length direction, the bottom in the locating component is hinged to the bottom in the operation box, the position, corresponding to the locating component, of the bottom of the side wall, far away from one side of the sliding groove in the length direction of the operation box is provided with a fourth operation hole, one end, close to the sliding groove, of the locating component penetrates through the locating hole and abuts against the moving rod, and one end, far away from the sliding groove, of the locating component penetrates through the fourth operation hole.

Through adopting above-mentioned technical scheme, operating personnel slides in first handle hole through control operation subassembly, thereby separation and transmission between control operation subassembly and the carriage release lever are connected, when operation subassembly is connected with the carriage release lever transmission, operating personnel slides in second handle hole and third handle hole through control operation subassembly, thereby control the carriage release lever and rise, locating component can prevent that the carriage release lever from gliding down under self action of gravity, when needs carriage release lever gliding down, operating personnel can be located the outer one end of control box and slide in the fourth handle hole through control locating component, make locating component and carriage release lever separation, consequently, the carriage release lever can glide down under self action of gravity.

Optionally, the operation subassembly includes push rod, pivot, drive wheel, the push rod both ends are worn to locate the control box by the second handle hole, the drive wheel is equipped with two, drive wheel fixed connection is respectively in the both ends that the push rod is located the control box, the pivot both ends are worn to establish and fixed connection in two drive wheels respectively, the pivot both ends are still worn to locate in the first handle hole of control box width direction both sides, the drive wheel is worn to locate in the control hole, just the drive wheel is connected with the carriage release lever transmission.

Through adopting above-mentioned technical scheme, when the extension subassembly that rises as needs, operating personnel promotes the push rod and makes the pivot slide in first operation hole for the drive wheel wears to locate in the control hole and is connected with the carriage release lever transmission, and operating personnel uses the pivot to rotate the push rod as the axle again, and the push rod rotates the in-process and drives drive wheel and pivot rotation, and the drive wheel rotates the in-process and rises in the spout with the drive carriage release lever.

Optionally, the driving wheel is a gear, a rack matched with the driving wheel is arranged on one side, close to the driving wheel, of the moving rod, and the driving wheel is meshed with the moving rod.

Through adopting above-mentioned technical scheme, be gear drive between drive wheel and the carriage release lever, compare in chain drive and belt drive, gear drive has higher transmission precision and transmission efficiency.

Optionally, the locating component includes locating lever, transfer line, spring, locating lever one end and transfer line one end fixed connection, the locating lever articulates in the operation box bottom surface with the junction of transfer line, the one end that the transfer line was kept away from to the locating lever is worn to locate in the locating hole and the joint in the rack, spring one end fixed connection transfer line bottom, spring other end fixed connection is in the operation box bottom surface, the one end that the locating lever was kept away from to the transfer line is worn to locate in the fourth operation hole, the transfer line is located the outer one end of operation box and is equipped with the footboard, the footboard is located outside the operation box along operation box length direction, footboard length direction both ends respectively with two transfer line fixed connection.

Through adopting above-mentioned technical scheme, in-process that the drive wheel drove the carriage release lever to rise, the one end of locating lever joint in the rack is slided out the rack by the extrusion, the in-process that the locating lever slided out the rack will drive the transfer line and use articulated department as the axle rotation, the transfer line rotates the in-process will extrude the spring, when the carriage release lever stopped moving, spring release energy drive transfer line rotates with the locating lever, the one end that the locating lever is close to the rack will joint in the rack in rotating the in-process, thereby play the limiting action to the carriage release lever removal, when needs the carriage release lever to descend, operating personnel steps on the footboard downwards, the footboard drives the transfer line and rotates with the locating lever, make locating lever and rack separation, the carriage release lever slides downwards under self action of gravity this moment.

Optionally, the operation box top surface is along the supplementary railing of operation box length direction fixedly connected with, one side that operating means was kept away from to the bottom plate articulates there is the loading and unloading board, one side fixedly connected with that the bottom plate was kept away from to the loading and unloading board pulls the subassembly, pull the other end that the subassembly was kept away from the loading and unloading board and rotate and connect on supplementary railing, the one end that pulls the subassembly and is close to supplementary railing is connected with the carriage release lever transmission.

Through adopting above-mentioned technical scheme, the setting of supplementary railing can reduce the possibility that the computer lab air conditioner emptys outside the transport structure when empting, when the computer lab air conditioner is loaded in the transport structure, operating personnel can rise through operating means drive carriage release lever, the in-process that the carriage release lever rises, the carriage release lever will drive the motion of traction assembly, will drive the loading and unloading board and rotate to vertical state in the traction assembly motion process, also can reduce when the loading and unloading board is in vertical state and empty the possibility outside the transport structure when empting.

Optionally, the traction assembly includes a driving wheel, a winding roller and a traction wire, the winding roller is rotatably connected to the bottom of the auxiliary handrail, the driving wheel is fixedly connected to one end of the winding roller away from the auxiliary handrail, the driving wheel is a gear matched with the rack, the driving wheel is meshed with the rack, one end of the traction wire is fixedly connected to the winding roller, and the other end of the traction wire is fixedly connected to one side of the loading and unloading plate away from the bottom plate.

By adopting the technical scheme, the moving rod drives the driving wheel to rotate in the ascending process, the driving wheel drives the winding roller to rotate in the rotating process, the traction wire is wound in the rotating process of the winding roller, and the loading and unloading plate is driven to rotate in the winding process of the traction wire.

Optionally, one end of the top surface of the baffle, which is far away from the auxiliary rail, is fixedly connected with a fixed pulley, and the traction wire is connected with the fixed pulley in a sliding manner.

Through adopting above-mentioned technical scheme, the fixed pulley can play the supporting role to the pull wire, reduces the pull wire rolling in-process and baffle production friction and the possibility of wearing and tearing, and the fixed pulley can also reduce the frictional force of pull wire rolling in-process.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the high computer lab air conditioner of height was loaded to the bottom plate on, operating personnel can rise through operating means control extension subassembly, and the extension subassembly after rising blocks toppling over of computer lab air conditioner jointly with the baffle, when the computer lab air conditioner need be lifted off from the bottom plate, can control the extension subassembly through operating means and descend to the computer lab air conditioner is lifted off to operating personnel of being convenient for.

2. The movable rod rises and to drive the drive wheel and rotate in-process, and the drive wheel rotates and to drive the wind-up roll and rotate in-process, and the wind-up roll rotates the in-process and will carry out the rolling to the haulage wire, and the haulage wire rolling in-process will drive the flitch and rotate, also can reduce when the flitch is in vertical state the possibility of toppling over to transport structure outside when the computer lab air conditioner emptys.

Drawings

Fig. 1 is a schematic structural diagram of a transportation structure for a machine room air conditioner in an embodiment of the present application.

Fig. 2 is a schematic diagram showing a part of an exploded view of the transportation structure for the air conditioner in the machine room shown in fig. 1 in the embodiment of the present application.

Fig. 3 is a schematic diagram of a partial explosion of the transportation structure for the air conditioner in the machine room shown in fig. 1 in the embodiment of the present application.

Description of reference numerals: 1. a base plate; 2. a baffle plate; 3. an extension assembly; 4. an operating device; 5. a transport wheel; 6. assembling and disassembling the plate; 7. an auxiliary rail; 8. a traction assembly; 21. a chute; 31. a travel bar; 32. an auxiliary lever; 33. a gear lever; 41. an operation box; 42. an operating component; 43. a positioning assembly; 81. a driving wheel; 82. a wind-up roll; 83. a pull wire; 84. a fixed pulley; 311. a rack; 411. a first operation hole; 412. a control hole; 413. a second operation hole; 414. a third operation hole; 415. a fourth operation hole; 416. positioning holes; 421. a push rod; 422. a rotating shaft; 423. a drive wheel; 431. positioning a rod; 432. a transmission rod; 433. a spring; 434. a pedal.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a transportation structure for a machine room air conditioner. Referring to fig. 1, the transportation structure for the air conditioner of the machine room comprises a bottom plate 1, the bottom plate 1 is a rectangular plate, four corners of the bottom surface of the bottom plate 1 are fixedly connected with transportation wheels 5 for driving the bottom plate 1 to move, the transportation wheels 5 are universal wheels, two sides of the length direction of the top surface of the bottom plate 1 are vertically welded with baffle plates 2, the baffle plates 2 are rectangular plates, side walls of two sides of the width direction of the baffle plates 2 are provided with chutes 21, the chutes 21 are arranged along the height direction of the baffle plates 2, extension assemblies 3 are arranged in the baffle plates 2, each extension assembly 3 comprises a movable rod 31 and an auxiliary rod 32, the movable rods 31 and the auxiliary rods 32 are respectively arranged in the chutes 21 at two sides of the baffle plates 2 in a penetrating manner, one ends of the movable rods 31 and the auxiliary rods 32, which are far away from the chutes 21, are provided with stop rods 33, two ends of the length direction of the bottom surface of the stop rods 33 are respectively welded with the movable rods 31 and the auxiliary rods 32, one side of the width direction of the top surface of the bottom plate 1 is provided with an operation device 4 for driving the movable rods 31 to lift, the operating device 4 is welded to the top surface of the base plate 1 in the width direction of the base plate 1.

Referring to fig. 2, the operation device 4 includes an operation box 41, the operation box 41 is a hollow rectangular box, the operation box 41 is welded on one side of the width direction of the top surface of the bottom plate 1 along the width direction of the bottom plate 1, the side wall of the operation box 41 near the side of the baffle 2 abuts against the side wall of the baffle 2, the top of the side wall along the width direction of the operation box 41 is provided with a first operation hole 411, the first operation hole 411 includes an operation hole and a push hole, the push hole is provided along the height direction of the operation box 41, the operation hole is an arc-shaped groove, one end of the operation hole near the push hole is communicated with the top of the push hole, one side of the top surface of the operation box 41 far away from the moving rod 31 is provided with a second operation hole 413 corresponding to the moving rod 31, the second operation hole 413 is provided along the width direction of the operation box 41, a third operation hole 414 is provided at a position of the side wall of the operation box 41 far away from the moving rod 31 corresponding to the second operation hole 413, the third operation hole 414 is provided along the height direction of the operation box 41, an end of the second operation hole 413 distant from the moving rod 31 communicates with an end of the third operation hole 414 distant from the base plate 1.

Operating means 4 still includes operating means 42, operating means 42 wears to locate top in the control box 41, operating means 42 includes push rod 421, push rod 421 comprises handheld pole and connecting rod, the connecting rod is equipped with two, two connecting rods weld respectively in handheld pole length direction's both ends, two connecting rods of push rod 421 are worn to locate in the control box 41 by second operation hole 413, the equal fixedly connected with drive wheel 423 in both ends of push rod 421 in control box 41, all be equipped with pivot 422 in two drive wheels 423, pivot 422 both ends are worn to establish respectively perpendicularly and fixed connection in two drive wheels 423, pivot 422 both ends are still worn to locate respectively in the first operation hole 411 on the lateral wall of control box 41 width direction.

A control hole 412 is formed in a position, corresponding to the driving wheel 423, of a side wall of the operation box 41 close to the moving rod 31, the driving wheel 423 is a gear, a rack 311 matched with the driving wheel 423 is fixedly connected to one side of the moving rod 31 close to the driving wheel 423, and the driving wheel 423 is arranged in the control hole 412 in a penetrating mode and meshed with the moving rod 31.

The operating device 4 further comprises a positioning assembly 43, the positioning assembly 43 is arranged at the bottom of the operating box 41 corresponding to the position of the moving rod 31, a fourth operating hole 415 is formed at the bottom of the side wall of the operating box 41 far away from the side of the moving rod 31 corresponding to the position of the positioning assembly 43, the fourth operating hole 415 is formed along the height direction of the operating box 41, the positioning assembly 43 comprises a positioning rod 431 and a transmission rod 432, one end of the positioning rod 431 is welded with one end of the transmission rod 432 and is hinged at the position of the inner bottom surface of the operating box 41 corresponding to the moving rod 31, one end of the positioning rod 431 far away from the transmission rod 432 is provided with a clamping head matched with the rack 311, the side wall of the operating box 41 near the side of the moving rod 31 corresponding to the clamping head is provided with a positioning hole 416, one end of the positioning rod 431 provided with the clamping head is arranged in the positioning hole 416 and clamped in the tooth groove of the rack 311, a spring 433 is fixedly connected to the bottom surface of the transmission rod 432 at the end of the operating box 41 far away from the positioning rod 431, one end of the spring 433, which is far away from the transmission rod 432, is fixedly connected to the inner bottom surface of the operation box 41, one end of the transmission rod 432, which is far away from the positioning rod 431, is inserted into the fourth operation hole 415, a pedal 434 is arranged outside the operation box 41, and two ends of the pedal 434 in the length direction are respectively and fixedly connected to one ends of the two transmission rods 432, which are located outside the operation box 41.

Referring to fig. 3, one side of the bottom plate 1, which is away from the operating device 4, is hinged with a loading and unloading plate 6, the width of the loading and unloading plate 6 is the same as that of the bottom plate 1, the top of the operating box 41 is provided with an auxiliary rail 7, the auxiliary rail 7 is vertically welded on the top surface of the operating box 41 along the length direction of the operating box 41, one end of the baffle plate 2, which is away from the auxiliary rail 7, is fixedly connected with a fixed pulley 84, the bottoms at the two ends of the auxiliary rail 7 are rotatably connected with a traction assembly 8, the traction assembly 8 comprises a winding roller 82, one end of the winding roller 82 is rotatably connected with the bottom of the auxiliary rail 7, one end of the winding roller 82, which is away from the auxiliary rail 7, is fixedly connected with a transmission wheel 81, the transmission wheel 81 is a gear matched with a rack 311, the transmission wheel 81 is meshed with the rack 311, the winding roller 82 is fixedly connected with a traction line 83, and one end of the traction line 83, which is away from the winding roller 82, passes through the fixed pulley 84 and is fixedly connected with one side of the loading and away from the bottom plate 1, of the loading and unloading plate 6.

The implementation principle of a transportation structure for a machine room air conditioner in the embodiment of the application is as follows:

after the machine room air conditioner is loaded on the bottom plate 1 through the loading and unloading plate 6, an operator pushes the push rod 421 to make the rotating shaft 422 slide in the operating hole of the first operating hole 411, when the rotating shaft 422 slides to one end of the operating hole far away from the pushing hole, the driving wheel 423 is arranged in the control hole 412 in a penetrating way and meshed with the rack 311, at this time, the operator rotates the push rod 421 downwards to drive the driving wheel 423 to rotate, the driving wheel 423 drives the moving rod 31 to ascend in the chute 21 through the rack 311 in the rotating process, the clamping joint of the positioning rod 431 is extruded by the rack 311 to rotate to one end far away from the rack 311 in the ascending process of the moving rod 423, the driving rod 432 simultaneously rotates and compresses the spring 433, the driving wheel 81 is also driven to rotate in the ascending process of the moving rod 31, the driving wheel 81 drives the winding roller 82 to rotate and pulls the winding wire 83, the loading and unloading plate 6 is driven to rotate until the loading and unloading plate 6 rotates to the vertical state in the winding process of the pulling wire 83, at this time, the operator operates the push rod 421 to make the rotating shaft 422 slide in the pushing hole of the first operation hole 411, so as to transport the air conditioner in the machine room.

When the machine room air conditioner needs to be dismounted, an operator can step on the pedal 434 downwards, the pedal 434 drives the transmission rod 432 and the positioning rod 431 to rotate, the clamping joint of the positioning rod 431 is separated from the rack 311, the movable rod 31 slides downwards in the sliding groove 21 under the action of self gravity at the moment, the rack 311 drives the transmission wheel 81 to rotate, the winding roller 82 rotates, the traction wire 83 is gradually lengthened in the rotation process of the winding roller 82, the loading and unloading plate 6 rotates to the end, far away from the bottom plate 1, of the loading and unloading plate 6 and abuts against the ground, and the machine room air conditioner can be dismounted from the bottom plate 1 at the moment.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a transportation structure for computer lab air conditioner which characterized in that: including bottom plate (1), baffle (2), extension subassembly (3), operating means (4), bottom plate (1) bottom fixedly connected with transport wheel (5), baffle (2) are equipped with two, two baffle (2) are respectively along bottom plate (1) length direction fixed connection in bottom plate (1) top surface length direction's both sides, spout (21) have been seted up along baffle (2) direction of height to the lateral wall of baffle (2) width direction both sides, extension subassembly (3) are equipped with two, two extend subassembly (3) and wear to locate respectively in spout (21) of two baffles (2), operating means (4) fixed connection is in one side of bottom plate (1) top surface width direction, operating means (4) are used for controlling the lift that extends subassembly (3).

2. A transport structure for a machine room air conditioner according to claim 1, wherein: extension subassembly (3) are including carriage release lever (31), auxiliary rod (32), shelves pole (33), in baffle (2) spout (21) that are close to operating means (4) one side are worn to locate in carriage release lever (31), in baffle (2) spout (21) of keeping away from operating means (4) one side are worn to locate in auxiliary rod (32), the other end difference fixed connection in shelves pole (33) length direction's both ends are kept away from in baffle (2) carriage release lever (31), auxiliary rod (32).

3. A transport structure for a machine room air conditioner according to claim 1, wherein: operating means (4) include control box (41), operating means (42), locating component (43), bottom plate (1) width direction fixed connection is followed in control box (41) one side of bottom plate (1) top surface width direction in control box (41), be cavity in control box (41), first handle hole (411) have been seted up to the top of control box (41) width direction to the lateral wall, control hole (412) have been seted up at the lateral wall top that control box (41) are close to spout (21) one side, locating hole (416) have been seted up to the lateral wall bottom that control box (41) are close to spout (21) one side, second handle hole (413) have been seted up at the both ends of control box (41) top surface length direction, third handle hole (414) have been seted up at the both ends top that spout (21) one side lateral wall length direction was kept away from in control box (41), the one end that bottom plate (1) was kept away from with third handle hole (414) to the one end that removal pole (31) was kept away from in second handle hole (413), one end even was kept away from bottom plate (1) is kept away from in third handle hole (414) Opening;

the operation assembly (42) penetrates through the operation box (41) along the length direction of the operation box (41), two ends, located in the operation box (41), of the operation assembly (42) penetrate through first operation holes (411) on two sides of the operation box (41) in the width direction respectively, one end, close to the sliding chute (21), of the operation assembly (42) penetrates through a control hole (412) and is in transmission connection with the moving rod (31), and one end, far away from the sliding chute (21), of the operation assembly (42) penetrates through a second operation hole (413);

locating component (43) are used for restricting the removal of carriage release lever (31), locating component (43) are equipped with two, two locating component (43) locate operation box (41) interior bottom length direction's both ends respectively, bottom surface is articulated in locating component (43) bottom and operation box (41), fourth handle hole (415) have been seted up to the position that lateral wall bottom that spout (21) one side was kept away from to operation box (41) length direction corresponds locating component (43), locating component (43) are close to the one end of spout (21) and wear to locate in locating hole (416) and butt on carriage release lever (31), locating component (43) keep away from the one end of spout (21) and wear to locate in fourth handle hole (415).

4. A transport structure for a machine room air conditioner according to claim 3, wherein: the operation assembly (42) includes push rod (421), pivot (422), drive wheel (423), push rod (421) both ends are worn to locate in operation case (41) by second operation hole (413), drive wheel (423) are equipped with two, drive wheel (423) fixed connection respectively is located the both ends of operation case (41) in push rod (421), pivot (422) both ends are worn to establish respectively and fixed connection in two drive wheels (423), pivot (422) both ends are still worn to locate in first operation hole (411) of operation case (41) width direction both sides, drive wheel (423) are worn to locate in control hole (412), just drive wheel (423) are connected with carriage release lever (31) transmission.

5. A transport structure for a machine room air conditioner according to claim 4, wherein: the driving wheel (423) is a gear, one side of the moving rod (31) close to the driving wheel (423) is provided with a rack (311) matched with the driving wheel (423), and the driving wheel (423) is meshed with the moving rod (31).

6. A transport structure for a machine room air conditioner according to claim 3, wherein: the positioning assembly (43) comprises a positioning rod (431), a transmission rod (432) and a spring (433), one end of the positioning rod (431) is fixedly connected with one end of the transmission rod (432), the joint of the positioning rod (431) and the transmission rod (432) is hinged to the inner bottom surface of the operation box (41), one end, far away from the transmission rod (432), of the positioning rod (431) penetrates through the positioning hole (416) and is clamped in the rack (311), one end of the spring (433) is fixedly connected with the bottom of the transmission rod (432), the other end of the spring (433) is fixedly connected to the inner bottom surface of the operation box (41), one end, far away from the positioning rod (431), of the transmission rod (432) penetrates through the fourth operation hole (415), one end, located outside the operation box (41), of the transmission rod (432) is provided with a pedal (434), and the pedal (434) is arranged outside the operation box (41) along the length direction of the operation box (41), the two ends of the pedal (434) in the length direction are respectively fixedly connected with the two transmission rods (432).

7. A transport structure for a machine room air conditioner according to claim 3, wherein: operation box (41) top surface is along operation box (41) length direction fixedly connected with supplementary railing (7), one side that operating means (4) were kept away from in bottom plate (1) articulates there is handling board (6), one side fixedly connected with that bottom plate (1) were kept away from in handling board (6) pulls subassembly (8), the other end that handling board (6) were kept away from in pulling subassembly (8) rotates and connects on supplementary railing (7), pull the one end that subassembly (8) are close to supplementary railing (7) and be connected with carriage release lever (31) transmission.

8. A transport structure for a machine room air conditioner according to claim 7, wherein: the traction assembly (8) comprises a transmission wheel (81), a winding roller (82) and a traction wire (83), the winding roller (82) is rotatably connected to the bottom of the auxiliary railing (7), the transmission wheel (81) is fixedly connected to one end, far away from the auxiliary railing (7), of the winding roller (82), the transmission wheel (81) is a gear matched with a rack (311), the transmission wheel (81) is meshed with the rack (311), one end of the traction wire (83) is fixedly connected to the winding roller (82), and the other end of the traction wire (83) is fixedly connected to one side, far away from the bottom plate (1), of the loading and unloading plate (6).

9. A transport structure for a machine room air conditioner according to claim 8, wherein: one end of the top surface of the baffle (2) far away from the auxiliary rail (7) is fixedly connected with a fixed pulley (84), and the traction wire (83) is in sliding connection with the fixed pulley (84).

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