CN217057894U - Wind motor mounting structure for air conditioning box - Google Patents

Abstract

The utility model relates to a wind motor mounting structure for an air-conditioning box, which comprises a mounting rack, wherein the mounting rack is in a rectangular frame shape and comprises an upper cross beam, a lower cross beam and a longitudinal beam; the two groups of mounting racks are arranged in parallel; the fan support is connected with the motor support; the two motor supports are straight rod-shaped, and two ends of the two motor supports are respectively connected with the lower cross beams of the two groups of mounting frames; the two fan supports are straight rod-shaped, and two ends of each fan support are respectively connected with the upper cross beams of the two groups of mounting frames; a fan and a motor of the air conditioning box are respectively arranged on the fan bracket and the motor bracket, are in a vertically-placed mode and are connected through a belt; the lower cross beam of the mounting frame is mounted on the support beam; the support beam is mounted on the bottom plate of the air conditioning box. The utility model discloses but make full use of air-conditioning box direction of height's space to can be corresponding reduce air-conditioning box length and width, thereby, can reduce manufacturing cost, improve economic benefits.

Description

Wind motor mounting structure for air conditioning box

Technical Field

The utility model relates to an air conditioner component, especially a structure for installing fan and motor, specific wind-powered electricity generation machine mounting structure for air-conditioning box that says so.

Background

In existing air-conditioning cabinets, the fan and motor are typically mounted directly on the fan base. According to the relative position of the fan and the motor, the existing air conditioning box generally has two installation modes of a rear installation mode and a side installation mode. The rear-mounted type is that the motor is arranged behind the fan, so that the requirement on the space in the width direction of the air conditioning box can be reduced, but the length of the fan section of the air conditioning box can be increased by the mounting mode. The lateral type is that the motor is arranged on the left side and the right side of the fan, so that the section length of the fan section of the air-conditioning box can be shortened, but the mode has larger requirement on the space of the width direction of the air-conditioning box. Two kinds of mounting means all need increase the space size of air-conditioning box, have improved manufacturing cost, are unfavorable for marketing.

Therefore, improvements are needed to better meet market demands.

SUMMERY OF THE UTILITY MODEL

The utility model aims at prior art's not enough, provide a wind-powered electricity generation machine mounting structure for air-conditioning box, can make full use of air-conditioning box direction of height's space to can be corresponding reduce air-conditioning box length and width, thereby, can reduce manufacturing cost, improve economic benefits.

The technical scheme of the utility model is that:

a wind motor mounting structure for an air-conditioning box comprises a mounting frame, wherein the mounting frame is in a rectangular frame shape and comprises an upper cross beam, a lower cross beam and a longitudinal beam; the two groups of mounting racks are arranged in parallel; the fan support is connected with the motor support; the two motor supports are straight rod-shaped, and two ends of the two motor supports are respectively connected with the lower cross beams of the two groups of mounting frames; the two fan supports are straight rod-shaped, and two ends of each fan support are respectively connected with the upper cross beams of the two groups of mounting frames; a fan and a motor of the air conditioning box are respectively arranged on the fan bracket and the motor bracket, are in a vertically-placed mode and are connected through a belt; the lower cross beam of the mounting frame is mounted on the support beam; the support beam is mounted on the bottom plate of the air conditioning box.

Further, the motor bracket comprises a slide rail, a slide block and a top block; the slide rail is a hollow long straight bar, and the upper surface of the slide rail is provided with a through groove and a plurality of through holes which are arranged along the longitudinal direction of the slide rail; the shape and size of the sliding block are adapted to the inner cavity of the sliding rail, and the sliding block can be placed in the inner cavity of the sliding rail and moves along the inner cavity of the sliding rail; a positioning column is arranged on the sliding block; the positioning column vertically protrudes out of the through groove and penetrates through a mounting hole in the motor base; the top block is dustpan-shaped, the bottom surface of the top block is installed on the through hole through a bolt, and the end surface of the top block is provided with a top rod which is outwards cantilevered; the far end of the ejector rod is tightly propped against the base of the motor.

Further, the sliding block is an inverted U-shaped groove steel block; the positioning column is a screw rod arranged in the sliding block from bottom to top.

Further, the ejector rod is of a bolt structure.

Further, the fan bracket and the upper cross beam are positioned on the same horizontal plane.

Furthermore, the supporting beam is in a straight rod shape, the cross section of the supporting beam is in a shape like a Chinese character 'ji', the length of the supporting beam is greater than that of the lower cross beam, and the width of the top surface of the supporting beam is equivalent to that of the lower cross beam; and a damping cushion block is arranged between the support beam and the lower cross beam.

The utility model has the advantages that:

the utility model relates to a rationally, simple structure, convenient to use can set up the fan and the motor of air-conditioning box from top to bottom, make full use of air-conditioning box direction of height's space to can be corresponding reduce air-conditioning box length and width, thereby, can reduce manufacturing cost, improve economic benefits.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of a slide rail structure.

Fig. 3 is a schematic view of a slider structure.

Fig. 4 is a schematic view of the top block structure.

Fig. 5 is an enlarged schematic view of a in fig. 1.

Wherein, 1, a fan; 2-a fan bracket; 3-a mounting rack; 4-a shock-absorbing cushion block; 5, a motor; 6-a motor bracket; 7-a support beam; 31-upper beam; 32-longitudinal beams; 33-a lower cross beam; 51-a base; 61-a slide rail; 62-through groove; 63-a via; 64-ejector pin; 65-a top block; 66-positioning columns; 67-slide block.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

As shown in figures 1 to 5.

A wind motor mounting structure for an air conditioning box comprises a mounting frame 3, a fan bracket 2, a motor bracket 6, a supporting beam 7 and the like. The wind motor of the air-conditioning box comprises a fan 1 and a motor 5.

The mounting frame 3 is rectangular frame-shaped and is formed by enclosing an upper cross beam 31, a lower cross beam 33 and two longitudinal beams 32, and the height of the mounting frame is greater than that of the motor 5. The two groups of mounting frames 3 are arranged in parallel, the lower cross beam in each mounting frame is fixed on the support beam 7, and then the support beam 7 is fixed on the bottom plate of the air-conditioning box.

The two motor supports 6 are straight rod-shaped, two ends of each motor support are respectively connected with the lower cross beams 33 of the two groups of mounting frames, and the distance between the two motor supports is matched with the motor, so that the motor is mounted on the motor supports.

The motor bracket includes a slide rail 61, a slider 67, and a top block 65. The slide rail 61 is a hollow long straight bar, and the upper surface thereof is provided with a through groove 62 and a plurality of through holes 63 which are arranged along the longitudinal direction of the slide rail. The slide block 67 is an inverted U-shaped channel steel block or other shape, and the size of the slide block is adapted to the inner cavity of the slide rail 61, so that the slide block can be placed in the inner cavity of the slide rail 61 and move along the inner cavity. The slider 67 is provided with a positioning post 66. The positioning post 66 protrudes upright from the through slot 62 and can pass through a mounting hole on the base 51 of the motor, so that the displacement of the motor in the direction perpendicular to the sliding rail is limited. The top block 65 is dustpan-shaped, and the bottom surface thereof is mounted on the through hole 63 through a bolt, so that the top block is fixed, and the position can be flexibly adjusted by selecting a proper through hole 63 as required. The end face of the ejector block 67 is provided with an ejector rod 64 which is cantilevered outwards, and the far end of the ejector rod 64 can be abutted against the base 51 of the motor 5, so that the displacement of the motor 5 in the length direction of the slide rail is limited, and the motor is prevented from moving when in use. Preferably, the positioning column 66 can be a screw rod, and is installed in the sliding block 67 from bottom to top, so that the installation is convenient. The ejector rod 64 can be of a bolt structure and is screwed on the end face of the ejector block 67, so that the length of the ejector rod is convenient to adjust.

The two fan supports 2 are straight rod-shaped, two ends of each fan support are respectively connected with the upper cross beams 31 of the two mounting frames, and the distance between the two fan supports is matched with the fan, so that the fan can be mounted on the fan supports. Preferably, the fan bracket 2 and the upper cross beam 31 are in the same horizontal plane, so that the installation is convenient, and the fan is kept stable.

The supporting beam 7 is in a straight rod shape, the cross section of the supporting beam is in a 'V' -shape, the length of the supporting beam is larger than that of the lower cross beam 33, the width of the top surface of the supporting beam is equal to that of the lower cross beam 33, so that the damping cushion block 4 is arranged between the supporting beam 7 and the lower cross beam 33, and the influence of fan vibration on other parts of the air-conditioning box can be reduced.

When the fan is installed, the fan is fixedly connected to the fan support through bolts and the like. Meanwhile, the motor is placed on the sliding rail, and the positioning column penetrates through the mounting hole in the motor base. Then, under the action of the sliding block, the motor is pushed to move along the direction of the sliding rail, so that the motor and the fan are accurately matched and are connected by a belt. And finally, fixedly connecting the ejector block to an appropriate through hole on the slide rail through a bolt, and adjusting the length of the ejector rod to enable the ejector block to abut against the base of the motor so as to prevent the ejector block from generating displacement in operation.

The utility model discloses a put the form from top to bottom with the fan and the motor setting of air-conditioning box, but make full use of air-conditioning box direction of height's space to can be corresponding reduce air-conditioning box length and width, thereby, but reduction in manufacturing cost improves economic benefits, does benefit to marketing.

The utility model discloses the part that does not relate to all is the same with prior art or can adopt prior art to realize.

Claims (6)

1. A wind motor mounting structure for an air-conditioning box comprises a mounting frame, and is characterized in that the mounting frame is in a rectangular frame shape and comprises an upper cross beam, a lower cross beam and a longitudinal beam; the two groups of mounting racks are arranged in parallel; the fan bracket is arranged on the motor bracket; the two motor supports are straight rod-shaped, and two ends of the two motor supports are respectively connected with the lower cross beams of the two groups of mounting frames; the two fan supports are straight rod-shaped, and two ends of each fan support are respectively connected with the upper cross beams of the two groups of mounting frames; a fan and a motor of the air-conditioning box are respectively arranged on the fan bracket and the motor bracket, are in a vertically-swinging mode and are connected through a belt; the lower cross beam of the mounting frame is mounted on the support beam; the support beam is mounted on the bottom plate of the air conditioning cabinet.

2. The wind motor mounting structure for an air conditioning box according to claim 1, wherein the motor bracket includes a slide rail, a slider, and a top block; the slide rail is a hollow long straight rod, and the upper surface of the slide rail is provided with a through groove and a plurality of through holes which are arranged along the longitudinal direction of the slide rail; the shape and the size of the sliding block are adaptive to those of the inner cavity of the sliding rail, and the sliding block can be arranged in the inner cavity of the sliding rail and moves along the inner cavity of the sliding rail; a positioning column is arranged on the sliding block; the positioning column vertically protrudes out of the through groove and penetrates through a mounting hole in the motor base; the top block is dustpan-shaped, the bottom surface of the top block is installed on the through hole through a bolt, and the end surface of the top block is provided with a top rod which is outwards cantilevered; the far end of the ejector rod is tightly propped against the base of the motor.

3. The wind motor mounting structure for an air conditioning box according to claim 2, wherein the slider is an inverted U-shaped channel steel block; the positioning column is a screw rod arranged in the sliding block from bottom to top.

4. The wind motor mounting structure for an air conditioning box according to claim 2, wherein the ejector rod has a bolt structure.

5. The wind motor mounting structure for an air conditioning box of claim 1, wherein the fan bracket and the upper cross beam are in the same horizontal plane.

6. The wind motor mounting structure for an air conditioning box according to claim 1, wherein the support beam is a straight rod shape having a cross section in a shape of a Chinese character 'ji', a length thereof is longer than the lower cross member, and a top width thereof is equivalent to the lower cross member; and a damping cushion block is arranged between the support beam and the lower cross beam.

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