CN108759038B - Median septum subassembly and tuber pipe machine - Google Patents

Abstract

The invention discloses a middle partition plate assembly which comprises a middle partition plate and a fan plate. The two ends of the middle partition plate are provided with first sliding chutes; the two first sliding chutes respectively comprise a vertical sliding chute along the width direction of the middle partition plate, a first auxiliary sliding chute extending leftwards or rightwards from the upper end of the vertical sliding chute, and a second auxiliary sliding chute extending downwards from the tail end of the first auxiliary sliding chute; the fan plate is used for fixing the fan assembly, and the rear sides of the upper parts of the two ends of the fan plate are provided with first hooks; the two first hooks are respectively hung at the tail ends of the two second auxiliary sliding chutes, and the fan plate is detachably and fixedly connected with the middle partition plate; when the fixed connection is released, the first hook can move to the lower end of the first hook along the first sliding groove and is hung at the lower end of the first hook. The invention also discloses the air duct machine comprising the middle partition plate assembly. According to the invention, when the fan assembly of the air duct machine breaks down and needs to be maintained, the fan plate and the fan assembly extend out of the ceiling, so that the air duct machine has a good maintenance environment, is convenient to maintain and improves the maintenance efficiency.

Description

Median septum subassembly and tuber pipe machine

Technical Field

The invention belongs to the technical field of air conditioning, and particularly relates to a middle partition plate assembly and an air duct machine.

Background

The existing common ducted air conditioner is a hidden ducted air conditioner which is hoisted at the top of a room and fixed at a proper height of a roof. The suspended ceiling is positioned below the air duct machine, the air duct machine is shielded behind the suspended ceiling, and an air inlet, an air outlet, an electrical box maintenance opening and the like are formed in the suspended ceiling. Because this kind of tuber pipe machine mounting means makes the air conditioner host computer in the room invisible, has reduced the degree of difficulty of overall arrangement and decoration in the room, is liked by the consumer deeply, but this kind of mounting means has also brought the inconvenience for the maintenance of fan subassembly. When fan subassembly need be maintained, because the tuber pipe machine is installed in the top of furred ceiling, need maintain inside the furred ceiling through the return air inlet that sets up on the furred ceiling, and the inside space of furred ceiling is very narrow and small, and light is not good moreover, makes the inconvenient very of maintenance. Or the suspended ceiling is dismantled, the whole machine is taken down for maintenance, the ducted air conditioner is reinstalled after the maintenance is finished, and then the suspended ceiling is repaired, so that the maintenance cost is increased. Therefore, a convenient and low-consumption maintenance mode is urgently needed to be developed.

Disclosure of Invention

The invention provides a middle partition plate assembly and a duct type air conditioner, which reduce the maintenance difficulty and the maintenance cost, and enable the maintenance of the duct type air conditioner to be more convenient, thereby improving the maintenance efficiency.

In order to solve the technical problems, the invention adopts the following technical scheme:

a median septum subassembly includes median septum, fan board. The two ends of the middle partition plate are provided with first sliding chutes; the two first sliding chutes respectively comprise a vertical sliding chute along the width direction of the middle partition plate, a first auxiliary sliding chute extending leftwards or rightwards from the upper end of the vertical sliding chute, and a second auxiliary sliding chute extending downwards from the tail end of the first auxiliary sliding chute; the fan plate is used for fixing the fan assembly, and the rear sides of the upper parts of the two ends of the fan plate are provided with first hooks; the two first hooks are respectively hung at the tail ends of the two second auxiliary sliding chutes, and the fan plate is detachably and fixedly connected with the middle partition plate; when the fixed connection between the fan plate and the middle partition plate is released, the first hook can move to the lower end of the first hook along the first sliding groove and is hung at the lower end of the first hook.

As a specific structural design of the fan plate, two ends of the fan plate are provided with backward folded edges; first flanges which are leftwards and rightwards are arranged along the edges of the left folded edge and the right folded edge respectively; at least two first through holes are formed in the two first turned edges; a matching through hole is formed in the middle partition plate corresponding to the first through hole; the middle partition plate and the fan plate are fixedly connected with the first through hole and the corresponding matching through hole through screws; the first hook is located on the rear side of the first flanging.

Because the difference of the height of ceiling and the height of roof, the problem that the fan subassembly still can't stretch out smallpox when the first couple of solving the fan board removes the lower extreme to first spout, the median septum subassembly still includes left and right backup pad, left and right fixed plate, left and right connecting plate. The left supporting plate and the right supporting plate are rectangular strips bent at right angles, are respectively positioned on the inner sides of the two first sliding grooves and respectively comprise a first supporting edge and a second supporting edge; the two first supporting edges are respectively positioned at the inner sides of the two second supporting edges; the two first supporting edges are respectively and fixedly connected with the middle clapboard; the two second supporting edges are respectively provided with a second sliding chute along the length direction of the second supporting edges; the left fixing plate and the right fixing plate are rectangular strip plates which are respectively positioned at the outer sides of the two first sliding grooves and respectively comprise a first fixing edge and a second fixing edge; the two first fixed edges are respectively positioned at the outer sides of the two second fixed edges; the two first fixing edges are fixedly connected with the middle clapboard; a third sliding groove is formed in each of the two second fixing edges along the length direction of the second fixing edge; the left connecting plate and the right connecting plate are both strip plates and are respectively detachably and fixedly connected with the left fixing piece and the right fixing piece; the transverse middle parts of the left and right connecting plates are respectively provided with a fourth sliding chute along the length direction, the shape and the size of the fourth sliding chute are the same as those of the first sliding chute, and the positions of the fourth sliding chutes correspond to those of the first sliding chute; second hooks are arranged on two sides of the upper ends of the left connecting plate and the right connecting plate; the second hooks of the left and right connecting plates are respectively positioned in the second sliding groove and the third sliding groove at two ends of the middle partition plate; when the fixed connection between the left and right connecting plates and the left and right fixing pieces is released, the second hook moves to the lower end of the second hook along the second sliding groove and the third sliding groove; and the two first hooks are respectively hung at the lower ends of the two fourth sliding grooves.

Preferably, the left and right connecting plates are provided with second through holes corresponding to the first through holes; the middle partition board is fixedly connected with the fan board, the left connecting board and the right connecting board through screws, the first through holes, the matching through holes and the second through holes.

In order to increase the strength of the left connecting plate and the right connecting plate, the left edge and the right edge of the left connecting plate and the right edge of the right connecting plate are respectively provided with a forward second flanging.

Preferably, the second turned-over edge on the left side of the left connecting plate and the second turned-over edge on the right side of the right connecting plate are respectively provided with a first bending part towards left and right; second bending parts which are leftwards and rightwards are respectively arranged on the second fixing edges of the left fixing plate and the right fixing plate; the two first bending parts are respectively positioned at the outer sides of the two second bending parts and are fixedly connected together in a detachable mode.

Further preferably, at least two third through holes are formed in each of the two first bending portions; a fourth through hole is formed in the position, corresponding to the third through hole, of the two second bending parts; the left connecting plate and the right connecting plate are respectively connected with the left fixing plate and the right fixing plate through screws, and the third through holes are fixedly connected with the corresponding fourth through holes.

As a specific connection mode of the left and right fixing plates and the middle partition plate, at least two fifth through holes are arranged on the two first fixing edges; a sixth through hole is formed in the middle partition plate corresponding to the fifth through hole; the left fixing piece, the right fixing piece and the middle partition plate are connected with the fifth through hole and the corresponding sixth through hole through screws in a fixed mode.

Preferably, the two first supporting edges are fixedly connected with the middle clapboard in a welding mode.

A ducted air conditioner includes above-mentioned intermediate bulkhead subassembly.

Compared with the prior art, the invention has the advantages and positive effects that: according to the matching structure of the middle partition plate assembly, the first sliding chute and the first hook of the air duct machine, the first hook is hung at the tail end of the second auxiliary sliding chute of the first sliding chute when the air duct machine is finished, and the fan plate and the middle partition plate are detachably and fixedly connected together; when the fan assembly of the air pipe machine breaks down and needs to be maintained, the detachable fixed connection between the fan plate and the middle partition plate is removed, the first hook is moved to the bottom end of the first sliding groove along the first sliding groove and is connected to the tail end of the vertical sliding groove in a hanging mode, the fan plate and the fan assembly are moved out of the machine of the air pipe machine downwards, the ceiling is extended out, the maintenance environment is improved, the maintenance is more convenient, the maintenance efficiency is improved, the ceiling does not need to be removed, and the maintenance cost is saved.

Drawings

FIG. 1 is an exploded view of one embodiment of a midplate assembly according to the present invention;

FIG. 2 is an enlarged view of the left end of FIG. 1;

FIG. 3 is an enlarged view of the right end of FIG. 1;

FIG. 4 is an assembled schematic view of the septum assembly of FIG. 1;

FIG. 5 is a schematic view of the arrangement of the middle partition plate assembly of FIG. 4 with the fan plate moved to the lower end of the middle partition plate;

FIG. 6 is a schematic view showing the upper ends of the left and right connecting plates of FIG. 5 moved to the lower end of the middle partition;

FIG. 7 is a schematic view of an embodiment of the ducted air conditioner of the present invention mounted above a ceiling;

FIG. 8 is a schematic view of the left and right support plates of FIG. 1;

fig. 9 is a schematic structural view of left and right fixing plates of fig. 1;

fig. 10 is a schematic structural view of the left and right connecting plates in fig. 1.

In the figure, the position of the upper end of the main shaft,

1. a middle partition plate; 2. a fan plate; 3. a left support plate; 4. a left fixing plate; 5. a left connecting plate; 6. a right support plate; 7. a right fixing plate; 8. a right connecting plate; 9. a roof; 10. a ceiling; 11. a fan assembly; 101. a first chute; 102. a mating through hole; 103. a sixth through hole; 104. a first chute; 105. a mating through hole; 106. a sixth through hole; 201. a first hook; 202. a first hook; 203. folding edges; 204. a first flanging; 205. a first through hole; 206. folding edges; 207. a first flanging; 208. a first through hole; 301. a first support edge; 302. a second support edge; 303. a second chute; 401. a first fixed edge; 402. a second fixed edge; 403. a third chute; 404. a second bending portion; 405. a fifth through hole; 406. a fourth via hole; 501. a fourth chute; 502. a second hook; 503. a second through hole; 504. second flanging; 505. a first bending portion; 506. a third through hole; 601. a first support edge; 602. a second support edge; 603. a second chute; 701. a first fixed edge; 702. a second fixed edge; 703. a third chute; 704. a second bending portion; 705. a fifth through hole; 706. a fourth via hole; 801. a fourth chute; 802. a second hook; 803. a second through hole; 804. second flanging; 805. a first bending portion; 806. a third through hole; 1011. A vertical chute; 1012. a first auxiliary chute; 1013. a second auxiliary chute; 1041. a vertical chute; 1042. a first auxiliary chute; 1043. a second auxiliary chute.

Detailed Description

Embodiments of a middle diaphragm assembly and a duct type air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

Referring to fig. 1, 2, 3, 4, 5 and 7, a middle partition plate assembly of the present invention includes a middle partition plate 1 and a blower plate 2. Both ends of the middle partition board 1 are provided with first chutes, which comprise vertical chutes along the width direction D of the middle partition board 1, first auxiliary chutes extending leftwards or rightwards from the upper ends of the vertical chutes, and second auxiliary chutes extending downwards from the ends of the first auxiliary chutes. The fan plate 2 is used for installing the fan assembly 11, the rear sides of the upper portions of the two ends of the fan plate are provided with first hooks, the two first hooks are respectively connected with the tail ends of the two second auxiliary sliding grooves at the left end and the right end of the middle partition plate 1 in a hanging mode, and the middle partition plate 1 is fixedly connected with the fan plate 2 in a detachable mode. When the fan assembly 11 needs to be maintained, the detachable fixed connection between the middle partition board 1 and the fan board 2 is removed, the first hook of the fan board 2 is moved from the upper end of the first sliding groove to the lower end of the first sliding groove along the first sliding groove and is hung at the lower end of the vertical sliding groove, and the fan board 2 and the fan assembly 11 extend out of the ceiling 10. The ceiling lamp has the advantages that the conditions of good light and abundant maintenance space can be realized even if the ceiling is not detached, the maintenance is more convenient, the maintenance efficiency is improved, and the high cost for detaching the ceiling is avoided. Similarly, since the ducter of the present invention includes the above-mentioned partition plate assembly, which is hung on the roof 9 and located above the ceiling 10, it also has a function that the blower plate 2 together with the blower assembly 11 extends out of the ceiling 10 when the blower assembly 11 needs to be repaired, so that the repair of the blower assembly 11 is more convenient, thereby improving the repair efficiency and avoiding the high cost caused by removing the ceiling for repair.

The specific structure and implementation of a middle partition plate assembly and a ducted air conditioner according to the present invention will be described in detail below with reference to specific examples.

Referring to fig. 1, 2, 3, 4 and 8, the middle partition plate assembly of the present invention further includes a left support plate 3, a right support plate 6, a left fixing plate 4, a right fixing plate 7, a left connecting plate 5 and a right connecting plate 8. The left support plate 3 and the right support plate 6 are rectangular plates bent at right angles, the length of each rectangular plate is matched with the width of the middle partition plate 1 in an installation mode, and the rectangular plates are respectively located on the inner sides of a first sliding groove 101 at the left end of the middle partition plate 1 and a first sliding groove 104 at the right end of the middle partition plate 1. The left support plate 3 comprises a first support edge 301 and a second support edge 302, and the right support plate 6 also comprises a first support edge 601 and a second support edge 602. The first supporting edge 301 of the left supporting plate 3 is located at the inner side of the second supporting edge 302, the first supporting edge 601 of the right supporting plate 6 is located at the inner side of the second supporting edge 602, and the first supporting edge 301 of the left supporting plate 3 and the first supporting edge 601 of the right supporting plate 6 are fixedly connected to two ends of the middle partition plate 1 respectively in a welding manner. The second supporting edge 302 of the left supporting plate 3 and the second supporting edge 602 of the right supporting plate 6 are respectively provided with a second sliding groove 303 and a second sliding groove 603 along the length direction thereof.

Referring to fig. 1, 2, 3, 4 and 9, the left fixing plate 4 and the right fixing plate 7 of the middle partition plate assembly of the present invention are rectangular strips, the length of each strip is matched with the width of the middle partition plate 1, and the strips are respectively located outside the first sliding groove 101 at the left end of the middle partition plate 1 and the first sliding groove 104 at the right end of the middle partition plate 1. The left fixing plate 4 includes a first fixing edge 401 and a second fixing edge 402, and the first fixing edge 401 is located outside the second fixing edge 402. The right fixing plate 7 includes a first fixing edge 701 and a second fixing edge 702, and the first fixing edge 701 is located outside the second fixing edge 702. At least two fifth through holes 405 and 705 are respectively formed on the first fixing edge 401 of the left fixing plate 4 and the first fixing edge 701 of the right fixing plate 7, and a sixth through hole 103 and a sixth through hole 106 are respectively formed at two ends of the middle partition plate 1 corresponding to the positions of the fifth through holes 405 and the positions of the fifth through holes 705. The left fixing plate 4 is fixed at the left end of the middle partition plate 1 by connecting the fifth through hole 405 and the sixth through hole 103 with screws, and the right fixing plate 7 is fixed at the right end of the middle partition plate 1 by connecting the fifth through hole 705 and the sixth through hole 106 with screws. A third sliding groove 403 and a third sliding groove 703 are respectively formed on the second fixing edge 402 of the left fixing plate 4 and the second fixing edge 702 of the right fixing plate 7 along the length direction thereof. The second fixing edge 402 of the left fixing plate 4 and the second fixing edge 702 of the right fixing plate 7 are provided with a second bending portion 404 and a second bending portion 704, respectively, which face to the left and the right, respectively. At least two fourth through holes 406 and 706 are respectively formed on the two second bent portions.

Referring to fig. 1, 2, 3, 4 and 10, the left and right connecting plates of the middle partition plate assembly of the present invention are long strips, and the length of the long strips is matched with the width of the middle partition plate 1. The left and right connecting plates are respectively positioned between the left fixing plate 4 and the left supporting plate 3 and between the right supporting plate 6 and the right fixing plate 7. A fourth sliding chute 501 and a fourth sliding chute 801 are respectively arranged in the middle of the transverse width of the left and right connecting plates. The fourth sliding chute 501 of the left connecting plate 5 has the same size and shape as the first sliding chute 101 at the left end of the middle partition board 1, and corresponds in position. The fourth sliding groove 801 of the right connecting plate 8 has the same size and shape as the first sliding groove 104 at the right end of the middle partition plate 1, and corresponds in position. A downward second hook 502 and a second hook 802 are respectively arranged on two sides of the upper end of the left and right connecting plates. The second hook 502 of the left connecting plate 5 is respectively positioned in the third sliding groove 403 of the left fixing plate 4 and the second sliding groove 303 of the left supporting plate 3. The second hook 802 of the right connecting plate 8 is respectively positioned in the second sliding groove 603 of the right supporting plate 6 and the third sliding groove 703 of the right fixing plate 7. In order to increase the strength of the left and right connecting plates, a forward second flange 504 and a forward second flange 804 are respectively arranged on two sides of the left connecting plate 5 and two sides of the right connecting plate 8. A first bent portion 505 is provided on the second flange 504 on the left side of the left connecting plate 5, and a first bent portion 805 is provided on the second flange 804 on the right side of the right connecting plate 8. The first bent portion 505 of the left connecting plate 5 faces left, and the first bent portion 805 of the right connecting plate 8 faces right. Third through holes 506 and 806 are provided in the first bent portion 505 and the first bent portion 805 at positions corresponding to the fourth through holes, respectively. The first bending portion 505 of the left connecting plate 5 is located outside the second bending portion 404 of the left fixing plate 4, and is fixedly connected to the third through hole 506 and the fourth through hole 406 by means of screw connection. The first bending portion 805 of the right connecting plate 8 is located outside the second bending portion 704 of the right fixing plate 7, and is fixedly connected to the third through hole 806 and the fourth through hole 706 by screws. The left and right connecting plates are respectively provided with a second through hole 503 and a second through hole 803 corresponding to the matching through holes at the two ends of the middle partition plate 1.

Referring to fig. 1, 2, 3 and 4, the fan plate 2 of the middle partition plate assembly of the present invention has two ends respectively provided with a backward folded edge 203 and a folded edge 206, a first folded edge 204 at the left end is provided at the edge of the folded edge 203, and a first folded edge 207 at the right end is provided at the edge of the folded edge 206. The first hook 201 at the left end of the fan plate 2 is located at the rear side of the first flange 204 at the left end of the fan plate 2, and is hooked at the end of the second auxiliary sliding slot 1013 of the first sliding slot 101 at the left end of the middle partition board 1 and the end of the second auxiliary sliding slot 501 of the fourth sliding slot 501 of the left connecting plate 5. The first hook 202 at the right end of the fan plate 2 is located at the rear side of the first flange 207 at the right end of the fan plate 2, and is hooked at the tail end of the second auxiliary chute 1043 of the first chute 104 at the right end of the middle partition plate 1 and the tail end of the second auxiliary chute of the fourth chute 801 of the right connecting plate 8. The two first flanges at the two ends of the fan plate 2 are respectively provided with a first through hole 205 and a first through hole 208 corresponding to the position of the second through hole 503 of the left connecting plate 5 and the position of the second through hole 803 of the right connecting plate 8. The screws are respectively connected with the first through hole 205, the second through hole 503, the matching through hole 102 at the left end and the first through hole 208, the second through hole 803 and the matching through hole 105 at the right end, so that the fixed connection of the left end of the middle partition plate 1, the left connecting plate 5 and the left end of the fan plate 2 and the fixed connection of the right end of the middle partition plate 1, the right connecting plate 8 and the right end of the fan plate 2 are realized.

Referring to fig. 5 and 7, the ducted air conditioner is suspended from the roof 9 above the ceiling 10. When the fan assembly 11 of the duct type air conditioner needs to be maintained, the screw connection of the first through hole 205, the second through hole 503 and the matching through hole 102 at the left end and the screw connection of the first through hole 208, the second through hole 803 and the matching through hole 105 at the right end are released, so that the fixed connection between the fan plate 2 and the middle partition plate 1 is released. The first hooks 201 and 202 move to the bottom ends thereof along the first chute 101 and the first chute 104, respectively, and are hooked on the lower ends of the vertical chute 1013 and the vertical chute 1043. The fan plate 2 and the fan assembly 11 extend out of the ceiling, and maintenance is facilitated.

Referring to fig. 6 and 7, when the height from the ceiling plate 10 to the bottom of the ducted type air conditioner causes the first hook to move to the lower end of the first chute, the blower plate 2 together with the blower assembly 11 still cannot extend out of the ceiling plate 10, the screw connection between the third through hole 506 at the left end and the fourth through hole 406 and the screw connection between the third through hole 806 at the right end and the fourth through hole 706 are released, so that the fixed connection between the left connecting plate 5 and the left fixing plate 4 is released and the fixed connection between the right connecting plate 8 and the fixing plate is released. The second hook 502 of the left connecting plate 5 moves to the lower ends of the second sliding groove and the third sliding groove along the second sliding groove 303 and the third sliding groove 403 at the left end, and the second hook 802 of the right connecting plate 8 moves to the lower ends of the second sliding groove and the third sliding groove along the second sliding groove 603 and the third sliding groove 703 at the right end, and the first hook is hooked at the lower ends of the fourth sliding grooves of the left and right connecting plates. An increase in the drop height of the fan plate 2 together with the fan assembly 11 is achieved so that it protrudes from the ceiling 10.

If the maintenance work is complex, when the fan plate 2 and the fan assembly are required to be moved to the ground for maintenance, the screw connection of the first through hole 205, the second through hole 503 and the matching through hole 102 at the left end and the screw connection of the first through hole 208, the second through hole 803 and the matching through hole 105 at the right end can be released, so that the first hook is directly separated from the first chute after the fixed connection between the fan plate 2 and the middle partition plate 1 is released, the fan plate 2 and the fan assembly 11 are moved to the ground for maintenance, and the variable maintenance scheme is adapted.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and those skilled in the art may make modifications, alterations, additions or substitutions within the spirit and scope of the present invention.

Claims (10)

1. A midplate assembly, comprising:

the middle partition board is provided with first sliding chutes at two ends; the two first sliding chutes respectively comprise a vertical sliding chute along the width direction of the middle partition plate, a first auxiliary sliding chute extending leftwards or rightwards from the upper end of the vertical sliding chute, and a second auxiliary sliding chute extending downwards from the tail end of the first auxiliary sliding chute;

the fan plate is used for fixing the fan assembly, and the rear sides of the upper parts of the two ends of the fan plate are provided with first hooks; the two first hooks are respectively hung at the tail ends of the two second auxiliary sliding chutes, and the fan plate is detachably and fixedly connected with the middle partition plate; when the fixed connection between the fan plate and the middle partition plate is released, the first hook can move to the lower end of the first sliding groove along the first sliding groove and is hung at the lower end of the first sliding groove;

the left and right supporting plates are both strip plates and are provided with second sliding grooves along the length direction of the strip plates; the left support plate and the right support plate are respectively positioned on the inner sides of the two first sliding grooves and are fixedly connected with the middle partition plate;

the left fixing plate and the right fixing plate are both strip plates and are provided with third sliding chutes along the length direction of the strip plates; the left fixing plate and the right fixing plate are respectively positioned at the outer sides of the two first sliding chutes and are fixedly connected with the middle partition plate;

the left connecting plate and the right connecting plate are both strip plates and are respectively detachably and fixedly connected with the left fixing plate and the right fixing plate; the transverse middle parts of the left and right connecting plates are respectively provided with a fourth sliding chute along the length direction, the shape and the size of the fourth sliding chute are the same as those of the first sliding chute, and the positions of the fourth sliding chutes correspond to those of the first sliding chute; second hooks are arranged on two sides of the upper ends of the left connecting plate and the right connecting plate; the second hooks of the left and right connecting plates are respectively positioned in the second sliding groove and the third sliding groove at two ends of the middle partition plate; when the fixed connection between the left and right connecting plates and the left and right fixing plates is released, each second hook moves to the lower end of the second hook along the second sliding groove and the third sliding groove; and the two first hooks are respectively hung at the lower ends of the two fourth sliding grooves.

2. The midplate assembly according to claim 1, wherein a rearward flange is provided at each end of the fan plate; first flanges which are leftwards and rightwards are arranged along the edges of the left folded edge and the right folded edge respectively; at least two first through holes are formed in the two first turned edges; a matching through hole is formed in the middle partition plate corresponding to the first through hole; the first through holes and the corresponding matching through holes are connected through screws, so that the middle partition plate is fixedly connected with the fan plate;

the first hook is located on the rear side of the first flanging.

3. The midplate assembly according to claim 2,

the left supporting plate and the right supporting plate are rectangular strips bent at right angles and respectively comprise a first supporting edge and a second supporting edge; the two first supporting edges are respectively positioned at the inner sides of the two second supporting edges; the two first supporting edges are respectively and fixedly connected with the middle clapboard; the second sliding grooves are formed in the two second supporting edges;

the left fixing plate and the right fixing plate are rectangular plates which are bent at right angles and respectively comprise a first fixing edge and a second fixing edge; the two first fixed edges are respectively positioned at the outer sides of the two second fixed edges; the two first fixing edges are fixedly connected with the middle clapboard; and the third sliding grooves are formed in the two second fixing edges.

4. The septum assembly according to claim 3 wherein a second through hole is provided in the left and right connector plates at a location corresponding to the first through hole; the screws are connected with the first through holes, the matching through holes and the second through holes, so that the middle partition plate is fixedly connected with the fan plate, the left connecting plate and the right connecting plate.

5. The septum assembly according to claim 3 wherein a second forward flange is provided on each of the left and right edges of the left and right webs.

6. The septum assembly according to claim 5, wherein a first bend is provided to the left and right on the second flange on the left side of the left web and the second flange on the right side of the right web, respectively; second bending parts which are leftwards and rightwards are respectively arranged on the second fixing edges of the left fixing plate and the right fixing plate; the two first bending parts are respectively positioned at the outer sides of the two second bending parts and are fixedly connected together in a detachable mode.

7. The midplate assembly according to claim 6, wherein at least two third through holes are provided on both of the first bent portions; a fourth through hole is formed in the position, corresponding to the third through hole, of the two second bending parts; and the screws are connected with the third through holes and the corresponding fourth through holes, so that the left and right connecting plates are respectively and fixedly connected with the left and right fixing plates.

8. The septum assembly of claim 3, wherein at least two fifth through holes are provided on both of the first securing edges; a sixth through hole is formed in the middle partition plate corresponding to the fifth through hole; and the screws are connected with the fifth through holes and the corresponding sixth through holes, so that the left fixing piece and the right fixing piece are fixedly connected with the middle partition plate.

9. The midplate assembly according to any one of claims 3 to 8, wherein the two first support legs are fixedly connected to the midplate by welding.

10. A ducted air conditioner including the septum assembly of any of claims 1 to 9.

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