SUMMERY OF THE UTILITY MODEL
The utility model aims at providing an installing support and smallpox machine to it is great to solve the water pump operation production vibration in the current smallpox machine, and the corresponding great noise pollution that produces influences user's use comfort's technical problem.
In order to solve the problem, the utility model provides an installing support is applied to smallpox machine, which comprises a base, the installation face of base is equipped with first support body, first support body is equipped with the storage tank, the corresponding terminal surface of storage tank notch is the holding surface, smallpox machine's drain pump connect in when the holding surface, the partial pump body of drain pump hold in the storage tank, just the focus of drain pump is located holding surface place plane.
The utility model provides an among the installing support, the assembly face of drain pump and first support body is drawn high to improve the drain pump and connect in the stability of first support body, and can effectively reduce the vibration range when the drain pump moves, the noise pollution that produces when corresponding reduction drain pump moves improves smallpox machine operation indoor environment's comfort level.
Optionally, the mounting surface is provided with a second bracket body for mounting a floater of the ceiling machine. The base, the first support body and the second support body form a part, on one hand, when the mounting support is dismounted, only one-time connection or one-time dismounting needs to be carried out on the mounting support, and the dismounting convenience is high; on the other hand, the installing support as single part can realize the installation to drain pump and float simultaneously, simple structure, and processing, transportation and accomodate all comparatively convenient.
Optionally, the first support body includes two supporting tables, two supporting tables are arranged on two sides of the base, the accommodating groove is formed between the two supporting tables, and the end surfaces of the two supporting tables are used as the supporting surfaces. On the one hand, two brace tables support the both sides position of drain pump respectively spacingly, can effectively ensure that the drain pump is installed in the firmness and the stability of first support body.
Optionally, at least one of the two support surfaces is provided with a limiting column, and the limiting column is used for being in plug-in fit with a limiting hole on a connecting lug of the drainage pump. Spacing post is pegged graft with the spacing hole of engaging lug and is cooperated, can carry out preliminary location to the engaging lug with being connected of brace table to improve the convenient degree of drain pump installation.
Optionally, one surface of the base opposite to the mounting surface is provided with a wire accommodating groove and a limiting buckle, and the limiting buckle is located between the second bracket body and the wire accommodating groove. The wire accommodating groove can play a role in gathering, accommodating and guiding the wires, so that the neatness of wiring in the ceiling is improved, and the condition that the wires are hung and short-circuited can be reduced; the spacing buckle can improve the stability that the wire was walked the line, correspondingly ensures the normal operating of float.
Optionally, a wire accommodating groove is formed in one surface, opposite to the mounting surface, of the base and used for accommodating a wire. The wire accommodating groove can play the roles of gathering, accommodating and guiding wires, so that the neatness of wiring in the ceiling is improved, and the occurrence of short circuit caused by hanging wires can be reduced.
Optionally, the wire accommodating groove is a strip-shaped groove, and two ends of the wire accommodating groove in the length direction are arranged in a penetrating manner. The wires on the side, deviating from the mounting surface, of the mounting bracket can be all wired in the wire accommodating groove, and the interference caused by the fact that the wires protrude outwards to the surface and the wires and the installation of each part is reduced.
Optionally, the mounting surface is provided with a wire blocking column, and the wire blocking column corresponds to the first end of the wire accommodating groove. The wire blocking column can improve the stability of the wire routing, and accordingly normal operation of the drainage pump is guaranteed.
Optionally, a wire fixing seat is arranged at a position, corresponding to the second end of the wire accommodating groove, of the mounting surface, and a wire fixing clip is arranged on the wire fixing seat. The wire that stretches out through the wire containing groove can be fixed in the fixed line seat through the fixed line clamp, and then be connected with other circuits etc. to improve the line stability of walking of installing support, reduce the emergence that the wire pine takes off the condition.
Optionally, the wire fixing seat comprises a support arm and a bent arm arranged at the top end of the support arm, the wire fixing clamp comprises a wire fixing hole and an opening hole, the wire fixing hole is arranged at the joint of the support arm and the bent arm, the opening hole is arranged in the bent arm, and the opening of the opening hole deviates from the wire fixing hole. A wire fixing seat and a specific form of a wire fixing clip.
Optionally, the side walls of the two sides of the wire accommodating groove are respectively a first side wall and a second side wall, the first side wall is provided with a first limiting claw extending towards the second side wall, and a gap exists between the first limiting claw and the second side wall; the second side wall is provided with a second limiting claw extending towards the first side wall, and a gap is formed between the second limiting claw and the first side wall; and the first limiting claws and the second limiting claws are alternately arranged at intervals along the length direction of the wire accommodating groove. The first limiting claw and the second limiting claw can play a role in separating, blocking and limiting wires contained in the wire containing groove so as to reduce the occurrence of the situation that the wires slide out of the wire containing groove.
Optionally, the sum of the length of the first limiting claw in the extending direction and the length of the second limiting claw in the extending direction is greater than the width of the wire accommodating groove. First spacing claw and the spacing claw of second can hold the wire casing width direction on the wire conductor in it carries out comprehensive spacing jointly to further improve the limiting displacement of spacing claw to the wire.
Optionally, the wire accommodating groove comprises an inner concave part and an outer convex part, wherein the inner concave part is located inside the base, the outer convex part comprises a first convex edge and a second convex edge, the first convex edge is consistent with the first side wall, the second convex edge is consistent with the second side wall, the second convex edge is protruded, the first limiting claw is arranged at one end of the inner concave part, and the second limiting claw is arranged at one end of the inner concave part, which is deviated from the second convex edge. The setting of outer convex part on the basis that need not thickening base thickness, can deepen the appearance wire casing, holds the accommodation space increase holding tank of wire casing through the increase and to the volume of holding of wire.
The utility model also provides a ceiling machine, including casing, drain pump, float and above-mentioned installing support, the installing support set firmly in the casing, the drain pump connect in the holding surface, the part pump body of drain pump hold in the storage tank, just the focus of drain pump is located holding surface place plane. When the installing support in this smallpox machine was fixed the drain pump, the assembly face of first support body was heightened in drain pump and the installing support to improve the stability that the drain pump was connected in first support body, and can effectively reduce the vibration range when the drain pump moves, the noise pollution that produces when corresponding reduction drain pump moves, the comfort level of indoor environment when improving smallpox machine moves.
Detailed Description
In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
The present embodiment provides a mounting bracket 10, as shown in fig. 2 and 3, which is applied to a ceiling fan, and includes a base 100, a first bracket body 200 is disposed on a mounting surface of the base 100, the first bracket body 200 is provided with a receiving groove 240, an end surface corresponding to a notch of the receiving groove 240 is a supporting surface 220, when a drain pump 20 of the ceiling fan is connected to the supporting surface 220, a part of a pump body of the drain pump 20 is received in the receiving groove 240, and a center of gravity of the drain pump 20 is located on a plane where the supporting surface 220 is located.
The present embodiment further provides a ceiling fan, as shown in fig. 1, which includes a cabinet, a drain pump 20, a float 30 and the mounting bracket 10, wherein the mounting bracket 10 is fixedly installed on the cabinet, the drain pump 20 is connected to the supporting surface 220, a part of the body of the drain pump 20 is accommodated in the accommodating groove 240, and the center of gravity of the drain pump 20 is located on the plane of the supporting surface 220.
The installing support 10 and the ceiling machine that this embodiment provided, during the installation, can be with the casing of installing support 10 rigid coupling in ceiling machine, then install drain pump 20 in the first support body 200 of installing support 10, when drain pump 20 is connected in the holding surface 220 of first support body 200, holding surface 220 is as the fitting surface between them, the partial pump body holding of drain pump 20 is in storage tank 240, and the focus height of drain pump is unanimous with the fitting surface height, the fitting surface of drain pump 20 and first support body 200 is pulled high, thereby improve the stability of drain pump 20 connection in first support body 200, and can effectively reduce the vibration range when drain pump 20 moves, the noise pollution that produces when corresponding reduction drain pump 20 moves, improve the comfort level of indoor environment when ceiling machine moves.
Optionally, in this embodiment, the mounting surface of the base 100 is provided with a second bracket body 300, and the second bracket body 300 is used for mounting the floater 30 of the ceiling machine. The float 30 is installed on the second support body 300 of the installation support 10, and then the float 30 can detect the liquid level of condensed water in the water pan of the ceiling fan, wherein the support is two independent supports compared with the support of the drainage pump 20 and the support of the float 30, the two supports need to be independently disassembled and assembled respectively during disassembly and assembly, and the disassembly and assembly operation is complicated, in the installation support 10, the base 100, the first support body 200 and the second support body 300 form a part, on one hand, when the installation support 10 is disassembled and assembled, only one connection or one disassembly needs to be carried out on the installation support 10, and the disassembly and assembly convenience is high; on the other hand, the mounting bracket 10, which is a single part, can simultaneously mount the drain pump 20 and the float 30, and has a simple structure, and is convenient to process, transport and store.
In this embodiment, as shown in fig. 1 and fig. 2, the first bracket body 200 may include two supporting platforms 210, the two supporting platforms 210 are oppositely disposed at two sides of the base 100, a receiving groove 240 for receiving a portion of the pump body of the drain pump 20 is formed between the two supporting platforms 210, and end surfaces of the two supporting platforms 210 are both used as supporting surfaces 220. Here, in a specific form of the first bracket body 200, correspondingly, the two opposite sides of the pump body of the drain pump 20 are provided with the connection lugs 21, when the first bracket body is installed, part of the pump body of the drain pump 20 is inserted into the containing groove 240 until the two connection lugs 21 are abutted against the supporting surfaces 220 of the two supporting platforms 210 one by one, and then the connection between the drain pump 20 and the first bracket body 200 is completed by connecting the corresponding connection lugs 21 and the supporting platforms 210 together by using the connecting pieces; on the one hand, the two supporting platforms 210 respectively support and limit the positions of the two sides of the draining pump 20, so that the firmness and stability of the draining pump 20 installed on the first support body 200 can be effectively ensured.
Optionally, in this embodiment, as shown in fig. 1 and fig. 2, at least one of the two supporting surfaces 220 is provided with a position-limiting post 230, and the position-limiting post 230 is used for being inserted into and matched with the position-limiting hole 22 on the connecting lug 21 of the drainage pump 20. When the drainage pump 20 is installed, part of the pump body of the drainage pump 20 can be inserted into the containing groove 240, then the limiting hole 22 on the engaging lug 21 is aligned with the limiting column 230, and the limiting column 230 is inserted into the limiting hole 22, so that the primary positioning of the engaging lug 21 and the support table 210 is completed, and then the engaging lug 21 and the support table are connected by using a connecting piece, so that the installation convenience of the drainage pump 20 is improved; preferably, the two support surfaces 220 are provided with a position-limiting pillar 230, and the two engaging lugs 21 of the drainage pump 20 are provided with position-limiting holes 22. Specifically, the connecting lug 21 and the supporting surface 220 may be provided with corresponding connecting holes, and the connecting member may be a screw or a bolt. Of course, in other embodiments, the support surface 220 may be provided with the limiting hole 22, and the engaging lug 21 may be provided with the limiting column 230.
In this embodiment, as shown in fig. 1 to 3, a wire accommodating groove 110 may be provided on a surface of the base 100 opposite to the installation surface, and the wire accommodating groove 110 is used for accommodating the wire 40 connected to the drain pump 20 and the float 30. The wires 40 of the drainage pump 20 and the floater 30 can be gathered into a wire harness at the wire accommodating groove 110 from different areas, and then are subsequently extended, and the wire accommodating groove 110 can play a role in gathering, accommodating and guiding the wires 40, so that the wiring neatness of the wires is improved, the occurrence of the situation that the wires 40 are hung and short-circuited can be reduced, and the running stability of the drainage pump 20 and the floater 30 is correspondingly improved.
Preferably, the line accommodating groove 110 can be a strip-shaped groove, and two ends of the line accommodating groove in the length direction are arranged in a penetrating manner, when in use, the wire 40 connected with the drainage pump 20 and the floater 30 can extend downwards into the line accommodating groove 110 through a first end port of the line accommodating groove 110, then extend along the length direction of the line accommodating groove 110, extend through a second end port of the line accommodating groove 110, and then be connected with other circuits or power supplies and the like, so that the wire 40 on one side of the mounting bracket, which deviates from the mounting surface, can be completely wired in the line accommodating groove 110, and the abrasion caused by the fact that the wire protrudes outwards from the surface of the mounting bracket and the interference caused by the installation of each part and the like are reduced. Preferably, the length direction of the wire accommodating groove is approximately perpendicular to the arrangement direction of the two support tables.
In this embodiment, as shown in fig. 2, a wire blocking pillar 400 may be disposed on the mounting surface, and the wire blocking pillar 400 corresponds to the first end of the wire accommodating groove 110. The wire blocking column 400 and the first end port of the wire accommodating groove 110 are located at two sides of the corresponding position of the base 100, as shown in fig. 1, the wire 40 connected to the drain pump 20 can extend into the wire accommodating groove 110 after bypassing the wire blocking column 400, so that the occurrence of the situation that the wire 40 is dragged or loosened from the wire accommodating groove 110 when the wire 40 slides on the edge of one side corresponding to the first end of the base 100 and the wire accommodating groove 110 is reduced, the stability of routing the wire 40 is improved, and the normal operation of the drain pump 20 is correspondingly ensured.
Similarly, in this embodiment, a limiting buckle 600 may be disposed on one side of the base 100 where the wire accommodating groove 110 is disposed, and the limiting buckle 600 is located between the second bracket body 300 and the wire accommodating groove 110. The limiting buckle 600 is used for limiting the wire 40 connected to the float 30, and the wire 40 connected to the float 30 can extend into the wire accommodating groove 110 after the limiting effect of the limiting buckle 600, so that the occurrence of loosening caused by the fact that the wire 40 slides on the side edge of the wire accommodating groove 110 is reduced, the stability of wiring of the wire 40 is improved, and the normal operation of the float 30 is correspondingly ensured. Specifically, the limiting clip 600 may have a "bar" shape, in which a vertical arm of the limiting clip 600 is connected to the base 100, an opening is formed between a horizontal arm and the base 100, the wire 40 may extend into the wire receiving groove 110 after passing around the vertical arm from the opening, and the horizontal arm may block the wire 40 from slipping off from an end of the vertical arm.
In this embodiment, as shown in fig. 2, a wire fixing seat 500 may be disposed at a position corresponding to the second end of the wire accommodating groove 110 on the mounting surface, and the wire fixing seat 500 is provided with a wire fixing clip 530. The wires 40 connected to the drain pump 20 and the float 30 can extend to the wire fixing clip 530 after extending through the second end port of the wire accommodating groove 110, and are fixed to the wire fixing base 500 through the wire fixing clip 530, and then are connected to other lines, etc., so as to improve the wiring stability of the mounting bracket 10 and reduce the occurrence of the loose of the wires 40.
Specifically, in this embodiment, as shown in fig. 2, the wire fixing base 500 may include a support arm 510 and a bent arm 520 disposed at a top end of the support arm 510, the wire fixing clip 530 includes a wire fixing hole 531 and an opening hole 532, the wire fixing hole 531 is disposed at a connection position of the support arm 510 and the bent arm 520, the opening hole 532 is disposed in the bent arm 520, and an opening of the opening hole 532 deviates from the wire fixing hole 531. Here, as shown in fig. 3, specifically, the wire fixing holes 531 may be two, and the two wire fixing holes 531 are arranged at intervals, the wire 40 connected to the drain pump 20 and the float 30 forms a wire harness in the wire accommodating slot 110, the wire harness may extend along the support arm 510 after extending through the second end port of the wire accommodating slot 110 and may be clamped into the opening hole 532 through an opening of the opening hole 532, and then a wire may be tied through the two wire fixing holes 531 and tie the wire harness in a corresponding area to the wire fixing seat 500, so as to fix the wire harness by the wire fixing seat 500.
Optionally, in this embodiment, as shown in fig. 3, the two side walls of the wire accommodating groove 110 are a first side wall and a second side wall respectively, the first side wall is provided with a first limiting claw 113 extending toward the second side wall, and a gap exists between the first limiting claw 113 and the second side wall; the second side wall is provided with a second limiting claw 114 extending towards the first side wall, and a gap is formed between the second limiting claw 114 and the first side wall; along the length direction of the wire accommodating groove 110, the first limiting claws 113 and the second limiting claws 114 are alternately arranged at intervals. During installation, the lead 40 can be installed into the wire accommodating groove 110 from the gap between the first limiting claw 113 and the second side wall and the gap between the second limiting claw 114 and the first side wall, and the first limiting claw 113 and the second limiting claw 114 can play a role in blocking and limiting the lead 40 accommodated in the wire accommodating groove 110 so as to reduce the occurrence of the situation that the lead 40 slides out of the wire accommodating groove 110; the first limiting claws 113 and the second limiting claws 114 are alternately arranged at intervals along the length direction of the wire accommodating groove 110, and the first limiting claws 113 and the second limiting claws 114 can limit different positions of the wire 40 in the accommodating groove at two side positions, so that the limiting effectiveness of the limiting claws on the wire 40 is improved. Specifically, the number of the first limiting claws 113 and the second limiting claws 114 may be set according to the length of the wire accommodating groove 110, and is not limited herein.
Specifically, in this embodiment, the sum of the length of the first position-limiting claw 113 in the extending direction thereof and the length of the second position-limiting claw 114 in the extending direction thereof is greater than the groove width of the wire accommodating groove 110. A gap exists between the first limiting claw 113 and the second side wall, and a gap exists between the second limiting claw 114 and the first side wall, so that the lead 40 can be loaded into the wire accommodating groove 110 from the gap; the sum of the extension length of the first limiting claw 113 and the extension length of the second limiting claw 114 is greater than the groove width of the wire accommodating groove 110, and then the projections of the first limiting claw 113 and the second limiting claw 114 in the width direction of the wire accommodating groove 110 have an overlapping region, and correspondingly, the first limiting claw 113 and the second limiting claw 114 can jointly limit the wire 40 therein in the width direction of the wire accommodating groove 110, so that the limiting effect of the limiting claws on the wire 40 is further improved.
Optionally, in this embodiment, the end of the first limiting claw 113 facing the second side wall may be provided with a guiding inclined plane, and when the wire 40 enters the wire accommodating groove 110 through a gap between the first limiting claw 113 and the second side wall, the guiding inclined plane can guide the entering of the wire 40, so as to improve the smoothness of guiding the wire to be installed in the wire accommodating groove 110. Similarly, a guide slope may be provided at the end of the second restricting claw 114 facing the first side wall.
In this embodiment, as shown in fig. 2 and fig. 3, the wire accommodating groove 110 may include an inner concave portion 111 located inside the base 100 and an outer convex portion 112 protruding out of the base 100, the outer convex portion 112 includes a first convex edge 112a consistent with the first side wall and protruding out of the base 100 and a second convex edge 112b consistent with the second side wall and protruding out of the base 100, the first position-limiting claw 113 is disposed at an end of the first convex edge 112a departing from the inner concave portion 111, and the second position-limiting claw 114 is disposed at an end of the second convex edge 112b departing from the inner concave portion 111. Here, it is a specific form of the wire accommodating groove 110, wherein the arrangement of the external convex part 112 can deepen the wire accommodating groove 110 without thickening the thickness of the base 100, and increase the accommodating amount of the accommodating groove to the wire 40 by increasing the accommodating space of the wire accommodating groove 110; in addition, the first limiting claw 113 and the second limiting claw 114 are positioned at the notch of the wire accommodating groove 110, so that an effective accommodating space of the wire accommodating groove 110 for the wire 40 can be ensured. Specifically, when the outward protruding portion 112 is provided, the second convex edge 112b is located between the first convex edge 112a and the limiting buckle 600, a notch 112c can be formed on the second convex edge 112b, the wire 40 passing through the limiting buckle 600 can extend into the wire accommodating groove 110 through the notch 112c, and the notch 112c can perform secondary limiting on the wire 40, so that the routing stability of the wire 40 is further improved. Specifically, the line accommodating groove 110 may be a through groove body with a width of 10mm and a depth of 8 mm.
In this embodiment, the mounting bracket 10 may be made of abs (acrylonitrile Butadiene styrene) plastic, so as to reduce the vibration transmitted to the cabinet by the operation of the drain pump 20, and accordingly reduce the noise pollution caused by the operation of the drain pump 20; preferably, the base 100, the first bracket body 200, the second bracket body 300, the wire fixing seat 500 and other structures related to the mounting bracket 10 can be integrally formed, so that not only can the connection firmness between the structures be enhanced, but also the processing convenience of the mounting bracket 10 and the position precision between the structures are higher. In addition, reinforcing ribs 700 can be arranged between two adjacent structures and at the bent positions of the structures, so that the strength of the connection and bending positions of the two structures is improved, and the stress deformation and even the breakage of the mounting bracket 10 are reduced.
Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.