SUMMERY OF THE UTILITY MODEL
The utility model provides a problem how make the fixing device installation of ring temperature sensor more convenient, the commonality is stronger.
In order to solve the problem, the utility model provides a fixing device, including placing a and mounting, place the piece with the connection can be dismantled to the mounting, it is suitable for retaining ring temperature sensor to place the piece, works as place the piece with when the mounting is connected, place the piece with form width adjustable double-layered structure between the mounting, the condenser be suitable for the centre gripping in double-layered structure department.
Like this, through placing the clamping channel structure centre gripping that connects formation between piece and the mounting on the condenser for fixing device installs more conveniently, simultaneously, places a and the mounting can dismantle the connection, and the width of clamping channel structure is adjustable, can adapt to the condenser of different specifications, and the commonality is stronger.
Optionally, a first connecting structure is arranged on the placing piece, a second connecting structure is arranged on the fixing piece, and the placing piece is connected with the fixing piece through the first connecting structure and the second connecting structure.
Like this, place and be equipped with first connection structure on the piece, be equipped with second connection structure on the mounting, first connection structure is connected with second connection structure, from this, it is more convenient to place a and connect with the mounting.
Optionally, the first connection structure is a slot structure, and the second connection structure is a plug connector; or the first connecting structure is a plug connector, the second connecting structure is a slot structure, and the plug connector is detachably connected with the slot structure.
Like this, the plug connector is connected convenient operation with slot structure dismantlement formula, from this, it is more convenient to place a and the mounting is connected.
Optionally, the locking device further comprises an anti-falling component, wherein the anti-falling component is arranged between the plug connector and the slot structure, and the anti-falling component is suitable for limiting the position of the plug connector in the slot structure.
Like this, set up the anticreep subassembly between plug connector and slot structure, can restrict the position of plug connector in slot structure, from this, the plug connector is more firm with being connected of slot structure for it is more firm to place a and be connected with the mounting.
Optionally, the anti-separation assembly comprises a first anti-separation assembly, the first anti-separation assembly comprises a limiting block and a sawtooth structure, and the limiting block is arranged in the slot structure; the sawtooth structure is arranged on the plug connector; and when the plug connector is inserted into the slot structure, the limiting block abuts against the sawtooth structure.
Like this, after the plug connector inserts slot structure, support with the sawtooth structure through the stopper and hold, the restriction plug connector removes along deviating from the grafting direction in slot structure, and simultaneously, can be according to the condenser width of different specifications, the depth of insertion of adjustment plug connector, thereby the width of adjustment double-layered structure, therefore, the plug connector is difficult for breaking away from slot structure, make plug connector and slot structure's being connected more firm, it is more firm to place the piece and be connected with the mounting, and simultaneously, can adjust the width of double-layered structure, adapt to the condenser width of different specifications, the commonality is stronger.
Optionally, the anticreep subassembly still includes second anticreep subassembly, second anticreep subassembly includes baffle and boss structure, the baffle sets up slot structure's lateral wall, boss structure sets up on the plug connector, and be located one side of sawtooth structure, the baffle with leave the gap between the stopper and form access structure, access structure is suitable for the confession boss structure removes along the grafting direction.
Like this, after the plug connector inserts slot structure, a side and the baffle contact of boss structure, another side and the locating part contact that boss structure is relative, boss structure can only be along grafting direction longitudinal movement in the access structure, from this, can restrict the lateral shifting of plug connector in slot structure for the plug connector is more firm with being connected of slot structure, and it is more firm to place a and be connected with the mounting.
Optionally, the placing part comprises a fixing structure and a main structure, the main structure is provided with the first connecting structure, the fixing structure is connected with the main structure, and the fixing structure is suitable for fixing the ring temperature sensor.
Therefore, the ring temperature sensor is fixed through the fixing structure, and therefore the ring temperature sensor is more convenient and firm to fix.
Optionally, the fixing structure includes side plates, and the two side plates are disposed on the main body structure at intervals to form, together with the main body structure, an accommodating structure suitable for accommodating the ambient temperature sensor.
Like this, the ring temperature sensor is placed in holding structure, and from this, it is more convenient, firm that the ring temperature sensor is fixed.
Optionally, a protruding structure is further disposed on the side plate, and the protruding structure extends towards the inside of the accommodating structure.
Like this, protruding structure extends towards the inside of holding structure, and protruding structure and ring temperature sensor contact can restrict the displacement of ring temperature sensor and drop.
Optionally, the fixing structure further includes two limiting members, and the two limiting members are respectively disposed on the main structure and adapted to be located at two sides of the ambient temperature sensor.
Therefore, the two limiting parts are respectively fixed on the placing part and positioned on two sides of the ring temperature sensor, and the ring temperature sensor can be limited from shifting and falling off.
Another object of the present invention is to provide an air conditioner, which is more convenient for the fixing device of the environmental temperature sensor to be installed and has stronger universality.
In order to solve the above problem, the technical scheme of the utility model is realized like this:
an air conditioner comprising a fixing device as claimed in any one of the preceding claims.
The air conditioner has the same advantages of the fixing device in the prior art, and the details are not repeated.
Optionally, the condenser further comprises a cold detector and an annular temperature sensor, wherein the annular temperature sensor is placed on the placing piece of the fixing device, and the condenser is clamped at the channel structure of the fixing device.
Therefore, the ring temperature sensor is placed in the fixing structure of the fixing device, the fixing is more convenient and firm, the clamping channel structure of the fixing device is clamped on the cold suspector, the installation is more convenient, the width of the clamping channel structure is adjustable, the ring temperature sensor can adapt to condensers of different specifications, and the universality is stronger.
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.
In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "left", "right", "front", "rear", etc. are based on the directions or positional relationships shown in the drawings, and a coordinate system XYZ is provided herein, in which the forward direction of the X axis represents the right direction, the reverse direction of the X axis represents the left direction, the forward direction of the Y axis represents the front direction, the reverse direction of the Y axis represents the rear direction, the forward direction of the Z axis represents the upper direction, and the reverse direction of the Z axis represents the lower direction; this is merely for convenience in describing the invention and to simplify the description, and is not intended to indicate or imply that the device referred to must have a particular orientation, be constructed and operated in a particular orientation, and is therefore not to be considered limiting of the invention.
As shown in fig. 1 to 6, an embodiment of the present invention provides a fixing device, which includes a placing member 1 and a fixing member 2, wherein the placing member 1 and the fixing member 2 are detachably connected, the placing member 1 is suitable for fixing a ring temperature sensor 200, when the placing member 1 is connected with the fixing member 2, a width-adjustable channel structure 3 is formed between the placing member 1 and the fixing member 2, and a condenser 100 is suitable for being clamped at the channel structure 3.
As shown in fig. 1 to 6, the placing member 1 and the fixing member 2 respectively abut against two opposite left and right sides of the suspector 100, the placing member 1 and the fixing member 2 may be plate-shaped, column-shaped or in other shapes, the placing member 1 and the fixing member 2 may be connected by a buckle, a bolt or the like to form a width-adjustable clipping structure 3, specifically, in this embodiment, on a vertical plane perpendicular to the left and right sides of the condenser 100, the placing member 1 has an L-shaped cross-section, the fixing member 2 has a T-shaped cross-section, a long side of the L-shaped placing member 1 abuts against one side of the condenser 100, a short side of the L-shaped placing member 2 abuts against an upper end surface of the condenser 100, a short side of the T-shaped fixing member 2 abuts against the other opposite side of the condenser 100, and a long side of the T-shaped fixing member 2 is detachably connected with the; the long limit of T shape mounting 2 and the L shape are placed the minor face of piece 1 and are connected the back, the L shape is placed the long limit of piece 1, the L shape is placed the minor face of piece 1 and a minor face of T shape mounting 2 and is formed the double-layered structure 3 of an inverted U-shaped, the width that double-layered structure 3 can be adjusted through adjusting the coincidence length of the long limit of T shape mounting 2 and the L shape short face junction of placing piece 1, double-layered structure 3 can the centre gripping on condenser 100, the L shape is placed the long limit of piece 1 one side of being suitable for fixed ring temperature sensor 200 dorsad condenser 100.
Like this, through placing 3 centre grippings of the double-layered structure that connect formation between 1 and the mounting 2 on condenser 100 for fixing device installs more conveniently, simultaneously, places 1 and the connection can be dismantled to mounting 2, and double-layered structure 3's width is adjustable, can adapt to the condenser 100 of different specifications, and the commonality is stronger.
Optionally, a first connecting structure 4 is disposed on the placement member 1, a second connecting structure 5 is disposed on the fixing member 2, and the placement member 1 is connected to the fixing member 2 through the first connecting structure 4 and the second connecting structure 5.
As shown in fig. 4 to 6, the placing member 1 and the fixing member 2 may be connected by using accessories such as bolts, buckles or clamps, or may be connected by arranging connecting members on the placing member 1 and the fixing member 2, preferably, in this embodiment, the placing member 1 is provided with the first connecting structure 4, the fixing member 2 is provided with the second connecting structure 5, the placing member 1 is connected with the fixing member 2 by the first connecting structure 4 and the second connecting structure 5, and the first connecting structure 4 and the second connecting structure 5 are arranged on the placing member 1 and the fixing member 2, so that the use of accessories may be reduced, and the connection is more convenient.
Like this, place and be equipped with first connection structure 4 on 1, be equipped with second connection structure 5 on the mounting 2, first connection structure 4 is connected with second connection structure 5, from this, places 1 and mounting 2 and connects more conveniently.
Optionally, the first connection structure 4 is a slot structure, and the second connection structure 5 is a plug connector; or the first connecting structure 4 is a plug connector, the second connecting structure 5 is a slot structure, and the plug connector is detachably connected with the slot structure.
As shown in fig. 4 to 10, the first connection structure 4 may be a hole structure with internal threads, a slot structure or other types of connectors, and the second connection structure 5 may be a screw rod with external threads, a plug connector or other types of connectors, specifically, in this embodiment, the first connection structure 4 is a slot structure, and the second connection structure 5 is a plug connector; or the first connecting structure 4 is a plug connector, the second connecting structure 5 is a slot structure, and the plug connector is detachably connected with the slot structure.
Like this, the plug connector is connected convenient operation with slot structure dismantlement formula, and from this, it is more convenient to place a 1 and be connected with mounting 2.
Optionally, the fixing device further includes an anti-separation component 6, the anti-separation component 6 is disposed between the plug and the slot structure, and the anti-separation component 6 is adapted to limit the position of the plug in the slot structure.
As shown in fig. 7 to 10, the plug connector and the slot structure may have a rough contact surface, after the plug connector is inserted into the slot structure, the plug connector is prevented from being separated from the slot structure by the friction force of the rough contact surface, and an anti-separation assembly 6 may also be disposed between the plug connector and the slot structure.
Like this, set up anticreep subassembly 6 between plug connector and slot structure, can restrict the position of plug connector in slot structure, from this, the plug connector is more firm with being connected of slot structure for it is more firm to place a 1 and be connected with mounting 2.
Optionally, the anti-separation assembly 6 includes a first anti-separation assembly 61, the first anti-separation assembly 61 includes a limiting block 611 and a sawtooth structure 612, the limiting block 611 is disposed in the slot structure; the sawtooth structure 612 is arranged on the plug connector; when the plug is inserted into the slot structure, the stop block 611 abuts against the sawtooth structure 612.
As shown in fig. 7, 10, 12 and 13, the first anti-separation assembly 61 includes a limiting block 611 and a sawtooth structure 612, and after the plug connector is inserted into the slot structure, the limiting block 611 abuts against the sawtooth structure 612; the shape of the limiting block 611 may be square, circular, triangular or various combinations thereof, the limiting block 611 may be disposed in the slot structure, or disposed on the plug connector, or disposed one or disposed multiple, and accordingly, the sawtooth structure 612 may be disposed on the plug connector, or disposed in the slot structure, or disposed multiple, and the slot structure may be simultaneously provided with the limiting block 611 and the sawtooth structure 612, or correspondingly, the plug connector may be simultaneously provided with the sawtooth structure 612 and the limiting block 611 matching therewith, the limiting block 611 may be disposed at the front, middle or rear portion, the teeth of the sawtooth structure 612 may be disposed downward or upward, preferably, in this embodiment, a downward triangular limiting block 611 is disposed at the notch of the slot structure, and the upper end surface of the plug connector is provided with a row of continuous sawtooth structures 612 with upward teeth, stopper 611 sets up the notch at slot structure, the width of regulation double-layered structure 3 that can be at utmost, triangle-shaped stopper 611 makes things convenient for the plug connector to insert slot structure towards the one side of slot structure's notch, triangle-shaped stopper 611 supports with the pick of sawtooth structure 612 to hold dorsad slot structure's notch, can restrict the plug connector and remove along deviating from the grafting direction in slot structure, sawtooth structure 612 sets up the up end at the plug connector and the pick up, make the lower terminal surface of plug connector more level and more smooth, it is inseparabler with slot structure's contact, make double-layered structure 3 more stable, it is more firm to centre gripping condenser 100.
Like this, after the plug connector inserts slot structure, support with sawtooth structure 612 through stopper 611 and hold, the restriction plug connector removes along deviating from the grafting direction in slot structure, and simultaneously, can be according to the width of the condenser 100 of different specifications, the depth of insertion of adjustment plug connector, thereby adjust the width of clip structure 3, therefore, the plug connector is difficult for breaking away from slot structure, make the plug connector more firm with slot structure's being connected, it is more firm to place 1 and be connected with mounting 2, and simultaneously, can adjust the width of clip structure 3, adapt to the width of the condenser 100 of different specifications, the commonality is stronger.
Optionally, the anti-separation assembly 6 further includes a second anti-separation assembly 62, the second anti-separation assembly 62 includes a baffle 621 and a boss structure 622, the baffle 621 is disposed on the side wall of the slot structure, the boss structure 622 is disposed on the plug connector and located on one side of the sawtooth structure 612, a gap is left between the baffle 621 and the limiting block 611 to form a channel structure 7, and the channel structure 7 is suitable for the boss structure 622 to move along the plugging direction.
As shown in fig. 7, 10, 12 and 13, the second anti-separation assembly 62 includes a baffle 621 and a boss structure 622, the baffle 621 is disposed on a side wall of the slot structure, the baffle 621 may be connected only to an upper end surface or a lower end surface of the slot structure, or connected to both the upper end surface and the lower end surface of the slot structure, the baffle 621 may be disposed with a small segment only at a notch of the slot structure or at any position, or may be fully distributed on an entire side surface of the slot structure, the boss structure 622 is disposed on one side of the sawtooth structure 612 on the plug connector, similarly, the boss structure 622 may be disposed with a small segment only at one end or any position of the plug connector facing the slot structure, or may be fully distributed on the entire side surface of the plug connector, preferably, in this embodiment, the baffle 621 connects both the upper end surface and the lower end surface of the slot structure, and fully distributes the entire side surface of the slot structure, and at the same time, a gap is left between, boss structure 622 sets up the one side of sawtooth structure 612 on the plug connector and is covered with the whole side of plug connector, boss structure 622's up end exceeds sawtooth of sawtooth structure 612, boss structure 622's a side and baffle 621 contact, boss structure 622 another relative side and the side contact of stopper 611, boss structure 622 can move along the grafting direction in access structure 7, baffle 621 and boss structure 622 are covered with the side of grafting structure and plug connector respectively, make and can both restrict the lateral shifting of plug connector in slot structure when any grafting degree of depth.
Like this, after the plug connector inserted the slot structure, a side of boss structure 622 contacted with baffle 621, another side that boss structure 622 is relative contacted with stopper 611, boss structure 622 can only be along grafting direction longitudinal movement in channel structure 7, from this, can restrict the lateral shifting of plug connector in the slot structure for the plug connector is more firm with being connected of slot structure, and it is more firm to place 1 and be connected with mounting 2.
As shown in fig. 2 and 13, the longitudinal movement in the plugging direction refers to a forward or reverse movement along the X axis, and the lateral movement refers to a forward or reverse movement along the Y axis.
Optionally, the one end of the plug connector towards the slot structure is provided with a slope structure 8, and the slope structure 8 is arranged along the plugging direction of the plug connector in an inclined manner.
As shown in fig. 9 and 10, the end of the plug element facing the slot structure is further provided with a slope structure 8 disposed obliquely along the plugging direction, and the slope structure 8 may be disposed on the upper end surface, the lower end surface, or both side surfaces of the plug element, specifically, in this embodiment, the upper end surface and both side surfaces of the plug element are respectively provided with the slope structure 8.
Like this, the plug connector sets up inclined plane structure 8 towards the one end of slot structure, and inclined plane structure 8 makes the plug connector reduce towards the one end size of slot structure, from this, makes things convenient for the plug connector to insert in the slot structure.
Optionally, the end of the plug towards the socket structure is provided with a fillet structure 9.
As shown in fig. 9 and 10, the end of the plug member facing the slot structure is rounded along the upper end surface to the lower end surface to form a rounded corner structure 9.
Thus, the edge of the fillet structure 9 is smoother, the friction force is smaller, and therefore the plug connector can be conveniently inserted into the slot structure.
Optionally, the placement member 1 includes a fixing structure 10 and a main structure 11, the main structure 11 is provided with a first connecting structure 4, the fixing structure 10 is connected with the main structure 11, and the fixing structure 10 is adapted to fix the ring temperature sensor 200.
As shown in fig. 2, 3, 4, 5, 6 and 8, the placing member 1 includes a fixing structure 10 and a main structure 11, the main structure 11 is plate-shaped, a first connecting structure 4 is disposed at an upper end of the main structure 11, the first connecting structure 4 and the main structure 11 are integrally formed, one side surface of the main structure 11 and the fixing member 2 form a channel structure 3, which is attached to a side surface of the condenser 100, and the other opposite side surface of the main structure 11 is connected to the fixing structure 10. The ring temperature sensor 200 can be fixed on the placing member 1 by using an adhesive tape or an adhesive, or can be fixed on the placing member 1 by the fixing structure 10, preferably, in this embodiment, the placing member 1 is further provided with the fixing structure 10 for fixing the ring temperature sensor 200, and the fixing structure 10 is arranged on the main body structure 11 and is integrally formed with the main body structure 11.
In this way, the ring temperature sensor 200 is fixed by the fixing structure 10, and thus, the fixing of the ring temperature sensor 200 is more convenient and firm.
Optionally, the fixing structure 10 includes side plates 101, and two side plates 101 are disposed on the main body structure 11 at intervals to form a receiving structure suitable for placing the ambient temperature sensor 200 together with the main body structure 11.
As shown in fig. 4 to 8, the two side ends of the main structure 11 are respectively connected to the first side plate and the second side plate, the first side plate and the second side plate are arranged in parallel, the first side plate and the second side plate surround the main structure 11 together to form an accommodating structure for accommodating the ring temperature sensor 200, the first side plate, the second side plate and the main structure 11 can be connected through screws, super glue or fasteners, in this embodiment, the first side plate, the second side plate and the main structure 11 are integrally formed, so that the mold and the process can be reduced through the integral forming, and cost saving is facilitated.
In this way, the annular temperature sensor 200 is placed in the receiving structure, whereby the annular temperature sensor 200 is more conveniently and firmly fixed.
Optionally, the side panels 101 and/or the main body structure 11 forming the receiving structure are provided with ventilation holes 102.
As shown in fig. 4 to 8, the shape of the air hole 102 may be a rectangle, a circle, a triangle, a polygon or various shapes combined therewith, the air hole 102 may be disposed on the two side plates 101 and/or the main structure 11, specifically, in this embodiment, the two side plates 101 and the main structure 11 are both provided with the air hole 102, the air hole 102 on the two side plates 101 is the rectangle air hole 102, the air hole 102 on the main structure 11 is the circular air hole 102, and the air holes 102 on the first side plate and the second side plate are disposed in a staggered manner, which is beneficial to more uniform air flow at each position of the annular temperature sensor 200, so that the detection data is more accurate.
Thus, the air holes 102 facilitate air flow, facilitating the detection of the air temperature by the ambient temperature sensor 200.
Optionally, a protruding structure 103 is further disposed on the side plate 101, and the protruding structure 103 extends toward the inside of the accommodating structure.
As shown in fig. 3 and 8, the lower end of the first side plate is provided with a protruding structure 103 towards the second side plate, the upper end and the middle of the second side plate are also provided with a protruding structure 103 towards the first side plate, in this embodiment, the lower end of the first side plate is turned over towards the second side plate to form a protruding structure 103 and contact with the lower end of the ring temperature sensor 200, so as to limit the ring temperature sensor 200, so as to prevent the ring temperature sensor 200 from falling off from the accommodating structure, the upper end of the second side plate is turned over towards the first side plate to form a protruding structure 103 and contact with the side end of the ring temperature sensor 200, so as to limit the ring temperature sensor 200, so as to prevent the ring temperature sensor 200 from moving sideways.
In this way, the protrusion 103 extends toward the inside of the receiving structure, and the protrusion 103 contacts the annular temperature sensor 200, so that the displacement and falling off of the annular temperature sensor 200 can be limited.
Optionally, the fixing structure 10 further includes two limiting members 104, and the two limiting members 104 are respectively disposed on the main body structure 11 and are adapted to be located at two sides of the ambient temperature sensor 200.
As shown in fig. 4, 5, 6, 8 and 13, the two side ends of the main body structure 11 are located above the first side plate and the second side plate, and a limiting member 104 is further respectively disposed above the first side plate and the second side plate, the two limiting members 104 are respectively contacted with the side end of the ring temperature sensor 200 for limiting the ring temperature sensor 200 to move laterally, the limiting members 104 may be plate-shaped or column-shaped, specifically, in this embodiment, a plate-shaped limiting member 104 is adopted, a protrusion with elasticity is disposed on one side of the limiting member 104 facing the ring temperature sensor 200, the protrusions on the two limiting members 104 are disposed oppositely, and a gap for extruding the ring temperature sensor 200 into the two limiting members 104 is left between the two protrusions with elasticity.
Thus, the two limiting members 104 are respectively fixed on the placing member 1 and located at two sides of the ring temperature sensor 200, so as to limit the ring temperature sensor 200 from shifting and falling off.
Another embodiment of the present invention provides an air conditioner, comprising any one of the above-mentioned fixing devices.
Optionally, the air conditioner further comprises a condenser 100 and an annular temperature sensor 200, wherein the annular temperature sensor 200 is placed on the placing piece 1 of the fixing device, and the condenser 100 is clamped at the channel structure 3 of the fixing device.
As shown in fig. 1 to 3, in this embodiment, the condenser 100 is square, two opposite side surfaces thereof are parallel to each other, an upper end surface thereof is perpendicular to the two side surfaces, the channel structure 3 of the fixing device is clamped by the upper end surface thereof downward on the two opposite side surfaces of the condenser 100, the ring temperature sensor 200 is linear, one end thereof is placed in the fixing structure 10 of the placing member 1, and the other end thereof extends out of the fixing structure 10 and is connected with other components.
Thus, the ring temperature sensor 200 is placed in the fixing structure 10 of the placing piece 1, the fixing is more convenient and firm, the clamping channel structure 3 of the fixing device is clamped on the condenser 100, the installation is more convenient, the width of the clamping channel structure 3 is adjustable, the ring temperature sensor can adapt to condensers 100 of different specifications, and the universality is higher.
Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.