CN220958581U - Oil cup mounting structure of range hood and range hood - Google Patents

Abstract

The utility model relates to an oil cup mounting structure of a range hood and the range hood, wherein the oil cup mounting structure comprises: an oil cup; a slot into which the connecting part of the oil supply cup is movably inserted back and forth; a locking mechanism including a connecting rod movable between a first locking position and a second locking position which are spaced apart from each other in a front-rear direction; the rocker is rotationally connected to the fixing frame; the elastic piece acts on the rocker and enables the rocker to always have forward deflection trend; the second end of the rocker is clamped with the connecting part of the oil cup through the positioning convex column and the positioning clamping groove; when the connecting rod moves to the first locking position, the positioning convex column and the positioning clamping groove between the second end of the rocker and the connecting part of the oil cup can be separated; and when the first end of the connecting rod moves to the second locking position, the positioning convex column and the positioning clamping groove between the second end of the rocker and the connecting part of the oil cup are clamped together so as to limit the oil cup from being pulled out forwards. The advantages are that: the locking and unlocking actions are convenient and easy to operate.

Description

Oil cup mounting structure of range hood and range hood

Technical Field

The utility model relates to the technical field of range hoods, in particular to an oil cup mounting structure of a range hood and the range hood.

Background

A range hood is a kitchen appliance that purifies the kitchen environment. Most of grease can be separated in the process of exhausting the fume flow of the fume extractor, so that an oil cup is often arranged at the bottom of a fume collecting hood of the fume extractor, and the separated grease is collected and is disposed when a certain amount of grease is reached.

The existing oil cup mounting modes are mostly plug-in mounting type, and are specifically disclosed in patent number ZL202121945764.X, namely an oil cup mounting structure of a range hood (issued publication number CN 216079965U) and patent number ZL201921681254.9, namely an oil cup mounting structure of a range hood (issued publication number CN 211119562U). When the oil cup is full of oil, the oil cup needs to be detached, after the oil in the oil cup is poured out, the oil cup is assembled to the range hood again, in the assembling process, a user moves the oil cup backwards, so that the plug-in structure on the oil cup is plugged with the structure to be plugged on the range hood, and the following problems exist in the process:

however, the oil cup mounting structure in the prior art has a certain defect, firstly, in order to ensure the firmness of the oil cup mounting, the conventional oil cup hook is usually provided with a self-locking structure, but the oil cup is forced to be taken out by means of external force when taken out, and oil stains are easy to spill. Secondly, the oil cup couple is located the range hood bottom generally, and the field of vision is unclear, leads to the installation inconvenient, and especially, the user appears easily that the installation is not put in place or installs in place and does not have obvious suggestion when installing the oil cup for the user can't know clearly whether the oil cup has been installed in place.

Therefore, the oil cup mounting structure of the existing range hood needs to be further improved.

Disclosure of utility model

The utility model aims to solve the first technical problem of providing an oil cup mounting structure of a range hood, which is convenient to lock and unlock and easy to operate, aiming at the current state of the art.

The second technical problem to be solved by the utility model is to provide the oil cup mounting structure of the range hood, which can facilitate a user to perceive that the oil cup is mounted in place, aiming at the current state of the art.

The third technical problem to be solved by the utility model is to provide the range hood with the oil cup mounting structure of the range hood aiming at the current state of the art.

The utility model solves any one of the first technical problem and the second technical problem by adopting the technical proposal that:

an oil cup mounting structure of a range hood, comprising:

An oil cup, on which a connecting part is arranged;

The mounting structure is arranged on the machine body of the range hood and comprises a slot which extends forwards and backwards and is used for the connecting part on the oil cup to be movably inserted into the slot forwards and backwards;

The mounting structure further includes:

The fixing frame is arranged on the machine body of the range hood;

The locking mechanism is arranged on the fixing frame and comprises a connecting rod which can move between a first locking position and a second locking position which are separated by a certain distance in the front-back direction;

The first end of the rocker is rotationally connected to the fixing frame by taking a first shaft extending from left to right as a rotating shaft, and the rocker is rotationally connected with the connecting rod, so that the connecting rod is driven to circularly move between the first locking position and the second locking position in the front-back deflection process of the rocker;

The elastic piece acts on the rocker and enables the rocker to always have forward deflection trend;

The second end of the rocker is clamped with the connecting part of the oil cup through a positioning convex column which can be mutually clamped with a positioning clamping groove;

When the connecting rod moves to the first locking position, the positioning convex column and the positioning clamping groove between the second end of the rocker and the connecting part of the oil cup can be separated;

and when the first end of the connecting rod moves to the second locking position, the positioning convex column and the positioning clamping groove between the second end of the rocker and the connecting part of the oil cup are clamped together to limit the oil cup from being pulled out forwards.

In order to realize the positioning of the connecting rod at the front position and the rear position, the locking mechanism is arranged on the fixing frame and further comprises a locking seat with an annular track groove which is circularly communicated in the front-rear direction, the first end of the connecting rod serves as a locking part to slidingly restrain the track groove, the second end of the connecting rod is rotationally connected with the rocker, the front part and the rear part of the track groove are respectively provided with a first stopping part and a second stopping part which are used for limiting the first end of the connecting rod to move forwards, when the first end of the connecting rod moves to the position where the first stopping part is located, the first locking position is located, and when the first end of the connecting rod moves to the position where the second stopping part is located, the second locking position is located.

As an improvement, the track groove comprises a first guide section, a second guide section and a third guide section, wherein the first guide section, the second guide section and the third guide section are sequentially combined, and a first stopping step, a second stopping step and a third stopping step are sequentially formed at any joint position of the first guide section, the second guide section and the third guide section, so that a guide groove structure for the locking part to move along the track groove in a unidirectional circulation manner is formed;

the track groove is characterized in that the front side wall of the position where the first guide section is connected with the third guide section is recessed forwards to form the first stopping part, the second guide section is positioned at the rear part of the track groove, a part of the front side wall of the second guide section is recessed forwards to form a concave part, and the concave part forms the second stopping part.

In order to realize unidirectional circulation movement of the second end of the connecting rod in the track groove, the first guide section extends from front to back and is provided with a head end positioned at the front part and a tail end positioned at the rear part, the third guide section extends from back to front and is provided with a head end positioned at the rear part and a tail end positioned at the front part, the head end of the second guide section is connected with the tail end of the first guide section, the tail edge of the second guide section is connected with the head end of the third guide section, the middle part of the second guide section is arranged relatively back relative to the head end and the tail end of the second guide section, and the second stop part is formed at the middle part of the second guide section.

The elastic piece can adopt various prior art and can comprise various elastic elements such as a pressure spring, a torsion spring, a reed and the like, but in order to better match the rocking rod capable of deflecting back and forth, the elastic piece is a torsion spring which is sleeved on the first shaft, and two end parts of the torsion spring are respectively propped against the fixing frame and the rocking rod.

In order to realize the rotation connection of the rocker and the connecting rod, the problem of interference is avoided, the rocker is provided with a support arm extending backwards near the position of the first end of the rocker, the fixing frame is provided with a mounting cavity which is open at the front and used for accommodating the locking seat therein, and the connecting rod is arranged in a clearance space between the locking seat and the left side wall or the right side wall of the mounting cavity and is connected with the support arm.

As an improvement, the second end of the rocker forms an outwards convex arc cylindrical surface, the second end of the rocker serves as the positioning convex column, and a positioning groove with an open top is formed on the connecting part of the oil cup. It is contemplated that the locating boss could also be located on the connecting portion of the oil cup and the locating recess could be located on the second end of the rocker.

In order to form the positioning groove on the connecting part of the oil cup, the connection of the oil cup is an insert piece which is turned inwards at the end part of the main body of the oil cup, a positioning block is arranged on the top surface of the insert piece, and the positioning groove is formed on the positioning block.

In order to adapt to the forward and backward movement of the connecting part of the oil cup, the positioning convex column at the second end of the rocker smoothly enters the positioning groove of the connecting part of the oil cup, and the height of the front side wall of the positioning groove is higher than that of the rear side wall.

As an improvement, the slot is positioned below the fixing frame, the rocker is inclined forwards from top to bottom in a natural state, and the second end extends into the slot.

In order to ensure the firmness of the installation of the oil cup, the whole oil cup is in a strip shape, the two end parts of the oil cup in the extending direction are respectively provided with the inserting sheets, and the positions of the machine body corresponding to the two inserting sheets of the oil cup are respectively provided with the installation structure.

The utility model solves the third technical problem by adopting the technical scheme that:

a range hood comprises a machine body and an oil cup, wherein the oil cup is connected to the machine body through an oil cup mounting structure of the range hood.

Compared with the prior art, the utility model has the advantages that: through the mounting structure that locking mechanical system, rocker and elastic component cooperation formed for when the oil cup is installed in place, can have obvious buckle structure's suggestion sound, make things convenient for whether the user perception oil cup is installed in place. After the oil cup is installed in place, the installation structure can lock the oil cup, and the oil cup cannot be taken out by non-external force, so that the oil cup is prevented from falling off. Similarly, the rocker always has a forward deflection trend under the action of the elastic force of the elastic piece, so that the rocker can realize the ejecting action after unlocking, and the oil cup can be prevented from being blocked, so that oil stains are spilled out when the rocker is taken out.

Drawings

Fig. 1 is a schematic perspective view of a range hood according to an embodiment of the present utility model (a left side plate of a machine body is omitted);

fig. 2 is a left side view of a portion of a range hood according to an embodiment of the present utility model, in which an oil cup is located;

FIG. 3 is an exploded view of the cup of FIG. 2 in a disassembled state;

fig. 4 is a schematic perspective view of an oil cup mounting structure according to an embodiment of the present utility model;

FIG. 5 is a schematic perspective view of the fixing frame shown in FIG. 4;

fig. 6 is a sectional view of the oil cup mounting structure of the embodiment of the present utility model (oil cup in a pre-mounting state);

Fig. 7 is a cross-sectional view of an oil cup mounting structure of an embodiment of the present utility model (oil cup in mounted in place);

fig. 8 is a schematic perspective view of a locking seat of an oil cup mounting structure according to an embodiment of the present utility model.

Detailed Description

The utility model is described in further detail below with reference to the embodiments of the drawings.

In the description and claims of the present utility model, terms indicating directions, such as "front", "rear", "upper", "lower", "left", "right", "side", "top", "bottom", etc., are used to describe various example structural parts and elements of the present utility model, but these terms are used herein for convenience of description only and are determined based on the example orientations shown in the drawings. Because the disclosed embodiments of the utility model may be arranged in a variety of orientations, the directional terminology is used for purposes of illustration and is in no way limiting, such as "upper" and "lower" are not necessarily limited to being in a direction opposite or coincident with the direction of gravity.

Referring to fig. 1-8, a preferred embodiment of the present utility model is shown, a range hood comprising a housing 10, a fan system, typically a centrifugal fan, disposed within the housing 10 for providing a negative pressure for the exhaust of the oil, and an oil cup 20. The oil cup 20 is integrally elongated and extends in the left-right direction, is mounted at the bottom of the machine body 10, and is used for containing oil dirt falling on the machine body 10.

The oil cup 20 mounting structure of the present embodiment includes a slot 11 provided at the bottom of the body 10, the slot 11 extending in the front-rear direction. The left and right ends of the cup 20 are provided with two insertion pieces 21 which are folded and extended toward the inside (middle part) of the cup 20, and the corresponding two insertion grooves 11 are provided on the body 10, and are generally provided on the left and right sides of the bottom of the body 10. The two tabs 21 of the oil cup 20 can be inserted into the corresponding slots 11 from the front and then.

Referring to fig. 4-8, the oil cup 20 mounting structure of the present embodiment further includes a fixing frame 30, a locking mechanism, a rocker 40, an elastic member 50, and a positioning block 22 disposed on the insert 21 of the oil cup 20. The locking mechanism comprises a locking seat 31 having a track groove 310 and a connecting rod 32 slidingly constrained in the track groove 310 of the locking seat 31.

The fixing frame 30 is provided on the body 10 of the range hood, specifically, above the slot 11 of the body 10, and has a mounting chamber 300 opened at the front. The rocker 40 is connected to the front side of the fixed frame 30, and specifically, a first end thereof is rotatably connected to the top of the front side of the fixed frame 30 about a first shaft 61 extending from left to right. The elastic member 50 is a torsion spring sleeved on the first shaft 61, and two ends of the torsion spring respectively prop against the fixing frame 30 and the rocker 40, so that the rocker 40 always has a forward deflection trend. The rocker 40 is inclined forward from top to bottom in the natural state, and its second end extends into the slot 11 below. The rocker 40 has, adjacent to its first end portion, a support arm 41 extending towards the rear, which support arm 41 can be connected to the connecting rod 32, the connection co-operation of which is described in detail below.

The locking seat 31 of the locking mechanism is provided in the installation chamber 300 of the fixing frame 30, and an annular track groove 310 which is circularly communicated in the front-rear direction is provided on the left side wall or the right side wall thereof. The track groove 310 includes a first guide section 313, a second guide section 314, and a third guide section 315. The first guide section 313 extends from front to back and has a leading end at the front and a trailing end at the rear. The third guide section 315 extends from the rear to the front and has a head end at the rear and a tail end at the front. The head end of the second guide section 314 is connected to the tail end of the first guide section 313, and a locking portion 321 for the connecting rod 32 to slide unidirectionally from the first guide section 313 to the first stopping step 316 in the second guide section 314 is formed on the bottom wall at the connection position. The trailing edge of the second guide section 314 is connected to the head end of the third guide section 315, and a locking portion 321 for the connecting rod 32 to slide unidirectionally from the second guide section 314 to the second stopping step 317 in the third guide section 315 is formed on the bottom wall at the connection position. The tail end of the third guiding section 315 is connected with the head end of the first guiding end, and a locking part 321 for only sliding the connecting rod 32 unidirectionally from the third guiding section 315 to a third stopping step 318 in the first guiding section 313 is formed on the bottom wall at the connecting position. The middle portion of the second guiding section 314 of the present embodiment is disposed relatively backward with respect to the head end and the tail end of the second guiding section 314, and the front sidewall 221 of the track groove 310 at the middle portion of the second guiding section 314 is recessed forward to form a recess, which forms the second stop portion 312 of the track groove 310. In addition, the second guide section 314 of the track groove 310 is further provided with a fourth stopping step for stopping the reverse movement of the locking portion 321 of the connecting rod 32 on the bottom wall at the second stopping portion 312. The front sidewall 221 of the track groove 310 of the present embodiment at the position where the first guide section 313 meets the third guide section 315 is recessed forward to form a recess, which constitutes the first stop portion 311 of the track groove 310.

After the locking seat 31 is mounted in the mounting cavity 300 of the fixing frame 30, a certain mounting clearance space is formed between the side wall of the track groove 310 and the left side wall or the right side wall of the mounting cavity 300 on the locking seat 31, and correspondingly, the connecting rod 32 extends into the mounting clearance space, wherein a pin shaft extending from left to right is arranged at the first end of the connecting rod 32, and the pin shaft can be used as the locking part 321 to slidingly restrain the track groove 310. The second end of the connecting rod 32 is rotatably connected to the arm 41 of the rocker 40 by a second shaft 62 extending laterally.

During the forward and backward deflection of the rocker 40 by an external force, the connecting rod 32 is driven to move cyclically between the first locking position and the second locking position. When the first end of the connecting rod 32 moves to the position where the first stop portion 311 is located, i.e., is located at the first locking position, and when the first end of the connecting rod 32 moves to the position where the second stop portion 312 is located, i.e., is located at the second locking position.

The second end of the rocker 40 of the present embodiment is engaged with the positioning block 22 of the connecting portion of the oil cup 20 through the positioning boss 42 which can be engaged with each other. Specifically, the second end of the rocker 40 forms a convex arcuate cylindrical surface, and the second end of the rocker 40 serves as the positioning boss 42. The positioning block 22 of the connecting portion of the oil cup 20 is formed with a positioning groove 220 having an open top. In order to adapt to the forward and backward movement of the connecting portion of the oil cup 20, the positioning boss 42 at the second end of the rocker 40 smoothly enters the positioning groove 220 of the connecting portion of the oil cup 20, the front sidewall 221 of the positioning groove 220 of the embodiment is higher than the rear sidewall 222, that is, the top of the front and rear sidewalls 222 of the positioning groove 220 of the positioning block 22 has a certain height difference. As shown in fig. 6, in the process of loading the insert 21 of the oil cup 20 into the slot 11 from front to rear, the positioning boss 42 at the second end of the rocker 40 is just capable of being smoothly snapped into the positioning groove 220 of the positioning block 22 of the oil cup 20, and then after continuing to push the oil cup 20 to move backward and release the oil cup 20, the rocker 40 deflects backward and then deflects slightly forward under the elastic force of the torsion spring to finally maintain a substantially vertical state, in the process, the first end of the connecting rod moves unidirectionally to the second stop portion 312 along the first guide section 313 and the second guide section 314 of the track groove 310, that is, is at the second locking position and cannot move forward, and meanwhile, the positioning boss 42 of the rocker 40 is also limited by the front and rear side walls 222 of the positioning groove 220, thereby achieving the locking of the oil cup 20 and achieving the purpose of limiting the forward escape of the oil cup 20. In the process that the oil cup 20 is pressed again to move backward along the slot 11, the locking portion 321 of the connecting rod 32 moves continuously along the second guiding section 314 of the track groove 310 to be separated from the position where the second stopping portion 312 is located, and then moves to the position where the first stopping portion 311 is located along the third guiding section 315 under the action of the elasticity of the torsion spring, namely, is in the first locking position, in the state that the connecting rod 32 moves to the first locking position, the rocker 40 tilts forward from top to bottom, the positioning protrusion of the second end of the rocker 40 can be separated from the positioning clamping groove on the positioning block 22 of the oil cup 20 (namely, the limit in the front-rear direction is released, and the oil cup 20 moves forward manually by a user, so that the inserting piece 21 of the oil cup 20 can be removed from the slot 11 of the machine body 10 smoothly.

In this embodiment, through the installation structure formed by matching the locking mechanism, the rocker 40 and the elastic piece 50, when the oil cup 20 is installed in place, a prompt sound with an obvious fastening structure can exist, so that a user can conveniently perceive whether the oil cup 20 is installed in place. After the oil cup 20 is installed in place, the installation structure can lock the oil cup 20, and the oil cup 20 can not be taken out by no external force, so that the oil cup 20 is prevented from falling off. Similarly, the rocker 40 always has a forward deflection tendency under the action of the elastic force of the elastic member 50, so that the spring action can be realized after unlocking, and the oil cup 20 can be prevented from being blocked, so that oil stains are spilled during taking out.

Claims (12)

1. An oil cup mounting structure of a range hood, comprising:

an oil cup (20) provided with a connecting part;

The mounting structure is arranged on the machine body (10) of the range hood and comprises a slot (11) which extends forwards and backwards and is used for the connecting part on the oil cup (20) to be movably inserted into the slot forwards and backwards;

The method is characterized in that: the mounting structure further includes:

The fixing frame (30) is arranged on the machine body (10) of the range hood;

A locking mechanism which is arranged on the fixed frame (30) and comprises a connecting rod (32) which can move between a first locking position and a second locking position which are separated by a certain distance in the front-back direction;

The first end of the rocker (40) is rotationally connected to the fixed frame (30) by taking a first shaft (61) extending leftwards and rightwards as a rotating shaft, and the rocker (40) is rotationally connected with the connecting rod (32), so that the connecting rod (32) is driven to circularly move between the first locking position and the second locking position in the front-back deflection process of the rocker (40);

an elastic element (50) acting on said rocker (40) and making said rocker (40) always have a tendency to deflect forward;

The second end of the rocker (40) is clamped with the positioning clamping groove through a positioning convex column (42) which can be mutually clamped with the connecting part of the oil cup (20);

In the state that the connecting rod (32) moves to the first locking position, a positioning convex column (42) between the second end of the rocker (40) and the connecting part of the oil cup (20) can be separated from a positioning clamping groove;

And when the first end of the connecting rod (32) moves to the second locking position, the positioning convex column (42) between the second end of the rocker (40) and the connecting part of the oil cup (20) is clamped with the positioning clamping groove so as to limit the oil cup (20) from being pulled out forwards.

2. The oil cup mounting structure of a range hood according to claim 1, wherein: the locking mechanism is arranged on the fixing frame (30) and further comprises a locking seat (31) with an annular track groove (310) which is circularly communicated in the front-back direction, the first end of the connecting rod (32) is used as a locking part (321) to slidingly restrain the track groove (310), the second end of the connecting rod (32) is rotationally connected with the rocker (40), the front part and the rear part of the track groove (310) are respectively provided with a first stopping part (311) and a second stopping part (312) which are used for limiting the first end of the connecting rod (32) to move forwards, and when the first end of the connecting rod (32) moves to the position where the first stopping part (311) is located, the first end of the connecting rod (32) is located at the first locking position, and when the first end of the connecting rod (32) moves to the position where the second stopping part (312) is located, the first end of the connecting rod is located at the second locking position.

3. The oil cup mounting structure of a range hood according to claim 2, wherein: the track groove (310) comprises a first guide section (313), a second guide section (314) and a third guide section (315), the first guide section (313), the second guide section (314) and the third guide section (315) are sequentially connected, and a first stopping step (316), a second stopping step (317) and a third stopping step (318) are sequentially formed at any joint position of the first guide section, the second guide section (314) and the third guide section (315), so that a guide groove structure for the locking part to move along the track groove (310) in a unidirectional circulation mode is formed;

The track groove (310) is formed by forwardly recessing the front side wall (221) of the position where the first guide section (313) is connected with the third guide section (315) to form the first stopping part (311), the second guide section (314) is positioned at the rear part of the track groove (310), and a concave part is formed by partially recessing the front side wall (221) of the second guide section (314) to form the second stopping part (312).

4. The oil cup mounting structure of a range hood according to claim 3, wherein: the first guide section (313) extends from front to back and has a front head end and a rear tail end, the third guide section (315) extends from back to front and has a rear head end and a front tail end, the head end of the second guide section (314) is connected with the rear end of the first guide section (313), the tail edge of the second guide section (314) is connected with the head end of the third guide section (315), and the middle part of the second guide section (314) is arranged relatively back to the head end and the tail end of the second guide section (314), and the second stop part (312) is formed at the middle part of the second guide section (314).

5. The oil cup mounting structure of a range hood according to claim 1, wherein: the elastic piece (50) is a torsion spring, the torsion spring is sleeved on the first shaft (61), and two end parts of the torsion spring are respectively propped against the fixing frame (30) and the rocker (40).

6. The oil cup mounting structure of a range hood according to claim 2, wherein: the rocker (40) is provided with a support arm (41) extending backwards near the first end, the fixing frame (30) is provided with a mounting cavity (300) which is open at the front and is used for accommodating the locking seat (31) therein, and the connecting rod (32) is arranged in a clearance space between the locking seat (31) and the left side wall or the right side wall of the mounting cavity (300) and is connected with the support arm (41).

7. The oil cup mounting structure of a range hood according to any one of claims 1 to 6, wherein: the second end of the rocker (40) forms an outwards convex arc cylindrical surface, the second end of the rocker (40) serves as the positioning convex column (42), and a positioning groove (220) with an open top is formed on the connecting part of the oil cup (20).

8. The oil cup mounting structure of a range hood according to claim 7, wherein: the oil cup is characterized in that the oil cup (20) is connected with an insert (21) which is turned inwards at the end part of the main body of the oil cup (20), a positioning block (22) is arranged on the top surface of the insert (21), and the positioning groove (220) is formed in the positioning block (22).

9. The oil cup mounting structure of a range hood according to claim 7, wherein: the front side wall (221) of the positioning groove (220) is higher than the rear side wall (222).

10. The oil cup mounting structure of a range hood according to claim 7, wherein: the slot (11) is positioned below the fixing frame (30), the rocker (40) is inclined forwards from top to bottom in a natural state, and the second end of the rocker stretches into the slot (11).

11. The oil cup mounting structure of a range hood according to claim 8, wherein: the oil cup (20) is integrally strip-shaped, the two ends of the oil cup (20) in the extending direction are provided with the inserting pieces (21), and the positions of the machine body (10) corresponding to the two inserting pieces (21) of the oil cup (20) are provided with the mounting structures.

12. The utility model provides a range hood, includes organism (10) and oil cup (20), its characterized in that: the oil cup (20) is connected to the machine body (10) through the oil cup mounting structure of the range hood according to any one of claims 1 to 6.