CN215863535U - Gas kitchen ranges - Google Patents

Abstract

The utility model belongs to the field of gas equipment, and particularly provides a gas stove. The utility model aims to solve the problem of low assembly efficiency caused by poor structural design of the existing gas stove. Therefore, the gas stove comprises the liquid containing disc, the stove surface, the check ring and the stove head which are sequentially arranged from top to bottom, wherein the preassembly limiting assembly is arranged between the check ring and the stove head and can limit the check ring to move axially relative to the stove head, the liquid containing disc is provided with at least one first mounting hole, the check ring is provided with at least one second mounting hole, the stove head is provided with at least one third mounting hole, and the first mounting hole, the second mounting hole and the third mounting hole are correspondingly arranged so that the fastener can penetrate through the first mounting hole, the second mounting hole and the third mounting hole and is connected with the liquid containing disc, the check ring and the stove head.

Description

Gas kitchen ranges

Technical Field

The utility model belongs to the field of gas equipment, and particularly provides a gas stove.

Background

The gas stove is an indispensable kitchen utensil in daily life of people, and the use experience of the gas stove is always concerned by users; particularly, the cooking surface and the burner of the existing gas stove are not directly connected, which leads to the problem that relative sliding is easily generated between the cooking surface and the burner, and the generation of the sliding phenomenon not only easily leads to the reduction of user experience, but also easily brings the risk that the glass cooking surface and the burner are contacted to cause the explosion of the glass cooking surface and the burner.

The existing gas stove, whether for household or commercial use, is provided with a retainer ring for reducing the sliding displacement between the stove surface and the bottom shell. For a household gas range, a retainer ring is usually installed between the cooktop and the burner to reduce the sliding displacement between the cooktop and the bottom case. For commercial gas cookers, a retainer ring is usually disposed above the burner to reduce the sliding displacement of the gas cooker during installation. However, when the existing check ring is installed, the check ring is generally installed firstly due to the influence of the clearance between the outer diameter of the check ring and the aperture of the glass, then the stove surface is placed, the stove surface is in contact with the check ring in the assembling process, the problem that the check ring rotates on the stepped surface of the furnace end is easily caused, and then the check ring installation hole is difficult to align to the screw hole of the furnace end, so that the overall installation efficiency is influenced.

Accordingly, there is a need in the art for a new gas range to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems in the prior art, namely to solve the problem of low assembly efficiency caused by poor structural design of the existing gas stove, the utility model provides a novel gas stove, which comprises a liquid containing disc, a stove surface, a check ring and a stove head which are sequentially arranged from top to bottom, wherein a preassembly limiting assembly is arranged between the check ring and the stove head, the preassembly limiting assembly is arranged to limit the check ring to move axially relative to the stove head, at least one first mounting hole is arranged on the liquid containing disc, at least one second mounting hole is arranged on the check ring, at least one third mounting hole is arranged on the stove head, and a fastener can be arranged between the first mounting hole, the second mounting hole and the third mounting hole in a penetrating manner so as to be connected with the liquid containing disc, The retaining ring and the furnace end.

In an optimal technical scheme of the gas stove, the preassembly limiting assembly comprises a first radial limiting structure arranged on the retainer ring and a second radial limiting structure arranged on the burner, and the first radial limiting structure and the second radial limiting structure are jointly arranged to limit the retainer ring to move horizontally relative to the burner.

In an optimal technical scheme of the gas stove, one of the first radial limiting structure and the second radial limiting structure is an annular protrusion, the other one of the first radial limiting structure and the second radial limiting structure is an annular groove, and the annular protrusion can be engaged with the annular groove and therefore limits the retainer ring to move in a translation manner relative to the burner.

In a preferred technical solution of the above gas cooker, the pre-assembly limiting assembly further includes a first circumferential limiting structure disposed on the retainer ring and a second circumferential limiting structure disposed on the burner, and the first circumferential limiting structure and the second circumferential limiting structure are disposed together to limit the rotation of the retainer ring relative to the burner.

In a preferred technical solution of the above gas stove, the first circumferential limiting structure is a protruding structure disposed on a bottom surface of the retainer ring, the second circumferential limiting structure is a boss structure formed by extending outward from a top of the burner, and the protruding structure can abut against the boss structure and thus limit the rotation of the retainer ring relative to the burner.

In the preferable technical scheme of the gas stove, the number of the convex structures is multiple, the convex structures are annularly arranged, and the number of the boss structures is larger than or equal to that of the convex structures.

In a preferred technical solution of the above gas range, the third mounting hole is provided on the boss structure.

In the preferable technical scheme of the gas stove, the protruding structure is in a semicircular ring shape, and the boss structure is in a semicircular column shape, so that the inner side surface of the protruding structure can be abutted to the outer side surface of the boss structure.

In the above preferred technical solution of the gas cooker, the protruding structure is cylindrical, and the boss structure is semi-cylindrical, so that the protruding structure and the boss structure can be abutted through the side surface.

In the preferred technical scheme of above-mentioned gas-cooker, flourishing liquid dish with be provided with mounting groove between the retaining ring, be provided with on the kitchen face with mounting groove assorted installation through-hole, the kitchen face passes through the installation through-hole clamp is located flourishing liquid dish with between the retaining ring.

The gas stove comprises a liquid containing disc, a stove top, a retainer ring and a stove head which are sequentially arranged from top to bottom, wherein a pre-installation limiting assembly is arranged between the retainer ring and the stove head, the pre-installation limiting assembly is arranged to limit the retainer ring to move non-axially relative to the stove head, at least one first mounting hole is formed in the liquid containing disc, at least one second mounting hole is formed in the retainer ring, at least one third mounting hole is formed in the stove head, and the first mounting hole, the second mounting hole and the third mounting hole are correspondingly arranged so that a fastener can penetrate through the first mounting hole, the second mounting hole and the third mounting hole and accordingly connect the liquid containing disc, the retainer ring and the stove head. According to the gas stove, the preassembly limiting assembly is additionally arranged to effectively limit the retainer ring to move axially relative to the stove head in the assembling process, so that the operation difficulty of aligning the second mounting hole and the third mounting hole is reduced, and the assembling efficiency of the gas stove is effectively improved.

Drawings

Fig. 1 is an exploded view of a gas range of the present invention;

fig. 2 is a bottom view of the gas range of the present invention;

fig. 3 is a front view of the gas range of the present invention;

FIG. 4 is a cross-sectional view taken along the plane A-A in FIG. 3;

reference numerals;

1. a fastener;

2. a liquid containing tray; 21. a first mounting hole;

3. cooking surface; 31. mounting a through hole; 32. installing a groove;

4. a retainer ring; 41. a raised structure; 42. a second mounting hole;

5. a furnace end; 51. a boss structure; 52. a third mounting hole; 53. an annular protrusion.

Detailed Description

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and are not intended to limit the scope of the present invention. And can be adjusted as needed by those skilled in the art to suit particular applications.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; may be a mechanical connection; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Referring first to fig. 1 to 4, wherein fig. 1 is an exploded view of a gas range of the present invention; fig. 2 is a bottom view of the gas range of the present invention; fig. 3 is a front view of the gas range of the present invention; fig. 4 is a sectional view taken along the plane a-a in fig. 3. As shown in fig. 1 to 4, the gas stove of the present invention includes a liquid containing disc 2, a stove top 3, a retainer ring 4 and a stove head 5, wherein a pre-assembly limiting assembly is disposed between the retainer ring 4 and the stove head 5, the pre-assembly limiting assembly is configured to limit the retainer ring 4 to move non-axially relative to the stove head 5, at least one first mounting hole 21 is disposed on the liquid containing disc 2, at least one second mounting hole 42 is disposed on the retainer ring 4, at least one third mounting hole 52 is disposed on the stove head 5, and the first mounting hole 21, the second mounting hole 42 and the third mounting hole 52 are correspondingly disposed, such that a fastener 1 can be inserted between the first mounting hole 21, the second mounting hole 42 and the third mounting hole 52 and thereby connect the liquid containing disc 2, the retainer ring 4 and the stove head 5. It should be noted that the present invention does not limit the existing structure of the gas stove, and the technician can set the structure according to the actual use requirement; for example, the specific structure of the drip tray 2 and the cooktop 3; in addition, the utility model does not limit the specific setting number and position of the preassembly limit components, and technicians can adjust the preassembly limit components according to actual use requirements. Such changes in the specific structure and location are within the scope of the utility model without departing from the basic principles of the utility model.

In addition, it should be noted that the utility model does not limit the specific structure of the pre-installation limiting assembly, and a technician can set the pre-installation limiting assembly according to the actual use requirement as long as the pre-installation limiting assembly can limit the retainer ring 4 from moving non-axially relative to the burner 5. As a possible embodiment, said pre-loading limit groups can consist of stop grooves, which are arranged close to the periphery of the burner 5, the shape of the retaining ring is an arc-shaped notch structure, the inner part of the notch structure is a smooth plane, the retaining column is arranged on the bottom surface of the retaining ring 4 and is of a cylindrical structure and is arranged to be matched with the retaining groove, the stop column has smooth surface and can be matched with the stop groove in the installation process, when the retainer ring 4 and the burner 5 are not fixed in the assembly process, the retainer ring and the burner can generate relative displacement, in this case, the stop post provided on the retainer ring 4 is circumferentially displaced in the stop groove provided on the burner head 5, and when displaced a distance, one end of the stop groove can restrict the movement of the stop post, and at this time, because the setting of locking post is in the bottom surface of retaining ring 4 to make retaining ring 4 stop the displacement, and then reach spacing effect. In addition, the arrangement position of the stop groove can be interchanged with that of the stop column, namely, the stop groove is arranged at the bottom of the retainer ring 4, and the stop column is arranged close to the periphery of the burner 5.

As another possible embodiment, the smooth surface in the stop groove may be formed as a gear tooth, and the outer surface of the stop post may be formed as an external tooth-like structure that mates with the gear tooth in the stop groove, in which case, when the retainer ring 4 is displaced relative to the burner 5, the structure in the stop groove may engage the structure on the outer surface of the stop post, thereby limiting the relative movement of the retainer ring 4.

Furthermore, the utility model does not limit the specific shape and structure of the liquid containing disc 2, and technicians can set the shape and structure according to actual use requirements; for example, the liquid containing tray 2 may be square or circular. It should be noted that the present invention does not limit the specific position of the first mounting hole 21 on the liquid containing tray 2, as long as the first mounting hole 21 can be disposed corresponding to the second mounting hole 42 disposed on the retainer ring 4 and the third mounting hole 52 disposed on the burner 5.

It can be understood that the skilled person can set the specific type of the fastening member 1 according to the actual use requirement, as long as the fastening member 1 can be inserted between the first mounting hole 21, the second mounting hole 42 and the third mounting hole 52 and thus connect the liquid containing disc 2, the retainer ring 4 and the burner 5; for example, the fastener 1 may be a pan head screw, the head of which is a hemispherical protrusion structure, and the head of which is provided with a cross or a straight groove, so that a special screwing tool or a straight screwdriver can perform a high-torque installation effect on the screw, and the fastening strength is increased.

Alternatively, the fastener 1 may be a countersunk head screw, the head of which is a 90-degree cone, and the head of which is provided with a tool tightening slot, like a common wood screw, and the head of the countersunk head screw generally protrudes above the surface of the object to be connected, so that the surface is flattened, while the countersunk head screw can sink to the lower surface so that the surface is flattened, so that the assembled parts are tightly connected together without generating gaps.

Furthermore, technicians can set the specific shape and material of the cooking stove surface 3 according to actual use requirements; for example, the cooktop 3 can be either of annular configuration or of externally square and internally circular configuration; also for example, the cooking top 3 may be made of a stainless steel material, which is low cost, light weight and easy to machine, not only to reduce production costs, but also to make it easier for the installer to handle in the assembly. Alternatively, the cooktop 3 can also be made of tempered glass, which is easier to scrub and degrease than stainless steel materials, and which is easier to combine and match with a cabinet. Alternatively, the material of the cooking surface 3 can also be made of artificial stone, which is the table top of a cabinet which is frequently used at present, the surface of the cooking surface has no pores, and dirt such as oil stain, water stain and the like cannot penetrate into the surface of the cooking surface, so that the cooking surface cannot be dirty even after being used for a long time; if the cupboard needs a longer table top, the artificial stone can be bonded seamlessly without any gap. If the surface is scratched, the surface can be polished by dipping gauze paper into water, so that no mark is left on the surface.

With continued reference to fig. 1, as shown in fig. 1, in the preferred embodiment, the main body of the retaining ring 4 is a circular ring structure, the retaining ring 4 is disposed between the cooktop 3 and the burner 5, and when the retaining ring 4 and the burner 5 are assembled, the pre-assembly between the retaining ring 4 and the burner 5 can limit the relative displacement between the retaining ring 4 and the burner 5. Of course, the technician may set the main structure of the retainer ring 4 according to the actual use requirement, for example, the retainer ring 4 may also have a square structure, which is not limited.

Further, the preassembly limiting assembly comprises a first radial limiting structure arranged on the retainer ring 4 and a second radial limiting structure arranged on the burner head 5, and the first radial limiting structure and the second radial limiting structure are jointly arranged to limit the retainer ring 4 to translate relative to the burner head 5. In the preferred embodiment, the first radial limiting structure is an annular groove (not shown) provided on the retaining ring 4, and correspondingly, the second radial limiting structure is an annular protrusion 53 provided on the burner 5, when the annular groove provided on the retaining ring 4 is abutted to the annular protrusion 53 provided on the burner 5 in place, the retaining ring 4 and the burner 5 can only rotate relatively and move axially, but cannot move radially, so that radial positioning is realized.

Of course, a technician may set the specific structure of the first radial limiting structure and the specific structure of the second radial limiting structure according to actual use requirements, as long as the first radial limiting structure and the second radial limiting structure can limit the retainer ring to translate relative to the burner; for example, the first radial limiting structure may also be an annular buckle, and correspondingly, the second radial structure may also be an annular clamping rib matched with the annular buckle.

Further, with continued reference to fig. 2, the pre-assembly stop assembly further comprises a first circumferential stop structure disposed on the collar 4 and a second circumferential stop structure disposed on the burner 5, the first and second circumferential stop structures being cooperatively configured to limit rotation of the collar 4 relative to the burner 5. In the preferred embodiment, the first circumferential limiting structure is a protruding structure 41 disposed on the bottom surface of the retaining ring 4, and correspondingly, the second circumferential limiting structure is a boss structure 51 extending outward from the top of the burner 5, when the protruding structure 41 disposed on the retaining ring 4 abuts against the boss structure 51 disposed on the burner 5 in place, the retaining ring 4 and the burner 5 can no longer rotate relatively, thereby achieving circumferential positioning. Preferably, as shown in fig. 2, the protruding structure 41 is cylindrical and the boss structure 51 is semi-cylindrical, so that the protruding structure 41 and the boss structure 51 can be abutted by the side surface, thereby achieving the effect of circumferential limit.

It should be noted that, the present invention does not limit the specific structures of the protrusion structure 41 and the boss structure 51, and the skilled person can set the specific structures according to the actual use requirement, as long as the protrusion structure 41 and the boss structure 51 can realize circumferential limit. For example, as another preferred embodiment, the shape of the protruding structure 41 may also be a semi-circular ring, and correspondingly, the shape of the boss structure 51 may also be a semi-cylindrical shape matching with the semi-circular ring, so that the inner side surface of the protruding structure 41 can be abutted to the outer side surface of the boss structure 51, so as to better limit the circumferential movement of the retainer ring 4 and the burner 5.

Further, as a preferable arrangement manner, for example, the number of the convex structures 41 is set to be plural, and the plurality of convex structures 41 are arranged in a ring shape, of course, this is not a restrictive distribution manner, and a technician may set the distribution manner according to actual use requirements; preferably, the number of the boss structures 51 is greater than that of the protrusion structures 41, so as to effectively simplify the circumferential limiting process. It is further preferred that the third mounting hole 52 is provided on the boss structure 51, so as to effectively enhance the compactness of the structure. Of course, it should be noted that the present invention does not limit the specific number of the convex structures 41 and the convex structures 51, and the skilled person can set the number according to the actual use requirement, and the number may be one or more.

Further, the bottom of flourishing liquid dish 2 is provided with annular mounting groove, the corresponding annular mounting groove that is provided with in top of retaining ring 4, when flourishing liquid dish 2 is connected in place with retaining ring 4, two annular mounting grooves realize the butt joint and form complete mounting groove 32 between flourishing liquid dish 2 and retaining ring 4, be provided with on the kitchen face 3 with mounting groove 32 assorted installation through-hole 31, kitchen face 3 presss from both sides through installation through-hole 31 and locates between flourishing liquid dish 2 and retaining ring 4 to effectively realize the fixed of kitchen face 3. Of course, the utility model does not limit the specific shape of the installation groove 32, and the technician can set the shape according to the actual use requirement; for example, the mounting recess 32 may also be a square recess, and accordingly, the shape of the mounting through-hole 31 may also be a square hole matching the mounting recess 32.

Based on the gas stove structure described in the above preferred embodiment, when the gas stove of the present invention is assembled, the retaining ring 4 and the burner 5 are fixed, the annular groove provided on the retaining ring 4 and the annular protrusion 53 provided on the burner 5 can limit the radial movement of the retaining ring 4 and the burner 5, and the protrusion structure 41 and the boss structure 51 can limit the circumferential rotation of the retaining ring 4 and the burner 5, so that the retaining ring 4 and the burner 5 do not generate non-axial displacement, and at this time, the second mounting hole 42 and the third mounting hole 52 are aligned exactly; then, the kitchen top 3 is placed on the retainer ring 4, the liquid containing disc 2 is placed on the kitchen top 3, at the moment, the kitchen top 3 is clamped between the liquid containing disc 2 and the retainer ring 4 through the mounting through hole 31, the first mounting hole 21, the second mounting hole 42 and the third mounting hole 52 are all in an aligned state, and finally the fastening piece 1 sequentially penetrates through the first mounting hole 21, the second mounting hole 42 and the third mounting hole 52 from top to bottom, so that the liquid containing disc 2, the kitchen top 3, the retainer ring 4 and the burner 5 are connected together, and the gas stove is assembled.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the utility model, and the technical scheme after the changes or substitutions can fall into the protection scope of the utility model.

Claims (10)

1. A gas stove is characterized in that the gas stove comprises a liquid containing disc, a stove surface, a retainer ring and a stove head which are sequentially arranged from top to bottom,

a pre-installation limiting assembly is arranged between the retainer ring and the furnace end and can limit the retainer ring to move axially relative to the furnace end,

contain and be provided with at least one first mounting hole on the liquid dish, be provided with at least one second mounting hole on the retaining ring, be provided with at least one third mounting hole on the furnace head, first mounting hole the second mounting hole with the third mounting hole is the corresponding setting to make the fastener can wear to locate first mounting hole the second mounting hole with between the third mounting hole and consequently connect contain the liquid dish the retaining ring with the furnace head.

2. The gas burner of claim 1, wherein the pre-assembly retainer assembly includes a first radial retainer disposed on the retainer ring and a second radial retainer disposed on the burner head,

the first radial limiting structure and the second radial limiting structure are jointly arranged to limit the retainer ring to translate relative to the burner.

3. The gas burner of claim 2, wherein one of the first radial stop and the second radial stop is an annular protrusion and the other of the first radial stop and the second radial stop is an annular groove,

the annular projection is engageable with the annular groove and thereby limits translation of the retaining ring relative to the burner.

4. The gas burner of claim 2, wherein the pre-assembly retainer assembly further comprises a first circumferential retainer disposed on the retainer ring and a second circumferential retainer disposed on the burner head,

the first circumferential limiting structure and the second circumferential limiting structure are jointly arranged to limit the retainer ring to rotate relative to the furnace end.

5. The gas stove of claim 4, wherein the first circumferential limiting structure is a convex structure arranged on the bottom surface of the retainer ring, the second circumferential limiting structure is a boss structure formed by extending outwards from the top of the burner,

the raised structure is capable of abutting the boss structure and thereby limiting rotation of the retaining ring relative to the burner head.

6. The gas stove of claim 5, wherein the number of the convex structures is a plurality, the plurality of the convex structures are arranged in a ring shape, and the number of the convex structures is greater than or equal to the number of the convex structures.

7. The gas range of claim 6, wherein the third mounting hole is provided on the boss structure.

8. The gas range according to any one of claims 5 to 7, wherein the protruding structure is semi-circular and the boss structure is semi-cylindrical, so that the inner side of the protruding structure can abut against the outer side of the boss structure.

9. The gas range according to any one of claims 5 to 7, wherein the protruding structure is cylindrical in shape and the boss structure is semi-cylindrical in shape so that the protruding structure and the boss structure can be abutted by a side surface.

10. The gas stove according to any one of claims 1 to 7, wherein a mounting groove is provided between the liquid containing disc and the retainer ring, a mounting through hole matched with the mounting groove is provided on the cooktop, and the cooktop is clamped between the liquid containing disc and the retainer ring through the mounting through hole.

Images