CN218921416U - Cake mould - Google Patents

Abstract

The utility model relates to the technical field of baking vessels, in particular to a cake mould, which comprises a mould body made of flexible materials, wherein the mould body is provided with at least one placing cavity with an opening at the top, the peripheral edge of the mould body is outwards extended to form a flange, and the flange is externally wrapped with a binding edge of hard materials; the flange is internally provided with a cavity, and the flange is internally wrapped with a filling rubber strip. The utility model aims to solve the problem that the edge of the existing cake mould and the reinforcing metal ring are easy to loose and fall, and provides a cake mould which can effectively solve the problems that the existing silica gel cake mould is soft and has potential safety hazards in use.

Description

Cake mould

Technical Field

The utility model relates to the technical field of baking vessels, in particular to a cake mould.

Background

The cake mould is used as a baking vessel and is commonly used for making cakes, and silica gel is a common material of the cake mould due to the characteristics of environmental protection, high temperature resistance, wider applicable temperature, softness, comfort and the like. However, since the silicone gum is soft, the cake mold is easily deformed during use, in order to facilitate the taking or transferring of the cake mold, a reinforcing metal ring is usually arranged at the edge of the cake mold, and the reinforcing metal ring has a function of repeatedly pressing the reinforcing metal ring of the cake mold in the baking process, particularly when the baking is completed, so that the cake is separated from the cake mold. However, the edge of the cake mould is worn out and gaps are generated when the reinforcing metal ring is repeatedly pressed, and the gaps are larger and larger along with the use process, so that the edges of the reinforcing metal ring and the cake mould are loosened, and the risk that the cake mould falls off from the metal ring in the use process is aggravated.

The prior patent discloses a flexible container, including the tray of flexible material, tray integrated into one piece has at least one open-top's chamber of placing, and the outward extension of peripheral edge of tray has peripheral flange, and peripheral flange encircles the peripheral edge of tray in succession, and peripheral flange embeds has the stiffening ring, and the longitudinal length of the cross section of stiffening ring is greater than horizontal length. According to the patent, the reinforcing ring with the longitudinal length larger than the transverse length of the cross section is used as a frame reinforcing element, and the reinforcing ring is embedded into the peripheral flange extending outwards from the edge of the tray, so that the strength of the peripheral flange is increased, the anti-twisting performance of the peripheral flange in the vertical direction is effectively improved, and the stability of a product structure is effectively improved. However, the problem that the reinforcing metal ring is worn away from the edge of the cake mold and then generates a gap in the repeated pressing process of the reinforcing metal ring cannot be solved in the technical scheme of the patent, and the problem that the cake mold is separated from the metal ring and falls off in the using process is aggravated.

Disclosure of Invention

The utility model aims to solve the problem that the edge of the existing cake mould and the reinforcing metal ring are easy to loose and fall, and provides the cake mould which can effectively solve the problems that the existing silica gel cake mould is soft and has potential safety hazards in use, and has the advantages of simple structure, convenience in use, safety and practicability.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the cake mould comprises a mould body made of flexible materials, wherein the mould body is provided with at least one placing cavity with an opening at the top, the peripheral edge of the mould body is outwards extended to form a flange, and the flange is wrapped with a binding edge of a hard material; the flange is internally provided with a cavity, and the flange is internally wrapped with a filling rubber strip.

In the above scheme, the mould body is made of flexible material, and the placing cavity is used for cake shaping. The flange and the placing cavity are integrally formed, the edge of the hard material is completely wrapped outside the flange, and the edge is used for improving the strength of the frame of the container. And utilize joint strip to strut the flange in the cavity of flange, reduce the flange and bordure between the clearance, prevent to bordure and remove for the flange, and then reduce friction, can reduce to a certain extent in the use the mould body break away from the risk that bordures and drop, promote cake mould's life. The cake mould handle is firm, is not easy to deform, and the baked cake is not easy to deform and break when in use. Preferably, the flange is integrally formed with the placement cavity by injection molding.

Further, the upper edge of the placing cavity is outwards extended to form a hand-held step, and the flange is arranged on the outer edge of the hand-held step. The flanges are arranged at a certain distance from the placing cavity, so that a hand-held step is formed between the corresponding flange of the die body and the placing cavity, the hand-held step is a holding area, namely, when the cake mould is taken and placed, the hand-held step is held, so that the cake mould can be conveniently held and transferred, and the flanges play a role of skid resistance.

Further, the flange is of a hemming structure, the flange is curled inwards from the periphery of the hand-held step, the flange is arranged above the hand-held step, and the filling rubber strip is wrapped in the hemming structure. The top surface of the flange is higher than the hand-held step, and the bottom surface is flush with the upper surface of the hand-held step. In the scheme, not only the torsion resistance of the cake mould during taking, placing and transferring is increased, but also the liquid in the placing cavity can be prevented from overflowing. The flange is arranged through the hemming structure, so that the thickness of the flange is consistent with that of the hand steps, the inconsistent deformation and shrinkage during demolding is avoided, and the attractiveness of the die body is improved; the gap inside the hemming structure is filled with the filling rubber strip, so that the gap between the flange and the edge covering can be increased due to deformation of the hemming structure in the using process of the cake mould. By the arrangement, the size of the gap inside the curled edge is not strictly required, and the curled edge structure can be conveniently processed. The curled edge may or may not abut the walking step.

Further, the flange is the turn-up structure, and the flange outwards curls from hand step all around, and the flange sets up in hand step below, and the joint strip parcel is in the turn-up structure. The top surface of flange and the upper surface parallel and level of hand step, the bottom surface of flange is less than the bottom surface of hand step, antiskid function when can increase the hand step of holding, promotes the sense of holding. The purpose of the bead filler provided in the bead structure herein corresponds to the purpose described above. The curled edge may or may not abut the walking step.

Further, the flange, the hand step and the placing cavity are integrally formed. The flange and the hand steps and the placing cavity are integrally formed, so that the processing and manufacturing can be facilitated.

Further, the hard material is stainless steel, the flexible material is silica gel, and the filling rubber strip is a silica gel strip. Stainless steel is a steel grade resistant to weak corrosive media such as air, steam, water and the like, can still keep excellent physical and mechanical properties at high temperature, is not easy to deform and has relatively low cost. Of course, other hard materials may be used instead of stainless steel within the knowledge of those skilled in the art. The silica gel has the characteristics of high temperature resistance, corrosion resistance and strong tearing resistance, and the silica gel strip is used as the filling rubber strip, so that the internal gap of the hemming structure can be well filled, the edge wrapping and the flange are tightly attached, and the gap is eliminated between the inside of the flange and the hand steps. In addition, the silica gel strip is not easy to break or tear in the repeated pressing process at the edge wrapping position, so that the flange and the edge wrapping are always kept in close fit.

Further, the flexible material of the manufactured die body is embedded with a glass fiber net. The glass fiber net is embedded on the basis of adopting the silica gel, so that the strength of the die body is increased, and the hardness of the die body is also increased.

Further, the cross section of the filling rubber strip is round. The cross section is circular shape joint strip can coincide with the turn-up structure shape of flange, and the turn-up structure sets up around the outer circumference of joint strip, and the cross section is circular shape joint strip can open the turn-up structure as far as possible, makes the relatively smooth transition of turn-up structure, can reduce the rate of buckling, reduces the fracture risk.

Further, the cross-sectional area of the opening of the placement cavity is larger than the cross-sectional area of the bottom. The placing cavity is used for cake forming, and the placing cavity with the cross section area of the opening being larger than that of the bottom can facilitate demolding after cake baking forming.

Further, the placing cavities are multiple, the placing cavities are sequentially arranged along the die body, connecting steps are arranged between the tops of the openings of the adjacent placing cavities, and the connecting steps are connected with the hand steps and located on the same horizontal plane. The number of the placing cavities can be set according to the requirement, and due to the limited volume of the oven, the cake mould with the same outer diameter has smaller volume for placing cakes in the corresponding placing cavities as the number of the placing cavities is larger.

Further, the number of the placing cavities is even, the placing cavities are distributed in an array mode, and the die body is of a rectangular structure. The even number of the placing cavities can fully utilize the space of the die body, so that the space waste is reduced.

Further, the wall thickness of the placing cavity is 5-15 mm. If the wall thickness of the placing cavity is too large, deformation is easily caused when the mold is removed, and if the wall thickness of the placing cavity is too small, the strength requirement cannot be met.

According to the cake mould, the silica gel embedded glass fiber net is used as a material for manufacturing the mould body, so that the mould body has good toughness, the hardness also meets the requirement, the deformation amount during stress is reduced, and the placing cavity can keep a more regular shape; adopt the flange that sets up the turn-up structure at mould body edge, place the joint strip at the cavity in the flange, wrap up stainless steel bordure in the flange outside to reinforcing mould body edge's hardness and deformability, be convenient for make place the chamber atress and then be convenient for the drawing of patterns of cake when repeatedly extruding bordure, can promote the life-span of bordure department simultaneously, and reduce the risk that the bordure breaks away from the mould body and cause the mould body to drop in the use.

Drawings

Fig. 1 is a block diagram of an embodiment 1 of a cake mould according to the present utility model.

Fig. 2 is a cross-sectional view A-A of fig. 1.

Fig. 3 is a partial enlarged view at B of fig. 2.

Fig. 4 is a view showing a first direction of a placement cavity of another shape in embodiment 1 of a cake mould.

Fig. 5 is a structural view showing a second direction of the placement chamber of embodiment 1 of the cake mould.

Fig. 6 is a cross-sectional view of cake mould example 2.

Fig. 7 is a partial enlarged view at C of fig. 6.

Fig. 8 is a structural view showing a first shape of the placement chamber in embodiment 3 of the cake mould.

Fig. 9 is a view showing a first direction of a second shape of a placing cavity in embodiment 3 of a cake mould.

Fig. 10 is a view showing a structure of a second direction of the placement chamber of embodiment 3 of the cake mould.

Fig. 11 is a flowchart of a method for manufacturing a cake mould according to the present utility model.

Wherein, the graphic marks are described as follows:

1. a die body; 2. a placement cavity; 3. a flange; 4. wrapping edges; 5. filling adhesive tape; 6. and (5) walking the steps.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the present patent; for the purpose of better illustrating the embodiments, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the actual product dimensions; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted. The positional relationship depicted in the drawings is for illustrative purposes only and is not to be construed as limiting the present patent.

The same or similar reference numbers in the drawings of embodiments of the utility model correspond to the same or similar components; in the description of the present utility model, it should be understood that, if there are orientations or positional relationships indicated by terms "upper", "lower", "left", "right", "long", "short", etc., based on the orientations or positional relationships shown in the drawings, this is merely for convenience in describing the present utility model and simplifying the description, and is not an indication or suggestion that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, so that the terms describing the positional relationships in the drawings are merely for exemplary illustration and are not to be construed as limitations of the present patent, and that it is possible for those of ordinary skill in the art to understand the specific meaning of the terms described above according to specific circumstances.

The technical scheme of the utility model is further specifically described by the following specific embodiments with reference to the accompanying drawings:

example 1

As shown in fig. 1 to 5, an embodiment 1 of a cake mold according to the present utility model includes a mold body 1 made of silica gel embedded with glass fiber net, wherein the silica gel is made of soft material, has good toughness and high temperature resistance, but is easy to deform, especially after being stressed, the deformation is aggravated, and the mold body 1 is not easy to maintain its inherent regular shape; the glass fiber net is a reticular cloth formed by braiding and bonding glass fibers, has the advantages of high temperature resistance, corrosion resistance and high elastic coefficient, and is embedded into silica gel to form the die body 1, so that the hardness of the die body 1 can be increased, and the deformation amount of the die body 1 after being stressed can be reduced; the mould body 1 is provided with at least one placing cavity 2 with an opening at the top, the placing cavity 2 is used for forming cakes, cake liquid is stored in the placing cavity 2 during baking, and after baking, the cakes can be formed in the placing cavity 2; the flange 3 extends outwards from the periphery of the die body 1, and the flange 3 serves as the edge of the die body 1 and has the function of reinforcing the hardness of the periphery of the die body 1; moreover, the flange 3 can facilitate the taking and placing of the die body 1 and the transfer of the die body 1; the flange 3 is wrapped with the covered edge 4 made of a hard material, the hard material can be made of a metal material, the metal material has good temperature resistance, and meanwhile, the metal material has strong hardness and deformation resistance, and can be taken out, put in or transferred in the die body 1, so that the safety coefficient is improved, and the die body 1 is prevented from falling off; the cavity is established in the flange 3, still wraps up in the flange 3 has the joint strip 5, utilizes the joint strip 5 to fill the cavity in the flange 3, makes flange 3 and bordure 4 closely laminate through joint strip 5, and the flange 3 that sets up the cavity can reduce the thickness of flange 3, reduces the deformation of flange 3, and flange 3 and bordure 4 closely laminate and can reduce the flange 3 and bordure the relative movement between 4, and then reduce the friction, so can avoid the problem that mould body 1 breaks away from bordure 4 and drop from certain degree in the use.

Further, the upper edge of the placement cavity 2 is outwardly extended with a hand step 6, and the flange 3 is provided at the outer edge of the hand step 6. The flanges 3 are spaced from the placing cavity 2 by a certain distance, so that a hand step 6 is formed between the corresponding flange 3 of the die body 1 and the placing cavity 2, the hand step 6 is a holding area, namely, when a cake mould is taken and placed, the hand step 6 is held, so that the cake mould can be conveniently held and transferred, and the flange 3 plays a role in skid resistance. The flange 3 is of a hemming structure, the flange 3 and the hand steps 6 are integrally formed, the flange 3 is curled inwards from the outer sides of the hand steps 6, curled edges can be abutted with the hand steps, the flanges can be abutted, and the filling rubber strips 5 are wrapped in the hemming structure; preferably, the flange 3 is curled into an arc shape, the flange 3 is arranged above the hand-held step 6, the joint of the flange 3 and the hand-held step 6 is smoothly transited, the curled edge of the flange 3 is abutted against the hand-held step 6 to finally form a shape similar to a circle, of course, the flange 3 can also form only one arc shape, and the thickness of the flange 3 is consistent with the thickness of the hand-held step 6. Preferably, the flange 3, the step 6, and the placement cavity 2 are integrally formed. Stainless steel is a food vessel material which is high in performance, high in temperature resistance, corrosion resistance, good in deformation resistance and common in use, stainless steel is used as a wrapping edge 4 to wrap the outer side of a flange 3 made of silica gel embedded glass fiber net, and the inner side of the flange 3 is filled with a filling rubber strip 5, so that the edge of a die body 1 has enough hardness and deformation resistance, and the die body 1 can be conveniently taken and placed for transferring. Preferably, the bead filler 5 is a silica gel strip. The toughness of the silica gel strip is good, the sealing performance is also good, and in the repeated extrusion process of the covered edge 4, the breakage can be avoided, and the service life of the whole cake mould is prolonged. Specifically, the cross section of the bead filler 5 is circular. The shape of the bead filler 5 with a round cross section is matched with that of the hemming structure of the flange 3, so that the fit degree of the bead filler 5 and the hemming structure is higher.

As a modification of this embodiment, the cross-sectional area of the opening of the placement chamber 2 is larger than the cross-sectional area of the bottom. The placing cavity 2 with the cross section area at the opening being larger than the cross section area of the bottom can facilitate demolding after cake baking and molding.

As a modification of this embodiment, the wall thickness of the placement chamber 2 is 5 to 15mm. The design of the thickness of the placing cavity 2 integrates the consideration of the strength and the deformation amount, so that the placing cavity has better performance.

Example 2

As shown in fig. 6 to 7, in embodiment 2 of a cake mould according to the present utility model, the difference is that the flange 3 is of a curled edge structure, the flange 3 is curled outward from the periphery of the hand step 6, the flange 3 is disposed below the hand step 6, the curled edge may or may not abut against the hand step, and the bead filler 5 is wrapped in the curled edge structure. The flange 3 is curled outwards and downwards, preferably, the flange 3 is curled into a shape similar to a circle, the top of the flange 3 is flush with the upper surface of the hand-held step 6, the bottom of the flange 3 is lower than the lower surface of the hand-held step 6, the wrapping edge 4 is wrapped outside the flange 3, and when the hand-held step 6 is held, the wrapping edge 4 forms a limit, so that the strength and reliability of holding can be improved, and the risk of dropping a cake mould in the hand-held process is further reduced.

The cake mould of the utility model is manufactured as follows, see fig. 11:

respectively manufacturing a glass fiber net, a silica gel strip and pre-bending a stainless steel wrapping; the glass fiber net is formed by pressing a planar glass fiber net mold into a required three-dimensional shape, and then spraying silica gel; the preparation of the silica gel strip is to carry out injection or hydraulic molding through a die, and then the glass fiber net sprayed with silica gel is bonded and fused with the silica gel strip to form a die body; the stainless steel edge is pre-bent by punching a steel plate into hardware segments, bending edges of the hardware segments to form quadrilateral semi-finished products, loading edges of the die body into the semi-finished products of the edge, and finally stamping the die body and the stainless steel edge together by using a punch to form a cake mold with a flange filled with a silica gel strip and wrapped with the stainless steel edge.

Example 3

As shown in fig. 8 to 10, an embodiment 3 of a cake mould according to the present utility model is similar to the embodiment 1, except that a plurality of placing cavities 2 are sequentially provided along the mould body 1, and connecting steps are provided between the tops of the openings of the adjacent placing cavities 2, and the connecting steps are connected with the hand steps 6 and are located on the same horizontal plane.

When the number of the placing cavities 2 is one, the die can be used for making cakes with large sizes, when the number of the placing cavities 2 is multiple, cakes with smaller sizes can be made, preferably, the number of the placing cavities 2 is even, the placing cavities 2 are distributed in an array form, and the die body 1 is of a rectangular structure. The even number of the placing cavities 2 can fully utilize the space of the die body 1, and the space waste is reduced. Of course, the die body 1 may have a circular structure, the number of the placing cavities 2 may be odd, and the placing cavities 2 may be uniformly distributed in a circular ring shape. The shape of the placement cavity 2 can be set correspondingly according to the needs, and the placement cavity 2 can have a plurality of different shapes to meet the modeling requirements of cakes within the knowledge of the person skilled in the art.

It is to be understood that the above examples of the present utility model are provided by way of illustration only and not by way of limitation of the embodiments of the present utility model. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are desired to be protected by the following claims.

Claims (10)

1. The cake mould is characterized by comprising a mould body (1) made of flexible materials, wherein the mould body (1) is provided with at least one placing cavity (2) with an opening at the top, the peripheral edge of the mould body (1) is outwards extended with a flange (3), and the flange (3) is externally wrapped with a wrapping edge (4) made of hard materials; the flange (3) is internally provided with a cavity, and the flange (3) is internally wrapped with a filling rubber strip (5).

2. Cake mould according to claim 1, characterized in that the upper edge of the placement cavity (2) extends outwards with a hand step (6), the flange (3) being arranged at the outer edge of the hand step (6).

3. The cake mould according to claim 2, characterized in that the flange (3) is of a curled edge structure, the flange (3) is curled inwards from the periphery of the hand step (6), the flange (3) is arranged above the hand step (6), and the filling rubber strip (5) is wrapped in the curled edge structure.

4. The cake mould according to claim 2, characterized in that the flange (3) is of a curled edge structure, the flange (3) is curled outwards from the periphery of the hand step (6), the flange (3) is arranged below the hand step (6), and the filling rubber strip (5) is wrapped in the curled edge structure.

5. Cake mould according to claim 4, characterized in that the flange (3), the hand step (6), the placement cavity (2) are integrally formed.

6. The cake mould according to any one of claims 1 to 5, characterized in that the hard material is stainless steel, the flexible material is silica gel, and the bead filler (5) is a silica gel strip.

7. Cake mould according to claim 6, characterized in that the flexible material of the mould body (1) made is embedded with a glass fibre web.

8. Cake mould according to claim 7, characterized in that the cross section of the filling strip (5) is circular.

9. Cake mould according to claim 1, characterized in that the cross-sectional area of the opening of the placement cavity (2) is larger than the cross-sectional area of the bottom.

10. Cake mould according to claim 2, characterized in that the said placing cavities (2) are multiple, arranged in sequence along the mould body (1), between the tops of the adjacent placing cavities (2) openings there are connecting steps, which are connected with the said hand steps (6) and are located on the same horizontal plane.

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