Sliding telescopic holding member, host computer assembly and integrated cooker
The sliding telescopic handle solves the problems of burns and oil stains when cleaning the smoke guide plate of the integrated stove, providing a safe and convenient way to clean the smoke guide plate. The structure is simple and the cost is low.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HANGZHOU ROBAM APPLIANCES CO LTD
- Filing Date
- 2025-06-26
- Publication Date
- 2026-07-03
AI Technical Summary
Users are prone to burns and getting their hands dirty when cleaning the smoke guide plate of an integrated stove, mainly due to the high surface temperature of the smoke guide plate and the heavy adhesion of oil stains.
Design a sliding telescopic gripper, including a telescopic cavity, a pickup component, a sliding part, a limiting component, and a delay component. The pickup component is located away from the center of the smoke guide plate. Through the sliding bracket and slider structure in the telescopic cavity, the smoke guide plate can be easily gripped, avoiding the influence of heat and oil.
It achieves the effect of not getting burned or dirtying hands when cleaning the smoke guide plate, while having a simple structure, low cost, not taking up extra space, and providing a good user experience.
Smart Images

Figure CN224454679U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of household appliance technology, specifically relating to a sliding telescopic gripper, a host computer assembly, and an integrated stove. Background Technology
[0002] With the increasingly fast pace of modern life, the kitchen, as the heart of family life, is seeing integrated cooktops play an increasingly important role. An integrated cooktop typically consists of a host unit, the cooktop itself, and a slave unit. The host unit includes components such as smoke guides and baffles, with the smoke guides primarily serving to direct the flow of cooking fumes and block debris.
[0003] However, because the smoke guide plate is close to the burner, it receives a lot of heat radiation during cooking. Its surface temperature is often high after cooking. In addition, a lot of oil stains produced during cooking adhere to the surface, making it easy for users to get burned or their hands dirty with oil stains when they pick up the smoke guide plate to clean it.
[0004] Therefore, it is necessary to design a structure that is easy to hold in order to avoid the above-mentioned problems. Utility Model Content
[0005] To address the aforementioned technical problems, this application further improves the holding structure of the integrated stove's host computer component, aiming to avoid the negative impact of high surface temperature and oil stains on the user's holding experience. One objective of this utility model is to provide a sliding telescopic holding component; another is to provide a corresponding host computer component; and a third is to provide a corresponding integrated stove.
[0006] The specific technical solution is explained below:
[0007] The sliding telescopic grip includes:
[0008] The telescopic cavity provides space for the telescopic structure;
[0009] The pickup component is retractably disposed within the telescopic cavity. The pickup component includes a pull plate and a sliding bracket. The pull plate is telescopically connected to the telescopic cavity via the sliding bracket.
[0010] A sliding part is disposed within the telescopic cavity. The sliding part includes a slide rail and a slider slidably connected on the slide rail. The slide rail is located on both sides of the telescopic trajectory of the pickup element, and the slider is connected to the sliding bracket.
[0011] In the above technical solution, since the pickup is located far from the center of the smoke guide plate and is set on the side of the smoke guide plate facing away from the burner, the pickup is not easily affected by heat and is not easily contaminated by oil fumes. Users can simply remove the smoke guide plate by extending the pickup without getting burned or getting their hands dirty.
[0012] Preferred options also include:
[0013] A limiting member is disposed within the telescopic cavity to limit the extension range of the pickup member;
[0014] A delay element is disposed within the telescopic cavity to delay the displacement of the pickup element when it is in the retracted state.
[0015] In the above technical solution, when the smoke guide plate needs to be cleaned, the user can pull the pickup out of the telescopic cavity by overcoming the resistance of the delay component, forming a convenient "pickup handle". When the host computer component is in use, it can put the pickup into the telescopic cavity. At this time, the delay component prevents the pickup from shifting, does not occupy extra space, and does not hinder the user's cooking operation.
[0016] Preferably, the sliding bracket has support rods on both sides, and the slider is connected to the support rods; more preferably, it also includes a connector, and the slider is connected to the support rods through the connector;
[0017] In the above technical solution, the connector is an independent component, which facilitates connection operation and makes it easy to repair or replace parts when a fault occurs.
[0018] Preferably, the pull plate has a groove on the side facing the extension direction, which can be used as a leverage point for pulling the pickup.
[0019] Preferably, the slider has a limiting surface on the side facing the extension direction, and the slider has a resistance surface on the side adjacent to the inner wall of the telescopic cavity.
[0020] More preferably, the limiting member is disposed at the maximum extension stroke of the pickup member, and the limiting member limits the extension range of the pickup member by abutting against the limiting surface; the delay member is disposed on the retraction trajectory of the pickup member, and the delay member delays the displacement of the pickup member by rubbing against the delay surface.
[0021] Preferably, the delay element is a flexible element, which can avoid rigid collisions during operation, provide sufficient elastic space for the extension and retraction of the picking element, and improve the user experience.
[0022] The host computer component includes a smoke guide plate, and the inner lining plate of the smoke guide plate is provided with telescopic gripping members as described in any of the above technical solutions on both sides. When the picking member is in the extended state, it extends outward from both sides of the smoke guide plate.
[0023] The integrated cooktop includes the aforementioned host computer components.
[0024] In summary, the technical solution described in this utility model has the following main beneficial effects:
[0025] Compared with the prior art, in the technical solution of this utility model, when it is necessary to clean the smoke guide plate, since the picking part is not easily affected by heat and is not easily contaminated by oil fumes, the user only needs to remove the smoke guide plate by the extended picking part, without being burned or getting their hands dirty.
[0026] Furthermore, the item retraction and extension operation offers a better user experience.
[0027] Meanwhile, the telescopic gripper has a simple structure and low manufacturing cost.
[0028] Further or more detailed beneficial effects will be described in conjunction with specific embodiments in the detailed implementation. Attached Figure Description
[0029] Figure 1 This is a schematic diagram of the host computer structure with a sliding telescopic gripper as described in the embodiments of this application;
[0030] Figure 2 This is a schematic diagram of the inner side structure of the host computer as described in the embodiments of this application;
[0031] Figure 3 This is a schematic diagram of the internal structure of the telescopic gripper in the retracted state in the embodiments of this application;
[0032] Figure 4 This is a schematic diagram of the internal structure of the telescopic gripper in the initial extended state in the embodiments of this application;
[0033] Figure 5 This is a schematic diagram of the structure of the pickup component in the embodiment of this application, in the state of being about to retract.
[0034] Figure label:
[0035] 1: Telescopic cavity;
[0036] 2: Pick-up component; 2.1: Pull plate; 2.11: Pull groove; 2.2: Sliding bracket; 2.21: Frame rod;
[0037] 3: Sliding part; 3.1: Slide rail; 3.2: Slider; 3.21: Limiting surface; 3.22: Resistance surface;
[0038] 4: Limiting components;
[0039] 5: Extension components;
[0040] 6: Connectors;
[0041] a: Smoke guide plate, b: Telescopic gripper. Detailed Implementation
[0042] The present invention will be further explained in conjunction with the embodiments:
[0043] The core technical problem faced by the technical solution of this application embodiment stems from the inventor's accurate understanding of the prior art. Therefore, how to solve the problem that users are easily burned and their hands are easily soiled by oil when they pick up the smoke guide plate for cleaning is a technical problem that the inventor urgently needs to solve.
[0044] It should be noted that the embodiments do not constitute a limitation on the scope of protection of the claims of this utility model. All technical solutions that can be reasonably expected by those skilled in the art based on the technical concepts provided / proved by the embodiments should be covered within the scope of protection of the claims of this utility model.
[0045] The specific implementation examples are detailed below:
[0046] Please refer to the attached document first. Figure 1 Integrated cooktops typically consist of a host computer, cooktops, and a slave computer, with attachments... Figure 1 The diagram shows the typical structure of the host computer, which includes components such as the smoke guide plate a and the smoke baffle. The smoke guide plate a mainly guides the flow of oil fumes and blocks foreign objects. Since the smoke guide plate a is close to the burner, it receives a lot of heat radiation during cooking. After cooking, its surface temperature is high. In addition, a lot of oil stains produced during cooking adhere to this surface, making it easy for users to get burned and their hands to get dirty with oil stains when they pick up the smoke guide plate for cleaning.
[0047] To address the aforementioned technical problems, this embodiment first provides a sliding telescopic gripper:
[0048] Please continue to refer to the appendix. Figures 1-5 The telescopic gripper b is set on both sides of the smoke guide plate a in the host computer assembly. When the pickup 2 inside the telescopic gripper b is in the extended state, it extends outward to both sides of the smoke guide plate a.
[0049] In the technical solution of this embodiment, when it is necessary to clean the smoke guide plate a, the picking member 2 slides out of the telescopic cavity 1 to form a convenient picking handle. When the host computer component is in use, the picking member 2 can be retracted into the telescopic cavity 1 without taking up extra space and without hindering the user's cooking operation.
[0050] Since the pickup handle is located away from the center of the smoke guide plate a and is positioned on the side of the smoke guide plate a facing away from the burner, the pickup part 2 is not easily affected by heat and is not easily contaminated by oil fumes. Users can simply remove the smoke guide plate a using the extended pickup part 2 without getting burned or getting their hands dirty.
[0051] Specifically, the aforementioned sliding telescopic gripper includes a telescopic cavity 1 and a pickup 2, a sliding part 3, a limiting part 4, and a delaying part 5 disposed within the telescopic cavity 1, wherein:
[0052] The pickup component 2 includes a pull plate 2.1 and a sliding bracket 2.2. The pull plate 2.1 is telescopically connected to the telescopic cavity 1 via the sliding bracket 2.2. The pull plate 2.1 has a pull groove 2.11 on the side facing the extension direction. When the user needs to pull out the pickup component 2, the pull groove 2.11 can be used as a force-bearing structure to facilitate the pulling out of the pickup component 2. One end of the sliding bracket 2.2 is fixedly connected to the inner side of the pull plate 2.1. A support rod 2.21 is provided on both sides of the fixed connection. The support rod 2.21 is connected to the slider 3.2 via a connector 6. A connecting plate is provided on both sides of the connector 6 to provide a base for screw connection. The two connecting plates are integrally formed by a base plate to form a "U" shaped connector 6. The connector 6 is an independent component, which facilitates connection operation and also facilitates maintenance or replacement of parts in case of failure.
[0053] The sliding part 3 is disposed in the telescopic cavity 1 and located on both sides of the telescopic trajectory of the pickup 2. The sliding part 3 includes two slide rails 3.1 and the aforementioned slider 3.2 slidably connected on each slide rail 3.1. The slide rails 3.1 and the slider 3.2 provide the basis for the sliding telescopic movement of the pickup 2.
[0054] The limiting member 4 is disposed in the telescopic cavity 1 to limit the extension range of the pickup member 2. The slider 3.2 is provided with a limiting surface 3.21 on the side facing the extension direction. The limiting member 4 is disposed at the maximum stroke of the pickup member 2. The limiting member 4 limits the extension range of the pickup member 2 by abutting against the limiting surface 3.21.
[0055] The delay element 5 is also disposed in the telescopic cavity 1 to delay the displacement of the pickup 2 when it is in the retracted state. The delay element 5 is a flexible block or dot-shaped part made of rubber. The slider 3.2 is provided with a delay surface 3.22 on the side adjacent to the inner wall of the telescopic cavity 1. The delay element 5 is disposed on the retracted stroke trajectory of the pickup 2. The delay element 5 delays the displacement of the pickup 2 by frictional contact with the delay surface 3.22, so that the pickup 2 will not move randomly when it is in the retracted state and will remain in the retracted state. At the same time, the rubber delay element 5 can avoid rigid collisions during operation and provide sufficient elastic space for the telescopic operation of the pickup 2, resulting in a better operating experience.
[0056] In actual operation, when it is necessary to clean the smoke guide plate a, the user can pull the pickup 2 out of the telescopic cavity 1 by overcoming the resistance of the extension member 5, forming a convenient picking handle, and then lift the smoke guide plate a through the picking handle; when it is not necessary to clean the smoke guide plate a, the pickup 2 can be put back into the telescopic cavity 1. At this time, the limiting member 4 separates from the slider 3.2, and reaches the maximum stroke after passing through the extension member 5. The extension member 5 prevents the displacement of the pickup 2 through frictional contact, without taking up extra space and without hindering the user's cooking operation.
[0057] This embodiment also relates to a host computer component and an integrated stove using the host computer component. The host computer component includes the above-mentioned smoke guide plate a. The left and right sides of the inner lining plate of the smoke guide plate a are each provided with a telescopic holding member b as described in any of the above embodiments. When the picking member 2 is in the extended state, it extends outward to both sides of the smoke guide plate a. When cleaning is required, the user only needs to remove the smoke guide plate a through the extended picking member 2, without being burned or getting their hands dirty.
[0058] In the description of this specification, the references to terms such as "embodiment," "basic embodiment," "preferred embodiment," "other embodiment," "example," "specific example," or "some examples," etc., indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.
[0059] Although preferred embodiments of the present invention have been described, those skilled in the art, upon learning the basic inventive concept, can make other changes and modifications to these embodiments. Therefore, the appended claims are intended to be interpreted as including the preferred embodiments as well as all changes and modifications falling within the scope of the present invention.
[0060] Obviously, those skilled in the art can make various modifications and variations to this utility model without departing from its spirit and scope. Therefore, if these modifications and variations fall within the scope of the claims of this utility model and their equivalents, this utility model also intends to include these modifications and variations.
Claims
1. A sliding telescopic holder, characterized in that, Including: The telescopic cavity (1) provides a space for accommodating the telescopic structure; The pickup component (2) is telescopically disposed in the telescopic cavity (1). The pickup component (2) includes a pull plate (2.1) and a sliding bracket (2.2). The pull plate (2.1) is telescopically connected to the telescopic cavity (1) through the sliding bracket (2.2). The sliding part (3) is disposed in the telescopic cavity (1). The sliding part (3) includes a slide rail (3.1) and a slider (3.2) slidably connected on the slide rail (3.1). The slide rail (3.1) is located on both sides of the telescopic trajectory of the pickup (2). The slider (3.2) is connected to the sliding bracket (2.2).
2. The telescoping handle of claim 1, wherein, It also includes: A limiting member (4) is disposed in the telescopic cavity (1) to limit the extension range of the picking member (2); The delay element (5) is disposed in the telescopic cavity (1) and is used to delay the displacement of the pickup element (2) when it is in the retracted state.
3. The telescoping handle of claim 1, wherein: The sliding bracket (2.2) has support rods (2.21) on both sides, and the slider (3.2) is connected to the support rods (2.21).
4. The telescoping handle of claim 3, wherein: It also includes a connector (6), through which the slider (3.2) is connected to the frame rod (2.21).
5. The telescopic handle according to any one of claims 1 to 4, characterized in that: The pull plate (2.1) has a pull groove (2.11) on the side facing the extension direction.
6. The telescoping handle of claim 2, wherein: The slider (3.2) has a limiting surface (3.21) on the side facing the extension direction, and a resistance surface (3.22) is provided on the side of the slider (3.2) adjacent to the inner wall of the telescopic cavity (1).
7. The telescoping handle of claim 6, wherein: The limiting member (4) is located at the maximum extension of the pickup member (2), and the limiting member (4) limits the extension range of the pickup member (2) by abutting against the limiting surface (3.21).
8. The telescoping handle of claim 6, wherein: The delay element (5) is disposed on the retraction trajectory of the pickup element (2), and the delay element (5) delays the displacement of the pickup element (2) by frictional contact with the delay surface (3.22).
9. An assembly for a host computer comprising a smoke baffle (a), characterised in that: The inner lining of the smoke guide plate (a) is provided with telescopic gripping members (b) as described in any one of claims 1 to 8 on both sides, and the picking member (2) extends outward from both sides of the smoke guide plate (a) when it is in the extended state.
10. The integrated cooktop of claim 1, wherein: It includes the host computer component as described in claim 9.