A fabricated kitchen mockup structure
The combination structure of base plate unit, guide rail unit, cabinet unit, guard plate unit and locking unit solves the problem of complicated cabinet disassembly and assembly in kitchen showrooms, realizes rapid installation and disassembly, avoids damage to the boards and improves the secondary utilization rate.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANGHAI PT ARCHITECTURE DESIGN & CONSULTANT CO LTD
- Filing Date
- 2025-08-06
- Publication Date
- 2026-07-07
AI Technical Summary
The existing kitchen model room cabinets are complicated to disassemble and assemble, and damaged parts are difficult to reuse. The traditional fixed installation method increases the complexity of installation and disassembly, and may damage the boards.
It adopts a combined structure of base plate unit, guide rail unit, cabinet unit, guard plate unit and locking unit. The guide rail unit guides the cabinet to slide and install, the guard plate unit limits the side, and the locking unit forms a rigid fixation, so as to realize quick insertion and disassembly.
It enables rapid installation and disassembly of the cabinet without the need for precise alignment, avoiding problems such as stripped screws and cracked panels in traditional connection methods, and improving assembly and disassembly efficiency and secondary utilization rate.
Smart Images

Figure CN224468570U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of prefabricated kitchens, and in particular to a prefabricated kitchen model room structure. Background Technology
[0002] Kitchen showrooms are important spaces for showcasing kitchen design concepts, functional layouts, material combinations, and living scenarios. They provide consumers with decorating inspiration and demonstrate a brand's design capabilities. Creating an attractive kitchen showroom requires a balance of practicality, aesthetics, innovation, and a immersive experiential environment.
[0003] Most cabinet components in existing kitchen showrooms are fixedly installed, meaning they are rigidly connected to the walls and floors using screws, adhesives, or welding. While this method ensures structural stability, it significantly increases the complexity of installation and disassembly. Installation requires precise positioning and drilling, causing irreversible damage to the walls, and each component must be assembled in a fixed order, leaving very little room for error. Disassembly requires disassembling each connector individually, which is not only time-consuming and labor-intensive but may also cause cabinet panels to crack and hardware to be damaged due to forced disassembly, making them unusable for reuse.
[0004] Currently, no effective solution has been proposed to address the problems of complex disassembly and assembly of kitchen cabinets and the difficulty in reusing damaged parts in related technologies. Utility Model Content
[0005] The purpose of this utility model is to address the shortcomings of existing technologies by providing a prefabricated kitchen model room structure, thereby solving the problems of complex disassembly and assembly of kitchen cabinets and difficulty in reusing damaged parts in related technologies.
[0006] To achieve the above objectives, the technical solution adopted by this utility model is as follows:
[0007] A prefabricated kitchen model room structure includes:
[0008] A base plate unit, wherein the base plate unit is disposed on a horizontal plane;
[0009] At least one guide rail unit is disposed at the top of the base plate unit and connected to the base plate unit;
[0010] At least one cabinet unit is removably disposed at the top of the guide rail unit for moving along the length of the guide rail unit;
[0011] At least one protective panel unit is removably disposed between the base plate unit and the cabinet unit and abuts against the cabinet unit to restrict the movement of the cabinet unit;
[0012] At least one locking unit is provided, which abuts against the base plate unit, the cabinet unit, and the guard plate unit respectively, and is used to restrict the movement of the guard plate unit.
[0013] In some embodiments, the base plate unit includes:
[0014] A base plate element, wherein the top of the base plate element is provided with the guide rail unit and the guard plate unit;
[0015] At least one first limiting element is disposed at the top of the base plate element and abuts against the locking unit.
[0016] In some embodiments, the base plate unit further includes:
[0017] At least one first magnetic attraction element is disposed at the bottom end inside the first limiting element and is magnetically connected to the locking unit.
[0018] In some embodiments, the guide rail unit includes:
[0019] A guide rail element is disposed at the top of the base plate unit and connected to the base plate unit;
[0020] Two grooved elements are symmetrically arranged at the top of the guide rail element. The cabinet unit is arranged inside the grooved elements to allow the cabinet unit to move along the length direction of the grooved elements.
[0021] In some embodiments, the cabinet unit includes:
[0022] A cabinet element, which is removably disposed at the top of the guide rail unit and is used to move along the length direction of the guide rail unit;
[0023] A plurality of movable elements are disposed at the bottom end of the cabinet element for driving the cabinet element to move;
[0024] The second limiting element is disposed on the side of the cabinet element and abuts against the guard plate unit;
[0025] The third limiting element is disposed at the bottom of the cabinet element and abuts against the locking unit.
[0026] In some embodiments, the cabinet unit further includes:
[0027] The first through slot element is disposed at the bottom of the interior of the cabinet element and is connected to the third limiting element for the operator to pass through.
[0028] In some embodiments, the guard plate unit includes:
[0029] A protective panel element, which is removably disposed between the base plate unit and the cabinet unit;
[0030] A fourth limiting element is disposed at the top of the guard plate element and abuts against the cabinet unit to restrict the movement of the cabinet unit;
[0031] A fifth limiting element is provided, which penetrates the protective plate element and abuts against the locking unit.
[0032] In some embodiments, the locking unit includes:
[0033] A locking element is provided, which abuts against the base plate unit, the cabinet unit, and the guard plate unit respectively, and is used to restrict the movement of the guard plate unit.
[0034] In some embodiments, the locking unit further includes:
[0035] The second magnetic element is disposed at the bottom end of the locking element and is magnetically connected to the base plate unit.
[0036] In some embodiments, the locking unit further includes:
[0037] A second through-slot element, which extends through the locking element, is provided for the operator to pass through.
[0038] The present invention adopts the above technical solution and has the following technical effects compared with the prior art:
[0039] This utility model discloses a prefabricated kitchen model room structure. It utilizes a base plate unit to provide a stable foundation; a guide rail unit guides the cabinet unit to slide along a preset trajectory for installation, replacing the traditional bolt-on connection, allowing the cabinet unit to be quickly embedded without precise alignment; a guard plate unit limits the cabinet unit from the side, and a locking unit abuts against the base plate unit, cabinet unit, and guard plate unit to form a rigid fixation, preventing shaking. Moreover, unlocking only requires lifting the locking unit, and disassembly can be completed without tools, solving the problems of stripped screws and cracked panels in traditional disassembly and assembly. Attached Figure Description
[0040] Figure 1 This is a structural schematic diagram of a prefabricated kitchen model room according to an embodiment of the present utility model;
[0041] Figure 2This is an exploded view of the prefabricated kitchen model room structure according to an embodiment of the present utility model;
[0042] Figure 3 This is a structural schematic diagram of the base plate unit according to an embodiment of the present utility model;
[0043] Figure 4 This is a schematic diagram of the guide rail unit according to an embodiment of the present utility model;
[0044] Figure 5 This is a structural schematic diagram of the cabinet unit according to an embodiment of the present utility model;
[0045] Figure 6 This is a structural schematic diagram of the protective plate unit according to an embodiment of the present utility model;
[0046] Figure 7 This is a schematic diagram of the locking unit according to an embodiment of the present utility model.
[0047] The reference numerals in the attached drawings are: 10, base plate unit; 11, base plate element; 12, first limiting element; 13, first magnetic attraction element;
[0048] 20. Guide rail unit; 21. Guide rail component; 22. Groove component;
[0049] 30. Cabinet unit; 31. Cabinet component; 32. Moving component; 33. Second limiting component; 34. Third limiting component; 35. First through slot component;
[0050] 40. Guard plate unit; 41. Guard plate element; 42. Fourth limiting element; 43. Fifth limiting element;
[0051] 50. Locking unit; 51. Locking element; 52. Second magnetic attraction element; 53. Second through slot element. Detailed Implementation
[0052] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0053] It should be noted that, unless otherwise specified, the embodiments and features described in these embodiments of the present invention can be combined with each other.
[0054] The present invention will be further described below with reference to the accompanying drawings and specific embodiments, but this is not intended to limit the present invention.
[0055] An illustrative embodiment of this utility model, such as Figure 1 , Figure 2 As shown, a prefabricated kitchen model room structure includes a base plate unit 10, at least one guide rail unit 20, at least one cabinet unit 30, at least one guard plate unit 40, and at least one locking unit 50. The base plate unit 10 is disposed on a horizontal plane; the guide rail unit 20 is disposed at the top of the base plate unit 10 and connected to it; the cabinet unit 30 is removably disposed at the top of the guide rail unit 20 for movement along the length of the guide rail unit 20; the guard plate unit 40 is removably disposed between the base plate unit 10 and the cabinet unit 30 and abuts against the cabinet unit 30 to restrict the movement of the cabinet unit 30; the locking unit 50 abuts against the base plate unit 10, the cabinet unit 30, and the guard plate unit 40 respectively to restrict the movement of the guard plate unit 40.
[0056] like Figure 3 As shown, the base plate unit 10 includes a base plate element 11 and at least one first limiting element 12. The top end of the base plate element 11 is provided with a guide rail unit 20 and a guard plate unit 40; the first limiting element 12 is disposed at the top end of the base plate element 11 and abuts against the locking unit 50.
[0057] The cross-section of the base plate element 11 is rectangular.
[0058] In some of these embodiments, the base plate element 11 is made of steel.
[0059] In some of these embodiments, the base plate element 11 is a base plate.
[0060] The cross-section of the first limiting element 12 is rectangular.
[0061] The dimensions of the first limiting element 12 are matched with the dimensions of the base plate element 11. Generally, the length of the first limiting element 12 is less than the length of the base plate element 11, the width of the first limiting element 12 is less than the width of the base plate element 11, and the height of the first limiting element 12 is less than the height of the base plate element 11.
[0062] In some of these embodiments, the first limiting element 12 is a first limiting groove.
[0063] Furthermore, the base plate unit 10 also includes at least one first magnetic attraction element 13. The first magnetic attraction element 13 is disposed at the bottom end inside the first limiting element 12 and is magnetically connected to the locking unit 50.
[0064] The cross-section of the first magnetic element 13 is rectangular.
[0065] The dimensions of the first magnetic element 13 are matched with the dimensions of the first limiting element 12. Generally, the length of the first magnetic element 13 is not greater than the length of the first limiting element 12, the width of the first magnetic element 13 is not greater than the width of the first limiting element 12, and the height of the first magnetic element 13 is less than the height of the first limiting element 12.
[0066] In some embodiments, the first magnetic element 13 is fixedly connected to the base plate element 11, including but not limited to bolt connection.
[0067] In some of these embodiments, the first magnetic element 13 is made of neodymium iron boron.
[0068] In some of the embodiments, the first magnetic element 13 is a first magnetic block.
[0069] like Figure 4 As shown, the guide rail unit 20 includes a guide rail element 21 and two groove elements 22. The guide rail element 21 is disposed at the top of the base plate unit 10 and connected to the base plate unit 10; the two groove elements 22 are symmetrically disposed at the top of the guide rail element 21, and a cabinet unit 30 is disposed inside the groove element 22 for moving the cabinet unit 30 along the length direction of the groove element 22.
[0070] Specifically, the guide rail element 21 is disposed at the top of the base plate element 11 and is connected to the base plate element 11.
[0071] The cross-section of the guide rail element 21 is rectangular.
[0072] The dimensions of the guide rail element 21 are matched with the dimensions of the base plate element 11. Generally, the length of the guide rail element 21 is less than the length of the base plate element 11, the width of the guide rail element 21 is less than the width of the base plate element 11, and the height of the guide rail element 21 is less than the height of the base plate element 11.
[0073] In some embodiments, the guide rail element 21 is fixedly connected to the base plate element 11, including but not limited to bolt connections.
[0074] In some of these embodiments, the guide rail element 21 is made of steel.
[0075] In some of these embodiments, the guide rail element 21 is a guide rail plate.
[0076] The cross-section of the groove element 22 is rectangular.
[0077] The dimensions of the groove element 22 are matched with the dimensions of the guide rail element 21. Generally, the length of the groove element 22 is equal to the length of the guide rail element 21, the width of the groove element 22 is equal to the width of the guide rail element 21, and the height of the groove element 22 is less than the height of the guide rail element 21.
[0078] In some of these embodiments, the groove element 22 is a guide groove.
[0079] like Figure 5 As shown, the cabinet unit 30 includes a cabinet element 31, several moving elements 32, a second limiting element 33, and a third limiting element 34. The cabinet element 31 is removably disposed at the top of the guide rail unit 20 for moving along the length of the guide rail unit 20; the several moving elements 32 are disposed at the bottom of the cabinet element 31 for driving the cabinet element 31 to move; the second limiting element 33 is disposed on the side of the cabinet element 31 and abuts against the guard plate unit 40; the third limiting element 34 is disposed at the bottom of the interior of the cabinet element 31 and abuts against the locking unit 50.
[0080] Specifically, the cabinet element 31 is removably disposed on the top of the guide rail element 21, and the side of the cabinet element 31 is flush with the side of the guide rail element 21; a plurality of moving elements 32 are respectively located inside the corresponding groove element 22; the third limiting element 34 corresponds to the first limiting element 12.
[0081] Cabinet component 31 has an open front end and a closed rear end.
[0082] The dimensions of the cabinet element 31 are matched with the dimensions of the guide rail element 21. Generally, the length of the cabinet element 31 is not less than or greater than the length of the guide rail element 21, the width of the cabinet element 31 is greater than the width of the guide rail element 21, and the height of the cabinet element 31 is greater than the height of the guide rail element 21.
[0083] In some of these embodiments, the cabinet element 31 is made of metal.
[0084] In some of these embodiments, cabinet element 31 is a cabinet.
[0085] In some embodiments, the movable element 32 is fixedly connected to the cabinet element 31, including but not limited to bolt connections.
[0086] In some of these embodiments, the movable element 32 is a caster wheel.
[0087] The cross-section of the second limiting element 33 is rectangular.
[0088] The dimensions of the second limiting element 33 are matched with the dimensions of the cabinet element 31. Generally, the length of the second limiting element 33 is less than the outer width of the cabinet element 31, the width of the second limiting element 33 is less than the inner wall thickness of the cabinet element 31, and the height of the second limiting element 33 is less than the outer height of the cabinet element 31.
[0089] In some of these embodiments, the second limiting element 33 is a second limiting groove.
[0090] The cross-section of the third limiting element 34 is rectangular.
[0091] The dimensions of the third limiting element 34 are matched with the dimensions of the cabinet element 31. Generally, the length of the third limiting element 34 is less than the inner length of the cabinet element 31, the width of the third limiting element 34 is less than the inner width of the cabinet element 31, and the height of the third limiting element 34 is equal to the bottom wall thickness of the cabinet element 31.
[0092] The dimensions of the third limiting element 34 are matched with the dimensions of the first limiting element 12. Generally, the length of the third limiting element 34 is equal to the length of the first limiting element 12, and the width of the third limiting element 34 is equal to the width of the first limiting element 12.
[0093] In some of these embodiments, the third limiting element 34 is a third limiting groove.
[0094] Furthermore, the cabinet unit 30 also includes a first through slot element 35. The first through slot element 35 is disposed at the bottom end inside the cabinet element 31 and is connected to the third limiting element 34 for the operator to pass through.
[0095] The cross-section of the first through-slot element 35 is rectangular.
[0096] The dimensions of the first through-slot element 35 are matched with the dimensions of the cabinet element 31. Generally, the length of the first through-slot element 35 is less than the inner length of the cabinet element 31, the width of the first through-slot element 35 is less than the inner width of the cabinet element 31, and the height of the first through-slot element 35 is equal to the bottom wall thickness of the cabinet element 31.
[0097] In some of these embodiments, the first through-slot element 35 is a first through-slot.
[0098] like Figure 6 As shown, the guard plate unit 40 includes a guard plate element 41, a fourth limiting element 42, and a fifth limiting element 43. The guard plate element 41 is removably disposed between the base plate unit 10 and the cabinet unit 30; the fourth limiting element 42 is disposed at the top of the guard plate element 41 and abuts against the cabinet unit 30 to restrict the movement of the cabinet unit 30; the fifth limiting element 43 penetrates the guard plate element 41 and abuts against the locking unit 50.
[0099] Specifically, the guard plate element 41 is removably disposed between the base plate element 11 and the cabinet element 31; the fourth limiting element 42 abuts against the second limiting element 33; and the fifth limiting element 43 is connected to the first limiting element 12 and the third limiting element respectively.
[0100] The guard plate element 41 has an L-shaped structure. Specifically, the guard plate element 41 includes a horizontal plate and a vertical plate. The horizontal plate is removably disposed between the base plate element 11 and the cabinet element 31, and a fifth limiting element 43 is disposed through the horizontal plate; the vertical plate is disposed on one side of the horizontal plate and is located between the base plate element 11 and the cabinet element 31, and a fourth limiting element 42 is disposed at the top of the vertical plate.
[0101] The dimensions of the horizontal panel match the dimensions of the cabinet element 31. Generally, the length of the horizontal panel is less than the length of the cabinet element 31.
[0102] The dimensions of the vertical panel match the dimensions of the cabinet element 31. Generally, the length of the vertical panel is equal to the width of the cabinet element 31.
[0103] The dimensions of the vertical board match the dimensions of the horizontal board. Generally, the length of the vertical board is less than the length of the horizontal board, the width of the vertical board is less than the width of the horizontal board, and the height of the vertical board is equal to the height of the horizontal board.
[0104] In some of these embodiments, the guard plate element 41 is made of steel.
[0105] The cross-section of the fourth limiting element 42 is rectangular.
[0106] The dimensions of the fourth limiting element 42 are matched with the dimensions of the guard plate element 41. Generally, the length of the fourth limiting element 42 is less than the length of the vertical plate, the width of the fourth limiting element 42 is less than the width of the vertical plate, and the height of the fourth limiting element 42 is less than the height of the vertical plate.
[0107] The dimensions of the fourth limiting element 42 match those of the second limiting element 33. Generally, the length of the fourth limiting element 42 is equal to the length of the second limiting element 33, the width of the fourth limiting element 42 is equal to the width of the second limiting element 33, and the height of the fourth limiting element 42 is equal to the height of the second limiting element 33.
[0108] In some embodiments, the fourth limiting element 42 is fixedly connected to the guard plate element 41, including but not limited to integral molding.
[0109] In some of these embodiments, the fourth limiting element 42 is made of steel.
[0110] In some of these embodiments, the fourth limiting element 42 is a limiting plate.
[0111] The fifth limiting element 43 has a rectangular cross-section.
[0112] The dimensions of the fifth limiting element 43 match the dimensions of the guard plate element 41. Generally, the length of the fifth limiting element 43 is less than the length of the horizontal plate, the width of the fifth limiting element 43 is less than the width of the horizontal plate, and the height of the fifth limiting element 43 is equal to the height of the horizontal plate.
[0113] The dimensions of the fifth limiting element 43 match those of the first limiting element 12 (third limiting element 34). Generally, the length of the fourth limiting element 42 is equal to the length of the first limiting element 12 (third limiting element 34), and the width of the fifth limiting element 43 is equal to the width of the first limiting element 12 (third limiting element 34).
[0114] In some of these embodiments, the fifth limiting element 43 is the fourth limiting groove.
[0115] like Figure 7 As shown, the locking unit 50 includes a locking element 51. The locking element 51 abuts against the base plate unit 10, the cabinet unit 30, and the guard plate unit 40 respectively, and is used to restrict the movement of the guard plate unit 40.
[0116] Specifically, the locking element 51 abuts against the third limiting element 34, the first limiting element 12, and the fifth limiting element 43, respectively.
[0117] The locking element 51 has a rectangular cross-section.
[0118] The dimensions of the locking element 51 match those of the third limiting element 34 (first limiting element 12, fifth limiting element 43). Generally, the length of the locking element 51 is equal to the length of the third limiting element 34 (first limiting element 12, fifth limiting element 43), the width of the locking element 51 is equal to the width of the third limiting element 34 (first limiting element 12, fifth limiting element 43), and the height of the locking element 51 is greater than the height of the third limiting element 34 (first limiting element 12, fifth limiting element 43).
[0119] The height of the locking element 51 is equal to the sum of the height of the third limiting element 34, the height of the first limiting element 12, and the height of the fifth limiting element 43.
[0120] In some of these embodiments, the locking element 51 is made of steel.
[0121] In some of these embodiments, the locking element 51 is a locking plate.
[0122] Furthermore, the locking unit 50 also includes a second magnetic element 52. The second magnetic element 52 is disposed at the bottom end of the locking element 51 and is magnetically connected to the base plate unit 10.
[0123] Specifically, the second magnetic element 52 is magnetically connected to the first magnetic element 13.
[0124] The dimensions of the second magnetic element 52 are matched with the dimensions of the locking element 51. Generally, the length of the second magnetic element 52 is equal to the length of the locking element 51, the width of the second magnetic element 52 is equal to the width of the locking element 51, and the height of the second magnetic element 52 is less than the height of the locking element 51.
[0125] The dimensions of the second magnetic element 52 are matched with the dimensions of the first magnetic element 13. Generally, the length of the second magnetic element 52 is equal to the length of the first magnetic element 13, and the width of the second magnetic element 52 is equal to the width of the first magnetic element 13.
[0126] In some embodiments, the second magnetic element 52 is fixedly connected to the locking element 51, including but not limited to bolt connection.
[0127] In some of these embodiments, the second magnetic element 52 is made of neodymium iron boron.
[0128] In some of these embodiments, the second magnetic element 52 is a second magnetic block.
[0129] Furthermore, the locking unit 50 also includes a second through slot element 53. The second through slot element 53 is disposed through the locking element 51 for the operator to pass through.
[0130] Specifically, the second through slot element 53 corresponds to the first through slot element 35.
[0131] The cross-section of the second through-slot element 53 is rectangular.
[0132] The dimensions of the second through-slot element 53 are matched with the dimensions of the locking element 51. Generally, the length of the second through-slot element 53 is less than the length of the locking element 51, the width of the second through-slot element 53 is equal to the width of the locking element 51, and the height of the second through-slot element 53 is less than the height of the locking element 51.
[0133] The dimensions of the second through-slot element 53 are matched with the dimensions of the first through-slot element 35. Generally, the length of the second through-slot element 53 is not greater than the length of the first through-slot element 35, and the height of the second through-slot element 53 is not less than the height of the first through-slot element 35.
[0134] In some of these embodiments, the second through slot element 53 is a second through slot.
[0135] The method of using this utility model is as follows:
[0136] (I) Installation Operation
[0137] The cabinet component 31 is pushed into the recessed component 22 by the moving component 32 until the cabinet component 31 is positioned above the guide rail component 21 (see reference). Figure 1 (as shown);
[0138] Place the guard plate element 41 between the base plate element 11 and the cabinet element 31, and make the fourth limiting element 42 abut against the second limiting element 33, so that the fifth limiting element 43 is connected to the first limiting element 12 and the third limiting element 34 respectively.
[0139] The locking unit 50 is placed in the third limiting element 34, the fifth limiting element 43, and the first limiting element 12 respectively;
[0140] During the process, the second magnetic element 52 is magnetically connected to the first magnetic element 13.
[0141] (II) Dismantling Operation
[0142] Passing through the first through-slot element 35 to hold the second through-slot element 53;
[0143] Lift the locking element 51 so that it moves upward in the vertical direction until the second magnetic element 52 separates from the first magnetic element 13, and the locking element 51 separates from the first limiting element 12, the fifth limiting element 43 and the third limiting element 34 respectively.
[0144] Remove the protective plate component 41;
[0145] Pull the cabinet component 31 outward so that it moves along the length of the groove component 22 via the moving component 32 until the cabinet component 31 leaves the guide rail component 21.
[0146] The advantages of this utility model are that it uses a base plate unit to provide a stable foundation; it uses a guide rail unit to guide the cabinet unit to slide along a preset trajectory for installation, replacing the traditional bolt hard connection, so that the cabinet unit can be quickly embedded without precise alignment; it uses a guard plate unit to limit the cabinet unit from the side, and works with the locking unit to abut against the base plate unit, cabinet unit, and guard plate unit to form a rigid fixation, preventing shaking, and unlocking only requires lifting the locking unit, and disassembly can be completed without tools, solving the problems of stripped screws and cracked panels in traditional disassembly and assembly.
[0147] The above description is only a preferred embodiment of the present utility model and does not limit the implementation method and protection scope of the present utility model. Those skilled in the art should realize that all solutions obtained by equivalent substitutions and obvious changes made based on the description and illustrations of the present utility model should be included within the protection scope of the present utility model.
Claims
1. A prefabricated kitchen model room structure, characterized in that, include: A base plate unit, wherein the base plate unit is disposed on a horizontal plane; At least one guide rail unit is disposed at the top of the base plate unit and connected to the base plate unit; At least one cabinet unit is removably disposed at the top of the guide rail unit for moving along the length of the guide rail unit; At least one protective panel unit is removably disposed between the base plate unit and the cabinet unit and abuts against the cabinet unit to restrict the movement of the cabinet unit; At least one locking unit is provided, which abuts against the base plate unit, the cabinet unit, and the guard plate unit respectively, and is used to restrict the movement of the guard plate unit.
2. The prefabricated kitchen model room structure according to claim 1, characterized in that, The base plate unit includes: A base plate element, wherein the top of the base plate element is provided with the guide rail unit and the guard plate unit; At least one first limiting element is disposed at the top of the base plate element and abuts against the locking unit.
3. The prefabricated kitchen model room structure according to claim 2, characterized in that, The base plate unit also includes: At least one first magnetic attraction element is disposed at the bottom end inside the first limiting element and is magnetically connected to the locking unit.
4. The prefabricated kitchen model room structure according to claim 1, characterized in that, The guide rail unit includes: A guide rail element is disposed at the top of the base plate unit and connected to the base plate unit; Two grooved elements are symmetrically arranged at the top of the guide rail element. The cabinet unit is arranged inside the grooved elements to allow the cabinet unit to move along the length direction of the grooved elements.
5. The prefabricated kitchen model room structure according to claim 1, characterized in that, The cabinet unit includes: A cabinet element, which is removably disposed at the top of the guide rail unit and is used to move along the length direction of the guide rail unit; A plurality of movable elements are disposed at the bottom end of the cabinet element for driving the cabinet element to move; The second limiting element is disposed on the side of the cabinet element and abuts against the guard plate unit; The third limiting element is disposed at the bottom of the cabinet element and abuts against the locking unit.
6. The prefabricated kitchen model room structure according to claim 5, characterized in that, The cabinet unit also includes: The first through slot element is disposed at the bottom of the interior of the cabinet element and is connected to the third limiting element for the operator to pass through.
7. The prefabricated kitchen model room structure according to claim 1, characterized in that, The protective plate unit includes: A protective panel element, which is removably disposed between the base plate unit and the cabinet unit; A fourth limiting element is disposed at the top of the guard plate element and abuts against the cabinet unit to restrict the movement of the cabinet unit; A fifth limiting element is provided, which penetrates the protective plate element and abuts against the locking unit.
8. The prefabricated kitchen model room structure according to claim 1, characterized in that, The locking unit includes: A locking element is provided, which abuts against the base plate unit, the cabinet unit, and the guard plate unit respectively, and is used to restrict the movement of the guard plate unit.
9. The prefabricated kitchen model room structure according to claim 8, characterized in that, The locking unit further includes: The second magnetic element is disposed at the bottom end of the locking element and is magnetically connected to the base plate unit.
10. The prefabricated kitchen model room structure according to claim 8, characterized in that, The locking unit further includes: A second through-slot element, which extends through the locking element, is provided for the operator to pass through.