A finished product storage device for a cleaning product production
By designing a cleaning product storage equipment with support frames, stackable storage, and spring-supported folding components, the problem of cumbersome storage caused by different storage locations and heights is solved, and automated multi-product storage is simplified.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- ZHUOLI CO LTD
- Filing Date
- 2024-04-10
- Publication Date
- 2026-07-10
Smart Images

Figure CN118025692B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of warehousing equipment technology, and more specifically to a finished product warehousing equipment for the production of cleaning products. Background Technology
[0002] Cleaning products mainly include floor scrubbing robots, sweeping robots, and mopping robots, which are now widely used in people's lives and work. Warehousing equipment is required in the production process of cleaning products.
[0003] Warehousing equipment refers to the technical devices and machinery that can meet the needs of storing and preserving goods. It does not only refer to equipment that is externally represented by buildings, locked doors, etc. Specifically, it can be divided into loading and unloading equipment and storage equipment, measuring equipment, maintenance and inspection equipment, ventilation and lighting equipment, fire safety equipment, labor protection equipment, and other equipment and tools.
[0004] Existing finished product storage equipment for cleaning products needs to store multiple cleaning products. Therefore, the storage equipment has multiple storage locations, each with a different position and height. Cleaning products need to be transported to storage locations at different positions and heights, making the storage and handling operations quite cumbersome. Summary of the Invention
[0005] The purpose of this invention is to provide a finished product storage device for the production of cleaning products, in order to solve the problem that existing finished product storage devices for cleaning products need to store multiple cleaning products, and therefore have multiple storage locations with different positions and heights. As a result, the cleaning products need to be transported to storage locations at different positions and heights, making the storage operation relatively cumbersome.
[0006] To solve the above-mentioned technical problems, the present invention specifically provides the following technical solution: a finished product storage equipment for the production of cleaning products, comprising:
[0007] Support frame components used for storing and supporting cleaning products;
[0008] A stackable storage component is provided on the support frame component. When not storing cleaning products, the stackable storage component is stacked and retracted on the top of the support frame component. When storing cleaning products, it unfolds downward to form multiple storage positions.
[0009] A spring-supported folding component is provided in the stacked storage component. The spring-supported folding component assists in controlling the stacked storage component to unfold the storage space in an orderly manner, so as to facilitate the placement of cleaning products.
[0010] As a preferred embodiment of the present invention, the support frame component includes a plurality of vertical support frames, and a top plate, a first frame, a second frame and a third frame are arranged sequentially from top to bottom among the plurality of vertical support frames;
[0011] The space between the top plate and the first frame forms a first storage layer, the space between the first frame and the second frame forms a second storage layer, and the space between the second frame and the third frame forms a third storage layer.
[0012] As a preferred embodiment of the present invention, the stacked storage component includes a first storage plate, a second storage plate and a third storage plate disposed below the top plate, a first storage support is disposed between the first storage plate and the top plate, a second storage support is disposed between the second storage plate and the first storage plate, and a third storage support is disposed between the third storage plate and the second storage plate.
[0013] The top of the first storage rack is fixed to the bottom surface of the top plate, and the lower end passes through the first storage plate and is inserted into the second storage rack. An anti-detachment component is provided between the top of the second storage rack and the bottom of the first storage rack.
[0014] The top of the second storage rack is fixed to the bottom surface of the first storage plate, and the lower end passes through the second storage plate and is inserted into the third storage rack. An anti-detachment component is provided between the top of the third storage rack and the bottom of the second storage rack.
[0015] As a preferred embodiment of the present invention, the spring-supported folding component is divided into two identical parts and respectively disposed on the second storage plate and the third storage plate;
[0016] When the spring-supported folding component on the second storage plate is unfolded, its descent path passes through the first frame and the second frame;
[0017] When the spring-supported folding component on the third storage plate is unfolded, its descent path passes through the first frame, the second frame, and the third frame.
[0018] As a preferred embodiment of the present invention, a limiting plate is provided on the side of the first storage plate, and the descent path of the limiting plate passes through the first frame.
[0019] As a preferred embodiment of the present invention, the spring-supported folding component portion disposed on the second storage plate includes a first hinge slot and a support base. The first hinge slot is located on the side of the second storage plate, and the support base is located on the edge of the second storage plate. The first hinge slot and the support base are adjacent to each other.
[0020] In a preferred embodiment of the present invention, a first hinge shaft is provided in the first hinge slot, the first hinge shaft is connected to a first folding plate, and a first support spring is connected between the first folding plate and the support base. Under the support of the first support spring, the first folding plate is in a horizontal state.
[0021] As a preferred embodiment of the present invention, the spring support folding component portion disposed on the second storage plate includes a second hinge slot and a support slide groove. The second hinge slot is disposed on the side of the second storage plate, and the support slide groove is disposed on the edge of the second storage plate. The second hinge slot and the support slide groove are adjacent to each other, and the support slide groove is perpendicular to the second hinge slot.
[0022] In a preferred embodiment of the present invention, a second hinge shaft is provided in the second hinge slot, the second hinge shaft is connected to a second folding plate, a support slide is slidably provided in the support slide groove, a first connecting rod is provided at one end of the support slide near the second hinge slot, a second connecting rod is hinged to the edge of the second folding plate, and the end of the first connecting rod is hinged to the end of the second connecting rod.
[0023] In a preferred embodiment of the present invention, a second support spring is connected between the end of the support groove away from the second hinged slot and the support slide block;
[0024] Under the support of the second support spring, the support slide moves close to the second hinge slot so that the second folding plate is in a horizontal state.
[0025] Compared with the prior art, the present invention has the following advantages:
[0026] The storage equipment of this invention has multiple storage positions in the vertical direction. When no cleaning products are stored, the multiple storage positions are folded together by the stacking storage component and concentrated on the top of the support frame component, leaving one storage position for the placement of cleaning products. After a cleaning product is placed, the stacking storage component unfolds downward, and the storage position with the stored cleaning product moves down, exposing a blank storage position in the original position, so that cleaning products can continue to be stored in the original position. In this way, each time a cleaning product is stored, the stacking storage component unfolds a new blank storage position, so that multiple cleaning products can be stored by simply adding them to the original position, thereby simplifying the storage process. Attached Figure Description
[0027] To more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are merely exemplary, and those skilled in the art can derive other embodiments based on the provided drawings without creative effort.
[0028] Figure 1 This is a schematic diagram of the overall structure provided in an embodiment of the present invention;
[0029] Figure 2 A structural schematic diagram of the support frame component is provided for an embodiment of the present invention;
[0030] Figure 3 This is a schematic diagram of the structure when two storage locations are deployed according to an embodiment of the present invention;
[0031] Figure 4 This is a schematic diagram of the structure when three storage locations are deployed according to an embodiment of the present invention;
[0032] Figure 5 A structural schematic diagram of the stacked storage component is provided for an embodiment of the present invention;
[0033] Figure 6 This is an embodiment of the present invention. Figure 5 Enlarged diagram of A in the middle;
[0034] Figure 7 A schematic diagram of the structure of the spring-supported folding component is provided for an embodiment of the present invention;
[0035] Figure 8 A top view of a spring-supported folding component is provided for an embodiment of the present invention.
[0036] Figure 9 This is a schematic diagram of another embodiment of the spring-supported folding component of the present invention.
[0037] The labels in the diagram represent the following:
[0038] 1-Support frame component; 2-Stacking storage component; 3-Spring-supported folding component;
[0039] 101-Vertical support frame; 102-Top plate; 103-First frame; 104-Second frame; 105-Third frame; 106-First storage layer; 107-Second storage layer; 108-Third storage layer;
[0040] 201 - First storage pallet; 202 - Second storage pallet; 203 - Third storage pallet; 204 - First storage rack; 205 - Second storage rack; 206 - Third storage rack;
[0041] 301-Limiting plate; 302-First hinge slot; 303-Support seat; 304-First hinge shaft; 305-First folding plate; 306-First support spring; 307-Second hinge slot; 308-Support slide; 309-Second hinge shaft; 310-Second folding plate; 311-Support slide; 312-First connecting rod; 313-Second connecting rod; 314-Second support spring. Detailed Implementation
[0042] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.
[0043] like Figures 1 to 9 As shown, the present invention provides a finished product storage device for the production of cleaning products, including a support frame component 1, a stacking storage component 2, and a spring-supported folding component 3. The support frame component 1 is used to support and store cleaning products. The stacking storage component 2 is disposed on the support frame component 1. When not storing cleaning products, the stacking storage component 2 is folded and retracted at the top of the support frame component 1. When storing cleaning products, it unfolds downward to form multiple storage positions. The spring-supported folding component 3 is disposed in the stacking storage component 2. The spring-supported folding component 3 assists in controlling the stacking storage component 2 to unfold the storage positions in an orderly manner, so as to facilitate the placement of cleaning products.
[0044] The storage equipment in this embodiment has multiple storage positions in the vertical direction. When no cleaning products are stored, the multiple storage positions are folded together by the stacking storage component 2 and concentrated at the top of the support frame component 1, leaving one storage position for the placement of cleaning products. After a cleaning product is placed, the stacking storage component 2 unfolds downwards, and the storage position with the stored cleaning product moves down, exposing a blank storage position in the original position, so that cleaning products can continue to be stored in the original position. In this way, each time a cleaning product is stored, the stacking storage component 2 unfolds a new blank storage position, so that multiple cleaning products can be stored by continuously adding them to the original position, thereby simplifying the storage process.
[0045] Specifically, in this embodiment, the support frame component 1 includes a plurality of vertical support frames 101. A top plate 102, a first frame 103, a second frame 104 and a third frame 105 are arranged sequentially from top to bottom among the plurality of vertical support frames 101. The space between the top plate 102 and the first frame 103 is a first storage layer 106, the space between the first frame 103 and the second frame 104 is a second storage layer 107, and the space between the second frame 104 and the third frame 105 is a third storage layer 108.
[0046] Furthermore, in this embodiment, the stacked storage component 2 includes a first storage plate 201, a second storage plate 202, and a third storage plate 203 disposed below the top plate 102. A first storage support 204 is disposed between the first storage plate 201 and the top plate 102, a second storage support 205 is disposed between the second storage plate 202 and the first storage plate 201, and a third storage support 206 is disposed between the third storage plate 203 and the second storage plate 202.
[0047] The top of the first storage bracket 204 is fixed to the bottom surface of the top plate 102, and the lower end passes through the first storage plate 201 and is inserted into the second storage bracket 205. An anti-detachment component is provided between the top of the second storage bracket 205 and the bottom of the first storage bracket 204.
[0048] Meanwhile, the top of the second storage bracket 205 is fixed to the bottom surface of the first storage plate 201, and the lower end passes through the second storage plate 202 and is inserted into the third storage bracket 206. An anti-detachment component is provided between the top of the third storage bracket 206 and the bottom of the second storage bracket 205.
[0049] In order to achieve the goal of unfolding a new blank storage space for each cleaning product placed in the storage unit 2, in this embodiment the spring-supported folding unit 3 is divided into two identical parts and respectively set on the second storage plate 202 and the third storage plate 203.
[0050] When the spring-supported folding component 3 set on the second storage plate 202 is unfolded, its descent path passes through the first frame 103 and the second frame 104.
[0051] When the spring-supported folding component 3 set on the third storage plate 203 is unfolded, its descent path passes through the first frame 103, the second frame 104 and the third frame 105.
[0052] In this embodiment, a third storage bracket 206 is provided between the third storage plate 203 and the second storage plate 202. The space between the third storage plate 203 and the second storage plate 202 is the first storage position. When the stacked storage component 2 is in the stacked state, the first storage bracket 204 is inserted into the second storage bracket 205, and the second storage bracket 205 is inserted into the third storage bracket 206. The second storage plate 202, the first storage plate 201, and the top plate 102 are stacked together, and the first storage position is located in the first storage layer 106.
[0053] After the cleaning product is placed into the first storage position, the spring-supported folding component 3 on the third storage plate 203 comes into contact with the first frame 103 and receives the supporting force of the first frame 103. This supporting force is less than the weight of the cleaning product, so the first storage position moves downward under the action of gravity until the spring-supported folding component 3 on the third storage plate 203 comes into contact with the second frame 104 and receives the supporting force of the second frame 104. At the same time, the spring-supported folding component 3 on the second storage plate 202 comes into contact with the first frame 103 and receives the supporting force of the first frame 103. At this time, the upward supporting force of the second frame 104 and the first frame 103 is greater than the weight of a cleaning product, so it no longer moves downward.
[0054] In this state, the first storage location moves to the second storage layer 107. The second storage panel 202 moves to the bottom of the first storage layer 106. At this time, the second storage support 205 is pulled out from the third storage support 206, and the first storage panel 201 and the second storage panel 202 are in an unfolded state. The space between the two is the second storage location, which is located in the first storage layer 106.
[0055] Since the second storage location is located in the first storage layer 106, which is the same height as when the cleaning product was first put in, there is no need to move the location when putting in the cleaning product again.
[0056] It should be noted that a limiting plate 301 is provided on the side of the first storage plate 201, and the descent path of the limiting plate 301 passes through the first frame 103.
[0057] After the cleaning products are refilled, the spring-supported folding component 3 on the third storage plate 203 contacts the second frame 104 and receives its support force. The spring-supported folding component 3 on the second storage plate 202 contacts the first frame 103 and receives its support force. The upward support force of the second frame 104 and the first frame 103 is less than the weight of the two cleaning products, so it moves downward until the spring-supported folding component 3 on the third storage plate 203 contacts the third frame 105 and receives its support force. The spring-supported folding component 3 on the second storage plate 202 contacts the second frame 104 and receives its support force. The limiting plate 301 contacts the first frame 103 and receives its support force. At this point, the upward support force of the third frame 105, the second frame 104, and the first frame 103 is greater than the weight of the two cleaning products, so it stops moving downward.
[0058] In this state, the first storage location moves to the third storage layer 108, and the second storage location moves to the second storage layer 107. The first storage panel 201 moves to the bottom of the first storage layer 106. At this time, the first storage support 204 is pulled out from the second storage support 205, and the top plate 102 and the second storage support 205 are in an unfolded state. The space between the two is the third storage location, which is located in the first storage layer 106.
[0059] Since the second storage location is located in the first storage layer 106, which is the same height as when the cleaning product was first put in, there is no need to move the location when putting in the cleaning product again.
[0060] Since the limiting plate 301 is fixedly installed on the side of the first storage plate 201, the stacked storage components will no longer unfold after the third cleaning product is placed in.
[0061] Therefore, this embodiment, by setting up a support frame component 1, a stacking storage component 2, and a spring-supported folding component 3, allows the stacking storage component 2 to unfold downwards after a cleaning product is placed in it. The storage space where the cleaning product is stored moves down, exposing a blank storage space in the original position, so that cleaning products can continue to be stored in the original position. In this way, each time a cleaning product is stored, the stacking storage component 2 unfolds a new blank storage space, so that multiple cleaning products can be stored by simply adding them to the original position, thereby simplifying the storage process.
[0062] Specifically, in this embodiment, the spring-supported folding component 3 provided on the second storage plate 202 includes a first hinge slot 302 and a support base 303. The first hinge slot 302 is located on the side of the second storage plate 202, and the support base 303 is located on the edge of the second storage plate 202. The first hinge slot 302 and the support base 303 are adjacent to each other. A first hinge shaft 304 is provided in the first hinge slot 302. The first hinge shaft 304 is connected to a first folding plate 305. A first support spring 306 is connected between the first folding plate 305 and the support base 303. Under the support of the first support spring 306, the first folding plate 305 is in a horizontal state.
[0063] In the aforementioned spring-supported folding component 3, the first folding plate 305 is located above the first frame 103, the second frame 104, and the third frame 105. When passing through the first frame 103, the second frame 104, or the third frame 105, the first folding plate 305 receives an upward supporting force, thereby folding upward and compressing the first support spring 306. Therefore, under the action of the first support spring 306, the first folding plate 305 will only fold and pass through the first frame 103 or the second frame 104 if the upward folding force it receives is greater than a certain level.
[0064] It should be noted that in the above-mentioned spring-supported folding component 3, the support base 303 is set in the storage position and has a certain height, which occupies the storage space. At the same time, when the stacked storage component 2 is in the stacked state, the storage plates cannot be tightly stacked.
[0065] Based on this, another embodiment of the spring-supported folding component 3 is as follows: the spring-supported folding component 3 provided on the second storage plate 202 includes a second hinge slot 307 and a support slide 308. The second hinge slot 307 is provided on the side of the second storage plate 202, and the support slide 308 is provided on the edge of the second storage plate 202. The second hinge slot 307 and the support slide 308 are adjacent to each other, and the support slide 308 is perpendicular to the second hinge slot 307.
[0066] The second hinge slot 307 is provided with a second hinge shaft 309, which is connected to a second folding plate 310. A support slide 311 is slidably disposed in the support slide 308. A first connecting rod 312 is provided at one end of the support slide 311 near the second hinge slot 307. A second connecting rod 313 is hinged to the edge of the second folding plate 310. The end of the first connecting rod 312 is hinged to the end of the second connecting rod 313. A second support spring 314 is connected between the end of the support slide 308 away from the second hinge slot 307 and the support slide 311. Under the support of the second support spring 314, the support slide 311 moves closer to the second hinge slot 307 so that the second folding plate 310 is in a horizontal state.
[0067] In the aforementioned spring-supported folding component 3, the second folding plate 310 is located above the first frame 103, the second frame 104, and the third frame 105. When passing through the first frame 103, the second frame 104, or the third frame 105, the second folding plate 310 receives an upward supporting force, thereby folding upward and compressing the second support spring 314. Therefore, under the action of the second support spring 314, the second folding plate 310 will only fold and pass through the first frame 103 or the second frame 104 if the upward folding force it receives is greater than a certain level.
[0068] It should be noted that in the spring-supported folding component 3 mentioned above, the support slide 311 is located in the support slide groove 308, and the support slide 311 is flush with the upper surface of the second storage plate 202. Although the first link 312 and the second link 313 have a certain thickness, when the second folding plate 310 is in a horizontal state, the first link 312 and the second link 313 are also in a nearly horizontal state. Therefore, the space occupied in the vertical direction is small, and the storage plates can be stacked more tightly when the stacked storage component 2 is in a stacked state.
[0069] Furthermore, the second support spring 314 is in a horizontal state, and its contraction direction coincides with the axial direction. Therefore, its contraction performance is good, and the support force it provides will not change, so it can provide better support.
[0070] The above embodiments are merely exemplary embodiments of this application and are not intended to limit this application. The scope of protection of this application is defined by the claims. Those skilled in the art can make various modifications or equivalent substitutions to this application within its substance and scope of protection, and such modifications or equivalent substitutions should also be considered to fall within the scope of protection of this application.
Claims
1. A finished product storage equipment for the production of cleaning products, characterized in that, include: Support frame component (1) is used for storing and supporting cleaning products; The stacked storage component (2) is disposed on the support frame component (1). When the cleaning products are not stored, the stacked storage component (2) is stacked and retracted on the top of the support frame component (1). When the cleaning products are stored, it unfolds downward to form multiple storage positions. A spring-supported folding component (3) is provided in the stacked storage component (2). The spring-supported folding component (3) assists in controlling the stacked storage component (2) to unfold the storage position in an orderly manner, so as to facilitate the placement of cleaning products. The support frame component (1) includes several vertical support frames (101). A top plate (102), a first frame (103), a second frame (104) and a third frame (105) are arranged between the several vertical support frames (101) from top to bottom. The top plate (102) and the first frame (103) form a first storage layer (106), the first frame (103) and the second frame (104) form a second storage layer (107), and the second frame (104) and the third frame (105) form a third storage layer (108). The stacked storage component (2) includes a first storage plate (201), a second storage plate (202) and a third storage plate (203) disposed below the top plate (102). A first storage support (204) is disposed between the first storage plate (201) and the top plate (102), a second storage support (205) is disposed between the second storage plate (202) and the first storage plate (201), and a third storage support (206) is disposed between the third storage plate (203) and the second storage plate (202). The top of the first storage rack (204) is fixed to the bottom surface of the top plate (102), and the lower end passes through the first storage plate (201) and is inserted into the second storage rack (205). An anti-detachment component is provided between the top of the second storage rack (205) and the bottom of the first storage rack (204). The top of the second storage rack (205) is fixed to the bottom surface of the first storage plate (201), and the lower end passes through the second storage plate (202) and is inserted into the third storage rack (206). An anti-detachment component is provided between the top of the third storage rack (206) and the bottom of the second storage rack (205). The spring-supported folding component (3) provided on the second storage plate (202) includes a first hinge slot (302) and a support base (303). The first hinge slot (302) is located on the side of the second storage plate (202), and the support base (303) is located on the edge of the second storage plate (202). The first hinge slot (302) and the support base (303) are adjacent to each other. A first hinge shaft (304) is provided in the first hinge slot (302). The first hinge shaft (304) is connected to a first folding plate (305). A first support spring (306) is connected between the first folding plate (305) and the support base (303). Under the support of the first support spring (306), the first folding plate (305) is in a horizontal state.
2. The finished product storage equipment for cleaning product production according to claim 1, characterized in that: The spring-supported folding component (3) is divided into two identical parts and is respectively disposed on the second storage plate (202) and the third storage plate (203); When the spring-supported folding component (3) set on the second storage plate (202) is unfolded, its descent path passes through the first frame (103) and the second frame (104). When the spring-supported folding component (3) on the third storage plate (203) is unfolded, its descent path passes through the first frame (103), the second frame (104) and the third frame (105).
3. The finished product storage equipment for cleaning product production according to claim 2, characterized in that: The first storage plate (201) is provided with a limiting plate (301) on its side, and the descent path of the limiting plate (301) passes through the first frame (103).
4. The finished product storage equipment for cleaning product production according to claim 3, characterized in that: The spring-supported folding component (3) provided on the second storage plate (202) includes a second hinge slot (307) and a support slide (308). The second hinge slot (307) is provided on the side of the second storage plate (202), and the support slide (308) is provided on the edge of the second storage plate (202). The second hinge slot (307) and the support slide (308) are adjacent to each other, and the support slide (308) is perpendicular to the second hinge slot (307).
5. The finished product storage equipment for cleaning product production according to claim 4, characterized in that: A second hinge shaft (309) is provided in the second hinge slot (307), and a second folding plate (310) is connected to the second hinge shaft (309). A support slide (311) is slidably provided in the support slide (308). A first connecting rod (312) is provided at one end of the support slide (311) near the second hinge slot (307). A second connecting rod (313) is hinged to the edge of the second folding plate (310). The end of the first connecting rod (312) is hinged to the end of the second connecting rod (313).
6. The finished product storage equipment for cleaning product production according to claim 5, characterized in that: A second support spring (314) is connected between the end of the support slide (308) away from the second hinge slot (307) and the support slide (311). Under the support of the second support spring (314), the support slide (311) moves close to the second hinge slot (307) so that the second folding plate (310) is in a horizontal state.