Bread cooling device
By employing baffles, troughs, and ejection mechanisms in the bread cooling equipment, the problem of cold air leakage was solved, achieving temperature stability and improved cooling efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HEFEI RUIHEFANG FOOD CO LTD
- Filing Date
- 2025-08-06
- Publication Date
- 2026-06-26
AI Technical Summary
Existing bread cooling equipment is prone to cold air leakage when the oven door is opened, causing temperature fluctuations inside the oven, affecting the cooling effect and prolonging the cooling time.
A bread cooling device was designed, which adopts a combination structure of baffle, trough and ejection mechanism. The electromagnet is controlled by the control button to push the tray out of the trough, thereby reducing cold air leakage.
It effectively reduces cold air leakage when removing the tray, maintains a stable temperature inside the box, improves cooling efficiency, and shortens cooling time.
Smart Images

Figure CN224415527U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of cooling equipment technology, and in particular to a bread cooling and temperature reduction device. Background Technology
[0002] In bread processing, cooling is a crucial step in ensuring bread quality. Existing bread cooling equipment typically employs a box structure, using a refrigeration system to maintain a constant temperature inside the box to meet the bread's cooling requirements. In practice, the box door is frequently opened midway through processing for loading and unloading bread. However, with existing equipment, cold air easily leaks when the door is opened, causing temperature fluctuations inside the box. These temperature changes not only affect the cooling effect but may also prolong the cooling time. Therefore, a new bread cooling device is proposed. Utility Model Content
[0003] To address the issue that existing equipment suffers from cold air leakage and temperature fluctuations inside the oven when the door is opened, which not only affects cooling efficiency but may also prolong cooling time, this application provides a bread cooling device.
[0004] The bread cooling and temperature reduction device provided in this application adopts the following technical solution:
[0005] A bread cooling device includes a box body and a door. The door is rotatably connected to the box body via a hinge. A cooler is installed on the top of the box body. Multiple trays are arranged from top to bottom inside the box body. Insert plates are fixedly connected to both sides of each tray. Slots adapted to the insert plates are opened on both sides of the inner surface of the box body. The insert plates and slots are inserted into each slot. Grooves are opened on the surface of the door opposite to the trays. A baffle that can be opened and closed is provided at the opening of the groove on the door. A push-out mechanism is provided on the back plate of the box body at the moving end of the tray. The push-out mechanism can push the tray to move along the slot.
[0006] Preferably, each of the ejection mechanisms includes a slide fixedly mounted on the back plate of the box, the opening of the slide facing the inside of the box, and a push plate slidably connected inside the box. The push plate is magnetic, an electromagnet is fixedly mounted on the inner surface of the slide, and a telescopic spring is fixedly connected between the push plate and the inner surface of the slide. When the electromagnet is energized, it repels the push plate, causing one side of the push plate to move out of the slide.
[0007] Preferably, each of the baffles has a vertically installed insert rod on the side away from the hinge. Each insert rod is configured as an inverted T-shaped structure. A limiting sleeve is fixedly connected to the surface of the door above the groove. The limiting sleeve is inserted into the insert rod. A connecting spring is sleeved on the lower outer surface of the insert rod. The upper end of the connecting spring is fixedly connected to the baffle, and the lower end of the connecting spring is fixedly connected to the end of the insert rod.
[0008] Preferably, when the insert rod is inserted into the limiting sleeve, the baffle blocks the opening of the groove.
[0009] Preferably, multiple sets of control buttons are fixedly installed on the surface of the box door, and each control button corresponds to an electromagnet. The control buttons are used to control the power supply to the electromagnet.
[0010] In summary, this application includes the following beneficial technical effects:
[0011] This utility model, through the combination of a baffle, a trough, and a push-out mechanism, allows the tray to be removed midway through cooling simply by opening the baffle at the corresponding position and using the push-out mechanism to push the tray out of the trough. Because the opening of the trough is small, the amount of cold air leakage when removing the tray can be reduced. Attached Figure Description
[0012] Figure 1 This is a schematic diagram of the overall structure of the application embodiment;
[0013] Figure 2 This is a structural schematic diagram of the tray and insert plate in the embodiment of the application;
[0014] Figure 3 This is a partial structural schematic diagram of the cabinet door in the embodiment of the application;
[0015] Figure 4 This is a cross-sectional view of the mechanism used to launch the application embodiment;
[0016] Figure 5 This is an example of an application. Figure 3 Enlarged view of point A in the middle.
[0017] Explanation of reference numerals in the attached drawings: 1. Box body; 2. Tray; 3. Box door; 4. Slot; 5. Slot; 6. Cooler; 7. Insert plate; 8. Baffle; 9. Control button; 10. Limit sleeve; 11. Insert rod; 12. Connecting spring; 13. Slide; 14. Push plate; 15. Electromagnet; 16. Telescopic spring. Detailed Implementation
[0018] The following is in conjunction with the appendix Figure 1-5 This application will be described in further detail.
[0019] This application discloses a bread cooling device, including a box body 1 and a box door 3. The box door 3 is rotatably connected to the box body 1 by a hinge. A cooler 6 is provided on the top of the box body 1. Multiple trays 2 are arranged from top to bottom inside the box body 1. Insert plates 7 are fixedly connected to both sides of the trays 2. Slots 5 that are adapted to the insert plates 7 are opened on both sides of the inner surface of the box body 1. The insert plates 7 and the slots 5 are inserted and engaged. A groove 4 is opened on the surface of the box door 3 at the position opposite to the trays 2. A baffle 8 that can be opened and closed is provided at the opening of the groove 4 of the box door 3. A push-out mechanism is provided at the position of the moving end of the trays 2 on the back plate of the box body 1. The push-out mechanism can push the trays 2 to move along the slots 5.
[0020] In this embodiment, the tray 2 is used to hold bread. The bottom of the tray 2 is actually set as a hollow structure so that the cold air can cool the bottom of the bread. By setting the baffle 8, the groove 4 and the push-out mechanism, when the tray 2 needs to be removed in the middle of cooling, it is only necessary to open the baffle 8 at the corresponding position and use the push-out mechanism to push the tray 2 at that position to move the tray 2 out of the groove 4. Since the opening of the groove 4 is small, the amount of cold air leakage when removing the tray 2 can be reduced.
[0021] It should be noted that: Cooler 6 uses an existing cold air circulation machine, which accelerates the cooling process by circulating cold air. The model of cooler 6 is not required here.
[0022] Furthermore, each of the ejection mechanisms includes a slide 13 fixedly mounted on the back plate of the housing 1. The slide 13 has an opening facing the inside of the housing 1, and a push plate 14 is slidably connected inside the housing 1. The push plate 14 is magnetic, and an electromagnet 15 is fixedly mounted on the inner surface of the slide 13. A telescopic spring 16 is fixedly connected between the push plate 14 and the inner surface of the slide 13. When the electromagnet 15 is energized, it repels the push plate 14, causing one side of the push plate 14 to move out of the slide 13.
[0023] Furthermore, multiple sets of control buttons 9 are fixedly installed on the surface of the door 3. Each control button 9 corresponds to an electromagnet 15, and the control buttons 9 are used to control the power supply to the electromagnet 15.
[0024] In this embodiment, a power supply assembly is provided on the surface of the housing 1. Each set of electromagnets 15 is used in conjunction with a wireless control switch. The wireless control switch and the electromagnets 15 are connected to the power supply assembly through wires. Each set of wireless control switches and electromagnets 15 are connected in parallel. The control button 9 is the transmitter of the wireless control switch. Pressing the control button 9 controls the opening and closing of the wireless control switch via Bluetooth, Wi-Fi or other wireless signals, thereby controlling the power supply to the electromagnets 15.
[0025] In this embodiment, the baffle 8 is opened, the corresponding control button 9 is pressed, and the corresponding electromagnet 15 is energized. When the electromagnet 15 is energized, it repels the push plate 14, causing one side of the push plate 14 to move out of the slide block 13. The push plate 14 can then push the corresponding tray 2, causing the tray 2 to partially move out of the slot 4, so that the user can pick up the tray 2 and pull the tray 2 out of the slot 4.
[0026] Furthermore, vertically installed insert rods 11 are inserted on the side of the baffle 8 away from the hinge. The insert rods 11 are all designed as inverted T-shaped structures. Limiting sleeves 10 are fixedly connected to the surface of the door 3 above the groove 4. The limiting sleeves 10 are inserted into the insert rods 11. A connecting spring 12 is sleeved on the lower outer surface of the insert rod 11. The upper end of the connecting spring 12 is fixedly connected to the baffle 8, and the lower end of the connecting spring 12 is fixedly connected to the end of the insert rod 11. The connecting spring 12 is used to support the insert rod 11, so that the insert rod 11 is stably located inside the limiting sleeve 10, keeping the baffle 8 sealed in the opening of the groove 4.
[0027] Furthermore, when the insertion rod 11 is inserted into the limiting sleeve 10, the baffle 8 blocks the opening of the groove 4.
[0028] In this embodiment, when it is necessary to open the baffle 8, simply pull the insert rod 11 to move the insert rod 11 out from inside the limiting sleeve 10, thereby rotating the baffle 8 and opening the groove 4.
[0029] In actual use, appropriate sealing strips should be installed on the surfaces of the door 3 and the baffle 8 to ensure airtightness.
[0030] Finally, the following points should be noted: First, in the description of this application, it should be noted that, unless otherwise specified and limited, the terms "installation", "connection", and "linkage" should be interpreted broadly, and can be mechanical or electrical connections, or internal connections between two components, or direct connections. "Up", "down", "left", "right", etc. are only used to indicate relative positional relationships. When the absolute position of the described object changes, the relative positional relationship may change.
[0031] Secondly: The accompanying drawings of the embodiments disclosed in this utility model only involve the structures involved in the embodiments disclosed in this utility model. Other structures can refer to the general design. In the absence of conflict, the same embodiment and different embodiments of this utility model can be combined with each other.
[0032] Finally: The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
[0033] The above are all preferred embodiments of this application, and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.
Claims
1. A bread cooling and heat dissipation device, comprising a box body (1) and a box door (3), wherein the box door (3) is rotatably connected to the box body (1) by means of a hinge, and a cooler (6) is provided on the top of the box body (1), characterized in that, The box (1) has multiple trays (2) arranged from top to bottom inside. Each tray (2) has a fixed plate (7) on both sides. Each inner surface of the box (1) has a slot (5) that matches the plate (7). The plate (7) and the slot (5) are inserted into each other. Each door (3) has a groove (4) at the position opposite to the tray (2). Each door (3) has a baffle (8) that can be opened and closed at the opening of the groove (4). Each back plate of the box (1) has a push-out mechanism at the position of the moving end of the tray (2). The push-out mechanism can push the tray (2) to move along the slot (5).
2. The bread cooling and temperature reduction device according to claim 1, characterized in that, Each of the ejection mechanisms includes a slide (13) fixedly installed on the back plate of the box (1). The opening of the slide (13) faces the inside of the box (1), and a push plate (14) is slidably connected inside the box (1). The push plate (14) is magnetic. An electromagnet (15) is fixedly installed on the inner surface of the slide (13). A telescopic spring (16) is fixedly connected between the push plate (14) and the inner surface of the slide (13). When the electromagnet (15) is energized, it repels the push plate (14), causing one side of the push plate (14) to move out of the slide (13).
3. The bread cooling and temperature reduction device according to claim 2, characterized in that, Each of the baffles (8) has a vertically installed insert rod (11) on the side away from the hinge. Each insert rod (11) is an inverted T-shaped structure. Each of the boxes (3) has a fixedly connected limit sleeve (10) at the position above the groove (4). The limit sleeve (10) is inserted into the insert rod (11). A connecting spring (12) is sleeved on the lower outer surface of the insert rod (11). The upper end of the connecting spring (12) is fixedly connected to the baffle (8), and the lower end of the connecting spring (12) is fixedly connected to the end of the insert rod (11).
4. The bread cooling and temperature reduction device according to claim 3, characterized in that, When the insert rod (11) is inserted into the limiting sleeve (10), the baffle (8) blocks the opening of the groove (4).
5. The bread cooling and temperature reduction device according to claim 4, characterized in that, Multiple control buttons (9) are fixedly installed on the surface of the door (3). Each control button (9) corresponds to an electromagnet (15). The control buttons (9) are used to control the power supply of the electromagnet (15).