A sandwich cheese pressing device
By designing a cheese-pressing device, a cheese-making process with fillings was achieved, solving the problem that existing technologies cannot produce cheese with fillings and enriching the diversity of cheese products.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- INNER MONGOLIA TAILIDA DAIRY
- Filing Date
- 2025-07-10
- Publication Date
- 2026-07-03
AI Technical Summary
Existing cheese production facilities cannot produce stuffed cheeses, which limits product diversity and fails to meet the market's diverse demands for cheese flavor, quality, and form.
A sandwich cheese pressing device was designed, comprising a raw material feeding mechanism, a filling material feeding mechanism, a pressing mechanism, and a discharging mechanism. The sandwich cheese is made by feeding the filling material into the forming through hole.
This enriches the diversity of cheese products, enabling the production of truly filled cheeses and meeting the market's demand for cheese diversity.
Smart Images

Figure CN224439958U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of cheese processing, and in particular to a pressing device for stuffed cheese. Background Technology
[0002] As people's living standards improve, the demand for cheese continues to increase, and they have higher requirements for the taste, quality, variety, and form of cheese, hoping for more diverse and personalized choices. This has prompted companies to develop more advanced cheese-filled production equipment to meet market demand.
[0003] Existing cheese production typically involves directly mixing different flavored fruit pieces or nuts with the raw materials to form a solid mixture, which is then pressed using cheese pressing equipment. Because the added fruit pieces or nuts are directly mixed with the raw materials, the pressed cheese can only produce a single flavor, and cannot be a stuffed cheese, where the fruit pieces or nuts are sandwiched between the raw materials. This limits product diversity and fails to meet market demands. Summary of the Invention
[0004] In order to solve the above problems, the purpose of this utility model is to provide a sandwich cheese pressing device.
[0005] This utility model is implemented by the following technical solution:
[0006] A sandwich cheese pressing device includes a raw material feeding mechanism, a sandwich material feeding mechanism, a pressing mechanism, and a discharging mechanism, all mounted on a frame.
[0007] The raw material feeding mechanism and the filling material feeding mechanism move horizontally along the same straight line on the forming platform of the machine frame. The cylinder bodies of the feeding cylinders of the raw material feeding mechanism and the filling material feeding mechanism are both fixed on the machine frame. The pressing mechanism is located on the moving path of the raw material feeding mechanism and the filling material feeding mechanism and is used to press the cheese into shape. The discharging mechanism is located directly below the pressing mechanism, and the height of the top of the receiving groove of the discharging mechanism is lower than the height of the bottom of the forming platform, while the height of the bottom of the receiving groove is higher than the lowest height of the cheese forming lower pressing block of the pressing mechanism.
[0008] Furthermore, the raw material feeding mechanism and the sandwich material feeding mechanism have the same structure, both including a feeding trough and a feeding cylinder; the top and bottom of the feeding trough are open structures, and the bottom end of the feeding trough is in contact with the forming platform on the frame;
[0009] The piston rod of the feeding cylinder is fixedly connected to the outer wall of the feeding trough, and the feeding cylinder of the raw material feeding mechanism and the feeding cylinder of the sandwich material feeding mechanism are respectively located on the opposite outer sides of the raw material feeding mechanism and the sandwich material feeding mechanism.
[0010] Furthermore, two parallel guide rods are provided on the frame, and the feeding grooves of the raw material feeding mechanism and the sandwich material feeding mechanism are both located between the two guide rods, with racks provided on the guide rods;
[0011] A stirring shaft is horizontally arranged inside the feeding trough, and a plurality of stirring rods are arranged on the stirring shaft; the guide rod is perpendicular to the stirring rods; both ends of the stirring shaft are rotatably connected to the feeding trough and extend to the outside of the feeding trough; at both ends of the stirring shaft outside the feeding trough, a traveling gear that meshes with the rack is fixedly arranged.
[0012] Furthermore, the molding mechanism includes a molding platform fixedly mounted on the frame, and a plurality of molding through holes are provided on the molding platform;
[0013] An upper pressing die is provided on the frame above the forming through hole, and a lower pressing die is provided on the frame below the forming through hole;
[0014] The positions and dimensions of the upper pressing block of the upper pressing mold and the lower pressing block of the lower pressing mold are set to correspond to the positions and dimensions of the forming through holes.
[0015] Furthermore, the upper pressing mold includes an upper mold cylinder, an upper fixed plate, and cheese forming upper pressing blocks; the cylinder body of the upper mold cylinder is fixedly connected to the frame, the free end of the telescopic rod of the upper mold cylinder is fixedly connected to the upper fixed plate, and a plurality of cheese forming upper pressing blocks are fixedly arranged on the lower surface of the upper fixed plate.
[0016] Furthermore, the pressing mold includes a lower mold cylinder, a lower fixing plate, and cheese forming pressing blocks; the cylinder body of the lower mold cylinder is fixedly connected to the frame, the free end of the telescopic rod of the lower mold cylinder is fixedly connected to the lower fixing plate, and a plurality of cheese forming pressing blocks are fixedly arranged on the upper surface of the lower fixing plate.
[0017] Furthermore, the discharge mechanism includes a discharge cylinder and a receiving trough;
[0018] The cylinder body of the discharge cylinder is fixedly connected to the frame, and the free end of the telescopic rod of the discharge cylinder is fixedly connected to the outer wall of the receiving groove. The extension and retraction direction of the telescopic rod of the discharge cylinder is perpendicular to the moving direction of the raw material feeding mechanism and the sandwich material feeding mechanism. A receiving channel is provided on the frame for the receiving groove to pass through.
[0019] Advantages of this utility model:
[0020] This invention, by setting up a raw material feeding mechanism and a filling material feeding mechanism, feeds the filling material into the forming through hole through the two mechanisms respectively, thus producing truly filled cheese, enriching the diversity of cheese products and better meeting the needs of different production times. Attached Figure Description
[0021] To more clearly illustrate the technical solutions in the embodiments of the present invention or 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 only some embodiments of the present invention. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0022] Figure 1 This is a schematic diagram of the overall structure of this embodiment;
[0023] Figure 2 This is a top view of the feeding trough in this embodiment;
[0024] Figure 3 This is a side view of the feeding mechanism.
[0025] In the diagram: 1. Frame; 2. Raw material feeding mechanism; 3. Filling material feeding mechanism; 4. Feeding trough; 5. Feeding cylinder; 6. Guide rod; 7. Rack; 8. Stirring shaft; 9. Stirring rod; 10. Traveling gear; 11. Pressing mechanism; 12. Forming platform; 13. Forming through hole; 14. Upper pressing mold; 15. Upper mold cylinder; 16. Upper fixing plate; 17. Cheese forming upper pressing block; 18. Lower pressing mold; 19. Lower mold cylinder; 20. Lower fixing plate; 11. Cheese forming lower pressing block; 22. Discharge mechanism; 33. Discharge cylinder; 44. Receiving trough; 55. Detailed Implementation
[0026] 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.
[0027] Example 1
[0028] like Figure 1-3 The sandwich cheese pressing device shown includes a raw material feeding mechanism 2, a sandwich material feeding mechanism 3, a pressing mechanism 4, and a discharging mechanism 5, all mounted on a frame 1.
[0029] The raw material feeding mechanism 2 and the filling material feeding mechanism 3 have the same structure, both including a feeding trough 31 and a feeding cylinder 32, and both can move horizontally on the forming platform 41 of the frame 1 in a straight line; the pressing mechanism 4 is located on the moving path of the raw material feeding mechanism 2 and the filling material feeding mechanism 3, and is used to press the cheese into shape. Specifically, it includes a forming platform 41 fixed on the frame 1, and several forming through holes 42 are opened on the forming platform 41; an upper pressing mold 43 is provided on the frame 1 above the forming through holes 42, and a lower pressing mold 44 is provided on the frame 1 below the forming through holes 42; the positions and dimensions of the cheese forming upper pressing block 433 of the upper pressing mold 43 and the cheese forming lower pressing block 443 of the lower pressing mold 44 are all set to correspond to the positions and dimensions of the forming through holes 42. The discharge mechanism 5 is located directly below the pressing mechanism 4, and specifically includes a discharge cylinder 51 and a receiving groove 52. The height of the top of the receiving groove 52 is lower than the height of the bottom of the forming platform 41, and the height of the bottom of the receiving groove 52 is higher than the lowest height of the cheese forming lower pressing block 443 of the pressing mechanism 4.
[0030] Specifically, the top and bottom of the feeding trough 31 of the raw material feeding mechanism 2 and the sandwich material feeding mechanism 3 are both open structures, and the bottom end of the feeding trough 31 is in contact with the forming platform 41 on the frame 1; the cylinder bodies of the feeding cylinders 32 of the raw material feeding mechanism 2 and the sandwich material feeding mechanism 3 are both fixedly mounted on the frame 1, the piston rod of the feeding cylinder 32 is fixedly connected to the outer wall of the feeding trough 31, and the feeding cylinders 32 of the raw material feeding mechanism 2 and the sandwich material feeding mechanism 3 are respectively located on the opposite outer sides of the raw material feeding mechanism 2 and the sandwich material feeding mechanism 3. Two parallel guide rods 33 are provided on the frame 1. The feeding troughs 31 of the raw material feeding mechanism 2 and the sandwich material feeding mechanism 3 are both located between the two guide rods 33. A rack 34 is provided on the guide rod 33. A stirring shaft 35 is horizontally provided in the feeding trough 31. Several stirring rods 36 are provided on the stirring shaft 35. The guide rods 33 and the stirring rods 36 are perpendicular to each other. Both ends of the stirring shaft 35 are rotatably connected to the feeding trough 31 and extend to the outside of the feeding trough 31. Traveling gears 37 that mesh with the rack 34 are fixed at both ends of the stirring shaft 35 outside the feeding trough 31.
[0031] The upper pressing mold 43 includes an upper mold cylinder 431, an upper fixed plate 432, and cheese forming upper pressing blocks 433. The cylinder body of the upper mold cylinder 431 is fixedly connected to the frame 1, and the free end of the telescopic rod of the upper mold cylinder 431 is fixedly connected to the upper fixed plate 432. Several cheese forming upper pressing blocks 433 are fixedly arranged on the lower surface of the upper fixed plate 432. The lower pressing mold 44 includes a lower mold cylinder 441, a lower fixed plate 442, and cheese forming lower pressing blocks 443. The cylinder body of the lower mold cylinder 441 is fixedly connected to the frame 1, and the free end of the telescopic rod of the lower mold cylinder 441 is fixedly connected to the lower fixed plate 442. Several cheese forming lower pressing blocks 443 are fixedly arranged on the upper surface of the lower fixed plate 442.
[0032] The cylinder body of the discharge cylinder 51 is fixedly connected to the frame 1. The free end of the telescopic rod of the discharge cylinder 51 is fixedly connected to the outer wall of the receiving groove 52. The telescopic direction of the telescopic rod of the discharge cylinder 51 is perpendicular to the moving direction of the raw material feeding mechanism 2 and the sandwich material feeding mechanism 3. A receiving channel for the receiving groove 52 to pass through is provided on the frame 1.
[0033] Job Description:
[0034] When using this embodiment, first add raw materials, mainly milk powder, into the feeding trough 31 of the raw material feeding mechanism 2, and then add fruit pieces or nuts into the feeding trough 31 of the filling material feeding mechanism 3.
[0035] After loading, the cheese forming pressing block 443 is lifted into the forming through hole 42 by extending the telescopic rod of the lower mold cylinder 441, and a certain height is reserved between it and the top surface of the forming platform 41, so that the cheese forming pressing block 443 and the forming through hole 42 form a trough structure to accommodate the material, thus preventing the raw materials and filling materials from falling into the forming through hole 42 after the raw material feeding mechanism 2 and the filling material feeding mechanism 3 feed the material.
[0036] Then, the feeding cylinder 32 of the raw material feeding mechanism 2 is started, which drives the feeding trough 31 of the raw material feeding mechanism 2 to move on the forming platform 41. During the movement of the feeding trough 31, the traveling gear 37 will rotate under the action of the rack 34, which will drive the stirring shaft 35 and the stirring rod 36 to rotate, which can stir the raw material in the feeding trough 31 and prevent agglomeration. At the same time, since the bottom of the feeding trough 31 is open, the material will fall into the forming through hole 42 when the feeding trough 31 moves. After the feeding trough 31 of the raw material feeding mechanism 2 moves back and forth 2-3 times, the forming through hole 42 can be filled with a certain thickness of raw material, and the feeding cylinder 32 of the raw material feeding mechanism 2 is stopped. Next, the feeding cylinder 32 of the sandwich material feeding mechanism 3 is activated, driving the feeding trough 31 of the sandwich material feeding mechanism 3 to move on the forming platform 41. After the feeding trough 31 of the sandwich material feeding mechanism 3 moves back and forth 2-3 times, a layer of sandwich material can be laid on the raw material in the forming through hole 42, and the feeding cylinder 32 of the sandwich material feeding mechanism 3 is stopped. Then, the feeding cylinder 32 of the raw material feeding mechanism 2 is activated again, driving the raw material feeding mechanism 2 to feed raw material into the forming through hole 42 again, so that another layer of raw material is laid on the sandwich material in the forming through hole 42, thereby realizing the true sandwich structure. In this embodiment, during the movement of the feeding trough 31, the side wall of the feeding trough 31 can always scrape away excess material on the forming platform 41, keeping the forming platform 41 clean, and preventing the raw material and sandwich material from mixing together.
[0037] Next, the upper mold cylinder 431 is activated, causing the piston rod of the upper mold cylinder 431 to extend downward, driving the cheese forming upper pressure block 433 on the upper fixed plate 432 to move downward. After moving to the height of the forming platform 41, it continues to move downward a certain distance, squeezing the material in the forming through hole 42 to form the cheese.
[0038] Next, the telescopic rod of the retractable lower mold cylinder 441 is retracted to the lowest height of the cheese forming lower block 443. Then, the telescopic rod of the discharge cylinder 51 is extended, moving the receiving groove 52 directly below the forming through hole 42. The upper mold cylinder 431 is then activated again, causing its piston rod to extend downwards, thus pushing the pressed cheese out of the forming through hole 42 and dropping it into the receiving groove 52. By retracting the telescopic rod of the discharge cylinder 51, the receiving groove 52 is moved back to its original position, where workers can then remove the cheese for packaging.
[0039] The above are merely preferred embodiments of the present utility model and are 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 shall be included within the protection scope of the present utility model.
Claims
1. A sandwich cheese pressing device, characterized in that, It includes a raw material feeding mechanism, a sandwich material feeding mechanism, a pressing mechanism, and a discharge mechanism, all mounted on the frame. The raw material feeding mechanism and the filling material feeding mechanism move horizontally along the same straight line on the forming platform of the machine frame. The cylinder bodies of the feeding cylinders of the raw material feeding mechanism and the filling material feeding mechanism are both fixed on the machine frame. The pressing mechanism is located on the moving path of the raw material feeding mechanism and the filling material feeding mechanism and is used to press the cheese into shape. The discharging mechanism is located directly below the pressing mechanism, and the height of the top of the receiving groove of the discharging mechanism is lower than the height of the bottom of the forming platform, while the height of the bottom of the receiving groove is higher than the lowest height of the cheese forming lower pressing block of the pressing mechanism.
2. A cheese sandwiching device according to claim 1, characterized in that The raw material feeding mechanism and the sandwich material feeding mechanism have the same structure, both including a feeding trough and a feeding cylinder; the top and bottom of the feeding trough are open structures, and the bottom end of the feeding trough is in contact with the forming platform on the frame; The piston rod of the feeding cylinder is fixedly connected to the outer wall of the feeding trough, and the feeding cylinder of the raw material feeding mechanism and the feeding cylinder of the sandwich material feeding mechanism are respectively located on the opposite outer sides of the raw material feeding mechanism and the sandwich material feeding mechanism.
3. A cheese sandwiching device according to claim 2, wherein Two parallel guide rods are provided on the frame. The feeding troughs of the raw material feeding mechanism and the sandwich material feeding mechanism are both located between the two guide rods. A rack is provided on the guide rod. A stirring shaft is horizontally arranged inside the feeding trough, and a plurality of stirring rods are arranged on the stirring shaft; the guide rod is perpendicular to the stirring rods; both ends of the stirring shaft are rotatably connected to the feeding trough and extend to the outside of the feeding trough; at both ends of the stirring shaft outside the feeding trough, a traveling gear that meshes with the rack is fixedly arranged.
4. A cheese sandwiching device according to claim 1, wherein The molding mechanism includes a molding platform fixedly mounted on the frame, and a plurality of molding through holes are provided on the molding platform; An upper pressing die is provided on the frame above the forming through hole, and a lower pressing die is provided on the frame below the forming through hole; The positions and dimensions of the upper pressing block of the upper pressing mold and the lower pressing block of the lower pressing mold are set to correspond to the positions and dimensions of the forming through holes.
5. A cheese sandwiching device according to claim 4, wherein The upper pressing mold includes an upper mold cylinder, an upper fixed plate, and cheese forming upper pressing blocks; the cylinder body of the upper mold cylinder is fixedly connected to the frame, the free end of the telescopic rod of the upper mold cylinder is fixedly connected to the upper fixed plate, and a plurality of cheese forming upper pressing blocks are fixedly provided on the lower surface of the upper fixed plate.
6. A sandwich cheese pressing device according to claim 4, characterized in that, The pressing mold includes a lower mold cylinder, a lower fixing plate, and cheese forming pressing blocks; the cylinder body of the lower mold cylinder is fixedly connected to the frame, the free end of the telescopic rod of the lower mold cylinder is fixedly connected to the lower fixing plate, and a plurality of cheese forming pressing blocks are fixedly arranged on the upper surface of the lower fixing plate.
7. A cheese sandwiching device according to claim 1, wherein The discharge mechanism includes a discharge cylinder and a receiving trough; The cylinder body of the discharge cylinder is fixedly connected to the frame, and the free end of the telescopic rod of the discharge cylinder is fixedly connected to the outer wall of the receiving groove. The extension and retraction direction of the telescopic rod of the discharge cylinder is perpendicular to the moving direction of the raw material feeding mechanism and the sandwich material feeding mechanism. A receiving channel is provided on the frame for the receiving groove to pass through.