A frying, washing and polishing integrated machine

CN224494634UActive Publication Date: 2026-07-14GUANGDONG XINGJUE EQUIPMENT CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGDONG XINGJUE EQUIPMENT CO LTD
Filing Date
2025-08-12
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing sand-roasting machines require manual removal of clothing after sand roasting, especially heavy garments such as jeans, which is labor-intensive and has a low degree of automation, resulting in high labor costs and low processing efficiency.

Method used

A stir-frying, washing, grinding and polishing integrated machine was designed, which includes a support mechanism, a lifting mechanism and a rotation drive mechanism. It can automatically stir-fry sand and recover the particles used for stir-frying sand. The lifting mechanism realizes the automatic output of the stir-frying bucket. Combined with the sealing mechanism and the automatic control of the inlet and outlet, it realizes fully automated operation.

Benefits of technology

It reduces labor costs, improves the automation level and processing efficiency of the sand roasting machine, and can also be used as a cleaning machine, enhancing the sand roasting effect and efficiency.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224494634U_ABST
Patent Text Reader

Abstract

The utility model discloses a fry and wash and polish integrated machine, including support mechanism, lifting mechanism, rotary drive mechanism and fry sand barrel. Fry sand barrel rotatable connection is in support mechanism and can realize the function of frying sand through rotary drive mechanism and drive down rotatable, and lifting mechanism sets up in support mechanism, and through lifting mechanism can lift one end of fry sand barrel two ends respectively. Fry sand barrel is provided with recovery cavity and fry sand cavity, and the clothes are in the fry sand cavity and make the fry sand with granular material and clothes interact through the rotary drive mechanism and drive fry sand barrel rotation, and the clothes and the fry sand with granular material enter recovery cavity together after fry sand and are recovered through recovery.
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Description

Technical Field

[0001] This utility model relates to the field of garment processing, and in particular to an integrated washing, frying and polishing machine. Background Technology

[0002] After the existing sand-frying machine finishes frying, the clothes inside the machine need to be removed manually. For relatively heavy clothing such as jeans, the workload for workers is relatively high. With the development of the social economy, fewer and fewer young people are willing to do this kind of heavy physical work. Therefore, it is necessary to improve the automation level of the sand-frying machine, reduce labor costs, and improve the processing efficiency of the sand-frying machine. Utility Model Content

[0003] The main purpose of this utility model is to provide an integrated sand-frying, washing, and grinding machine with a simple structure, high degree of automation, and the ability to automatically fry sand and recycle the particles used for frying sand, thereby reducing labor costs and improving work efficiency.

[0004] This utility model proposes an integrated machine for frying, washing, grinding and polishing, including a support mechanism, a lifting mechanism, a rotation drive mechanism and a frying bucket;

[0005] The sand-frying bucket is rotatably connected to the support mechanism and can rotate under the drive of the rotation mechanism to realize the sand-frying function. The lifting mechanism is set in the support mechanism and can lift one end of the sand-frying bucket respectively.

[0006] The sand-frying barrel includes a sand-frying barrel shell, with an inlet and an outlet respectively provided at both ends of the sand-frying barrel shell. A sand-frying chamber and a recovery chamber are provided inside the sand-frying barrel shell, and one end of the sand-frying chamber is connected to the inlet.

[0007] The recycling chamber includes a first recycling chamber and a second recycling chamber. The first recycling chamber is disposed inside the second recycling chamber and is separated from the second recycling chamber by an isolation net. The isolation net is provided with a plurality of isolation net holes that allow sand-frying particles to pass through.

[0008] One end of the first recycling chamber is connected to the discharge port, and the other end is connected to the sand-frying chamber. During sand frying, the sand-frying particles are placed in the sand-frying chamber, and the sand-frying bucket is rotated by the rotation drive mechanism so that the sand-frying particles and the clothing interact with each other. After the sand frying is completed, the clothing and the sand-frying particles enter the recycling chamber together and are recycled through the recycling chamber.

[0009] Preferably, a transition cavity is also provided inside the shell of the sand-frying barrel. The transition cavity is located between the first recovery cavity and the sand-frying cavity. The inner diameter of the sand-frying cavity is larger than the inner diameter of the first recovery cavity. The cross-section of the transition cavity is a conical surface. One end of the transition cavity is adapted to the sand-frying cavity, and the other end is adapted to the first recovery cavity. By setting a sand-frying cavity with a larger radius, the clothing in the sand-frying process can be limited.

[0010] Preferably, the inner side of the sand-frying chamber is also provided with a plurality of sand-frying protrusions, which can break up the contents and enhance the sand-frying effect.

[0011] Preferably, the support mechanism includes an upper support mechanism and a lower support mechanism. The lower support mechanism is provided with support positioning seats at both ends of its top. The support positioning seats are provided with positioning seat limiting grooves at their top. The upper support mechanism is provided with a connecting rotating rod at its bottom. The upper support mechanism is limited and positioned on its top by the cooperation of the connecting rotating rod and the positioning seat limiting grooves.

[0012] Preferably, the rotation drive mechanism is a rotation drive motor, which is mounted on the support mechanism. The output shaft of the rotation drive motor is connected to the reducer. The side of the sand-frying barrel is provided with sand-frying barrel connecting teeth. The sand-frying barrel connecting teeth cooperate with the reducer, thereby enabling the rotation drive motor to drive the sand-frying barrel to rotate.

[0013] Preferably, the lifting mechanism includes a first hydraulic rod, a second hydraulic rod, a first lifting mechanism support seat, and a second lifting mechanism support seat;

[0014] The first lifting mechanism support and the second lifting mechanism support are respectively fixedly connected to the lower support mechanism. The bottom of the first hydraulic rod is rotatably connected to the top of the first lifting mechanism support, and the bottom of the second hydraulic rod is rotatably connected to the second lifting mechanism support.

[0015] The bottom of the upper support mechanism is provided with two upper support mechanism connecting seats arranged in pairs and opposite to each other in the same group; the two ends of the two connecting rotating rods are respectively rotatably connected to the upper support mechanism connecting seats in the same group.

[0016] The output ends of the first hydraulic rod and the second hydraulic rod are respectively connected to the two connecting rotating rods. The sand-frying barrel is mounted on the upper support mechanism and can be lifted by pushing one end of the upper support mechanism through the first hydraulic rod and the second hydraulic rod, thereby lifting one end of the sand-frying barrel.

[0017] Preferably, a limiting ring is also provided around the side of the sand-frying drum, and the support mechanism is provided with a plurality of support mechanism limiting components adapted to the limiting ring. Through the cooperation of the support mechanism limiting components and the limiting ring, the sand-frying drum can be limited during the process of being lifted. A limiting component pulley is provided on the side of the support mechanism limiting component that contacts the limiting ring. By providing the limiting component pulley, the sand-frying drum can be limited without affecting the rotation of the sand-frying drum.

[0018] Preferably, the granules used for frying sand are any one or a combination of two or more of grinding balls, gravel, and salt.

[0019] Preferably, it further includes two closing mechanisms: one disposed on the front side of the sand-frying barrel corresponding to the inlet, and the other disposed on the rear side of the sand-frying barrel corresponding to the outlet.

[0020] The closing mechanism includes a closing drive mechanism, a closing drive sensor, and a closing door. The closing drive mechanism is fixedly connected to the support mechanism, and the output end of the closing drive mechanism is connected to the closing door. The closing drive mechanism can drive the opening and closing of the closing door, and the closing drive sensor can determine the opening and closing status of the closing door.

[0021] The beneficial effects of this utility model's integrated stir-frying, washing, and grinding machine are as follows:

[0022] 1. By setting up a lifting mechanism to lift one end of the sand-frying bucket, the automatic output of clothing after sand frying and the recycling of sand-frying particles can be achieved, thereby reducing labor costs.

[0023] 2. The sand-frying process is fully automated, with a high degree of automation, which can greatly reduce labor costs and improve the processing efficiency of the sand-frying machine.

[0024] 3. In actual use, this machine can also be used as a cleaning machine by adding water and washing liquid at the feed inlet. Attached Figure Description

[0025] Figure 1 This is a schematic diagram of the integrated frying, washing, and grinding machine of this utility model;

[0026] Figure 2 This is a partial structural schematic diagram of the top view of the integrated frying, washing, and grinding machine of this utility model;

[0027] Figure 3 This is a schematic diagram of the connection between the upper support mechanism and the lower support mechanism of the integrated stir-frying, washing, and grinding machine of this utility model.

[0028] Figure 4This is a front view of the sand-frying bucket of the integrated sand-frying, washing, and grinding machine of this utility model;

[0029] Figure 5 This is a connection diagram of another embodiment of the sand-frying barrel of the integrated sand-frying, washing, and grinding machine of this utility model;

[0030] Figure 6 This is a cross-sectional view of the top view of the sand-frying bucket of the integrated sand-frying, washing, and grinding machine of this utility model;

[0031] Figure 7 Another embodiment of the top view and cross-sectional view of the sand-frying barrel of the integrated sand-frying, washing and grinding machine of this utility model;

[0032] Figure 8 This is a schematic diagram of the internal structure of the sand-frying chamber of the sand-frying bucket in the integrated sand-frying, washing, and grinding machine of this utility model.

[0033] The diagram is labeled as follows: 1. Support mechanism, 2. Lifting mechanism, 3. Rotation drive mechanism, 4. Sand-frying barrel, 5. Sealing mechanism, 11. Lower support mechanism, 12. Upper support mechanism, 21. First lifting mechanism support seat, 22. Second lifting mechanism support seat, 23. First hydraulic rod, 24. Second hydraulic rod, 31. Rotation drive motor, 32. Reducer, 41. Sand-frying barrel connecting gear, 42. Limiting ring, 43. Sand-frying chamber, 44. Transition chamber, 45. First recovery chamber, 46. Second recovery chamber, 47. Isolation net, 48. Sand-frying barrel shell, 49. Water outlet pipe, 50. Guide rail, 51. Sealing drive mechanism, 52. Sealing door, 53. Water inlet, 111. Support positioning seat, 112. Support limiting seat, 113. Folding connecting rod, 114. Lower support mechanism mounting hole, 121. Upper support mechanism connecting seat, 122. Connecting rotating rod, 123. Connecting limiting post. 124. Rotation limit mechanism; 125. Support mechanism limit component; 126. Guide rail connecting pulley; 431. Sand frying protrusion; 461. Recycling protrusion; 471. Isolation net through hole; 481. Feed inlet; 482. Discharge outlet.

[0034] The realization of the purpose, functional features and advantages of this utility model will be further explained in conjunction with the embodiments and with reference to the accompanying drawings. Detailed Implementation

[0035] It should be understood that the specific embodiments described herein are merely illustrative of the present invention and are not intended to limit the present invention.

[0036] Reference Figures 1 to 8 An embodiment of the integrated frying, washing, and grinding machine of this utility model is presented:

[0037] A frying, washing, grinding and polishing integrated machine includes a support mechanism 1, a lifting mechanism 2, a rotation drive mechanism 3, a sealing mechanism 5, and a frying sand bucket 4.

[0038] The support mechanism 1 includes an upper support mechanism 12 and a lower support mechanism 11. Multiple mounting holes 114 are provided on both sides of the bottom of the lower support mechanism. The lower support mechanism is fixedly connected to the external environment by screws connecting the mounting holes 114 to the ground. Support positioning seats 111 are provided at both ends of the top of the lower support mechanism 11, and each support positioning seat 111 has a positioning seat limiting groove at its top. The bottom of the upper support mechanism 12 has two sets of upper support mechanism connecting seats 121 arranged opposite each other in the same set. Two connecting rotating rods 122 are rotatably connected at both ends to the upper support mechanism connecting seats 121 in the same set. Through the cooperation of the connecting rotating rods 122 and the positioning seat limiting grooves, the upper support mechanism 12 is limited and positioned on top of the upper support mechanism 11. A support limiting seat 112 is also provided on the lower support mechanism 11 between the support positioning seats 111. The support limiting seat 112 is provided with a support limiting seat connecting groove. The bottom of the connecting rotating rod 122 is provided with a connecting limiting post 123 that is adapted to the support limiting seat connecting groove. Through the cooperation of the support limiting seat connecting groove and the connecting limiting post 123, when one end of the upper support mechanism 12 rotates, the other end can rotate around the connecting rotating rod 122 as the center. The upper support mechanism 12 and the lower support mechanism 11 are also connected by four folding connecting rods 113, which can make the connection between the two more stable and prevent the upper support mechanism 12 from swaying left and right.

[0039] The lifting mechanism 2 includes a first hydraulic rod 23, a second hydraulic rod 24, a first lifting mechanism support 21, and a second lifting mechanism support 22. The first lifting mechanism support 21 and the second lifting mechanism support 22 are fixedly connected to the lower support mechanism 11. The bottom of the first hydraulic rod 23 is rotatably connected to the top of the first lifting mechanism support 21, and the bottom of the second hydraulic rod 24 is rotatably connected to the second lifting mechanism support 22. The output ends of the first hydraulic rod 23 and the second hydraulic rod 24 are respectively connected to two connecting rotating rods 122. The sand-frying bucket 4 is mounted on the upper support mechanism 12 and can be lifted by pushing one end of the upper support mechanism 12 through the first hydraulic rod 23 and the second hydraulic rod 24 respectively.

[0040] The sand-frying bucket 4 is rotatably connected to the upper support mechanism 12 via a rotation limiting mechanism 124. A limiting ring 42 is arranged around the side of the sand-frying bucket 4. The upper support mechanism 12 is provided with multiple support mechanism limiting members 125 that are adapted to the limiting ring 42. Through the cooperation of the support mechanism limiting members 125 and the limiting ring 42, the sand-frying bucket 4 can be limited during the process of being lifted. A limiting member pulley is provided on the side of the support mechanism limiting member 125 that contacts the limiting ring 42. By providing the limiting member pulley, the sand-frying bucket 4 can be limited without affecting its rotation.

[0041] In actual use, the limit ring 42 can be replaced with two guide rails 50 according to customer needs, and the rotation limit mechanism 124 on the upper support mechanism 12 can be replaced with... Figure 6 The guide rail with the arc groove is connected to the pulley 126, so that it can support the sand-frying barrel 4 and limit its movement.

[0042] The rotation drive mechanism 3 is a rotation drive motor 31, which is mounted on the upper support mechanism 12. The output shaft of the rotation drive motor 31 is connected to the reducer 32. The side of the sand-frying barrel 4 is surrounded by sand-frying barrel connecting teeth 41. Through the cooperation of the sand-frying barrel connecting teeth 41 and the reducer 32, the sand-frying barrel 4 can be driven to rotate by the rotation drive motor 31.

[0043] The sand-frying barrel 4 includes a sand-frying barrel shell 48. The sand-frying barrel shell 48 has an inlet 481 and an outlet 482 at its two ends. Inside the sand-frying barrel shell 48, there is a sand-frying chamber 43, a transition chamber 44, and a recovery chamber. One end of the sand-frying chamber 43 is connected to the inlet 48. Six sand-frying protrusions 431 are also provided on the inner side of the sand-frying chamber 43. These protrusions 431 disperse the contents, enhancing the sand-frying effect. The sand-frying chamber 43 contains sand-frying particles, which are any one or a combination of two or more of grinding balls, gravel, and salt.

[0044] The recovery chamber includes a first recovery chamber 45 and a second recovery chamber 46. The first recovery chamber 45 is disposed inside the second recovery chamber 46 and is separated from the second recovery chamber 46 by a partition net 47. (Refer to...) Figure 6 The isolation net 47 has multiple circular through holes 471 that allow particles used for sand frying to pass through. In actual use, this can also be referred to... Figure 7 The first recovery chamber 45 has a square mesh opening 471. One end of the first recovery chamber 45 is connected to the discharge port 482, and the other end is connected to the sand-frying chamber 43 through the transition chamber 44. The inner diameter of the sand-frying chamber 43 is larger than the inner diameter of the first recovery chamber 45. The front cross-section of the transition chamber 44 is a conical surface. One end of the transition chamber 44 is adapted to the sand-frying chamber 43, and the other end is adapted to the first recovery chamber 45. By setting the sand-frying chamber 43 with a larger radius, the clothing in the sand-frying process can be limited. The second recovery chamber 46 also has a conical surface on the side near the transition chamber 44. The second recovery chamber 46 is provided with a recovery protrusion 461. By setting the recovery protrusion 461, the sand-frying particles can be better carried back into the sand-frying chamber.

[0045] Two sealing mechanisms 5 are provided, one located on the front side of the sand-frying tank 4 corresponding to the feed inlet 481, and the other located on the rear side of the sand-frying tank 4 corresponding to the discharge outlet 482. Each sealing mechanism 5 includes a sealing drive mechanism 51, a sealing drive sensor, and a sealing door 52. The sealing drive mechanism 51 is fixedly connected to the support mechanism 1, and its output end is connected to the sealing door 52. The sealing drive mechanism 51 can drive the opening and closing of the sealing door 52, and the sealing drive sensor can determine the opening and closing status of the sealing door 52.

[0046] The closed door 52 is equipped with a water inlet 53, and a rotating flange for connecting to the water inlet pipe is also provided on the outside of the water inlet 53. The sand frying chamber 43 is located at one end of the sand frying barrel 4 and a water outlet pipe 49 is provided. By setting the water inlet 53 and the water outlet pipe 49, this sand frying, washing and grinding integrated machine can serve as a water inlet and outlet when it is used as a cleaning machine.

[0047] The above description is only a preferred embodiment of the present utility model and does not limit the patent scope of the present utility model. Any equivalent structural transformations made based on the contents of the present utility model specification and drawings, or direct or indirect applications in other related technical fields, are similarly included within the patent protection scope of the present utility model.

Claims

1. A frying, washing, grinding and polishing integrated machine, characterized in that, This includes a support mechanism, a lifting mechanism, a rotation drive mechanism, and a sand-frying drum; The sand-frying bucket is rotatably connected to the support mechanism and can rotate under the drive of the rotation mechanism to realize the sand-frying function. The lifting mechanism is set in the support mechanism and can lift one end of the sand-frying bucket respectively. The sand-frying barrel includes a sand-frying barrel shell, with an inlet and an outlet respectively provided at both ends of the sand-frying barrel shell. A sand-frying chamber and a recovery chamber are provided inside the sand-frying barrel shell, and one end of the sand-frying chamber is connected to the inlet. The recycling chamber includes a first recycling chamber and a second recycling chamber. The first recycling chamber is disposed inside the second recycling chamber and is separated from the second recycling chamber by an isolation net. The isolation net is provided with a plurality of isolation net holes that allow sand-frying particles to pass through. One end of the first recycling chamber is connected to the discharge port, and the other end is connected to the sand-frying chamber. During sand frying, the sand-frying particles are placed in the sand-frying chamber, and the sand-frying bucket is rotated by the rotation drive mechanism so that the sand-frying particles and the clothing interact with each other. After the sand frying is completed, the clothing and the sand-frying particles enter the recycling chamber together and are recycled through the recycling chamber.

2. The integrated roasting, washing, and grinding machine according to claim 1, characterized in that, The inner side of the sand-frying barrel shell is also provided with a transition cavity, which is located between the first recovery cavity and the sand-frying cavity. The inner diameter of the sand-frying cavity is larger than the inner diameter of the first recovery cavity. The cross-section of the transition cavity is a conical surface. One end of the transition cavity is adapted to the sand-frying cavity, and the other end is adapted to the first recovery cavity. By setting a sand-frying cavity with a larger radius, the clothing in the sand-frying process can be limited.

3. The integrated frying, washing, and grinding machine according to claim 1 or 2, characterized in that, The inner side of the sand-frying chamber is also provided with multiple sand-frying protrusions, which can break up the contents and enhance the sand-frying effect.

4. The integrated roasting, washing, and grinding machine according to claim 1, characterized in that, The support mechanism includes an upper support mechanism and a lower support mechanism. The lower support mechanism has support positioning seats at both ends of its top. The support positioning seats have positioning seat limiting grooves at their top. The upper support mechanism has a connecting rotating rod at its bottom. The upper support mechanism is positioned on its top by the cooperation of the connecting rotating rod and the positioning seat limiting grooves.

5. The integrated frying, washing, and grinding machine according to claim 1 or 4, characterized in that, The rotation drive mechanism is a rotation drive motor, which is mounted on the support mechanism. The output shaft of the rotation drive motor is connected to the reducer. The side of the sand-frying barrel is provided with sand-frying barrel connecting teeth. Through the cooperation of the sand-frying barrel connecting teeth with the reducer, the rotation drive motor can drive the sand-frying barrel to rotate.

6. The integrated frying, washing, and grinding machine according to claim 4, characterized in that, The lifting mechanism includes a first hydraulic rod, a second hydraulic rod, a first lifting mechanism support seat, and a second lifting mechanism support seat; The first lifting mechanism support and the second lifting mechanism support are respectively fixedly connected to the lower support mechanism. The bottom of the first hydraulic rod is rotatably connected to the top of the first lifting mechanism support, and the bottom of the second hydraulic rod is rotatably connected to the second lifting mechanism support. The bottom of the upper support mechanism is provided with two upper support mechanism connecting seats arranged in pairs and opposite to each other in the same group; the two ends of the two connecting rotating rods are respectively rotatably connected to the upper support mechanism connecting seats in the same group. The output ends of the first hydraulic rod and the second hydraulic rod are respectively connected to the two connecting rotating rods. The sand-frying barrel is mounted on the upper support mechanism and can be lifted by pushing one end of the upper support mechanism through the first hydraulic rod and the second hydraulic rod, thereby lifting one end of the sand-frying barrel.

7. The integrated roasting, washing, and grinding machine according to claim 1, characterized in that, A limiting ring is also provided around the side of the sand-frying drum. The support mechanism is provided with a plurality of support mechanism limiting components adapted to the limiting ring. Through the cooperation of the support mechanism limiting components and the limiting ring, the sand-frying drum can be limited during the process of being lifted. A limiting component pulley is provided on the side of the support mechanism limiting component that contacts the limiting ring. By providing the limiting component pulley, the sand-frying drum can be limited without affecting the rotation of the sand-frying drum.

8. The integrated roasting, washing, and grinding machine according to claim 1, characterized in that, The particles used for frying sand are any one or a combination of two or more of the following: grinding balls, gravel, and salt.

9. The integrated frying, washing, and grinding machine according to claim 1, characterized in that, It also includes two sealing mechanisms: one located on the front side of the sand-frying barrel corresponding to the feed inlet, and the other located on the rear side of the sand-frying barrel corresponding to the discharge outlet. The closing mechanism includes a closing drive mechanism, a closing drive sensor, and a closing door. The closing drive mechanism is fixedly connected to the support mechanism, and the output end of the closing drive mechanism is connected to the closing door. The closing drive mechanism can drive the opening and closing of the closing door, and the closing drive sensor can determine the opening and closing status of the closing door.