CN219383757U - Air fryer production line - Google Patents

Abstract

The utility model discloses an air fryer production line which comprises an assembly line, a power test line, a cooling line and a packaging line which are connected in sequence; the power test line is arranged at one side of the assembly line, and the cooling line is arranged right above the power test line; the power test line is provided with a plurality of test stations, a first power supply socket and a test module are respectively arranged on the plurality of test stations, the test module comprises a first bin body sample, a temperature sensor and a first indicator, the temperature sensor is arranged in the first bin body sample, and the temperature sensor is electrically connected with the first indicator. The power test line of the air fryer production line can simulate the real use state of the air fryer product through the first bin body sample, and can test the temperature which can be reached by the heating bin of the product in unit time according to the temperature sensor in the first bin body sample, so as to judge whether the quality of the product meets the requirement. Further, the air fryer production line has a three-dimensional space structure, and can effectively reduce the occupied area.

Description

Air fryer production line

Technical Field

The utility model relates to the technical field of household appliance manufacturing, in particular to an air fryer production line.

Background

At present, various household appliances are widely used by people, and bring convenience to people. In recent years, particularly in the field of kitchen appliances, various kitchen appliances bring great convenience to the life of people, and thus, there is a great demand in the market. Thus, manufacturers of kitchen appliances need to increase the production scale to meet the demands of people for kitchen appliances. The existing production line of the air fryer is a line body, namely the layout of the air fryer is in a shape of a straight line or an L-shaped line, and the layout occupies a large area, so that the production scale is not easy to expand. In addition, the air fryer that produces from the production line still needs to shift to the test line on to test, leads to the area that production required is big, causes production, transmission cycle to increase, demand personnel increase, personnel distribution are not concentrated and inconvenient problem of managing, can cause manufacturing cost higher.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: the air fryer production line is high in efficiency and convenient to integrate.

In order to solve the technical problems, the utility model adopts the following technical scheme: the air fryer production line comprises an assembly line, a power test line, a cooling line and a packaging line which are connected in sequence; the power test line is arranged on one side of the assembly line, and the cooling line is arranged right above the power test line; the power test line is provided with a plurality of test stations, a plurality of the test stations are respectively provided with a first power supply socket and a test module, the test module comprises a first bin body sample, a temperature sensor and a first indicator, the temperature sensor is arranged in the first bin body sample, and the temperature sensor is electrically connected with the first indicator.

Further, a line detection station for detecting products is arranged at the tail end of the assembly line.

Further, a first transfer mechanism is included for transferring the product at the end of the assembly line laterally onto the power test line.

Further, the number of the power test lines is plural, and the plural power test lines are arranged on one side of the assembly line side by side.

Further, a first lifter is arranged at the tail end of the power test line and is used for conveying products at the tail end of the power test line to the cooling line.

Further, a cooling bin body is arranged on the cooling line, and a cooling fan is arranged on the wall surface of the cooling bin body.

Further, the packaging line also comprises a transfer mechanism, wherein the transfer mechanism comprises a second lifter and a second transmission mechanism, the second lifter is arranged at the tail end of the cooling line, and the two ends of the second transmission mechanism are respectively connected with the head end of the packaging line and the second lifter.

Further, the assembly line, the power test line, the cooling line and the packaging line each include a chain drive assembly and a plurality of tooling plates disposed on the chain drive assembly.

Further, the tool plate conveying device further comprises a return line, wherein the assembly line and the packaging line are located in the same straight line direction, the return line is arranged right below the assembly line and the packaging line, the return line is respectively connected with the tail end of the packaging line and the head end of the assembly line, and the return line is used for conveying the tool plate along the direction opposite to the conveying direction of the assembly line.

Further, a support is arranged above the assembly line, and a tool sliding rail, an illuminating lamp and a process signboard are arranged on the support.

The utility model has the beneficial effects that: the power test line of the air fryer production line can simulate the real use state of the air fryer product through the first bin body sample, and can test the temperature which can be reached by the heating bin of the product in unit time according to the temperature sensor in the first bin body sample, so as to judge whether the quality of the product meets the requirement or not, and display the test result through the first indicator. Further, the air fryer production line has a three-dimensional space structure, can effectively reduce the occupied area, is beneficial to expanding the production scale, and is also beneficial to reducing the production cost, reducing the transmission period, improving the production efficiency and reducing the demand personnel.

Drawings

FIG. 1 is a top view of an assembly line, a power test line, and a packaging line in an air fryer production line according to a first embodiment of the utility model;

FIG. 2 is a top view of a cooling line in an air fryer production line according to a first embodiment of the utility model;

FIG. 3 is a side view of an assembly line in an air fryer production line according to a first embodiment of the utility model;

FIG. 4 is a side view of a power test line and a cooling line in an air fryer manufacturing line according to a first embodiment of the utility model.

Description of the reference numerals:

1. an assembly line; 11. a line detection station; 12. a bracket; 13. a tool slide rail; 14. a lighting lamp; 15. a process billboard;

2. a power test line; 21. a test module; 211. a first cartridge sample; 212. a temperature sensor; 213. a first indicator; 22. a first elevator;

3. a cooling line; 31. cooling the bin body; 32. a heat radiation fan; 33. a second lifter; 34. a second transmission mechanism;

4. a packaging line;

5. a first transmission mechanism;

61. a chain drive assembly; 62. a tooling plate; 63. a station blocker;

7. a return line.

Detailed Description

In order to describe the technical contents, the achieved objects and effects of the present utility model in detail, the following description will be made with reference to the embodiments in conjunction with the accompanying drawings.

Referring to fig. 1 to 4, an air fryer production line includes an assembly line 1, a power test line 2, a cooling line 3 and a packaging line 4 connected in sequence; the power test line 2 is arranged on one side of the assembly line 1, and the cooling line 3 is arranged right above the power test line 2; the power test line 2 is provided with a plurality of test stations, a plurality of first power supply sockets and a test module 21 are respectively arranged on the test stations, the test module 21 comprises a first bin body sample 211, a temperature sensor 212 and a first indicator 213, the temperature sensor 212 is arranged in the first bin body sample 211, and the temperature sensor 212 is electrically connected with the first indicator 213.

The working principle of the utility model is briefly described as follows: the components of the air fryer are transferred to each testing station of the power testing line 2 after being combined into products by the assembly line 1; the first bin sample 211 on the test station is plugged into the air fryer product, and the air fryer product is electrified to start heating; after the air fryer product is heated for a preset time, the temperature sensor 212 judges the temperature; the testing module 21 enables the first indicator 213 to send different information according to the temperature so as to facilitate the staff to take out defective products; powering off the qualified air fryer products, taking down the first bin body sample 211, and cooling in the cooling line 3; the air fryer products enter a packaging line 4 after passing through a cooling line 3, and are packaged after being filled into an adaptive bin body.

From the above description, the beneficial effects of the utility model are as follows: the power test line 2 of the air fryer production line can simulate the real use state of the air fryer products through the first bin body sample 211, and can test the temperature which can be reached by the heating bin of the products in unit time according to the temperature sensor 212 in the first bin body sample 211, so as to judge whether the quality of the products meets the requirements or not, and display the test result through the first indicator. Further, the air fryer production line has a three-dimensional space structure, can effectively reduce the occupied area, is beneficial to expanding the production scale, and is also beneficial to reducing the production cost, reducing the transmission period, improving the production efficiency and reducing the demand personnel.

Further, the end of the assembly line 1 is provided with a line inspection station 11 for inspecting products.

Further, a first transfer mechanism 5 is further included, the first transfer mechanism 5 being used for transferring the products at the end of the assembly line 1 laterally onto the power test line 2.

From the above description, the first conveying mechanism 5 can quickly change the conveying direction of the production line, so as to optimize the space layout of the air fryer production line, reduce the length of the air fryer production line, facilitate the expansion of the production scale and the reduction of the conveying period.

Further, the number of the power test lines 2 is plural, and the plural power test lines 2 are arranged side by side on one side of the assembly line 1.

As can be seen from the above description, the provision of a plurality of parallel power test lines 2 with the same length can improve the power test efficiency, and ensure that the product test process and the product assembly process are synchronized.

Further, a first lifter 22 is provided at the end of the power test line 2, and the first lifter 22 is used for conveying the product at the end of the power test line 2 to the cooling line 3.

Further, a cooling bin body 31 is mounted on the cooling line 3, and a cooling fan 32 is disposed on a wall surface of the cooling bin body 31.

As is clear from the above description, the cooling line 3 has a simple structure and is easy to manufacture.

Further, the packaging machine further comprises a transfer mechanism, the transfer mechanism comprises a second lifter 33 and a second conveying mechanism 34, the second lifter 33 is arranged at the tail end of the cooling line 3, and two ends of the second conveying mechanism 34 are respectively connected with the head end of the packaging line 4 and the second lifter 33.

Further, the assembly line 1, the power test line 2, the cooling line 3 and the packaging line 4 each comprise a chain drive assembly 61 and a plurality of tooling plates 62 placed on the chain drive assembly 61.

As can be seen from the above description, the air fryer production line has a simple transmission structure and is convenient to produce and manufacture.

Further, the packaging machine further comprises a return line 7, the assembly line 1 and the packaging line 4 are positioned in the same straight line direction, the return line 7 is arranged right below the assembly line 1 and the packaging line 4, the return line 7 is respectively connected with the tail end of the packaging line 4 and the head end of the assembly line 1, and the return line 7 is used for conveying the tooling plate 62 along the direction opposite to the conveying direction of the assembly line 1.

As can be seen from the above description, the return line 7 enables the tooling plate 62 to circulate in the loop, facilitating integration, reducing the transmission period and the personnel required.

Further, a bracket 12 is installed above the assembly line 1, and a tool slide rail 13, an illuminating lamp 14 and a process signboard 15 are installed on the bracket 12.

As is clear from the above description, the assembly line 1 is simple in structure and convenient for assembly production.

Example 1

Referring to fig. 1 to 4, a first embodiment of the present utility model is as follows: the air fryer production line comprises an assembly line 1, a power test line 2, a cooling line 3 and a packaging line 4 which are connected in sequence; the power test line 2 is arranged on one side of the assembly line 1, and the cooling line 3 is arranged right above the power test line 2; the power test line 2 is provided with a plurality of test stations, a first power supply socket and a test module 21 are respectively arranged on the plurality of test stations, the test module 21 comprises a first bin body sample 211, a temperature sensor 212 and a first indicator 213, the temperature sensor 212 is arranged in the first bin body sample 211, and the temperature sensor 212 is electrically connected with the first indicator 213. Specifically, the conveying directions of the assembly line 1, the cooling line 3, and the packaging line 4 are the same, the power test line 2 is disposed in parallel with the assembly line 1, and the conveying direction of the power test line 2 is opposite to the conveying direction of the assembly line 1. The longitudinal directions of the assembly line 1 and the packaging line 4 are on the same line. A bracket 12 is arranged above the assembly line 1, and a tool slide rail 13, an illuminating lamp 14 and a process signboard 15 are arranged on the bracket 12. The packaging line 4 is required to firstly fill the matched bin body into the semi-finished product of the air fryer to form a finished product, and then packaging is carried out. The first bin sample 211 is identical to the bin of the air fryer finished product in terms of shape and size, and a through hole is formed in the first bin sample 211 so that the temperature sensor 212 is connected with the testing module 21 through an electric wire. In this embodiment, the first indicator 213 includes a plurality of indicator lights for indicating different states, including "on", "normal", "low temperature" and "high temperature". In other embodiments, the first indicator 213 may be provided as a display screen.

Preferably, the assembly line 1, the power test line 2, the cooling line 3 and the packaging line 4 each comprise a frame, a chain drive assembly 61 provided on the frame, and a plurality of tooling plates 62 placed on the chain drive assembly 61. Also mounted on the assembly line 1 and the power test line 2 are a plurality of station stoppers 63 for stopping movement of the tooling plate 62 and stopper switches for controlling the station stoppers 63. The test module 21 of the power test line 2 is electrically connected to a stopper switch, which cannot control the station stopper 63 to descend when the test module 21 detects defective products. The power test line 2 is further provided with a plurality of counting stoppers, the counting stoppers are used for abutting the tooling plate 62, and the counting stoppers are rotatable relative to the frame. When the tooling plate 62 moves to the position above the counting baffle, the counting baffle is pressed down by the tooling plate 62 to rotate downwards, the number of the pressed counting baffles is calculated through a background system, the real-time number of the tooling plates 62 on the power test line 2 can be known, and the fact that after the power test line 2 is fully loaded, a new tooling plate 62 still moves towards the power test line 2 is prevented.

Preferably, the end of the power test line 2 is provided with a first elevator 22, the first elevator 22 being used to transfer the product at the end of the power test line 2 to the cooling line 3. Specifically, the first lifter 22 is used to transfer the tooling plate 62 and the product moved to the end of the power test line 2 to the head end of the chain drive assembly 61 of the cooling line 3.

Preferably, the air fryer production line further comprises a first transfer mechanism 5 and a transfer mechanism, the first transfer mechanism 5 being used to transfer the tooling plate 62 at the end of the assembly line 1 and the product on the tooling plate 62 laterally onto the power test line 2. The transfer mechanism comprises a second lifter 33 and a second transmission mechanism 34, the second lifter 33 is arranged at the tail end of the cooling line 3, two ends of the second transmission mechanism 34 are respectively connected with the head end of the packaging line 4 and the second lifter 33, and the transfer mechanism is used for transferring the tooling plate 62 at the tail end of the cooling line 3 and products on the tooling plate 62 to the packaging line 4. Specifically, the longitudinal direction of the first and second conveying mechanisms 5 and 34 is perpendicular to the longitudinal direction of the assembly line 1, and the first and second conveying mechanisms 5 and 34 are disposed side by side.

Preferably, the number of the power test lines 2 is plural, and the plural power test lines 2 are arranged side by side on one side of the assembly line 1. Specifically, the number of cooling lines 3 and the number of power test lines 2 are arranged in one-to-one correspondence. In the present embodiment, the number of the power test lines 2 is two, and in other embodiments, the number of the power test lines 2 may be set to one, three, or more.

Preferably, the end of the assembly line 1 is provided with a line inspection station 11 for inspecting the product. Specifically, the circuit detection station 11 is provided with a second power supply socket and a detection module, the detection module comprises a second bin body sample, an air pressure sensor and a second indicator, the air pressure sensor is arranged in the second bin body sample, and the air pressure sensor is electrically connected with the second indicator. In this embodiment, the second indicator is preferably an indicator light. It is easy to understand that the line detection station 11 can simulate the actual use state of the air fryer product through the second bin sample, and can primarily judge whether the line in the air fryer product is connected or not according to whether the fan of the air pressure sensor test product in the second bin sample works normally after being electrified.

Preferably, the cooling line 3 is provided with a cooling chamber 31, and a cooling fan 32 is provided on a wall surface of the cooling chamber 31. In this embodiment, the cooling bin 31 spans the rack of the cooling line 3, and the chain drive assembly 61 of the cooling line 3 passes through the cooling bin 31. Cooling fan 32 is respectively arranged on two opposite side walls and top wall of cooling bin 31.

Preferably, the air fryer production line further comprises a return line 7, wherein the return line 7 is arranged right below the assembly line 1 and the packaging line 4, the return line 7 is respectively connected with the tail end of the packaging line 4 and the head end of the assembly line 1, and the return line 7 is used for conveying the tooling plate 62 along the direction opposite to the conveying direction of the assembly line 1.

In summary, the power test line of the air fryer production line provided by the utility model can simulate the real use state of the air fryer product through the first bin body sample, and test the temperature of the heating bin of the product in unit time according to the temperature sensor in the first bin body sample, so as to judge whether the quality of the product meets the requirement or not, and display the test result through the first indicator. Further, the air fryer production line has a three-dimensional space structure, can effectively reduce the occupied area, is beneficial to expanding the production scale, and is also beneficial to reducing the production cost, reducing the transmission period, improving the production efficiency and reducing the demand personnel.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent changes made by the specification and drawings of the present utility model, or direct or indirect application in the relevant art, are included in the scope of the present utility model.

Claims (10)

1. Air fryer production line, its characterized in that: the device comprises an assembly line, a power test line, a cooling line and a packaging line which are connected in sequence; the power test line is arranged on one side of the assembly line, and the cooling line is arranged right above the power test line; the power test line is provided with a plurality of test stations, a plurality of the test stations are respectively provided with a first power supply socket and a test module, the test module comprises a first bin body sample, a temperature sensor and a first indicator, the temperature sensor is arranged in the first bin body sample, and the temperature sensor is electrically connected with the first indicator.

2. The air fryer production line according to claim 1, wherein: the tail end of the assembly line is provided with a line detection station for detecting products.

3. The air fryer production line according to claim 1, wherein: a first transfer mechanism is also included for transferring product at the end of the assembly line laterally onto the power test line.

4. An air fryer production line according to claim 3, wherein: the number of the power test lines is multiple, and the power test lines are arranged on one side of the assembly line side by side.

5. The air fryer production line according to claim 1, wherein: the end of the power test line is provided with a first lifter for conveying the product at the end of the power test line to the cooling line.

6. The air fryer production line according to claim 1, wherein: and a cooling bin body is arranged on the cooling line, and a cooling fan is arranged on the wall surface of the cooling bin body.

7. The air fryer production line according to claim 1, wherein: the packaging line is characterized by further comprising a transfer mechanism, wherein the transfer mechanism comprises a second lifter and a second transmission mechanism, the second lifter is arranged at the tail end of the cooling line, and the two ends of the second transmission mechanism are respectively connected with the head end of the packaging line and the second lifter.

8. The air fryer production line according to claim 1, wherein: the assembly line, power test line, cooling line and packaging line each include a chain drive assembly and a plurality of tooling plates disposed on the chain drive assembly.

9. The air fryer production line according to claim 8, wherein: the assembly line and the packaging line are positioned in the same straight line direction, the reflux line is arranged right below the assembly line and the packaging line, the reflux line is respectively connected with the tail end of the packaging line and the head end of the assembly line, and the reflux line is used for conveying the tooling plate along the direction opposite to the conveying direction of the assembly line.

10. The air fryer production line according to claim 8, wherein: and a bracket is arranged above the assembly line, and a tool slide rail, an illuminating lamp and a process billboard are arranged on the bracket.