CN219757561U - Electric kettle production line - Google Patents

Abstract

The utility model belongs to the technical field of production of wading household appliances, and provides an electric kettle production line, which comprises an assembly mechanism, a testing mechanism and a packaging mechanism which are sequentially connected, wherein the electric kettle production line also comprises a water circulation mechanism and a water removal mechanism which are sequentially connected between the testing mechanism and the packaging mechanism, the water circulation mechanism is used for injecting water onto an electric kettle and circularly using collected water, the water circulation mechanism comprises a water injection pipe, a water pump, a water storage tank and a water collection tank which are connected, the water injection pipe is provided with water outlet heads respectively corresponding to a plurality of stations, the water pump conveys water of the water storage tank to the water injection pipe, and the water collection tank returns the collected water to the water storage tank; the water removing mechanism comprises a first mechanical arm and a drying device, wherein the first mechanical arm is used for driving the electric kettle to pour water onto the water collecting tank and transferring the electric kettle to the drying device; the drying device dries the electric kettle. The utility model aims to solve the technical problems of high manual participation and low water injection and removal efficiency in the electric kettle production line in the prior art.

Description

Electric kettle production line

Technical Field

The utility model belongs to the technical field of production of wading household appliances, and particularly relates to an electric kettle production line.

Background

In common household appliances, an electric kettle belongs to common water heating equipment, and can be used for boiling tap water into boiled water for drinking. In the production process of the electric kettle, the procedures of assembly, test, packaging and the like are needed. In these steps, wading treatment is required, for example, in a test step, water boiling, dry heating and the like are required, water is required to be injected into the electric kettle, and the water boiling and dry heating functions are required to be tested. In addition, after the test is finished, residual water in the electric kettle needs to be removed, and subsequent procedures such as packaging, shipment and the like can be performed. It can be seen that wading treatment is particularly important for the production line of electric kettles.

On the electric kettle production line of the prior art, water injection operation is generally carried out by hands, special water injection posts are needed to be arranged, and water is injected into the electric kettle one by hands, so that the efficiency is very low. After the test procedure is finished, special water removal posts are needed, and the residual water of the electric kettle is poured one by hands; then, the water is placed in an airing area, the electric kettle is naturally aired, and the residual water can be transferred to a packaging procedure after the residual water is completely removed. Therefore, the existing production line has high manual participation, has low treatment efficiency and time consumption on residual water in the electric kettle, and does not meet the modern production requirement.

Disclosure of Invention

The embodiment of the utility model aims to provide an electric kettle production line, which aims to solve the technical problems of high manual participation and low water injection and removal efficiency in the electric kettle production line in the prior art.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides an electric kettle production line, including the equipment mechanism, testing mechanism and the packagine machine who connects gradually, electric kettle production line still includes hydrologic cycle mechanism and dewatering mechanism, hydrologic cycle mechanism with dewatering mechanism connect gradually in testing mechanism with between the packagine machine constructs:

the water circulation mechanism is used for injecting water onto the electric kettle and recycling the collected water, and comprises a water injection pipe, a water pump, a water storage tank and a water collecting tank which are connected, wherein the water injection pipe is provided with water outlet heads corresponding to a plurality of stations respectively, the water pump is used for conveying the water of the water storage tank to the water injection pipe, and the water collecting tank is used for refluxing the collected water to the water storage tank;

the water removing mechanism comprises a first mechanical arm and a drying device, wherein the first mechanical arm is used for driving the electric kettle to pour water onto the water collecting tank and transferring the electric kettle to the drying device; the drying device is used for drying the electric kettle.

The electric kettle production line provided by the utility model has the beneficial effects that: compared with the prior art, the water circulation mechanism and the water removal mechanism for wading treatment are arranged on the production line of the electric kettle, the water circulation mechanism is connected to the testing mechanism of the production line, the water injection pipe of the water circulation mechanism extends to the water injection station of the testing mechanism, and a plurality of water outlet heads are arranged on the water injection pipe and respectively correspond to the water injection stations of the testing mechanisms. The water liquid of the water storage tank is conveyed to the water injection pipe by the water pump and is output from each water outlet head, so that automatic water injection is carried out on electric kettles on water injection stations in batches, manual operation is effectively replaced, and water injection efficiency is improved.

The residual water in the electric kettle needs to be treated after the testing procedure. Because the temperature of the electric kettle is higher after the testing procedure, the first mechanical arm is arranged to replace a human hand to pour water into the electric kettle, so that the injury of operators is effectively avoided. The water collecting tank is used for collecting the poured residual water and centralizing the water to flow back to the water storage tank, thereby forming a circulating waterway and saving water. In addition, the dewatering mechanism further comprises a drying device, the first mechanical arm transfers the electric kettle with the residual water poured out to the drying device, the drying device dries the electric kettle, the dried electric kettle can be directly subjected to subsequent packaging and shipment procedures, and therefore the time consumed by natural airing is reduced, and the production efficiency is effectively improved.

The structure of the water injection pipe is improved, the water injection pipe comprises a main water pipe and at least two groups of first shunt pipes, the two groups of first shunt pipes are connected to the extending end of the main water pipe and are arranged in a back-to-back mode, and the first shunt pipes are provided with a plurality of water outlet heads. Therefore, the main water pipe is utilized to extend to the station of the testing mechanism, a plurality of groups of first shunt pipes are connected to the main water pipe, and the water outlet heads on each group of first shunt pipes respectively correspond to the water injection station on the testing mechanism, so that batch water injection of the electric kettle is realized, and the water injection efficiency is improved. The first shunt tubes of every two groups are arranged in a back-to-back mode, so that the shunt tubes are beneficial to being used on two conveyor belts which are arranged in parallel, and occupied space is effectively saved.

Optionally, the water pump is connected between the main water pipe and the water storage tank; the water injection pipe further comprises a second shunt pipe, and the second shunt pipe is connected to the main water pipe and is arranged close to the water pump. Therefore, the water injection pipe is additionally connected with the second shunt pipe so as to carry out secondary water injection aiming at electric kettles which respectively need secondary testing, thereby matching with retest requirements and improving the applicability of the production line.

Optionally, the water circulation mechanism further comprises a water cooling machine, the water cooling machine is communicated with the water storage tank, and the water cooling machine is used for cooling water in the water storage tank, so that the water consumption meets the temperature requirement of the test.

Optionally, a water outlet pipe and a water return pipe are connected between the water cooler and the water storage tank, and a first connecting part of the water return pipe connected with the water storage tank is higher than a second connecting part of the water outlet pipe connected with the water storage tank. Therefore, the water stored in the water storage tank flows out of the water storage tank from a low position and then enters the water cooling machine, and after the water cooling machine cools the water, the water is returned to the water storage tank from a high position, so that the water flow direction is effectively controlled, and the water in the water storage tank is replaced.

The electric kettle drying device is characterized in that a water removing mechanism is improved, the water removing mechanism further comprises a second mechanical arm used for transferring the electric kettle on the drying device to the next procedure, and the first mechanical arm and the second mechanical arm are sequentially arranged along the running direction of the electric kettle production line; the water collecting tank is arranged adjacent to the drying device, and the water collecting tank and the drying device are both positioned on the moving track of the first mechanical arm. On the one hand, the first mechanical arm can pick up the electric kettle to pour water onto the water collecting tank, then the electric kettle is transferred and placed on the drying device to be dried, and water in the electric kettle is eliminated. And on the other hand, the electric kettle on the drying device is taken out by using the second mechanical arm and transferred to the packaging mechanism for subsequent packaging and shipment.

The structure of the drying device is improved, the drying device comprises a hot air blower, a base and a bracket for placing an electric kettle, and the bracket is arranged on the base; the support comprises a pipeline, the pipeline on the support is connected with the output end of the air heater, and the pipeline is provided with an air outlet. On one hand, the support structure formed by the pipelines can form an open type placing device, and is favorable for combining an open environment to dry the electric kettle quickly inside and outside. On the other hand, the support formed by the pipelines can be used for placing an electric kettle, and can also be used for drying by outputting hot air flow when the pipelines extend into the inner cavity of the electric kettle, so that the drying effect is ensured.

Optionally, the support is provided with a plurality of fixing parts for respectively pouring the electric kettle, the base is provided with a driver, and the driver is connected with the support and drives the support to rotate so as to switch the positions of the fixing parts. On the one hand, the electric kettle can be placed in a reversed mode with the opening facing downwards, so that residual water in the electric kettle can be discharged naturally, and the drying effect of the electric kettle is improved under the combination of heated air flow. On the other hand, the driver drives the support to rotate, so that the fixing part on the support is orderly transferred to the throwing track of the first mechanical arm, the electric kettle is conveniently orderly placed on the support, and the operation efficiency is further improved.

Optionally, the pipeline comprises a main shaft vertically arranged and a plurality of branch pipes connected to the upper end of the main shaft, and the lower end of the main shaft is communicated with the output end of the hot air blower; the plurality of branch pipes are radially arranged from the upper end of the main shaft to the periphery, and the branch pipes are provided with vertical pipes which are bent upwards; the vertical pipe is provided with the air outlet and a fixing part for fixing the electric kettle, the fixing part is positioned at the upper end of the vertical pipe, and the air outlet is close to the fixing part. The branched pipes are radially arranged, so that air flows flowing from the main shaft to each branched pipe are uniformly output, and drying synchronism of each electric kettle arranged on the support is ensured. In addition, the electric kettle is placed on the fixing part in a reversed mode with the opening facing downwards, so that the vertical pipe is positioned in the inner cavity of the electric kettle, and the air outlet hole in the vertical pipe outputs hot air flow in the electric kettle. The residual water in the inner cavity of the electric kettle can naturally flow out, and the drying of the inside of the electric kettle can be realized.

Optionally, be equipped with the suction head that is used for adsorbing electric kettle inner wall on the fixed part, and then improve the fixed effect to the electric kettle of falling to placing on the support, prevent effectively that the electric kettle from droing easily and causing the damage.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of an overall structure of an electric kettle production line according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of two parts of a water circulation mechanism and a water removal mechanism on a production line according to an embodiment of the present utility model;

FIG. 3 is a schematic view of a water circulation mechanism according to an embodiment of the present utility model;

FIG. 4 is a schematic diagram of a water removal mechanism according to an embodiment of the present utility model;

FIG. 5 is a schematic view of a water injection pipe at a station of a testing mechanism according to an embodiment of the present utility model;

FIG. 6 is a schematic diagram of a steam exhaust mechanism at a station of a test mechanism according to an embodiment of the present utility model;

fig. 7 is a schematic structural diagram of a drying device according to an embodiment of the present utility model;

fig. 8 is a schematic top view of a drying apparatus according to an embodiment of the present utility model;

fig. 9 is a schematic top view of a bracket of a drying device according to an embodiment of the utility model.

Wherein, each reference sign in the figure:

100-an assembly mechanism; 200-a testing mechanism; 300-a water circulation mechanism; 400-a water removal mechanism; 500-packaging mechanism;

1-a water injection pipe; 11-water outlet head; 111-a flow meter; 112-drip valve; 12-a main water pipe; 13-a first shunt; 14-a second shunt tube;

2-a water pump;

3-a water storage tank;

4-a water collecting tank;

5-a first mechanical arm;

6-a drying device; 61-an air heater; 62-a base; 621-a driver; 63-a scaffold; 631-spindle; 632-branch pipe; 633-vertical tube; 64-an air outlet hole; 65-a fixing part; 651-tip;

7-a water cooling machine; 71-a water outlet pipe; 72-a water return pipe;

8-a steam discharging mechanism; 81-an exhaust duct; 82-an exhaust fan;

9-a second mechanical arm.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

It will be understood that when an element is referred to as being "mounted" or "disposed" on another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are merely for convenience in describing and simplifying the description based on the orientation or positional relationship shown in the drawings, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus are not to be construed as limiting the utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

The electric kettle production line provided by the embodiment of the utility model is described in detail. Referring to fig. 1 and 2, in an electric kettle production line, the electric kettle production line includes an assembling mechanism 100, a testing mechanism 200, a water circulation mechanism 300, a water removal mechanism 400 and a packaging mechanism 500. Wherein, the assembly mechanism 100, the testing mechanism 200 and the packaging mechanism 500 are sequentially arranged along the running direction of the production line and are sequentially connected through a conveyor belt. As shown in fig. 2, the water circulation mechanism 300 and the water removal mechanism 400 are disposed between the testing mechanism 200 and the packaging mechanism 500. The electric kettle is used as a workpiece for production and is placed on a bearing plate of the conveyor belt. The conveyor belt performs a position transfer of the produced work piece.

Referring to fig. 2 and 3, the water circulation mechanism 300 is used for injecting water into an electric kettle and circulating the collected water, the water circulation mechanism 300 includes a water injection pipe 1, a water pump 2, a water storage tank 3 and a water collection tank 4 connected to each other, the water injection pipe 1 extends to the testing mechanism 200, and the water injection pipe 1 has a plurality of water outlet heads 11 and corresponds to a plurality of water injection stations in the testing mechanism 200. The water pump 2 conveys the water of the water storage tank 3 to the water injection pipe 1, so that water flows are respectively output from each water outlet head 11 and are injected into the electric heating kettles on each water injection station. The water collecting tank 4 is used for collecting residual water of the tested electric kettle and refluxing the collected water to the water storage tank 3.

Referring to fig. 2, 3 and 4, the water removing mechanism 400 includes a first mechanical arm 5 and a drying device 6, wherein the first mechanical arm 5 is used for picking up the tested electric kettle, driving the electric kettle to pour water onto the water collecting tank 4, and transferring the electric kettle to the drying device 6. The drying device 6 dries the electric heating kettle, and removes residual water in the electric heating kettle so that the electric heating kettle can carry out subsequent packaging procedures.

Compared with the prior art, the electric kettle production line provided by the embodiment of the utility model is provided with the water circulation mechanism 300 and the water removal mechanism 400 for wading treatment, the water circulation mechanism 300 is connected to the testing mechanism 200 of the production line, the water injection pipe 1 of the water circulation mechanism 300 extends to the water injection station of the testing mechanism 200, and the water injection pipe 1 is provided with a plurality of water outlet heads 11 which respectively correspond to the water injection stations in the testing mechanisms 200. The water in the water storage tank 3 is conveyed to the water injection pipe 1 by the water pump 2 and is output from each water outlet head 11, so that automatic water injection is carried out on electric kettles on water injection stations in batches, manual operation is effectively replaced, and water injection efficiency is improved.

The residual water in the electric kettle needs to be treated after the testing procedure. Because the electric kettle temperature after the test procedure is higher, set up first arm 5 and replace the staff and carry out the operation of pouring water to the electric kettle, avoid the operating personnel injury effectively, reduce the security risk. The water collecting tank 4 is used for collecting the poured residual water and intensively refluxing the water to the water storage tank 3, so that a circulating waterway is formed, and the water is saved.

In addition, the water removal mechanism 400 further comprises a drying device 6, the first mechanical arm 5 transfers the electric kettle with the residual water removed to the drying device 6, the drying device 6 dries the electric kettle, the dried electric kettle can be directly subjected to subsequent packaging and shipment procedures, further, the time consumed by natural airing is reduced, and the production efficiency is effectively improved.

In one embodiment of the present utility model, referring to fig. 3, the water injection pipe 1 includes a main water pipe 12 and at least two sets of first split-pipes 13, wherein the two sets of first split-pipes 13 are connected to the extending ends of the main water pipe 12 and are disposed opposite to each other, and the first split-pipes 13 have a plurality of water outlet heads 11. Therefore, the main water pipe 12 is utilized to extend to the water injection station of the testing mechanism 200, a plurality of groups of first shunt pipes 13 are connected to the main water pipe 12, and the water outlet heads 11 on each group of first shunt pipes 13 respectively correspond to the water injection station of the testing mechanism 200, so that batch water injection of the electric kettle is realized, and the water injection efficiency is improved.

The first shunt tubes 13 of every two groups are arranged in a back-to-back mode, so that the shunt tubes are beneficial to being used on two conveyor belts arranged in parallel, and occupied space is effectively saved.

In another embodiment of the present utility model, referring to fig. 3, the water pump 2 is connected between the main water pipe 12 and the water storage tank 3. The water injection pipe 1 further comprises a second shunt pipe 14, and the second shunt pipe 14 is connected to the main water pipe 12 and is arranged close to the water pump 2. Therefore, the water injection pipe 1 is additionally connected with the second shunt pipe 14 so as to perform secondary water injection aiming at the electric kettles which need secondary tests respectively, thereby matching with the repeated testing requirements and improving the applicability of the production line.

Preferably, a control valve (not shown) may be provided at the split node of the water injection pipe 1 to achieve the purpose of opening and closing as needed, and effectively control the water flow direction.

In practical application, the water collected from the water collecting tank 4 has higher temperature, and when the high-temperature water flows back to the water storage tank 3, the original water storage temperature in the water storage tank 3 is changed, the temperature of the water for the next batch of test is affected, and the test result is distorted. For this purpose, in one embodiment of the present utility model, referring to fig. 3, the water circulation mechanism 300 further includes a water cooling machine 7, preferably a water cooling unit of a water cooling tank type, and the water cooling machine 7 is in waterway communication with the water storage tank 3. The water of the water storage tank 3 is cooled by the water cooler 7, so that the water meets the temperature requirement of the test.

Wherein, be connected with outlet pipe 71 and wet return 72 between water-cooling machine 7 and the storage water tank 3, and the first connecting portion that wet return 72 and storage water tank 3 are connected is higher than the second connecting portion setting that outlet pipe 71 and storage water tank 3 are connected. The water outlet pipe 71 can be preferably connected to the bottom of the water storage tank 3, so that after the water storage of the water storage tank 3 is opened from the outlet at the low position, the water flows out of the water storage tank 3 and then enters the water cooler 7, after the water cooler 7 cools the inlet water, the water flows back to the water storage tank 3 from the high position through the water return pipe 72, the water flow direction is effectively controlled, and the water in the water storage tank 3 is replaced.

For the water filling station in the testing mechanism 200, in the embodiment of the utility model, referring to fig. 5, the first shunt tube 13 and the water outlet head 11 may be preferably connected by a hose, so that the water outlet head 11 may be flexibly disposed above the water filling station and face downward, which is beneficial to accurately correspond to the opening of the electric kettle M placed on the water filling station.

Preferably, as shown in fig. 5, a flow meter 111 and an anti-drip valve 112 may be further installed on the water outlet head 11, and the flow meter 111 is used for detecting the water injection amount. The anti-drip valve 112 is used for locking the water outlet head 11, so that the phenomenon that water is easy to drip from the water outlet head 11 in a non-water injection state and influences the water injection station environment is avoided.

In the embodiment of the present utility model, referring to fig. 6, a steam discharging mechanism 8 is preferably provided at each test station of the test mechanism 200, and the steam discharging mechanism 8 is used for discharging steam generated on the electric kettle M during the test. Specifically, the steam discharging mechanism 8 includes an exhaust duct 81 and an exhaust fan 82 provided on the exhaust duct 81, and the exhaust fan 82 draws the generated steam into the exhaust duct 81 in correspondence with the test stations on the respective test mechanisms 200 to discharge the steam along the exhaust duct 81.

For the water removal mechanism 400, the water removal mechanism 400 is disposed between the testing mechanism 200 and the packaging mechanism 500 and is engaged with the water circulation mechanism 300. In an embodiment of the present utility model, referring to fig. 4, the water removing mechanism 400 further includes a second mechanical arm 9, where the first mechanical arm 5 and the second mechanical arm 9 are sequentially disposed along the running direction of the electric kettle production line. The water collecting tank 4 and the drying device 6 are adjacently arranged, and the water collecting tank 4 and the drying device 6 are both positioned on the moving track of the first mechanical arm 5. The first mechanical arm 5 can pick up the electric kettle to pour water onto the water collecting tank 4, then the electric kettle is transferred and placed on the drying device 6 for drying, and the water in the electric kettle is eliminated.

The second mechanical arm 9 is used for transferring the electric kettle on the drying device 6 to the next process. In this embodiment, as shown in fig. 4, the electric kettle on the drying device 6 is taken out by the second mechanical arm 9, and transferred to the packaging mechanism 500 for subsequent packaging and shipment.

Therefore, the steps from the testing of the electric kettle to the transferring of the packaging mechanism 500 are completed through the mechanical arm, so that the operation of a human hand is replaced, scalding caused by the contact of the human hand with the tested high-temperature electric kettle is avoided, and potential safety hazards are eliminated.

As for the structure of the drying device 6, referring to fig. 7, 8 and 9, the drying device 6 includes a hot air blower 61, a base 62, and a stand 63 for placing an electric kettle M, wherein the stand 63 is disposed on the base 62. The bracket 63 is composed of a pipeline, the pipeline on the bracket 63 is connected with the output end of the air heater 61, and the pipeline is provided with an air outlet 64 for outputting the hot air flow generated by the air heater 61 into the electric kettle M for drying.

On the one hand, the support 63 formed by the pipelines can form an open type placing device, which is favorable for combining an open environment to dry the electric kettle quickly inside and outside. On the other hand, the support 63 formed by the pipelines can be used for placing an electric kettle, and can also be used for drying by outputting hot air flow when the pipelines extend into the inner cavity of the electric kettle, so that the drying effect is ensured.

In one embodiment of the present utility model, referring to fig. 7, 8 and 9, the stand 63 has a plurality of fixing portions 65 for respectively pouring electric discharge water heating kettles. The electric kettle can be placed in a reversed mode in a downward opening mode, residual water in the electric kettle is discharged naturally, and the drying effect of the electric kettle is improved under the combination of heated air flow.

The base 62 is provided with a driver 621, and a rotating device is preferably used, and the driver 621 is connected to the bracket 63 and drives the bracket 63 to rotate so as to switch the position of each fixing portion 65. The fixing part 65 on the bracket is orderly transferred to the throwing track of the first mechanical arm 5, so that the electric heating kettles can be conveniently orderly placed on the bracket 63, and the operation efficiency is further improved.

In another embodiment of the present utility model, referring to fig. 7, 8 and 9, the pipeline of the bracket 63 includes a main shaft 631 disposed vertically and a plurality of branch pipes 632 connected to the upper end of the main shaft 631, and the lower end of the main shaft 631 is communicated with the output end of the air heater 61. Accordingly, the air flow generated by the air heater 61 naturally flows from the lower end to the upper end of the main shaft 631 by utilizing the principle that the hot air flow flows upward, and is dispersed to each of the branched pipes 632.

The plurality of branch pipes 632 are radially arranged from the upper end of the main shaft 631 to the outer circumference so as to uniformly output the air flow flowing from the main shaft 631 to each branch pipe 632, thereby ensuring the drying synchronism of each electric kettle arranged on the bracket 63.

In addition, as shown in fig. 7, the vertical arrangement of the spindle 631 is beneficial to being disposed on the driver 621, and the output end of the driver 621 drives the spindle 631 to rotate so as to drive the whole bracket 63 to rotate, so as to realize position switching of each fixing portion 65.

Referring to fig. 7, the branch pipe 632 has a vertical pipe 633 bent upward, the vertical pipe 633 is provided with an air outlet 64 and the fixing portion 65 for fixing the electric kettle, the fixing portion 65 is located at the upper end of the vertical pipe 633, and the air outlet 64 is disposed near the fixing portion 65. In this way, the electric kettle is placed on the fixing portion 65 in a downward opening posture, so that the vertical tube 633 is located in the inner cavity of the electric kettle, and the air outlet 64 on the vertical tube 633 outputs hot air flow in the electric kettle. The residual water in the inner cavity of the electric kettle can naturally flow out, and the drying of the inside of the electric kettle can be realized.

Preferably, as shown in fig. 7, the fixing portions 65 of the support 63 are provided with suction heads 651 for sucking the inner wall of the electric kettle, so as to improve the fixing effect on the electric kettle placed on the support 63 in a reverse direction, and effectively prevent the electric kettle from being easily detached to cause damage.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. The utility model provides an electric kettle production line, includes equipment mechanism, testing mechanism and the packagine machine who connects gradually, its characterized in that, electric kettle production line still includes hydrologic cycle mechanism and dewatering mechanism, hydrologic cycle mechanism with dewatering mechanism connect gradually in testing mechanism with between the packagine machine constructs:

the water circulation mechanism is used for injecting water onto the electric kettle and recycling the collected water, and comprises a water injection pipe, a water pump, a water storage tank and a water collecting tank which are connected, wherein the water injection pipe is provided with water outlet heads corresponding to a plurality of stations respectively, the water pump is used for conveying the water of the water storage tank to the water injection pipe, and the water collecting tank is used for refluxing the collected water to the water storage tank;

the water removing mechanism comprises a first mechanical arm and a drying device, wherein the first mechanical arm is used for driving the electric kettle to pour water onto the water collecting tank and transferring the electric kettle to the drying device; the drying device is used for drying the electric kettle.

2. The electric kettle production line according to claim 1, wherein: the water injection pipe comprises a main water pipe and at least two groups of first shunt pipes, wherein the two groups of first shunt pipes are connected to the extending end of the main water pipe and are arranged in a back-to-back mode, and the first shunt pipes are provided with a plurality of water outlet heads.

3. The electric kettle production line according to claim 2, wherein: the water pump is connected between the main water pipe and the water storage tank; the water injection pipe further comprises a second shunt pipe, and the second shunt pipe is connected to the main water pipe and is arranged close to the water pump.

4. The electric kettle production line according to claim 1, wherein: the water circulation mechanism further comprises a water cooling machine, the water cooling machine is communicated with the water storage tank, and the water cooling machine is used for cooling water in the water storage tank.

5. The electric kettle production line according to claim 4, wherein: the water cooling machine is connected with a water outlet pipe and a water return pipe between the water cooling machine and the water storage tank, and a first connecting part of the water return pipe connected with the water storage tank is higher than a second connecting part of the water outlet pipe connected with the water storage tank.

6. The electric kettle production line according to claim 1, wherein: the water removing mechanism further comprises a second mechanical arm used for transferring the electric kettle on the drying device to the next procedure, and the first mechanical arm and the second mechanical arm are sequentially arranged along the running direction of the electric kettle production line; the water collecting tank is arranged adjacent to the drying device, and the water collecting tank and the drying device are both positioned on the moving track of the first mechanical arm.

7. The electric kettle production line as claimed in any one of claims 1 to 6, wherein: the drying device comprises an air heater, a base and a bracket for placing an electric kettle, wherein the bracket is arranged on the base; the support comprises a pipeline, the pipeline on the support is connected with the output end of the air heater, and the pipeline is provided with an air outlet.

8. The electric kettle production line according to claim 7, wherein: the support is provided with a plurality of fixing parts for respectively inverting and discharging the water heating kettle, the base is provided with a driver, and the driver is connected with the support and drives the support to rotate so as to switch the positions of the fixing parts.

9. The electric kettle production line according to claim 7, wherein: the pipeline comprises a main shaft which is vertically arranged and a plurality of branch pipes which are connected to the upper end of the main shaft, and the lower end of the main shaft is communicated with the output end of the air heater; the plurality of branch pipes are radially arranged from the upper end of the main shaft to the periphery, and the branch pipes are provided with vertical pipes which are bent upwards; the vertical pipe is provided with the air outlet and a fixing part for fixing the electric kettle, the fixing part is positioned at the upper end of the vertical pipe, and the air outlet is close to the fixing part.

10. An electric kettle production line as claimed in claim 8 or 9, wherein: the fixing part is provided with a suction head for adsorbing the inner wall of the electric kettle.