CN217595414U - Cleaning mechanism, cleaning equipment and feeding equipment - Google Patents

Abstract

The utility model provides a clean mechanism, cleaning device and throw the material equipment. Wherein, clean mechanism is used for and throws material mechanism cooperation and use, and clean mechanism includes: the inlet of the output pipe is communicated with the cleaning component, and the outlet of the output pipe is used for being communicated with a material conveying system of the feeding mechanism; the fluid in the output pipe can be discharged from the discharge hole of the feeding mechanism through the material conveying system. Therefore, the cleaning effect and the cleaning thoroughness of the material conveying system can be improved, the structure of the cleaning mechanism is simplified, and the manufacturing cost is reduced.

Description

Cleaning mechanism, cleaning equipment and feeding equipment

Technical Field

The utility model belongs to the technical field of throw the material equipment technique and specifically relates to a clean mechanism, cleaning device and throw material equipment are related to.

Background

The conventional daily maintenance of the feeding equipment needs to regularly clean the feeding system 250, and if the sanitation is not up to the standard due to incomplete cleaning of the feeding system, the feeding precision and the cooking quality are affected.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a clean mechanism, cleaning device and throw the material equipment to improve conveying system's clean effect and clear thoroughness, and simplify clean mechanism's structure, reduce manufacturing cost.

The embodiment of the utility model provides a clean mechanism for use with throwing material mechanism cooperation, clean mechanism includes: the inlet of the output pipe is communicated with the cleaning component, and the outlet of the output pipe is used for being communicated with a material conveying system of the feeding mechanism; the fluid in the output pipe can be discharged from the discharge hole of the feeding mechanism through the material conveying system.

Further, the cleaning assembly includes: the output pipe comprises a first inlet corresponding to the cleaning tank, a second inlet corresponding to the sterilizing tank and/or a third inlet corresponding to the clean water tank; a first connection pipe for connecting the first inlet and the clean tank, and/or for connecting the second inlet and the sterilization tank, and/or for connecting the third inlet and the clean water tank; the first valve is arranged on the first connecting pipe and used for controlling the on-off of the first connecting pipe where the first valve is located; wherein, the cleaning box is still used for holding the cleaning solution, is provided with the sterilizer in the disinfect box.

Further, the cleaning mechanism further comprises: the material conveying system comprises material storage tanks or material conveying pipelines, the number of the outlets of the output pipes is equal to that of the material storage tanks or that of the material conveying pipelines, and the second connecting pipes are correspondingly connected with the material storage tanks and the outlets of the output pipes or correspondingly connected with the material conveying pipelines and the outlets of the output pipes; the second connecting pipe is detachably connected with the material storage tank or the material conveying pipeline; and/or the second connecting pipe is detachably connected with the outlet of the output pipe.

Further, the cleaning assembly comprises a cleaning tank and/or a clean water tank, and a heating device is arranged in the cleaning tank and/or the clean water tank and used for heating the fluid in the cleaning tank and/or the clean water tank; the cleaning mechanism further comprises a temperature detection device and a control device, the temperature detection device is arranged on the cleaning box and/or the clear water box and is used for detecting the temperature of fluid in the cleaning box and/or the clear water box, and the control device is connected with the heating device and the temperature detection device and is used for controlling the working state of the heating device according to detection information of the temperature detection device; the control device is also connected with the first valve and used for controlling the working state of the first valve.

Further, include the clear water tank based on clean subassembly, heating device includes the dry combustion method heating member, and the clear water tank still is provided with air inlet, still is provided with the pneumatic valve on the first connecting pipe of connecting third entry and clear water tank.

Further, the cleaning mechanism further comprises: the sewage tank is positioned below the discharge port during working and is used for containing liquid discharged by the discharge port, and the sewage tank is provided with a sewage discharge port; and the protective sleeve is arranged in the sewage tank and surrounds the discharge port.

An embodiment of the second aspect of the present invention provides a cleaning device, including: a movable frame, and the cleaning mechanism of any one of the first to fourth aspects, the cleaning assembly being disposed on the movable frame.

Further, a sewage outlet of the cleaning mechanism is communicated with the external environment through a first sewage outlet pipe; and/or the cleaning equipment also comprises a sewage tank arranged on the movable frame, and the sewage outlet is communicated with the sewage tank through a second sewage discharge pipe.

Further, the cleaning apparatus further includes: the tool box is arranged on the movable frame; one end of the electric connecting wire is electrically connected with the controller of the cleaning mechanism, and the other end of the electric connecting wire is used for being connected with an external power interface of the feeding mechanism; wherein, the controller sets up to be connected with throwing material mechanism communication.

An embodiment of the third aspect of the utility model provides a throw material equipment, include: a feeding mechanism; a water inlet pipe; and the cleaning mechanism of any one of the first aspect, the water inlet conduit being in communication with the cleaning assembly.

Further, the water inlet pipe comprises a first outlet corresponding to a cleaning tank of the cleaning assembly, and/or a second outlet corresponding to a disinfection tank of the cleaning assembly, and/or a third outlet corresponding to a clean water tank of the cleaning assembly, and an inlet, wherein the inlet is used for being connected with a water source; a third connecting pipe for connecting the first outlet and the clean tank, and/or for connecting the second outlet and the sterilizing tank, and/or for connecting the third outlet and the clean water tank; and the second valve is arranged on the third connecting pipe and used for controlling the on-off of the third connecting pipe where the second valve is positioned.

The embodiment of the utility model provides a clean mechanism, cleaning device and throw material equipment, clean mechanism include clean subassembly and output tube, the entry and the clean subassembly intercommunication of output tube, the export of output tube be used for with throw the defeated material system intercommunication of material mechanism. The fluid flows into the output pipe through the cleaning mechanism and is discharged from the discharge hole of the feeding mechanism through the output pipe and the feeding system, so that the cleaning of the feeding system is realized, the cleaning effectiveness and the thoroughness of the feeding system are favorably improved, the sanitary condition of the feeding system is further improved, the feeding precision is favorably improved, and the good cooking quality is ensured. Meanwhile, the feeding mechanism can suck the fluid of the cleaning assembly into the output pipe during working and discharge the fluid from the discharge hole of the feeding mechanism through the output pipe and the feeding system, so that the cleaning mechanism can clean the feeding system by sharing the power of the feeding mechanism, the arrangement of a power device of the cleaning mechanism is simplified, the structure of the cleaning mechanism can be simplified, the manufacturing cost of the cleaning mechanism is reduced, and the feeding mechanism is suitable for popularization and application.

The foregoing description is only an overview of the technical solutions of the present application, and the present application can be implemented according to the content of the description in order to make the technical means of the present application more clearly understood, and the following detailed description of the present application is given in order to make the above and other objects, features, and advantages of the present application more clearly understandable.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. Wherein:

fig. 1 shows a schematic structural diagram of a cleaning device provided by an embodiment of the present invention;

FIG. 2 shows an enlarged partial schematic view at A of the embodiment of FIG. 1;

FIG. 3 shows an enlarged partial schematic view at B of the embodiment of FIG. 1;

FIG. 4 shows an enlarged partial schematic view at C of the embodiment of FIG. 1;

FIG. 5 is a schematic view of a sterilization case according to an embodiment of the present invention;

fig. 6 shows a schematic structural diagram of a clean water tank provided by an embodiment of the present invention;

fig. 7 shows a schematic structural diagram of a clean water tank provided by another embodiment of the present invention;

fig. 8 shows a schematic structural diagram of a feeding device provided by an embodiment of the present invention;

fig. 9 shows a partially enlarged schematic view at D of the embodiment shown in fig. 8.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 9 is:

100 cleaning mechanism, 110 cleaning component, 111 cleaning box, 1111 first chamber, 1112 second chamber, 112 sterilizing box, 1121 sterilizer, 113 clean water box, 1131 air inlet, 1132 through hole, 120 output pipe, 121 first inlet, 122 second inlet, 123 third inlet, 124 output pipe outlet, 130 first connecting pipe, 140 first valve, 150 second connecting pipe, 160 heating device, 170 sewage pool, 171 sewage outlet, 180 protective sleeve, 190 air valve, 200 feeding mechanism, 210 storage tank, 211 feed supplement port, 220 discharge port, 230 seasoning delivery pump, 240 external power interface, 250 feeding system, 260 feeding pipeline, 261 feeding port, 300 cleaning equipment, 310 movable frame, 320 sewage box, 330 first sewage pipe, 340 second sewage pipe, 350 electrical connection line, 360 tool box, 370 air hole, 400 feeding equipment, 410 water inlet pipe, 411 first outlet, 412 second outlet, 413 third outlet, 420 third connecting pipe, 430 second valve.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present invention may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

A cleaning mechanism 100, a cleaning apparatus 300, and a dosing apparatus 400 provided according to some embodiments of the present invention are described below with reference to fig. 1 to 9. The feeding device 400 may include the feeding mechanism 200, and in some embodiments, the cleaning device 300 may include the cleaning mechanism 100, in which case the cleaning device 300 may be a separate device capable of cleaning the feeding mechanism 200 of the feeding device 400. In other embodiments, the feeding device 400 may also include the cleaning mechanism 100, in which case the cleaning mechanism 100 may be part of the feeding device 400, and the cleaning mechanism 100 may be capable of cleaning the feeding mechanism 200 of the feeding device 400. Specifically, throw material equipment 400 and can be for the condiment equipment in the kitchen equipment, also can be for other dispensing equipment that satisfy the requirement, to this, the utility model discloses do not specifically limit, wherein, the utility model discloses use to throw material equipment 400 and explain for the condiment equipment in the kitchen equipment as the example.

When the feeding equipment in the related art is subjected to daily maintenance, a conveying system of the feeding mechanism needs to be cleaned regularly, and if the pipeline of the conveying system is not thoroughly cleaned and the sanitation is not up to the standard, the problems of affecting feeding precision, cooking quality and the like exist.

In view of this, as shown in fig. 1, an embodiment of the first aspect of the present invention provides a cleaning mechanism 100, where the cleaning mechanism 100 includes: the inlet of the output pipe 120 is communicated with the cleaning component 110, and the outlet of the output pipe 120 is used for being communicated with a material conveying system 250 of the feeding mechanism 200; the fluid flowing out from the cleaning mechanism 100 can have a cleaning function, and the fluid flows into the output pipe 120 through the cleaning mechanism 100, and is discharged from the discharge port 220 of the feeding mechanism 200 through the output pipe 120 and the feeding system 250. Therefore, the feeding system 250 is cleaned, the effectiveness and the thoroughness of cleaning the feeding system 250 are improved, the sanitation of the feeding system 250 is improved, the feeding precision is improved, and good cooking quality is ensured.

The feeding mechanism 200 is capable of sucking the fluid in the cleaning assembly 110 into the output pipe 120 and discharging the fluid through the feeding system 250 and the discharge port 220 of the feeding mechanism 200, so that the fluid can flow through a wider range in the feeding system 250, thereby improving the cleaning effect and the cleaning thoroughness of the feeding system 250. Meanwhile, the cleaning mechanism 100 can clean the material conveying system 250 by sharing the power of the feeding mechanism 200, so that the arrangement of a power device of the cleaning mechanism 100 is simplified, the structure of the cleaning mechanism 100 can be simplified, the manufacturing cost of the cleaning mechanism 100 is reduced, and the cleaning mechanism is suitable for popularization and application.

Specifically, the feeding system 250 of the feeding mechanism 200 may include a seasoning delivery pump 230, and when the feeding system 250 needs to be cleaned, the seasoning delivery pump 230 may be controlled to operate, such that the fluid in the cleaning assembly 110 may be sucked into the feeding system 250 through the output pipe 120, and the fluid may be discharged through the discharge port 220 of the feeding mechanism 200, such that the feeding system 250 may be cleaned.

Wherein, clean subassembly 110 and the defeated material system 250 of throwing material mechanism 200 communicate through output tube 120, can carry out the modularization setting with clean subassembly 110 like this, if can be according to clean demand and clean characteristic, rationally set up the structure of clean subassembly 110 to defeated material system 250 cleans with pertinence.

In some possible embodiments of the present invention, as shown in fig. 1, 8 and 9, the cleaning assembly 110 includes: at least one of a clean tank 111, a sterilization tank 112, a clean water tank 113, and a first line and a first valve 140. Wherein, the structure of the cleaning assembly 110 may be reasonably set according to the cleaning requirement, the cleaning characteristic, the cost requirement, etc., for example, the cleaning assembly 110 may only include one of the cleaning tank 111, the sterilizing tank 112, and the clean water tank 113, or the cleaning assembly 110 may include the cleaning tank 111 and the sterilizing tank 112, the cleaning tank 111 and the clean water tank 113, the sterilizing tank 112 and the clean water tank 113, or the cleaning assembly 110 may include the cleaning tank 111, the sterilizing tank 112, and the clean water tank 113 at the same time.

Accordingly, as shown in FIG. 9, the outlet pipe 120 can be provided with an inlet port according to the specific structure of the cleaning assembly 110. Specifically, the output pipe 120 includes a first inlet 121, a second inlet 122, and/or a third inlet 123, wherein the first inlet 121 corresponds to the cleaning tank 111, the second inlet 122 corresponds to the sterilizing tank 112, and the third inlet 123 corresponds to the clean water tank 113, that is, the output pipe 120 may be configured with the first inlet 121, the second inlet 122, and the third inlet 123 corresponding thereto according to the specific situation that the cleaning assembly 110 includes the cleaning tank 111, the sterilizing tank 112, and the clean water tank 113. Then, the corresponding inlet is communicated with the corresponding structure of the cleaning assembly 110 by using the first connection pipe 130, such as connecting the first inlet 121 and the cleaning tank 111 by using the first connection pipe 130, and/or connecting the second inlet 122 and the sterilizing tank 112 by using the first connection pipe 130, and/or connecting the third inlet 123 and the clean water tank 113 by using the first connection pipe 130. Then, the first valve 140 is disposed on the first connection pipe 130 to control the on/off of the first connection pipe 130 where the first valve 140 is located, so as to control the fluid in the corresponding structure of the cleaning assembly 110 to flow to the feeding system 250 through the output pipe 120, thereby cleaning the feeding system 250.

As shown in fig. 1 and 9, the cleaning box 111 can contain clean water, and the cleaning box 111 can also contain cleaning liquid, that is, the cleaning box 111 can provide fluid with cleaning liquid, so that the cleaning liquid is provided in the fluid flowing to the feeding system 250 through the output pipe 120 communicated with the cleaning box 111, which is favorable for improving the cleaning effect and cleaning efficiency of the feeding system 250 and improving the sanitation condition of the feeding system 250.

Specifically, as shown in fig. 9, the cleaning tank 111 includes a first chamber 1111 and a second chamber 1112, the second chamber 1112 is for containing cleaning liquid, the first chamber 1111 is for containing clean water, or the first chamber 1111 is for communicating with the water inlet pipe 410. Wherein, the cleaning box 111 is further provided with a right mixer to mix the clean water in the first chamber 1111 and the cleaning liquid in the second chamber 1112, so that the mixed liquid flows into the output pipe 120 through the first inlet 121, thereby improving the uniformity of the cleaning liquid in the liquid flowing into the output pipe 120.

As shown in fig. 1, 5 and 9, the disinfection box 112 can contain clean water, a disinfector 1121 is disposed in the disinfection box 112, and after the clean water and the disinfector 1121 act, the clean water and the disinfector 1121 have a disinfecting and sterilizing effect, so that fluid flowing to the feeding system 250 through the output pipe 120 communicated with the disinfection box 112 has a disinfecting and sterilizing effect, and further, the cleaning effect and the sanitary condition of the feeding system 250 are improved.

Specifically, the disinfection device 1121 may be a hypochlorous acid generator, an ozone generator, or other structures capable of generating a sterilizing substance, such that when the clear water in the disinfection box 112 acts on the disinfection device 1121, a sterilizing substance with a sterilizing effect, such as hypochlorous acid, ozone, etc., can be generated, and the sterilizing substance and the fluid flow into the feeding system 250 through the output pipe 120 can achieve the sterilizing and flushing effects on the feeding system 250, which is beneficial to improving the sanitation condition of the feeding system 250. That is, the disinfector 1121 of the sterilization chamber 112 mixes various chemicals for sterilization with water to sterilize the pipes while flushing the feeding system 250.

As shown in fig. 1, 5 and 9, the clean water tank 113 is used for containing clean water, so that the fluid flowing to the feeding system 250 through the output pipe 120 communicated with the clean water tank 113 is relatively clean and has good cleanability, thereby being beneficial to improving the sanitation condition of the feeding system 250. Specifically, as shown in fig. 1, 8 and 9, the cleaning assembly 110 includes a cleaning tank 111, a disinfecting tank 112 and a clean water tank 113, and the output tube 120 is provided with a first inlet 121, a second inlet 122 and a third inlet 123, wherein the first inlet 121, the second inlet 122 and the third inlet 123 are sequentially disposed on the output tube 120 from the direction of the output tube 120 approaching the output tube outlet 124 to the direction far away from the output tube outlet 124, that is, the first inlet 121 is disposed near the output tube outlet 124, and the third inlet 123 is disposed far away from the output tube outlet 124. The three first connecting pipes 130 are sequentially communicated with the first inlet 121 and the clean box 111, the second inlet 122 and the sterilization box 112, the third inlet 123 and the clean water box 113, each first connecting pipe 130 is provided with a first valve 140, and by controlling the working state of the first valve 140, the corresponding first connecting pipe 130 can be communicated or separated, so that the fluid in the clean box 111, the sterilization box 112 or the clean water box 113 flows into the output pipe 120.

During the cleaning process, according to the cleaning, disinfecting and rinsing process, the first valve 140 of the first connecting pipe 130 connecting the first inlet 121 and the cleaning tank 111 is controlled to open, so that the fluid mixed with the cleaning liquid in the cleaning tank 111 is fed into the feeding system 250 through the output pipe 120, the feeding system 250 is cleaned, then the first valve 140 of the first connecting pipe 130 connecting the first inlet 121 and the cleaning tank 111 is closed, the first valve 140 of the first connecting pipe 130 connecting the second inlet 122 and the disinfecting tank 112 is controlled to open, so that the fluid with the sterilizing material in the disinfecting tank 112 is fed into the feeding system 250 through the output pipe 120, the feeding system 250 is disinfected and sterilized, then the first valve 140 of the first connecting pipe 130 connecting the second inlet 122 and the disinfecting tank 112 is closed, the first valve 140 of the first connecting pipe 130 connecting the third inlet 123 and the clean water tank 113 is controlled to open, and the feeding system 250 is rinsed with clean water.

That is to say, the embodiment of the utility model provides a clean subassembly 110 through setting up clean case 111, disinfect box 112 and clear water tank 113, can realize the cleaning process to defeated material system 250's washing, disinfection, washing, has improved defeated clean validity and thoroughness of material system 250 greatly for defeated material system 250's sanitary conditions can be up to standard.

Further, the first valve 140 disposed on the first pipeline communicating the clean box 111 and the first inlet 121, the first valve 140 disposed on the first pipeline communicating the disinfect box 112 and the second inlet 122, and the first valve 140 disposed on the first pipeline communicating the clean water box 113 and the third inlet 123 may be sequentially disposed, for example, sequentially disposed from right to left, so that the first valve 140 may be sequentially opened and closed to implement the cleaning operation of cleaning, disinfecting, and flushing of the feeding system 250, and the use is convenient.

In some possible embodiments, as shown in fig. 1, fig. 2, fig. 3 and fig. 8, the feeding system 250 includes a storage tank 210 and a feeding pipeline 260, wherein the storage tank 210 is used for storing seasonings, and the feeding pipeline 260 is communicated with the storage tank 210 to convey the seasonings in the storage tank 210 to a specific position through the feeding pipeline 260 and through the discharge port 220. The cleaning mechanism 100 further includes a second connecting pipe 150, the number of the output pipe outlets 124 is equal to the number of the material storage tanks 210 or the material delivery pipes 260, the second connecting pipe 150 is correspondingly connected to the material storage tanks 210 and the output pipe outlets 124, or the second connecting pipe 150 is correspondingly connected to the material delivery pipes 260 and the output pipe outlets 124.

That is to say, in a specific example, the number of the output pipe outlets 124 corresponds to the number of the storage tanks 210 one by one, and the output pipe outlets 124 communicate with the storage tanks 210 of the feeding system 250 one by one through the second connection pipe 150, so that the fluid in the cleaning assembly 110 is divided by the output pipe outlets 124 and flows into different storage tanks 210 correspondingly, and is discharged from the discharge port 220 of the feeding mechanism 200 through different storage tanks 210, and then the storage tanks 210 and the pipelines and structures between the storage tanks 210 and the discharge port 220 of the feeding mechanism 200 are cleaned, that is, the second connection pipe 150 connects the storage tanks 210 and the output pipe outlets 124 correspondingly, and it can be ensured that each storage tank 210 and the pipeline between each storage tank 210 and the discharge port 220 are cleaned, which is beneficial to improving the effectiveness and thoroughness of cleaning of the feeding mechanism 200, and further improving the sanitary condition of the feeding system 250.

In another specific example, the number of the output pipe outlets 124 corresponds to the number of the material delivery pipes 260, and the output pipe outlets 124 communicate with the material delivery pipes 260 of the material delivery system 250 in a one-to-one correspondence manner through the second connection pipe 150, so that the fluid in the cleaning assembly 110 is divided by the output pipe outlets 124 and flows into different material delivery pipes 260 correspondingly, and is discharged from the material outlet 220 of the feeding mechanism 200 through different material delivery pipes 260, and further, the pipelines and structures between the material delivery pipes 260 and the material outlet 220 of the feeding mechanism 200 are cleaned, and it can be ensured that the pipelines between each material delivery pipe 260 and the material outlet 220 are all cleaned, which is beneficial to improving the cleanliness of the feeding mechanism 200, and further, the sanitation of the material delivery system 250 is improved.

In the above embodiment, the second connecting pipe 150 is detachably connected to the storage tank 210, and the second connecting pipe 150 is detachably connected to the material conveying pipeline 260, so that the second connecting pipe 150 is conveniently connected to or detached from the material conveying system 250, so that when the material conveying system 250 needs to be cleaned, the second connecting pipe 150 is connected to the storage tank 210, or the second connecting pipe 150 is connected to the material conveying pipeline 260. When the material conveying system 250 is not required to be cleaned, the second connecting pipe 150 and the material storage tank 210 or the second connecting pipe 150 and the material conveying pipeline 260 can be detached and separated, so that the second connecting pipe 150 of the cleaning mechanism 100 can be conveniently stored, meanwhile, the work of the material feeding mechanism 200 cannot be interfered, and the cleaning mechanism is simple in operation and convenient to use.

Specifically, as shown in fig. 2, one end of the second connecting pipe 150 may be connected to the storage tank 210 or the feeding pipe 260 in a quick-coupling, threaded or magnetic manner, for example, a material supplement port 211 is provided on the storage tank 210, or the feeding pipe 260 is provided with a feeding port 261, one end of the second connecting pipe 150 may be connected to the material supplement port 211 in a quick-coupling, threaded or magnetic manner, or one end of the second connecting pipe 150 may be connected to the feeding port 261 in a quick-coupling, threaded or magnetic manner.

Further, as shown in fig. 3, the second connecting pipe 150 is detachably connected to the outlet pipe 124, so that the second connecting pipe 150 can be separated from the outlet pipe 120 for storage, which is beneficial to reducing the volume of the cleaning mechanism 100 and facilitating storage. Specifically, the second pipeline and the outlet 124 of the output pipe can be detachably connected by a screw structure or other connection structure meeting the requirement.

Wherein, second connecting pipe 150 can dismantle with output tube outlet 124 and be connected, simultaneously, second connecting pipe 150 can dismantle with storage tank 210 and be connected, perhaps, second connecting pipe 150 can dismantle with conveying pipeline 260 and be connected, like this, need not carry out under the clear condition to throwing material mechanism 200, can dismantle second connecting pipe 150, accomodate alone, simultaneously, be convenient for change or repair second connecting pipe 150, be favorable to reducing the maintenance and trade a cost.

In some possible embodiments provided by the present invention, as shown in fig. 6, under the condition that the cleaning assembly 110 includes the cleaning tank 111 and/or the clean water tank 113, the interior of the cleaning tank 111 and/or the clean water tank 113 is further provided with a heating device 160, the heating device 160 is used for heating the fluid in the cleaning tank 111 and/or the clean water tank 113, the fluid with higher temperature flows into the material conveying system 250 through the output pipe 120, which is beneficial to improving the cleaning efficiency and cleaning effect of the material conveying system 250, and further can improve the sanitary condition of the material conveying system 250.

The cleaning mechanism 100 further includes a temperature detecting device and a control device, the temperature detecting device is disposed on the cleaning tank 111 and/or the clean water tank 113, for example, the temperature detecting device is disposed on the cleaning tank 111 and is used for detecting the temperature of the fluid in the cleaning tank 111, and the temperature detecting device is disposed on the clean water tank 113 and is used for detecting the temperature of the fluid in the clean water tank 113. The control device is connected with the heating device 160 and the temperature detection device and is used for controlling the working state of the heating device 160 according to the detection information of the temperature detection device; wherein the control device is further connected to the first valve 140 for controlling the operating state of the first valve 140. Thus, when the temperature detection device detects that the temperature of the fluid in the cleaning tank 111 and/or the clean water tank 113 exceeds a first preset threshold, for example, the first preset threshold is 30 ℃ to 50 ℃ (e.g., 30 ℃,35 ℃,40 ℃, 45 ℃, 50 ℃, etc.), it indicates that the cleaning effect of the fluid at such temperature is better, and therefore, the control device can control the first valve 140 on the corresponding first connection pipe 130 to open, so that the fluid in the cleaning tank 111 and/or the clean water tank 113 flows into the feeding system 250 through the output pipe 120 for cleaning. It will be appreciated that the first valve 140 of the first connecting pipe 130 communicating with the clean tank 111 and the first valve 140 of the first connecting pipe 130 communicating with the clean tank 113 may be separately controlled to operate individually, so that the fluid in the clean tank 111 and the fluid in the clean tank 113 flow into the feed conveyor system 250 for cleaning, respectively.

Further, when the temperature detecting device detects that the temperature of the fluid in the clean box 111 and/or the clean water box 113 exceeds a second preset threshold, for example, the second preset threshold is 55 ℃ to 60 ℃, which indicates that the temperature of the fluid is high, and there is a problem of damaging the feeding system 250 or affecting the cleaning effect, at this time, the control device may control the heating device to stop working, so as to control the temperature of the fluid in the clean box 111 and/or the clean water box 113 within a preferred range.

It is understood that the cleaning assembly 110 may include the cleaning tank 111 or the clean water tank 113, or the cleaning tank 111 and the clean water tank 113 according to the cleaning requirement and the cost requirement, and in the case that the cleaning assembly 110 includes the cleaning tank 111 and the clean water tank 113, the heating device 160 may be provided in one of the cleaning tank 111 and the clean water tank 113, or the cleaning tank 111 and the clean water tank 113 may be provided with heating members. In particular, the heating member may be an electric heating member, such as an electric heating wire.

In some possible embodiments of the present invention, as shown in fig. 7, the cleaning assembly 110 includes a clean water tank 113, the heating device 160 includes a dry-fire heating element, the clean water tank 113 is further provided with an air inlet 1131, and a gas valve 190 is further provided on the first connecting pipe 130 connecting the third inlet 123 and the clean water tank 113. Like this, after utilizing liquid to accomplish the cleanness to defeated material system 250, can control pneumatic valve 190 work, with external environment and air inlet 1131 intercommunication, introduce the gas of external environment into clear water tank 113, then control heating device 160 work, because heating device 160 is the dry combustion heating spare, can heat the gas in clear water tank 113, then control the idle running of condiment delivery pump 230 of defeated material system 250, can inhale defeated material system 250 with the air after the heating, in order to carry out the stoving operation to defeated material system 250, and then can ensure defeated material system 250 can be dried by the air that has heated or dry air takes moisture, ensure good clean effect, the sanitary conditions of defeated material system 250 has been improved greatly.

Further, the gas valve 190 may be disposed at one side of all the first valves 140, for example, the gas valve 190 may be disposed at the left side of all the first valves 140, so that when the first valves 140 are controlled to be opened and closed to clean the feeding system 250 with liquid, the gas valve 190 may be controlled to perform a drying operation on the feeding system 250. The gas valve 190 is located at one side of all the first valves 140 for easy operation.

Further, the clean water tank 113 is provided with a through hole 1132, and the through hole 1132 is communicated with the third inlet 123 of the output pipe 120, wherein the circulation path of the air flow in the clean water tank 113 is shown by the dotted arrow in fig. 7. It will be appreciated that the liquid in the clean water tank 113 also flows to the output pipe 120 through the through hole 1132.

In some possible embodiments of the present invention, as shown in fig. 1, 4 and 8, the cleaning mechanism 100 further includes a sewage tank 170, and the sewage tank 170 is located below the discharge port 220 during operation, and is used for receiving the liquid discharged through the discharge port 220, so as to prevent the liquid flow discharged through the discharge port 220 from secondarily polluting the external environment near the feeding mechanism 200. Wherein, the effluent water sump 170 is provided with drain 171, utilizes the pipeline to communicate drain 171 with the assigned position, if utilize the pipeline to communicate drain 171 and sewage discharge department, can discharge the liquid in the effluent water sump 170 to sewage discharge department through drain 171, pipeline to the centralized processing of the sewage in the effluent water sump 170 is realized. It is understood that the sewage outlet 171 and the sewage tank 320 may be communicated by a pipeline to discharge the liquid in the sewage tank 170 to the sewage tank 320 for storage.

The sewage tank 170 is located below the discharge port 220, so that the liquid discharged from the discharge port 220 can fall into the sewage tank 170 under the action of gravity for storage. It can be understood that, when feeding mechanism 200 needs to be cleaned, can move the effluent water sump 170 to the below of discharge gate 220 in order to realize that sewage is accomodate, when feeding mechanism 200 need not clean, can move effluent water sump 170 to keeping away from discharge gate 220 to avoid throwing the normal ejection of compact of feeding mechanism 200 and interfere.

In the above embodiment, as shown in fig. 8, the cleaning mechanism 100 further includes a protective sleeve 180, the protective sleeve 180 is disposed inside the wastewater tank 170 and surrounds the discharge port 220, and the protective sleeve 180 is disposed to reduce the possibility of splashing of the liquid discharged from the discharge port 220, so as to avoid the problem that the liquid discharged from the discharge port 220 splashes to other surrounding structures to cause secondary pollution and needs to be cleaned again, thereby greatly improving the cleaning effect, reducing the possibility of secondary pollution, and improving the satisfaction of users. Wherein, protective sheath 180 can be the flexible piece, and perhaps, protective sheath 180 can be for possessing the sheath of dismantling the combination, for example, protective sheath 180 can be the rubber spare, and protective sheath 180 detachably sets up in the inside of effluent water sump 170, is convenient for dismantle effluent water sump 170, protective sheath 180 with protective sheath 180 and gets off clean convenient operation.

Embodiments of the second aspect of the present invention, as shown in fig. 1, provide a cleaning apparatus 300, comprising: the movable frame 310, and the cleaning mechanism 100 of any one of the first aspect, the cleaning assembly 110 is disposed on the movable frame 310. Since the cleaning device 300 of the embodiment of the second aspect includes the cleaning mechanism 100 of any one of the first aspect, all the beneficial technical effects of the cleaning mechanism 100 are achieved, and are not described in detail herein.

Further, the cleaning assembly 110 is disposed on the movable frame 310, so that when the feeding mechanism 200 needs to be cleaned, the movable frame 310 is moved to a position near the feeding mechanism 200, the sewage tank 170 of the cleaning mechanism 100 is located below the discharge port 220 of the feeding mechanism 200, the second connection pipe 150 is utilized to correspondingly communicate the output pipe outlet 124 with the storage tank 210 or the conveying pipeline 260 of the conveying system 250, the mixing and conveying pump 230 of the conveying system 250 is controlled to work, so that the fluid in the cleaning assembly 110 can be sucked into the conveying system 250 through the output pipe 120 and discharged into the sewage tank 170 through the discharge port 220 for storage, and further the cleaning of the conveying system 250 is realized, the structure is simple, and the operation is convenient.

After the feeding mechanism 200 is cleaned, the second connecting pipe 150 is separated from the storage tank 210 or the feeding pipeline 260 of the feeding system 250, and the movable frame 310 is moved to separate the sewage tank 170 from the discharge port 220, so that the cleaning mechanism 100 can be separated from the feeding mechanism 200, and the cleaning mechanism 100 does not interfere with the normal operation of the feeding mechanism 200, and is simple in operation and convenient to use.

That is to say, the cleaning assembly 110 is arranged on the movable frame 310, so that the cleaning device 300 can be moved to the vicinity of the feeding mechanism 200 to be cleaned according to requirements to clean the feeding mechanism 200, the operation is convenient, and the use range of the device is expanded. Meanwhile, the cleaning box 111, and/or the disinfection box 112, and/or the clean water box 113 arranged on the moving frame 310 can contain clean water, that is, the cleaning component 110 can meet the environmental requirement that no water source is arranged near the feeding mechanism 200 and water cannot be supplied in time, and the application range of the product is enlarged.

In a specific example provided by the present invention, as shown in fig. 1, the drain 171 of the cleaning mechanism 100 is communicated with the external environment through the first drain pipe 330, so that the liquid in the sewage tank 170 is discharged to the external environment through the drain 171 and the first drain pipe 330, for example, at the sewage discharge position, in this case, the environmental requirement of the sewage discharge port near the feeding mechanism 200 can be satisfied.

In another specific example provided by the present invention, as shown in fig. 1, the cleaning device 300 further includes a sewage tank 320 disposed on the movable frame 310, the sewage outlet 171 is communicated with the sewage tank 320 through a second sewage pipe 340, so that the liquid in the sewage tank 170 is discharged to the sewage tank 320 through the sewage outlet 171 and the second sewage pipe 340 for storage, in this case, the environmental requirement that the sewage discharge port is not disposed near the feeding mechanism 200 can be satisfied, and the application range of the product is expanded. Wherein the sewage tank 320 is provided on the movable frame 310 so that the cleaning apparatus 300 as a whole can be moved, and sewage in the sewage tank 320 can be discharged after the cleaning apparatus 300 is moved to a designated position.

In the utility model provides a specific example still, cleaning device 300 still includes the sewage tank 320 of setting on movable frame 310, the drain 171 of clean mechanism 100 communicates with external environment through first blow off pipe 330, and simultaneously, drain 171 communicates with sewage tank 320 through second blow off pipe 340, and like this, liquid in sewage pond 170 passes through drain 171, first blow off pipe 330 discharges to external environment, and simultaneously, liquid in sewage pond 170 passes through drain 171, second blow off pipe 340 discharges to in the sewage tank 320 in order to save, is favorable to improving sewage discharge efficiency of sewage pond 170, and then ensures higher clean efficiency. Wherein, this kind of condition satisfies the environmental requirement that throws material mechanism 200 and be provided with sewage discharge port.

It can be understood that the structure of the cleaning device 300 can be properly selected according to the actual arrangement of the discharge outlet 171 near the feeding mechanism 200, so as to expand the application range of the product.

In some possible embodiments of the present invention, as shown in fig. 1, the cleaning device 300 further includes: the tool box 360 is arranged on the movable frame 310, and the tool box 360 provides storage space for auxiliary tools, connecting pipelines, spare parts, cleaning agents and the like of the cleaning equipment 300, so that the problem of difficulty in storing related parts is solved, and meanwhile, the parts are stored in the tool box 360 and move together along with the movable frame 310, so that the parts can be taken out of the tool box 360 in time when needing to be used, and the use is convenient.

Further, as shown in fig. 1, the cleaning device 300 further includes an electrical connection line 350, one end of the electrical connection line 350 is electrically connected to the controller of the cleaning mechanism 100, and the other end of the electrical connection line is used for being connected to the external power interface 240 of the feeding mechanism 200, so that the cleaning device 300 can use the power supply device of the feeding mechanism 200, the step of separately providing the power supply device for the cleaning device 300 is simplified, the structure of the cleaning device 300 is further simplified, and the cost of the cleaning device 300 is reduced. The controller of the cleaning device 300 is set to be in communication connection with the feeding mechanism 200, so that the cleaning device 300 and the feeding mechanism 200 can work in coordination, and further the cleaning device 300 can realize the circulation of fluid according to the seasoning delivery pump 230 of the feeding mechanism 200, so as to realize the cleaning of the material conveying system 250. Specifically, the cleaning device 300 and the feeding mechanism 200 can work cooperatively through communication of related communication lines.

Further, as shown in fig. 1, an air hole 370 is further provided on the housing of the cleaning device 300, and the air hole 370 is used for communicating with an air inlet 1131 in the clean water tank 113 of the cleaning mechanism 100, so that when the air valve 190 is opened, the air flow of the external environment flows into the clean water tank 113 through the air hole 370 and the air inlet 1131.

It can be understood that the volumes of the cleaning tank 111, the sterilizing tank 112, the clean water tank 113, the tool box 360 and the sewage tank 320 can be set properly according to the requirement, so as to ensure that the cleaning device 300 can well complete the cleaning work and has a good storage function.

An embodiment of the third aspect of the present invention, as shown in fig. 8 and 9, provides a feeding device 400, comprising: a feeding mechanism 200; a water inlet pipe 410; and the cleaning mechanism 100 of any one of the first aspect, the water inlet conduit 410 is in communication with the cleaning assembly 110. Since the feeding device 400 of the third aspect comprises the cleaning mechanism 100 of any one of the first aspect, all the advantages of the cleaning mechanism 100 are achieved, and therefore, the detailed description is omitted.

In the above embodiment, as shown in fig. 8 and 9, the feeding device 400 comprises a water inlet pipe 410, the water inlet pipe 410 is in communication with the cleaning assembly 110, the water inlet pipe 410 comprises an inlet for communication with a water source, i.e. the water inlet pipe 410 provides fresh water for the cleaning assembly 110. It can be understood that, in this case, the environmental characteristics of a water source arranged near the feeding mechanism 200 can be satisfied, and at this time, the cleaning mechanism 100 and the feeding mechanism 200 can be integrated into the feeding device 400, so that the feeding device 400 can realize self-cleaning on the basis of realizing feeding, the functions of the feeding device 400 are expanded, and the satisfaction of users is improved.

Further, in this case, since the water inlet pipe 410 is communicated with the cleaning assembly 110 for providing clean water for the cleaning assembly 110, the volume of the cleaning tank 111, and/or the disinfection tank 112, and/or the clean water tank 113 in the cleaning assembly 110 can be appropriately reduced, so that the cleaning tank 111, and/or the disinfection tank 112, and/or the clean water tank 113 can be circulated with clean water without storing more fluid, thereby meeting the design requirement of compact structure and small volume of the cleaning assembly 110 and expanding the application range of the product.

Further, the sewage discharge port 171 of the sewage tank 170 may be communicated with the external environment, for example, the sewage discharge port 171 of the sewage tank 170 may be communicated with the sewage discharge port near the feeding mechanism 200 through a pipe, so that the sewage of the sewage tank 170 may be directly discharged to the external environment. Therefore, the cleaning mechanism 100 can meet the environmental requirement that a sewage discharge port is arranged near the feeding mechanism 200, the arrangement of a sewage recovery device of the cleaning mechanism 100 is simplified, the structure of the feeding device 400 is further simplified, and the manufacturing cost of the device is favorably reduced.

Further, as shown in fig. 9, the outlet of the water inlet pipe 410 can be properly arranged according to the specific situation of the cleaning assembly 110. Specifically, the water inlet pipe 410 includes a first outlet 411, and/or a second outlet 412, and/or a third outlet 413, wherein the first outlet 411 corresponds to the cleaning tank 111, the second outlet 412 corresponds to the sterilizing tank 112, and the third outlet 413 corresponds to the clean water tank 113, that is, the water inlet pipe 410 may be appropriately provided with the first outlet 411, the second outlet 412, and the third outlet 413 corresponding thereto according to the specific situation that the cleaning tank 111, the sterilizing tank 112, and the clean water tank 113 are included in the cleaning assembly 110. Then, the corresponding outlet is communicated with the corresponding structure of the cleaning assembly 110 using the third connection pipe 420, such as the first outlet 411 and the cleaning tank 111 using the third connection pipe 420, and/or the second outlet 412 and the sterilizing tank 112 using the third connection pipe 420, and/or the third outlet 413 and the clean water tank 113 using the third connection pipe 420. Then, the second valve 430 is disposed on the third connection pipe 420 to control the on/off of the third connection pipe 420 where the second valve 430 is disposed, so that the clean water in the water inlet pipe 410 can be controlled to flow into the cleaning tank 111, and/or the sterilizing tank 112, and/or the sterilization tank of the cleaning assembly 110 through the corresponding third pipeline.

Specifically, as shown in fig. 9, the cleaning assembly 110 of the cleaning mechanism 100 comprises a clean water tank 113, a disinfection tank 112 and the clean water tank 113, and the water inlet pipe 410 of the feeding device 400 is provided with a first outlet 411, a second outlet 412 and a third outlet 413, wherein the first outlet 411, the second outlet 412 and the third outlet 413 are sequentially arranged from the direction far away from the inlet to the direction close to the inlet. The three third connection pipes 420 are sequentially communicated with the first outlet 411, the cleaning tank 111, the second outlet 412, the sterilizing tank 112, the third outlet 413 and the clean water tank 113, each third connection pipe 420 is provided with a second valve 430, and the corresponding third connection pipes 420 can be communicated or separated by controlling the working state of the second valve 430, so that the clean water of the water source flows into the cleaning tank 111, the sterilizing tank 112 or the clean water tank 113 through the water inlet pipe 410.

In the description of the present invention, the terms "plurality" or "a plurality" refer to two or more, and unless otherwise specifically defined, the terms "upper" and "lower" and the like indicate orientations or positional relationships based on the drawings, which are merely for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention; the terms "connected," "mounted," "secured," and the like are to be construed broadly and include, for example, fixed connections, removable connections, or integral connections; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

In the description of the present invention, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In the present disclosure, a schematic representation of the above terms does not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (11)

1. A cleaning mechanism (100) for use with a feeding mechanism (200), the cleaning mechanism (100) comprising:

the cleaning device comprises a cleaning component (110) and an output pipe (120), wherein the inlet of the output pipe (120) is communicated with the cleaning component (110), and the outlet of the output pipe (120) is used for being communicated with a material conveying system (250) of the feeding mechanism (200);

the fluid in the output pipe (120) can be discharged from the discharge hole (220) of the feeding mechanism (200) through the material conveying system (250).

2. The cleaning mechanism (100) of claim 1, wherein the cleaning assembly (110) comprises:

at least one of a cleaning tank (111), a sterilizing tank (112), a clean water tank (113), said output duct (120) comprising a first inlet (121) corresponding to said cleaning tank (111), and/or a second inlet (122) corresponding to said sterilizing tank (112), and/or a third inlet (123) corresponding to said clean water tank (113);

-a first connection pipe (130) for connecting the first inlet (121) and the cleaning tank (111), and/or for connecting the second inlet (122) and the sterilization tank (112), and/or for connecting the third inlet (123) and the clean water tank (113);

the first valve (140) is arranged on the first connecting pipe (130) and used for controlling the on-off of the first connecting pipe (130) where the first valve (140) is located;

wherein the cleaning box (111) is also used for containing cleaning liquid, and a disinfector (1121) is arranged in the disinfection box (112).

3. The cleaning mechanism (100) of claim 2, further comprising:

the material conveying system (250) comprises material storage tanks (210) and material conveying pipelines (260), the number of the outlet pipes (124) is equal to that of the material storage tanks (210) or that of the material conveying pipelines (260), the second connecting pipe (150) is correspondingly connected with the material storage tanks (210) and the outlet pipes (124), or the second connecting pipe (150) is correspondingly connected with the material conveying pipelines (260) and the outlet pipes (124);

the second connecting pipe (150) is detachably connected with the material storage tank (210) or the material conveying pipeline (260); and/or

The second connecting pipe (150) is detachably connected with the outlet of the output pipe (120).

4. The cleaning mechanism (100) of claim 2,

based on the cleaning assembly (110) comprising a cleaning tank (111) and/or the clean water tank (113), a heating device (160) is further arranged in the cleaning tank (111) and/or the clean water tank (113), and the heating device (160) is used for heating the fluid in the cleaning tank (111) and/or the clean water tank (113);

the cleaning mechanism (100) further comprises a temperature detection device and a control device, the temperature detection device is arranged on the cleaning tank (111) and/or the clean water tank (113) and is used for detecting the temperature of fluid in the cleaning tank (111) and/or the clean water tank (113), and the control device is connected with the heating device (160) and the temperature detection device and is used for controlling the working state of the heating device (160) according to the detection information of the temperature detection device;

wherein the control device is further connected with the first valve (140) and is used for controlling the working state of the first valve (140).

5. The cleaning mechanism (100) of claim 4,

based on clean subassembly (110) include clear water tank (113), heating device (160) include the dry combustion method heating element, clear water tank (113) still is provided with air inlet (1131), connect third entry (123) with clear water tank (113) still be provided with pneumatic valve (190) on first connecting pipe (130).

6. The cleaning mechanism (100) of claim 1, further comprising:

the sewage tank (170) is positioned below the discharge port (220) during operation and is used for containing liquid discharged from the discharge port (220), and the sewage tank (170) is provided with a sewage discharge port (171);

and the protective sleeve (180) is arranged in the sewage pool (170) and surrounds the periphery of the discharge hole (220).

7. A cleaning apparatus (300), comprising:

a movable carriage (310), and a cleaning mechanism (100) according to any one of claims 1 to 6, the cleaning assembly (110) being provided on the movable carriage (310).

8. The cleaning apparatus (300) of claim 7,

the sewage outlet (171) of the cleaning mechanism (100) is communicated with the external environment through a first sewage discharge pipe (330); and/or

The cleaning equipment (300) further comprises a sewage tank (320) arranged on the movable frame (310), and the sewage outlet (171) is communicated with the sewage tank (320) through a second sewage discharge pipe (340).

9. The cleaning apparatus (300) of claim 8, further comprising:

a tool box (360) provided on the movable frame (310);

one end of the electric connection wire (350) is electrically connected with the controller of the cleaning mechanism (100), and the other end of the electric connection wire (350) is used for being connected with an external power interface (240) of the feeding mechanism (200);

wherein the controller is arranged to be in communication connection with the feeding mechanism (200).

10. A charging apparatus (400), comprising:

a feeding mechanism (200);

a water inlet pipe (410); and

the cleaning mechanism (100) of any one of claims 1 to 6, the water inlet pipe (410) being in communication with the cleaning assembly (110).

11. The charging apparatus (400) of claim 10,

the water inlet pipe (410) comprises a first outlet (411) corresponding to a cleaning tank (111) of the cleaning assembly (110), and/or a second outlet (412) corresponding to a disinfection tank (112) of the cleaning assembly (110), and/or a third outlet (413) corresponding to a clean water tank (113) of the cleaning assembly (110), and an inlet for connection with a water source;

a third connection pipe (420) for connecting the first outlet (411) and the cleaning tank (111), and/or for connecting the second outlet (412) and the sterilizing tank (112), and/or for connecting the third outlet (413) and the clean water tank (113);

and the second valve (430), the second valve (430) is arranged on the third connecting pipe (420) and is used for controlling the on-off of the third connecting pipe (420) where the second valve (430) is located.

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