CN115351024B - Intelligent cleaning device for powder charging basket - Google Patents

Abstract

The application provides an intelligent cleaning device for powder charging basket, which comprises an integrated cleaning channel, wherein the integrated cleaning channel is arranged on a cleaning device body in a penetrating way, the two sides of the integrated cleaning channel are respectively provided with a cleaning inlet and a cleaning outlet of the charging basket, and the bottom of the integrated cleaning channel is provided with a moving mechanism; the multi-zone cleaning module is arranged in the integrated cleaning channel, and the multi-zone cleaning module is provided with a pneumatic dust removal assembly, a flushing assembly and a drying assembly along the cleaning inlet to the cleaning outlet respectively; the charging basket entering and exiting guide module comprises a rotating assembly arranged at a cleaning inlet and a cleaning outlet, the bottom of the rotating assembly is hinged and can be opened and closed to be arranged at the cleaning inlet and the cleaning outlet, the rotating assembly comprises a rotating frame body and a driving roller, and the driving roller is arranged on the rotating frame body and can bear and convey the charging basket; the cleaning device body further comprises a turnover mechanism, wherein the turnover mechanism comprises a positive turnover component and a reverse turnover component, the positive turnover component is arranged in the dust removal area, and the reverse turnover component is arranged in the drying area.

Description

Intelligent cleaning device for powder charging basket

Technical Field

The application relates to veterinary medicine production facility technical field, concretely relates to powder storage bucket intelligence belt cleaning device.

Background

Veterinary drugs are generally substances (medicated feed additives) which are used only for preventing, treating, diagnosing animal diseases or purposefully regulating animal physiological functions. In addition, as the living standard of people is improved, the number of poultry, especially poultry, is increased as the food on pets or dining tables of human beings, and the disease protection of the poultry is also important, so that the poultry medicines have wide consumer market in the market.

For the preparation of poultry medicines, a large amount of powder is generally required to be mixed and processed, and for the containing and transportation of the powder, a hard powder barrel is adopted for realizing the preparation of the poultry medicines; however, most of powder storage tanks are plastic products, and in the long-time use process, powder is easy to adhere to the inner wall and the outer wall of the storage tank, and if the powder storage tank is not cleaned for a long time, caking can be formed due to precipitation and adhesion of the powder, so that the powder storage tank is difficult to clean, and the normal use of the storage tank can be influenced.

In the prior art, a charging bucket cleaning device is mostly adopted for cleaning, and the cleaning method is generally water washing or ultrasonic cleaning, but because the caking on the surface of the charging bucket is generally formed by powder accumulation, the powder can be combined with the liquid by directly adopting liquid washing or ultrasonic cleaning to form a viscous powder solution, so that the adhesiveness of the powder is improved, and the powder is more difficult to remove; in addition, a large amount of powder and liquid mixed solution may cause environmental pollution, further, the belt cleaning device in the prior art needs to be installed and prepared to an independent cleaning workshop, after the production is scaled, the charging basket also has an independent storage space, namely a storage warehouse, in the cleaning, transferring and storage link of the charging basket, the charging basket needs to be repeatedly circulated between the warehouse and the cleaning workshop, time and labor are wasted, manual participation is needed in the process of returning and transferring, a large amount of labor resources are occupied, the cleaning efficiency of the conventional cleaning method on the powder charging basket is low, more charging basket is often needed to be equipped for the normal operation of the production line, and a considerable cleaning labor is needed to meet the requirement, so that a large burden of enterprises is caused, and the pollution generated in the conventional cleaning process easily causes damage to the health of staff.

Disclosure of Invention

The application provides a powder storage bucket intelligence belt cleaning device to solve at least one technical problem among the above-mentioned technical problem.

The technical scheme adopted by the application is as follows:

the application provides a powder storage bucket intelligence belt cleaning device, include: the integrated cleaning channel is arranged on the cleaning device body in a penetrating way, the two sides of the integrated cleaning channel are respectively provided with a cleaning inlet and a cleaning outlet of the charging basket, and the bottom of the integrated cleaning channel is provided with a moving mechanism; the multi-zone cleaning module is arranged in the integrated cleaning channel, and the multi-zone cleaning module is respectively provided with a pneumatic dust removal assembly, a flushing assembly and a drying assembly which can synchronously work from a cleaning inlet to a cleaning outlet, and is correspondingly divided into a dust removal area, a flushing area and a drying area; the charging basket entering and exiting guide module comprises a rotating assembly arranged at a cleaning inlet and a cleaning outlet, the bottom of the rotating assembly is hinged and can be opened and closed to be arranged at the cleaning inlet and the cleaning outlet, the rotating assembly comprises a rotating frame body and a driving roller, and the driving roller is arranged on the rotating frame body and can bear and convey the charging basket; the cleaning device body further comprises a turnover mechanism, the turnover mechanism comprises a positive turnover assembly and a negative turnover assembly, the positive turnover assembly is arranged in the dust removal area, and the negative turnover assembly is arranged in the drying area; the inner bottom wall of the integrated cleaning channel is provided with a conveying mechanism, and a charging basket entering through a cleaning inlet can be driven to sequentially pass through a dust removing area, a flushing area and a drying area, so that the charging basket with an upward opening is turned over, dust removed, flushed, dried and turned over again, and is output through a cleaning outlet.

As a preferred embodiment of the application, the cleaning device comprises a power module arranged at the bottom of the integrated cleaning channel, the power module comprises an energy supply assembly with a driving wheel, and the driving wheel drives a driving roller of the rotating assembly to move through a belt.

As a preferred embodiment of the application, the rotating assembly further comprises an elastic adjusting piece, the elastic adjusting piece comprises an elastic piece and an adjusting wheel, the adjusting wheel is connected between the driving roller and the driving wheel through a belt, and the elastic piece can enable the position of the adjusting wheel to change so that the belt is tensioned on the driving wheel and the driving roller.

As a preferred embodiment of the present application, the rotating assembly has an open condition for transporting the bucket and a closed condition for stopping the transportation, in which the elastic member is capable of tensioning the belt, the driving wheel generates a pulling force for the driving roller, so that the rotating assembly is kept in the closed condition.

As a preferred embodiment of this application, pneumatic dust removal subassembly is including flexible gas blowing piece and the first flexible getter of diapire in can protrusion or parallel and level cleaning channel in the integral type, and flexible gas blowing piece includes the telescopic link and sets up in the rotation gas blowing head at telescopic link top, can blow the dust removal to the inner wall of storage bucket to absorb through first flexible getter.

As a preferred embodiment of this application, pneumatic dust removal subassembly still including setting up in the clean brush of the interior roof of integral type cleaning channel and the flexible piece of breathing in of second, clean brush is provided with two at least, can clean the powder that the storage bucket outer wall is attached to absorb the turbid air in dust removal district through the flexible piece of breathing in of second.

As a preferred embodiment of the application, the forward overturning assembly and the reverse overturning assembly comprise telescopic parts and fixed discs, wherein the telescopic parts are arranged on two inner side walls of the integrated cleaning channel in a sliding manner and slide along the direction perpendicular to the conveying direction of the charging basket; the fixed disk is rotationally connected to the telescopic piece and used for bearing and fixing the charging basket, and the fixed disk can rotate relative to the telescopic piece so that the charging basket can be overturned.

As a preferred embodiment of the application, the flushing assembly comprises a first flushing member and a second flushing member which can be protruded or flush with the inner bottom wall of the integrated cleaning channel, wherein the first flushing member comprises a telescopic base and a rotary spray pipe which is in sliding connection with the telescopic base so as to clean the inner wall of the charging basket; the second flushing part is arranged on two sides of the first flushing part, and can spray and clean the outer wall of the charging basket.

As a preferred embodiment of the application, the drying assembly comprises a first electric heating element arranged on the inner bottom wall of the integrated cleaning channel and a second electric heating element arranged on the inner top wall of the integrated cleaning channel, wherein the first electric heating element penetrates through the conveying mechanism and can protrude and level the inner bottom wall of the integrated cleaning channel; the second electric heating element is arranged on the inner top wall of the integrated cleaning channel.

As a preferred embodiment of the present application, the power module further comprises a gas supply mechanism connected with the pneumatic dust removal assembly, a water delivery mechanism connected with the flushing assembly, and a power supply mechanism connected with the drying assembly.

Due to the adoption of the technical scheme, the technical effects obtained by the application are as follows:

1. the utility model provides a powder storage bucket intelligent cleaning device, through set gradually air dust removal subassembly, washing subassembly and stoving subassembly in integral type cleaning channel, can make the powder storage bucket that gets into belt cleaning device carry out dust removal, washing and stoving step in proper order; further, through the arrangement of the turnover mechanism, the charging basket with the upward opening can be turned to the state with the downward opening through the forward and reverse rotation assembly arranged in the dust removal area, dust and liquid are stored in the charging basket to the greatest extent, the phenomenon that residues in the charging basket are difficult to clean and pour in the cleaning process is prevented, and after the final drying step is finished, the charging basket with the downward opening is restored to the state with the upward opening through the reverse rotation assembly arranged in the drying area, so that the normal use of workers is facilitated; in addition, the pneumatic dust removal subassembly, the washing subassembly and the stoving subassembly of this application can work simultaneously, that is to say, this application can be at preceding storage bucket end dust removal work, gets into after the washing district, and later storage bucket can get into the dust removal district in step, realizes a plurality of storage buckets clear effect simultaneously, saves clean time, promotes work efficiency greatly. Moreover, the rotary assembly is arranged at the cleaning inlet and the inclined outlet, so that a worker can conveniently convey the charging basket from the cleaning inlet to the cleaning outlet through the rotary assembly and the conveying mechanism, the labor investment of the worker is greatly reduced, and labor resources are saved.

From the whole, the cleaning effect of the charging basket is improved through multistage cleaning, and the cleaning device has mobility through the moving mechanism arranged at the bottom of the cleaning device body, so that the traditional charging basket is cleaned by the reciprocating circulation between a cleaning room and a storage space, and is converted into a movable integrated full-automatic cleaning device, the cleaning of the charging basket is separated from the traditional cleaning room and a charging basket storage warehouse to the greatest extent, the charging basket cleaning can be carried out by moving the cleaning device to different areas, the occupied area of the whole processing production workshop can be reduced, and the burden of enterprises is greatly reduced while the land resources are saved; and, in whole cleaning process, because this application adopts integral type cleanness, when cleaning the storage bucket, only need with the storage bucket put into from the slide of import can, can save a large amount of cleaning equipment that the enterprise required to the cleanness of storage bucket greatly, and then reduced staff's participation to clean work, avoided the staff to contact the storage bucket for a long time on the at utmost and put into cleaning, transport work, greatly reduced staff's work burden, also reduced the waste of the labor resource of enterprise, play the guarantee to the healthy of staff to a certain extent.

To sum up, this application can play benign change to the trade that needs a large amount of powder to process preparation such as animal remedy, medicine, chemistry, not only can improve the clean efficiency of storage bucket, reduce the economic burden of enterprise, can also reduce staff's amount of labour, provides good operational environment, has vast market and good development prospect.

2. As a preferred implementation mode of the cleaning device, the energy supply assembly is arranged to drive the rotating assembly to move, so that on one hand, the automation degree of the cleaning device can be improved, and labor resources are saved; on the other hand, be connected belt pulley and conveying mechanism, can realize driving rotation subassembly and conveying mechanism simultaneously through energy supply subassembly and move for rotation subassembly and conveying mechanism's conveying speed is balanced, avoids the storage bucket to empty in the at utmost, can reduce belt cleaning device's cost.

3. As a preferred embodiment of this application, this application is through setting up elastic adjustment spare, can be in the closed state and open the state when rotating the subassembly, different position changes of rotating the subassembly when adapting to different states through the regulating wheel, and make belt tensioning drive wheel and driving roller through the elastic part, prevent to the maximum degree that the too loose phenomenon of belt takes place because of rotating the state change of subassembly, when reducing rotating the subassembly and being in the closed state, because of belt tensioning degree is not enough, lead to the drive wheel unable to provide sufficient pulling force to drive the driving roller, cause the condition emergence that the rotating frame body can't normally be closed, and then make rotating the subassembly more firm when being in the closed state to the maximum degree.

4. As a preferred implementation mode of the application, the telescopic blowing piece with the telescopic belt can be arranged, can be lifted up and down to clean the inner wall of the charging basket in an opening downward state, can be lowered to the bottom of the conveying mechanism after the cleaning is finished, is parallel to the surface of the conveying mechanism, and can avoid influencing the conveying work of the charging basket of the conveying mechanism to the greatest extent; in addition, the rotatable rotary blowing head can also perform multi-angle blowing dust removal on the inner wall of the charging basket, so that the dust removal efficiency is improved; further, this application is through the setting of flexible getter, not only can shrink to conveying mechanism surface parallel and level's position equally, can also absorb the turbid other in the storage bucket inner wall, further promotes clean effect.

5. As a preferred embodiment of this application, the cleaning brush that the interior roof of integral type cleaning channel set up can clean the outer wall of storage bucket, realize the cleanness to the outer wall, and, set up the flexible getter of second of roof in integral type cleaning channel, can clean the dust that the outer wall was lifted with the cleaning brush and absorb, on the one hand can prevent that a large amount of dust from wafing again and causing the attachment at the storage bucket outer wall in the at utmost, on the other hand can protect integral type cleaning channel inner structure, reduce the phenomenon that damage appears in other structures of dust adhesion in integral type cleaning channel inner wall and integral type cleaning channel, improve belt cleaning device's life to a certain extent.

6. As a preferred implementation mode of the cleaning device, the inner wall of the charging basket is cleaned and washed through the arrangement of the first washing piece, and the telescopic substrate in the first washing piece can be moved to the telescopic substrate of the bottom wall in the flush and integrated cleaning channel after the cleaning is finished, so that the effect of avoiding the conveying of the charging basket can be achieved to the greatest extent, and all angles of the inner wall of the charging basket are cleaned through the rotatable rotary spray pipe when the first washing piece works; in addition, this application is through the setting of second washing piece, not only can be after washing work is finished, and the first clean subassembly plays the same effect of dodging, can also clean the outer wall of storage bucket through the shower nozzle, further improves clean effect.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the present application and do not constitute a limitation on the invention. In the drawings:

fig. 1 is a three-dimensional structure diagram of an intelligent cleaning device for powder charging barrels;

FIG. 2 is a side view internal structural diagram of the intelligent cleaning device for powder charging bucket;

fig. 3 is a schematic structural diagram of a portion of a drying area of an intelligent cleaning device for powder material barrels provided by the application;

FIG. 4 is a schematic view of a portion of a drying area of another intelligent cleaning device for powder material barrels provided by the present application;

FIG. 5 is a schematic view of a portion of a drying area of another intelligent cleaning device for powder material barrels provided by the present application;

FIG. 6 is a front view internal structural diagram of the intelligent cleaning device for powder charging bucket;

FIG. 7 is a schematic distribution diagram of a pneumatic dust removal assembly and a conveying mechanism provided by the application;

fig. 8 is a schematic distribution diagram of a flushing assembly and a conveying mechanism provided in the present application.

Reference numerals: 100 cleaning device body, 110 pneumatic dust removing component, 111 telescopic blowing piece, 1111 telescopic rod, 1112 rotary blowing head, 112 first telescopic suction piece, 113 cleaning brush, 1131 center rod, 1132 cylinder brush, 114 second telescopic suction piece, 115 air supply mechanism;

120 flushing components, 121 first flushing parts, 1211 telescopic base, 1212 rotary spray pipe, 122 second flushing parts, 123 telescopic compacting parts, 124 power parts, 125 water delivery mechanism, 1251 water inlet pipe and 1252 water outlet pipe;

130 drying components, 131 first electric heating elements, 132 second electric heating elements, 133 energy supply mechanisms;

140 turnover mechanisms, 141 telescopic members, 142 fixed discs and 143 sliding grooves;

150 separators, 151 baffles, 152 sound insulation curtains;

200 rotating components, 201 rotating frame bodies, 202 driving rollers, 203 driving wheels, 204 adjusting wheels, 205 elastic pieces, 206 stopping pieces, 207 guiding plates, 300 conveying mechanisms, 400 moving mechanisms, 500 handles, 501 pushing and pulling pieces and 502 bayonets.

Detailed Description

In order to more clearly illustrate the general concepts of the present application, a detailed description is provided below by way of example in connection with the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced otherwise than as described herein, and thus the scope of the present application is not limited by the specific embodiments disclosed below.

In addition, in the description of the present application, it should be understood that the terms "top," "bottom," "inner," "outer," "axial," "radial," "circumferential," and the like indicate an orientation or positional relationship based on that shown in the drawings, merely for convenience of description and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application.

In this application, unless specifically stated and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; the device can be mechanically connected, electrically connected and communicated; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art as the case may be.

In this application, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be the first and second features in direct contact, or the first and second features in indirect contact via an intervening medium. In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," 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 present application. In this specification, schematic representations of the above terms are not necessarily directed 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.

As shown in fig. 1 and 2, the application provides a powder storage bucket intelligence belt cleaning device, include: the integrated cleaning channel is arranged on the cleaning device body in a penetrating way, a cleaning inlet and a cleaning outlet of the charging basket are respectively arranged on two sides of the integrated cleaning channel, and a moving mechanism 400 is arranged at the bottom of the integrated cleaning channel. Alternatively, the movement mechanism 400 may employ universal wheels to enable multi-angle movement of the cleaning device.

The multi-zone cleaning module is arranged in the integrated cleaning channel, the multi-zone cleaning module is arranged from the cleaning inlet to the cleaning outlet, the pneumatic dust removal assembly 110, the flushing assembly 120 and the drying assembly 130 which can synchronously work are respectively arranged, and the multi-zone cleaning module is correspondingly divided into a dust removal zone, a flushing zone and a drying zone.

The charging basket in-out guide module comprises a rotating assembly 200 arranged at the cleaning inlet and the cleaning outlet, the bottom of the rotating assembly 200 is hinged, the rotating assembly 200 can be opened and closed to be arranged at the cleaning inlet and the cleaning outlet, the rotating assembly 200 comprises a rotating frame 201 and a driving roller 202, and the driving roller 202 is arranged at the rotating frame 201 and can bear and convey the charging basket.

Preferably, the cleaning device body further includes a turnover mechanism 140, the turnover mechanism 140 includes a forward turnover component and a reverse turnover component, and the forward turnover component is disposed in the dust removal area, and the reverse turnover component is disposed in the drying area.

The inner bottom wall of the integrated cleaning channel is provided with a conveying mechanism 300, and a charging basket entering through a cleaning inlet can be driven to sequentially pass through the dust removing area, the flushing area and the drying area, so that the charging basket with an upward opening is turned over, dust removed, flushed, dried and turned over again, and is output through a cleaning outlet.

As shown in fig. 2 and 3, as a preferred embodiment of the present application, the cleaning device includes a power module disposed at the bottom of the integrated cleaning channel, the power module includes a transmission assembly having a driving wheel 203, and the driving wheel 203 drives a transmission roller 202 of the rotation assembly 200 to move through a belt.

It should be understood that the conveying mechanism 300 may also drive the bucket to move by using a plurality of driving rollers 202, that is, the driving wheel 203 may not only drive the driving rollers 202 of the rotating assembly 200 to move by using a belt, but also drive the driving rollers 202 of the conveying mechanism to move.

Further, as shown in fig. 3-5, the rotating assembly 200 further includes an elastic adjustment member, the elastic adjustment member includes an elastic member 205 and an adjustment wheel 204, the adjustment wheel 204 is connected between the driving roller 202 and the driving roller 203 via the belt, and the elastic member 205 can change the position of the adjustment wheel 204 so as to tension the belt between the driving roller 203 and the driving roller 202.

It can be understood that the tightness of the belt connecting the driving wheel 203, the adjusting wheel 204 and the driving roller 202 will be changed during the rotation of the rotating frame 201, so that the elastic member 205 is connected to the adjusting wheel 204 in order to ensure that the belt is always tensioned between the driving wheel 203 and the driving roller 202 to the greatest extent; further, the setting position of the elastic member 205 is not specifically limited, and any setting position that can perform an adjusting function on the adjusting wheel 204 may be selected, for example, the elastic member 205 may be disposed above the adjusting wheel 204 or disposed on the left side of the adjusting wheel 204; in order to facilitate the description of the subsequent structure, the present application will be described by taking the rotating assembly 200 at the cleaning outlet as an example, and in order to achieve the best adjusting effect, the present application will use the elastic member 205 to be disposed above the adjusting wheel 204, and the included angle a between the elastic member and the adjusting wheel 204 is 30-50 °.

Wherein the rotating assembly 200 has an opened state of transporting the bucket and a closed state of stopping the transportation, in which the elastic regulating member can tension the belt, and the driving wheel 203 generates a pulling force on the driving roller 202, so that the rotating assembly 200 maintains the closed state. Alternatively, the elastic member 205 may be a compression spring.

It should be noted that, as shown in fig. 3 and 4, when the rotating assembly 200 is in the opened state and the rotating frame 201 is flush with the conveying mechanism 300, the adjusting wheel 204 and the belt are both in the normal positions; when the rotating frame 201 continues to move until the non-hinged end of the rotating frame 201 contacts the ground, the rotating frame 201 is completely opened at this time, so that the conveying operation of the charging basket can be normally performed, at this time, the adjusting wheel 204 moves upwards due to the rotation of the rotating frame 201 and the adjustment of the elastic member 205, and the ground can give the supporting force to the rotating frame 201 due to the gravity factor of the rotating frame 201 itself and the contact of the rotating frame 201 with the ground, so that the belt and the driving wheel 203 do not need to give excessive tension to the driving roller 202 via the elastic adjusting member to maintain the state of the rotating assembly 200.

As shown in fig. 5, when the bucket is transported, the rotating assembly 200 is in a closed state, the rotating frame 201 and the integral cleaning channel are completely closed, the driving roller 202 generates an outward overturning force due to the weight of the rotating frame 201, and at this time, the adjusting wheel 204 moves upward under the driving of the elastic member 205, so that the belt tension between the driving wheel 203 and the rotating roller is increased due to the position change of the adjusting wheel 204, and the driving wheel 203 generates a pulling force on the rotating roller, so as to maintain the closed state of the rotating assembly 200 to the greatest extent.

Further, the side surface of the cleaning device body 100 may further be provided with a stop member 206, where the stop member 206 is rotationally connected with the side edge of the cleaning device body 100, and may attach the closed rotating assembly 200, and play a role in stopping the rotating assembly 200, so as to further ensure the closing of the rotating assembly 200.

As shown in fig. 1 and 2, as an alternative embodiment of the cleaning apparatus body 100, the cleaning apparatus body further includes a partition 150 for partitioning the dust removing area, the rinsing area and the drying area, and the partition 150 may include a partition 151 connected to an inner top wall of the integrated cleaning passage and a soundproof curtain 152 connected to the partition 151, so that the storage bucket can be transported through the soundproof curtain 152 and interactions between different areas can be reduced, and noise generated from the cleaning apparatus can be reduced through the soundproof curtain 152.

Further, as shown in fig. 2, guide plates 207 may be disposed on two sides of the rotating frame 201, so that the material barrel can be conveniently conveyed, and the phenomenon that the material barrel is laterally turned during the transportation process of the rotating frame 201 is prevented to a certain extent.

It will be appreciated that the cleaning device, and in particular the conveying mechanism 300 and the rotating assembly 200, of the present application may be subjected to a waterproof and anti-corrosion treatment, such as painting a waterproof paint and an anti-corrosion paint, to reduce to a certain extent the pollution and corrosion of the cleaning device caused by the liquid and dust during the cleaning operation of the bucket, and to improve the lifetime of the cleaning device.

As shown in fig. 2, as a preferred embodiment of the present application, the pneumatic dust removing assembly 110 includes a telescopic air blowing member 111 disposed on the inner bottom wall of the integral cleaning channel, and the telescopic air blowing member 111 penetrates through the conveying mechanism 300 and includes a telescopic rod 1111 capable of protruding or being flush with the inner bottom wall of the integral cleaning channel and a rotary air blowing head 1112 disposed on the top of the telescopic rod 1111, so as to blow and remove dust on the inner wall of the charging basket.

The telescopic rod 1111 may be disposed in a gap between the conveying mechanisms 300, and may be capable of ascending and descending in the gap; moreover, the rotary blowing head 1112 can be accommodated in the telescopic rod 1111 to avoid the influence of the telescopic blowing member 111 on the conveying of the charging basket to the maximum extent; in addition, the surface of the rotary blowing head 1112 can be uniformly provided with a plurality of blowing holes in different directions, so that blowing dust removal in a plurality of directions on the inner wall of the charging basket can be completed under the rotation of the rotary blowing head 1112.

Further, the pneumatic dust removing assembly 110 of the present application further comprises a first telescopic air suction member 112 disposed on two sides of the telescopic air blowing member 111 and capable of protruding or being flush with the inner bottom wall of the integral cleaning channel, and capable of sucking turbid air in the inner wall of the charging basket.

It will be appreciated that, as shown in fig. 6, the first telescopic air suction members 112 are also disposed in the gaps between the driving rollers 202 of the conveying mechanism 300, and the distances between the first telescopic air suction members 112 disposed on two sides of the telescopic air blowing member 111 and the telescopic air blowing member 111 are respectively smaller than the radius of the charging basket, so that the first telescopic air suction members 112 can be located in the opening of the charging basket to remove dust from the inner wall of the charging basket to the greatest extent. For the first telescopic air suction member 112 and the telescopic air blowing member 111, both can be lifted in the gap of the conveying mechanism 300, and the lifting movement of the first telescopic air suction member 112 and the telescopic air blowing member 111 can be performed by providing a groove on the inner bottom wall of the cleaning device body 100, wherein the groove is slidably connected with the first telescopic air suction member 112 and the telescopic air blowing member 111.

Further, the first telescopic aspirator 112 and the telescopic blower 111 may be disposed at a lateral center line of the conveying mechanism 300, that is, the first telescopic aspirator 112 and the telescopic blower may be at a center position of a bucket.

As shown in fig. 2 and 7, as a preferred embodiment of the present application, the pneumatic dust removing assembly 110 further includes a cleaning brush 113 disposed on a top wall of the integral cleaning channel, where at least two cleaning brushes 113 are disposed, and can clean powder attached to an outer wall of the bucket.

The cleaning brush 113 may include a central rod 1131 and a cylindrical brush 1132, the cylindrical brush 1132 is rotatably connected with the central rod 1131, and a lifting member is disposed between the central rod and the top wall of the integral cleaning channel, and the lifting member can drive the cleaning brush to move up and down to clean the outer wall of the charging basket comprehensively; in addition, the distance between the two cleaning brushes 113 may be slightly larger than the diameter of the bucket, so as to achieve a certain guiding and positioning effect on the bucket.

Also, as shown in fig. 2, the pneumatic dust removing assembly 110 may further include a second telescopic air suction member 114 disposed on a top wall of the integrated cleaning passage to absorb the turbid air in the dust removing area. It can be appreciated that, when the storage bucket is carrying powder, most of powder is stored and inside the storage bucket, and the dust adhesion quantity inside the storage bucket is far greater than the dust adhesion quantity of storage bucket outer wall, therefore, the application cleans the dust of storage bucket outer wall through cleaning brush 113, lifts up the dust, and the rethread flexible getter 114 of second absorbs, can clear up the dust that is attached to storage bucket outer wall a small amount.

Further, if the effect of better cleaning powder adhesion is to be achieved, as an optional implementation manner of the application, the pneumatic dust removing assembly 110 may further include outer wall cleaning blowing members (not shown in the figure) disposed on two sides of the telescopic blowing member 111, each outer wall cleaning blowing member and a distance between the telescopic blowing members 111 are greater than a radius of the charging basket, and a blowing head of the outer wall cleaning blowing member may face the outer wall of the charging basket, so that the outer wall cleaning blowing member may blow air to the outer wall of the charging basket to clean the cleaning effect to the greatest extent. As another alternative embodiment of the present application, the length of the bristles of the cleaning brush 113 may be the same as the radius of the bucket, so as to maximize the cleaning area of the cleaning brush 113, and also improve the cleaning effect on the powder attached to the surface of the bucket.

As a preferred embodiment of the present application, as shown in fig. 2 and 7, taking the positive overturning assembly as an example, the positive overturning assembly includes a telescopic member 141 slidably disposed on two inner sidewalls of the integrated cleaning channel and sliding along a direction perpendicular to the conveying mechanism 300, and a fixing disc 142 rotatably connected to the telescopic member 141, so as to fix the bucket through the fixing disc 142, and enable the bucket to be overturned through rotation of the fixing disc 142 relative to the telescopic member 141.

It can be appreciated that the structure of the reverse turning assembly is the same as that of the forward turning assembly, and both inner side walls of the integral cleaning channel can be provided with sliding grooves 143 slidably matched with the telescopic members 141, so that the forward turning assembly and the reverse turning assembly can move up and down; it can be appreciated that the positive turning component can be attached to the bucket through the fixed disc 142 and move upwards through the telescopic rod, so that a space exists between the bucket and the conveying mechanism 300, and the bucket is turned from an upward opening state to a downward opening state through the rotation of the fixed disc 142 and moves downwards through the telescopic rod, so that the bucket is placed in the conveying mechanism 300, and the subsequent dust removal, washing and drying work is continued; the reverse turning assembly is different from the forward turning assembly in that after the drying operation is finished, the reverse turning assembly turns the bucket to a state with an upward opening, and the integral cleaning channel is conveyed out by the conveying mechanism 300.

Wherein, the fixed disk 142 can be made of flexible material, such as resin, rubber, etc., which is suitable for different barrels on one hand, and can prevent the condition of damage to barrels caused by excessive force applied when the fixed disk 142 is attached to the barrels by the telescopic rod to the greatest extent on the other hand.

As a preferred embodiment of the present application, as shown in fig. 5, the flushing assembly 120 includes a first flushing member 121 disposed on the inner bottom wall of the integral cleaning passage, and the first flushing member 121 penetrates through the conveying mechanism 300 and includes a telescopic base 1211 capable of protruding from or being flush with the inner bottom wall of the integral cleaning passage, and a rotary nozzle 1212 slidably connected to the telescopic base 1211, so as to clean the inner wall of the bucket.

The surface of the rotary nozzle 1212 may be provided with a plurality of water outlets facing to a plurality of directions, and the inner wall of the barrel may be cleaned in multiple directions by the rotation of the rotary nozzle 1212.

Further, as shown in fig. 2, the flushing assembly 120 further includes a second flushing assembly 120 disposed on two sides of the telescopic flushing member, where the second flushing assembly 120 penetrates through the conveying mechanism 300, and can protrude out of or be flush with the inner bottom wall of the integral cleaning channel, and the nozzle of the second flushing assembly 120 sprays toward the outer wall of the charging basket. And, the distance from each second flushing part 122 to the telescopic flushing part is greater than the radius of the charging basket, so that the second flushing part 122 can be ensured to flush the outer wall of the charging basket to the greatest extent.

It should be noted that, as shown in fig. 8, the setting mode between the first flushing part 121, the second flushing part 122 and the conveying assembly and the cleaning device may be the same as the setting mode of the telescopic air blowing part and the first telescopic air suction part 112, which is not described herein.

In addition, the inner top wall of the conveying mechanism 300 may be provided with a telescopic pressing member 123, and the telescopic pressing member 123 may move downwards to attach to the outer bottom wall of the bucket when the flushing assembly 120 is flushed, and press the bucket, so that the bucket can be prevented from being offset due to water flow in the flushing process to a certain extent.

It will be appreciated that as shown in fig. 2, the top of the cleaning device body 100 may be provided with a power member 124 connected to the telescopic compressing member 123 to provide power required for movement of the telescopic compressing member 123; the joint of the pressing piece and the charging basket can be made of flexible resin, rubber and the like, so that the charging basket is prevented from being damaged to the greatest extent.

As a preferred embodiment of the present application, as shown in fig. 2, the drying assembly 130 includes a first electric heating element 131 disposed at the inner bottom wall of the integrated washing channel and a second electric heating element 132 disposed at the inner top wall of the integrated washing channel, wherein the first electric heating element 131 penetrates through the conveying mechanism 300 and can be protruded and leveled with the inner bottom wall of the integrated washing channel; the second electric heating element 132 is disposed on the inner top wall of the integrated cleaning channel.

The drying assembly 130 may further be provided with a hot air member (not shown in the figure), where the hot air member may be disposed on a side wall of the integrated cleaning channel to convey hot air to the charging basket, so as to further improve the drying effect; and, the inner wall in stoving district can be provided with the heat preservation (not shown in the figure), the extruded sheet can be selected for use to the heat preservation, not only has better heat preservation effect and water absorption ability, still has longer life, can save part and generate processing cost when reaching heat preservation effect.

As a preferred embodiment of the present application, the power module further includes a gas supply mechanism 115 connected to the pneumatic dust removal assembly 110, a water delivery mechanism 125 connected to the rinse assembly 120, and a power supply mechanism 133 connected to the drying assembly 130.

It will be appreciated that, as shown in fig. 2, the bottom of the cleaning device body 100 may be provided with a receiving cavity, the air supply mechanism 115, and the water delivery mechanism 125 and the energy supply mechanism 133 are disposed in the receiving cavity; as shown in fig. 1 and 2, the air supply mechanism 115 may include a blower that may be connected to the telescopic air blowing member 111 and a first suction fan that may be connected to the first telescopic air sucking member 112. In addition, a second suction fan (not shown) may be provided at the top of the cleaning device body 100 to absorb the turbid air in the dust removing chamber.

Further, a storage box (not shown) is provided on the side wall of the cleaning device body 100, and the storage box is connected to the first suction device and the second suction device, and can be used for temporarily storing the turbid air by communicating the first telescopic suction member 112 with the second telescopic suction member 114.

As shown in fig. 2, the water delivery mechanism 125 may include a water tank and a water pump connected to the first flushing member 121 and the second flushing member 122, and the first flushing member 121 and the second flushing member 122 may be directly connected to a water inlet pipe 1251 connected to the outside of the cleaning assembly, so that flushing operation can be performed by externally connecting a water source when the water source in the water tank is insufficient. The water delivery mechanism 125 may further include a water outlet pipe 1252 and a water collecting tank connected to the water outlet pipe 1252, and since the delivery mechanism 300 is formed by rollers, the flushing water after the flushing component 120 flushes the bucket may flow out to the lower side of the delivery mechanism 300 through a gap between the rollers of the delivery mechanism 300, and a water diversion plate may be disposed below the delivery mechanism 300 to introduce the flushing water into the water collecting tank and may be discharged from the cleaning device through the water outlet pipe 1252 connected to the lower part of the water collecting tank.

It can be appreciated that the inner wall of the cleaning device body 100 may be provided with a nylon layer or a sponge layer to achieve a certain waterproof effect.

In addition, as shown in fig. 2, the energy supply mechanism 133 may be a plurality of motors or motors, and may be connected to the drying assembly 130 to provide power for heating, and may be connected to the moving mechanism 400 to provide power for the moving mechanism 400, so that the labor force for pushing and pulling the moving mechanism 400 by the user can be reduced to the greatest extent.

It may be appreciated that the control mechanism may further include a control assembly connected to the pneumatic dust removing assembly 110, the flushing assembly 120, the drying assembly 130, the conveying mechanism 300, the air supply mechanism 115, the water delivery mechanism 125, and the energy supply mechanism 133, where the control assembly may include a control panel disposed on an outer wall of the cleaning device body 100, a main power member connected to each mechanism, and a control main board connected to the control panel, where the control main board may adopt a control manner such as a PLC or a single chip microcomputer, and the surface of the control panel may be provided with a plurality of buttons to correspond to start, stop, and movement of each mechanism.

As shown in fig. 1, as an alternative embodiment of the present application, a grip 500 is provided at one end of the cleaning device body 100, and a pressing member (not shown) connected to the moving mechanism 400 and the power supply mechanism 133 may be provided on a surface of the grip 500 to change a moving speed of the moving mechanism 400 by a pressing degree of the pressing member.

In addition, the outer wall of the rotating frame 201 may be provided with a push-pull member 501, which can facilitate the user to push and pull the cleaning device, and also facilitate the user to switch the rotating frame 201; the side surface of the rotating frame 201 may be provided with a bayonet 502, the bayonet 502 may be connected to a transport vehicle, and the cleaning device may be pulled by a transport means such as a trailer, so that the cleaning device may be moved more conveniently.

The non-mentioned places in the application can be realized by adopting or referring to the prior art.

In this specification, each embodiment is described in a progressive manner, and identical and similar parts of each embodiment are all referred to each other, and each embodiment mainly describes differences from other embodiments.

The foregoing is merely exemplary of the present application and is not intended to limit the present application. Various modifications and changes may be made to the present application by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc. which are within the spirit and principles of the present application are intended to be included within the scope of the claims of the present application.

Claims (7)

1. Powder storage bucket intelligence belt cleaning device, its characterized in that includes: the integrated cleaning channel is arranged on the cleaning device body in a penetrating way, a cleaning inlet and a cleaning outlet of a charging basket are respectively arranged on two sides of the integrated cleaning channel, and a moving mechanism is arranged at the bottom of the integrated cleaning channel;

the multi-zone cleaning module is arranged in the integrated cleaning channel, the multi-zone cleaning module is provided with a pneumatic dust removal assembly, a flushing assembly and a drying assembly which can synchronously work along the cleaning inlet to the cleaning outlet, and the multi-zone cleaning module is correspondingly divided into a dust removal area, a flushing area and a drying area;

the charging basket entering and exiting guide module comprises a rotating assembly arranged at the cleaning inlet and the cleaning outlet, the bottom of the rotating assembly is hinged and can be opened and closed to the cleaning inlet and the cleaning outlet, the rotating assembly comprises a rotating frame body and a driving roller, and the driving roller is arranged at the rotating frame body and can bear and convey the charging basket;

the cleaning device body further comprises a turnover mechanism, wherein the turnover mechanism comprises a positive turnover component and a reverse turnover component, the positive turnover component is arranged in the dust removal area, and the reverse turnover component is arranged in the drying area;

the conveying mechanism is arranged on the inner bottom wall of the integrated cleaning channel, and can drive the charging basket entering through the cleaning inlet to sequentially pass through the dust removing area, the flushing area and the drying area, so that the charging basket with an upward opening can be turned over, dust removed, flushed, dried and turned over again, and the charging basket is output through the cleaning outlet;

the cleaning device comprises a power module arranged at the bottom of the integrated cleaning channel, the power module comprises a transmission assembly with a driving wheel, and the driving wheel drives a transmission roller of the rotation assembly to move through a belt;

the rotating assembly further comprises an elastic adjusting piece, the elastic adjusting piece comprises an elastic piece and an adjusting wheel, the adjusting wheel is connected between the driving roller and the driving wheel through the belt, and the elastic piece can enable the position of the adjusting wheel to change so that the belt is tensioned on the driving wheel and the driving roller;

the rotating assembly is provided with an opening state of a conveying charging bucket and a closing state of stopping conveying, in the closing state, the elastic piece can tension the belt, and the driving wheel generates a pulling force on the driving roller so that the rotating assembly is kept in the closing state.

2. The intelligent cleaning device for powder charging drums according to claim 1, wherein the pneumatic dust removing assembly comprises a telescopic air blowing piece and a first telescopic air sucking piece, wherein the telescopic air blowing piece and the first telescopic air sucking piece can protrude out or are flush with the inner bottom wall of the integrated cleaning channel, the telescopic air blowing piece comprises a telescopic rod and a rotary air blowing head arranged at the top of the telescopic rod, and the inner wall of the charging drum can be blown to remove dust and is absorbed through the first telescopic air sucking piece.

3. The intelligent cleaning device for the powder charging basket according to claim 2, wherein the pneumatic dust removing assembly further comprises a cleaning brush and a second telescopic air suction piece, wherein the cleaning brush and the second telescopic air suction piece are arranged on the inner top wall of the integrated cleaning channel, at least two cleaning brushes are arranged, powder attached to the outer wall of the charging basket can be cleaned, and turbid air in the dust removing area is absorbed through the second telescopic air suction piece.

4. The intelligent cleaning device for powder material barrels according to claim 1, wherein the positive overturning assembly and the negative overturning assembly comprise telescopic members and fixed discs, the telescopic members are arranged on two inner side walls of the integral cleaning channel in a sliding manner, and slide along a direction perpendicular to the conveying direction of the material barrels; the fixed disk is rotationally connected to the telescopic piece and used for bearing and fixing the charging basket, and the fixed disk can rotate relative to the telescopic piece so as to enable the charging basket to turn over.

5. The intelligent cleaning apparatus for a powder material bucket according to claim 1, wherein the flushing assembly comprises a first flushing member and a second flushing member which can protrude from or be flush with the inner bottom wall of the integral cleaning passage, the first flushing member comprising a telescopic base and a rotary nozzle slidably connected with the telescopic base for cleaning the inner wall of the material bucket; the second flushing part is arranged on two sides of the first flushing part, and the outer wall of the charging basket can be sprayed and cleaned.

6. The intelligent cleaning device for powder material barrels according to claim 1, wherein the drying assembly comprises a first electric heating element arranged on the inner bottom wall of the integrated cleaning channel and a second electric heating element arranged on the inner top wall of the integrated cleaning channel, and the first electric heating element penetrates through the conveying mechanism and can be protruded and leveled with the inner bottom wall of the integrated cleaning channel; the second electric heating element is arranged on the inner top wall of the integrated cleaning channel.

7. The intelligent cleaning apparatus for powder material drums of claim 1, wherein said power module further comprises a gas supply mechanism connected to said pneumatic dust removal assembly, a water delivery mechanism connected to said flushing assembly, and an energy supply mechanism connected to said drying assembly.

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