CN217447693U - Loading mechanism and feeding bottle cleaning machine - Google Patents

Abstract

The utility model discloses a loading mechanism and feeding bottle cleaning machine, loading mechanism includes: the bottom wall of the upper shelf is of a grid-shaped structure and comprises a first part and a second part, and the first part is higher than the second part so as to configure the bottom wall of the upper shelf into a step shape. According to the utility model discloses feeding bottle cleaning machine's loading mechanism goes up the diapire that the shelf adopted the step form, can place the not article of co-altitude on last shelf or the below of last shelf, has improved loading mechanism and has this loading mechanism's washing equipment's space utilization.

Description

Loading mechanism and feeding bottle cleaning machine

Technical Field

The utility model relates to a washing technical field, in particular to loading mechanism and feeding bottle cleaning machine who has this loading mechanism.

Background

Along with the rise of the national standard of living, the market demand of the mother and infant disinfection articles is more and more extensive. In the family of the newborn babies, the feeding bottle is indispensable, and in order to ensure the health of the babies, the feeding bottle needs to be cleaned and sterilized frequently, which undoubtedly increases the burden of life. The related art provides a baby bottle washing machine capable of performing washing, sterilizing steam and drying air flow, but due to the limitation of shapes of a baby bottle, a nipple, a milk cap and the like, the size of the baby bottle washing machine is large, and the space utilization rate is insufficient.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a loading mechanism goes up the diapire mechanism that the shelf adopted the step form, has improved loading mechanism and has this loading mechanism's washing equipment's space utilization.

Another object of the utility model is to provide a feeding bottle cleaning machine with this loading mechanism.

According to the utility model discloses loading mechanism, include: an upper rack, a bottom wall of which is in a grid-like structure and includes a first portion and a second portion, the first portion being higher than the second portion to configure the bottom wall of the upper rack to be stepped.

According to the utility model discloses feeding bottle cleaning machine's loading mechanism goes up the diapire that the shelf adopted the step form, can place the not article of co-altitude on last shelf or the below of last shelf, has improved loading mechanism and has this loading mechanism's washing equipment's space utilization.

In addition, according to the loading mechanism of the above embodiment of the present invention, the following additional technical features may also be provided:

optionally, the loading mechanism further comprises a flow guide part connected with the upper shelf, and the flow guide part is configured to guide the medium sprayed from bottom to top to the flow guide part to the periphery of the flow guide part.

Optionally, the lower surface of the flow guide portion is configured in a shape gradually convex downward from the peripheral edge to the middle portion.

Optionally, the flow guide is provided on the second portion.

Optionally, a positioning part is arranged on the bottom wall of the upper shelf, and a positioning hole is formed in the positioning part and used for positioning the part to be cleaned.

Optionally, one side of the positioning element is provided with a transition cavity, and the positioning element is provided with a guide groove which is communicated with the transition cavity and the positioning hole.

Optionally, one end of the guide groove is in a shape of a bell mouth gradually expanding outwards to be communicated with the transition cavity.

Optionally, the positioning element includes a first positioning piece and a second positioning piece which are arranged oppositely, the first positioning piece and the second positioning piece are both provided with notches, and the notch on the first positioning piece and the notch on the second positioning piece are opposite and form the positioning hole.

Optionally, the first and second locating tabs are spaced apart.

Optionally, at least one of the first and second splines is configured as a resilient tab.

Optionally, the upper shelf further comprises support legs, the support legs are arranged along the circumference of the upper shelf, and the lower ends of the support legs are flush.

Optionally, at least one of the first portion and the second portion is provided with a through hole, so that the spray pipe below the upper shelf can spray the medium to the upper side of the upper shelf through the through hole.

Optionally, the loading mechanism further includes a spray arm rotatably connected below the first portion around a vertical axis, and the spray arm is provided with a plurality of nozzles, and at least a part of the plurality of nozzles can spray the medium toward an upper space and/or a lower space of the first portion.

Optionally, at least a portion of the spray arm is higher than the second portion.

Optionally, the loading mechanism further includes a support column, the support column is connected to the first portion, a water outlet is disposed on a circumferential wall of the support column, and the spray arm is rotatably sleeved on the support column and is communicated with the water outlet.

The feeding bottle cleaning machine comprises a base, a shell and a loading mechanism, wherein the base is also provided with a spray pipe; the shell is connected with the base, and a washing cavity is arranged in the shell; the loading mechanism is provided in the washing chamber, the loading mechanism being according to the above, wherein the spout is configured to spray the medium towards the upper rack.

Optionally, the loading mechanism further includes a flow guide portion, the flow guide portion is opposite to the spray pipe up and down, so that the spray pipe sprays the medium towards the flow guide portion, and the flow guide portion guides the flow around the flow guide portion.

Optionally, a through hole is formed in the bottom wall of the upper shelf, the spray pipe is vertically opposite to the through hole, and the spray pipe can spray media towards the corresponding through hole.

Optionally, the loading mechanism further comprises a spray arm connected to the lower portion of the first portion in a rotatable manner around a vertical axis, and a water column communicated with the spray arm is arranged on the base.

Drawings

Fig. 1 is a schematic view of a loading mechanism according to an embodiment of the present invention.

Fig. 2 is an exploded view of the loading mechanism and the lower rack of the baby bottle washing machine according to an embodiment of the present invention.

Fig. 3 is a schematic view of an upper shelf in a loading mechanism according to an embodiment of the present invention.

Fig. 4 is a bottom view of the upper rack in the loading mechanism according to an embodiment of the present invention.

Fig. 5 is a partially enlarged schematic view of the area circled a in fig. 4.

Fig. 6 is a schematic view of a lower shelf of the baby bottle washing machine according to an embodiment of the present invention.

Reference numerals:

the loading mechanism 10, the upper rack 11, the first part 11a, the second part 11b, the inner ring 112, the outer ring 113, the connecting part 114, the annular rib 115, the flow guide part 116, the support leg 117, the positioning part 118, the first positioning piece 118a, the second positioning piece 118b, the through hole 101, the positioning hole 102, the transition cavity 103, the guide groove 104, the spray arm 12, the spray opening 105, the support column 13, the water column 20, the lower rack 50, the bottom support 511, the support part 512, and the first outer frame 513.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

With reference to fig. 1 to 6, a loading mechanism 10 according to an embodiment of the present invention includes an upper rack 11, wherein a bottom wall of the upper rack 11 has a grid-like structure, that is, a fluid medium on an upper side of the bottom wall of the upper rack 11 can pass through the upper rack 11 and flow to a lower side of the upper rack 11; the fluid medium on the underside of the bottom wall of the upper shelf 11 can pass through the upper shelf 11 to flow over the upper shelf 11. Wherein the bottom wall of the upper rack 11 includes a first portion 11a and a second portion 11b, the first portion 11a being higher than the second portion 11b to configure the bottom wall of the upper rack 11 to be stepped. Thus, when the articles to be cleaned are placed on the upper shelf 11, the articles with different heights can be placed on the upper shelf 11; and the lower part of the upper shelf 11 can be used for placing articles with different heights, thereby meeting the space utilization rate in the process of storing the articles with different heights.

Specifically, the bottom wall of the upper shelf 11 is set to be step-shaped, so that an accommodating space can be formed above and/or below the upper shelf 11, the space utilization rate of the loading mechanism 10 can be effectively improved, and the step-shaped bottom wall of the upper shelf 11 can also facilitate the placement of the articles to be washed at different heights on the upper side or the lower side of the first part 11a and the upper side or the lower side of the second part 11b, so as to avoid the problem of space waste when washing the articles at different heights. For example, when the device mechanism is applied to cleaning of a feeding bottle, since the feeding bottle includes relatively many parts, during the cleaning process, the feeding bottle can be disassembled to be cleaned separately, for example, the feeding bottle can be disassembled to be a bottle body, a nipple, a milk cap and the like to be cleaned separately, wherein the nipple, the milk cap and the like can be placed on the upper shelf 11, and due to the different heights of the nipple and the milk cap, the nipple and the milk cap can be placed on the first portion 11a and the second portion 11b respectively, and the stable placement of the nipple, the milk cap and the like can be completed through the stepped bottom wall of the upper shelf 11.

According to the utility model discloses loading mechanism 10 can place the article of treating the abluent on going up shelf 11, goes up the diapire of shelf 11 and can constitute upper and lower echelonment structure, can increase and put the space. The upper shelf 11 may be used opposite a spray structure such as a spray bar, which may spray a medium toward the upper shelf 11 to effect cleaning of the articles.

It should be noted that the present invention mainly uses the washing of the feeding bottle as an example, but this is not a limitation to the protection scope of the present invention, but the technical solution of the present invention is described in order to facilitate the understanding of those skilled in the art, and the loading mechanism 10 in the present invention can be applied to the washing of other cups, bottles, etc.

In conjunction with the above as part of the washing apparatus, the upper rack 11 of the loading mechanism 10 is generally configured as a grid-like structure, such that a washing structure may be provided below the upper rack 11, and the water column 20 may pass through the upper rack 11 in the grid-like structure to wash the items placed on the upper rack 11. Particularly, the upper shelf 11 of the present invention can be formed by connecting a plurality of rib positions. Moreover, the grid-shaped bottom wall of the upper shelf 11 has a plurality of grid holes, and the size, shape, spacing distance, etc. of the grid holes may be the same or different.

In addition, the articles can be cleaned by using a structure such as a spray pipe below the upper shelf 11, for example, the spray pipe can be arranged below the upper shelf 11 to clean the articles, in order to improve the cleaning efficiency and effect of the articles, in some embodiments of the present invention, the loading mechanism 10 further includes a flow guide portion 116, the flow guide portion 116 is connected to the upper shelf 11, and the flow guide portion 116 is configured to guide the medium sprayed from bottom to top to the flow guide portion 116 to the periphery of the flow guide portion 116. In use, when water flows towards the diversion part 116, the water flows towards the periphery of the diversion part 116 under the action of the diversion surface (the surface facing the through hole 101) of the diversion part 116, so that articles around the diversion part 116 are cleaned. When the objects above the upper shelf 11 are cleaned by using the spray pipes and the like, the spray pipes can directly spray media to the upper shelf 11, so that the bottoms of the objects are cleaned. The diversion part 116 can wash the side and top surfaces of the articles by diversion, so that the washing range and effect can be improved.

In some embodiments of the present invention, the guiding portion 116 is connected to the upper shelf 11, and the lower surface of the guiding portion 116 may be configured to be gradually protruded downward from the periphery to the middle, so that when the medium is sprayed to the lower surface of the guiding portion 116, since the lower surface of the guiding portion 116 is in a wedge shape, a reflection effect is generated, and the medium is guided to the periphery of the guiding portion 116, so that at least a part of the medium sprayed on the guiding portion 116 is guided to the periphery of the guiding portion 116. The flow guide surface of the flow guide part 116 may be an inverted cone structure, and the water column 20 may be scattered by spraying the water column to wash the periphery.

In addition, the flow guide 116 may be connected to the first portion 11 a; may also be attached to the second portion 11 b; flow guides 116 may also be provided on both the first portion 11a and the second portion 11 b. Connecting portion 114 and last shelf 11 between can have a plurality of splice bars to be connected together connecting portion 114 and last shelf 11 through a plurality of splice bars, and make things convenient for rivers to send to the article of treating abluent through the clearance between a plurality of splice bars. When a nipple or the like is placed on the second portion 11b, the nipple or the like can be effectively cleaned by the deflector 116.

In addition, referring to fig. 3 and 4, in some embodiments of the present invention, a positioning member 118 is disposed on the bottom wall of the upper shelf 11, a positioning hole 102 is formed on the positioning member 118, and the positioning hole 102 is used for positioning the component to be cleaned. When the loading mechanism 10 is applied to a baby bottle washing machine, a nipple, a straw, and the like can be positioned by the positioning member 118, and the positioning member 118 is used to position the straw as an example: the feeding bottle straw is generally configured to have a weight at its lower end, and during the cleaning process, the weight can be placed on the positioning member 118, and the straw can extend downward through the positioning hole 102, so as to position the straw. Of course, the positioning hole 102 may also be used for positioning other structures such as a nipple, and the description of the present application is omitted.

In some embodiments of the present invention, a transition cavity 103 is disposed on one side of the positioning member 118, and the positioning member 118 has a guide groove 104, and the guide groove 104 connects the transition cavity 103 and the positioning hole 102. Thus, straws and the like with different shapes can be installed in the transition cavity 103, and after being installed in place (or before being installed in place), the straws and the like are translated into the positioning holes 102 through the guide grooves 104, so that positioning is realized, the positioning stability is improved, in addition, the guide grooves 104 can also have the positioning function, and articles can be positioned by utilizing the guide grooves 104. Here, the width dimension of the guide groove 104 may be set smaller than the width dimension of the positioning hole 102 to set the positioning hole 102 in a shape having a small opening and a large internal space.

In addition, as previously described, the item to be cleaned may need to be translated from the transition chamber 103 to the positioning aperture 102 through the guide slot 104, and thus, one end of the guide slot 104 may be flared gradually to a flare communicating with the transition chamber 103. Therefore, in the positioning process of the articles to be cleaned, the positioning efficiency can be improved, and the possibility of damage to the articles to be cleaned is reduced.

The positioning element 118 includes a first positioning piece 118a and a second positioning piece 118b, the first positioning piece 118a and the second positioning piece 118b are disposed oppositely, both the first positioning piece 118a and the second positioning piece 118b are provided with notches, the notch of the first positioning piece 118a and the notch of the second positioning piece 118b are opposite, and the opposite notches form the positioning holes 102. The positioning hole 102 is convenient to form, and the size of the positioning hole 102 can be adjusted by adjusting the first positioning piece 118a and the second positioning piece 118b, so that the application range of the loading mechanism 10 is widened.

In addition, the first positioning piece 118a and the second positioning piece 118b may be spaced apart. Thereby further increasing the applicability of the mechanism of the device and facilitating the production of the upper shelf 11.

Wherein at least one of the first positioning piece 118a and the second positioning piece 118b is configured as an elastic sheet shape. Thus, the size of the positioning hole 102 can be adjusted by the elastic deformation of the first positioning piece 118a and the second positioning piece 118b, and the application range of the positioning piece 118 can be further increased. Wherein the first and second positioning tabs 118a and 118b may be made of food grade material such as rubber. Or the first and second positioning pieces 118b may be integrally formed with the bottom wall of the lower shelf 50.

In addition, the positioning member 118 may be provided on at least one of the first portion 11a and the second portion 11 b. Preferably, the positioning member 118 is disposed at a position where the second portion 11b and the first portion 11a are close to each other, so that, since the positioning member 118 is disposed at a side of the first portion 11a or the second portion 11b, the non-closed transition cavity 103 or the transition cavity 103 with a larger size can be constructed, thereby facilitating the positioning of the feeding bottle straw, nipple, etc.

As shown in fig. 2 and 3, in some embodiments of the present invention, the upper shelf 11 further comprises a support leg 117, the support leg 117 is disposed along the circumference of the upper shelf 11, and the lower end of the support leg 117 is flush. The stable support of the upper shelf 11 can be realized through the support legs 117, and the stability of the upper shelf 11 is improved, so that the articles on the upper shelf 11 can be conveniently cleaned. Wherein the legs 117 may include a plurality of legs 117 disposed along a circumference of the upper shelf 11, or the legs 117 may be disposed as one disposed around the lower shelf 50.

As shown in fig. 4, in some embodiments of the present invention, the bottom wall of the upper shelf 11 may be provided with a through hole 101, so that the spraying pipe and the like below the upper shelf 11 may spray the medium through the through hole 101 to the upper side of the upper shelf 11, thereby achieving better spraying of the medium to the upper shelf 11, and of course, since the upper shelf 11 is provided with the grid-like structure, the upper shelf 11 may not be provided with the through hole 101 specially, but the spraying of the medium is achieved through the grid holes naturally constructed by the grid-like structure. In addition, a through hole 101 may be provided on the first portion 11 a; the second portion 11b may also be provided with a through hole 101; it is also possible to provide through holes 101 on both the first portion 11a and the second portion 11 b.

Wherein, a through hole 101 may be provided on the first portion 11a, and the spraying structure below the upper shelf 11 may spray the medium to the upper side of the upper shelf 11 through the through hole 101; a through hole 101 may be further provided on the second portion 11b, and the spraying structure below the upper shelf 11 may spray the medium to the upper side of the upper shelf 11 through the through hole 101; it is also possible to provide through holes 101 on both the first portion 11a and the second portion 11 b. Through having set up through-hole 101 on last shelf 11, this through-hole 101 can be used to rivers from the bottom up and spray the top of last shelf 11 to in the article of treating washing etc. of placing on last shelf 11 wash.

Additionally, as mentioned before, the utility model discloses an it can have a plurality of ribs to constitute to go up shelf 11, wherein can set up annular rib 115 at the different positions of last shelf 11, this through-hole 101 structure is constructed to annular rib 115 inboard, particularly, goes up shelf 11 and can include a plurality of first ribs and a plurality of second rib, and a plurality of first ribs and a plurality of second rib vertically and horizontally staggered connection become netted, and annular rib 115 is connected with first rib and second rib in order to construct through-hole 101.

Referring to fig. 1 and 2, in some embodiments of the present invention, the loading mechanism 10 further includes a spray arm 12, the spray arm 12 is rotatably connected below the first portion 11a, and the spray arm 12 is provided with a plurality of nozzles 105, at least a portion of the plurality of nozzles 105 can spray the medium toward the upper space and/or the lower space of the first portion 11 a. Therefore, the objects placed on the upper shelf 11 can be washed by the spray arm 12, the spray structure below the upper shelf 11 and the like, and the objects can be cleaned conveniently.

Wherein the spray arm 12 may be arranged to be connected below the first part 11a rotatably about a vertical axis. Of course, the spray arm 12 may be arranged in other ways, such as arranging the spray arm 12 to rotate about a horizontal axis (which may be parallel or coincident with the central axis of the spray arm 12).

Referring to fig. 1, in some embodiments of the present invention, the loading mechanism 10 further includes a support post 13, and the support post 13 can be used to connect the spray arm 12 to rotatably connect the spray arm 12 to the upper rack 11. Specifically, the support column 13 is connected to the bottom wall of the upper rack 11, for example, by connecting the upper end of the support column 13 to the first portion 11 a. In addition, a water outlet can be arranged on the supporting column 13, and the spray arm is rotatably sleeved on the supporting column 13 and communicated with the water outlet.

Alternatively, the supporting column 13 may be provided in a column shape with a closed upper end, and the supporting column 13 may be provided with a water outlet, which may be provided on a peripheral wall of the supporting column 13. The support column 13 may have an open lower end so that water can be introduced through the lower end of the support column 13, or a water column 20 or the like may be inserted into the support column 13 through the open lower end of the support column 13 to supply water to the spray arm 12. The spray arm 12 can be sleeved on the support column 13, the spray arm 12 can rotate, and the spray arm 12 can be communicated with the water outlet, so that the spray arm 12 and the support column 13 can be sleeved in a rotating mode.

Wherein, the water supply structure such as the water column 20 can be connected with the support column 13, and the water is supplied into the spray arm 12 through the support column 13 and the water outlet on the support column 13, so that the water flow in the water column 20 enters the spray arm 12 through the support column 13 and the water outlet; or a water supply structure such as a water column 20 can be inserted into the supporting column 13, and an opening on the water column 20 is directly opposite to the water outlet, so that the water flow in the water column 20 can be directly sent to the spray arm 12 through the water outlet.

In addition, a driving structure can be arranged to drive the spray arm 12 to rotate, for example, a gear transmission mechanism, a belt transmission mechanism and the like are arranged to actively drive the spray arm 12 to rotate, so that the rotation condition of the spray arm 12 can be conveniently controlled, and the cleaning effect is improved; at least a part of the nozzles 105 on the spray arm 12 can be arranged in an inclined form, when water flows into the spray arm 12, the water flows can be sprayed out from the nozzles 105, when the water flows are sprayed out from the nozzles 105 in an inclined way, the reverse acting force on the spray arm 12 can drive the spray arm 12 to rotate, and therefore a driving structure is not needed to be additionally arranged to drive the spray arm 12 to rotate, and the structure can be simplified.

Wherein, support column 13 can be connected to on the first portion 11a through modes such as screw-thread fit, snap-fit, screw connection, integrated into one piece, the utility model provides an adopted the mode of snap-fit connection in some embodiments, be connected to support column 13 on the first portion 11 a. For example, a hook may be provided on the support column 13 on the first portion 11 a; it is also possible to provide a snap on the first portion 11a, a snap groove on the support 13 to position the support 13, etc.

Referring to fig. 1 to 6, in some embodiments of the present invention, the bottom wall of the upper rack 11 is divided into a first portion 11a and a second portion 11b connected in the left-right direction, and the first portion 11a is higher than the second portion 11b, so that the bottom wall of the upper rack 11 has a step-shaped structure. The first portion 11a includes a plurality of first transverse ribs, a plurality of first longitudinal ribs, and a plurality of first annular ribs 115, the plurality of first transverse ribs and the plurality of first longitudinal ribs are criss-cross in a grid shape, the grid structure is filled with the first annular ribs 115, and the first annular ribs 115 form the through holes 101. The first portion 11a further includes an inner ring 112, an outer ring 113, and a connecting portion 114, the outer ring 113 is connected to the first transverse ribs and the first longitudinal ribs, the inner ring 112 is disposed inside the outer ring 113, and the connecting portion 114 is connected to the inner ring 112 and the outer ring 113, so that the inner ring 112, the outer ring 113, and the connecting portion 114 together form a connecting structure for connecting the spray arm 12, at least two of the first transverse ribs are higher than the other first transverse ribs, and the first annular ribs 115 may be disposed around the connecting structure. The second portion 11b includes a plurality of second transverse ribs, a plurality of second longitudinal ribs, and a plurality of second annular ribs 115, the plurality of second transverse ribs and the plurality of second longitudinal ribs are criss-cross in a grid shape, the grid structure is filled with the second annular ribs 115, and the through holes 101 are formed in the second annular ribs 115. The flow guide 116 is connected to the second portion 11b, and the flow guide 116 is provided on the second portion 11b at a position close to the first portion 11 a.

In addition, the utility model also provides a feeding bottle cleaning machine, this feeding bottle cleaning machine can be used to wash or disinfect etc. feeding bottle, drinking cup etc.. The feeding bottle cleaning machine according to the embodiment of the utility model comprises a base, a shell and a loading mechanism 10, wherein the base is provided with a spray pipe; the shell is connected with the base, and a washing cavity is arranged in the shell; a loading mechanism 10 is provided in the washing chamber, the loading mechanism 10 being a loading mechanism 10 according to the previous description, wherein the spray pipes are configured to spray the medium towards the upper rack 11.

According to the utility model discloses feeding bottle cleaning machine has adopted aforementioned loading mechanism 10 to carry out shelving and depositing etc. of article, can place the article of treating the abluent on going up shelf 11, goes up shelf 11 and can constitute from top to bottom echelonment structure, can increase and put the space. The spray pipes are arranged on the base, and can spray media to the upper shelf 11 through the spray pipes, so that articles placed on the upper shelf 11 can be cleaned.

In addition, a plurality of spray pipes can be arranged on the base, and the spray pipes can be used for spraying and cleaning different positions on the upper shelf 11.

In combination with the above embodiment, the loading mechanism 10 further includes a flow guiding portion 116, and the flow guiding portion 116 is opposite to a nozzle, so that the nozzle sprays the medium toward the flow guiding portion 116 and guides the medium to the periphery of the flow guiding portion 116 through the flow guiding portion 116. Through the water conservancy diversion effect of water conservancy diversion portion 116, can spout the medium of water conservancy diversion portion 116 with the spray tube, towards the water conservancy diversion around water conservancy diversion portion 116 to the realization has increased abluent scope to the washing of article, has improved abluent efficiency and effect.

In combination with the above-mentioned embodiment, the bottom wall of the upper shelf 11 is provided with through holes 101, the nozzles are opposite to the through holes 101, and the nozzles can spray media toward the corresponding through holes 101. Wherein, can set up a plurality of through-holes 101 on the diapire on the upper shelf 11 to can set up a plurality of spray tubes and a plurality of through-holes 101 and correspond each other, can improve the cleaning efficiency and the effect of shelving article on the upper shelf 11 like this. In addition, it should be noted that the nozzle may be arranged not only for spraying the medium toward the upper rack 11, but also for cleaning different parts of the baby bottle in the baby bottle cleaning machine by using different states of the nozzle. For example, the feeding bottle may be turned upside down on the spout so that the inside of the feeding bottle is cleaned by the medium sprayed from the spout; the spout may be sprayed toward the upper rack 11 when the nursing bottle is not cleaned, so as to wash the items on the upper rack 11.

In connection with the previous embodiment, the loading mechanism 10 further includes a spray arm 12 rotatably connected to the lower portion of the first portion 11a about a vertical axis, and a water column 20 is provided on the base and is in communication with the spray arm 12. Like this, through setting up water column 20, can make things convenient for rivers to send to spray arm 12, improve abluent effect, in addition, spray arm 12 can be towards last shelf 11, or spray the medium towards spray arm 12 below, can satisfy different washing requirements to abluent scope and effect can be improved.

In addition, the utility model discloses a feeding bottle cleaning machine can also include lower shelf 50, and lower shelf 50 can set up in the below of last shelf 11, can prevent in the lower shelf 50 that the feeding bottle from waiting for abluent article, and spray arm 12 can upwards and downwards spray the medium (for example washing medium, disinfection medium, water, steam etc.) in the use to realize stable, efficient washing.

As shown in fig. 6, the lower shelf 50 may include a bottom support 511 and a support portion 512, the support portion 512 is connected to the bottom support 511, the support portion 512 is disposed around the bottom support 511 along the circumferential direction of the bottom support 511, a first placement region is formed on the inner side of the support portion 512, the bottom support 511 is disposed at the bottom of the first placement region, and a second placement region is formed on the upper side of the support portion 512.

A first placing area is formed between the supporting portion 512 and the bottom support 511 and can be used for placing articles such as feeding bottles, and due to the arrangement of the bottom support 511, the articles such as feeding bottles are directly placed on the bottom support 511, when the lower rack 50 can be taken out, the feeding bottles can be taken out together with the lower rack 50 without separately taking the feeding bottles, and the feeding bottles placed on the lower rack 50 and the lower rack 50 are not taken out in sequence, so that the normal use of the cleaning equipment with the lower rack 50 cannot be influenced no matter the lower rack 50 is taken out firstly or the feeding bottles are taken out firstly, when the lower rack 50 can be taken out, the feeding bottles can be placed on the lower rack 50 before being cleaned, and the lower rack 50 is placed in the cleaning equipment along with the feeding bottles, and of course, the feeding bottles can also be placed on the lower rack 50 after the lower rack 50 is placed in the cleaning equipment; after the washing is completed, the lower rack 50 can be taken out, and the feeding bottle can be taken out together with the lower rack 50, of course, after the washing is completed, the feeding bottle can be taken out from the lower rack 50 separately. In addition, still be equipped with the second on this lower shelf 50 and place the district, this second is placed the district and also can be placed article, and a plurality of districts of placing on lower shelf 50 can be used for placing different article to realize the cleaning performance of different grade type, or satisfy different washing demands. Additionally, the previously described water column 20, spout, etc. structure may extend upwardly through the base 511.

In the present invention, the feeding bottle, nipple and feeding bottle cap are placed on the lower shelf 50 as an example, but this is not a limitation to the protection scope of the present invention, but in order to clearly describe the technical solution to be protected by the present application, other types of bottle-shaped objects, cups, etc. can be placed on the lower shelf 50. The lower rack 50 may be used in a washing apparatus for washing objects placed thereon, or may be used for other purposes such as transferring objects to be washed, transferring objects that have been washed, storing objects, and the like. In addition, in the cleaning apparatus having the lower rack 50, the lower rack 50 may be provided to be fixedly provided to the cleaning apparatus; may be arranged to be removably disposed in the cleaning apparatus.

In order to improve the structural strength of the lower shelf 50 and the storage stability of the items thereon, in some embodiments of the present invention, the lower shelf 50 further includes a first outer frame 513, the first outer frame 513 is configured in an annular frame shape, the bottom supporter 511 and the supporting portion 512 are disposed inside the first outer frame 513, and the supporting portion 512 is connected to the first outer frame 513. The bottom supporter 511 and the supporting part 512 may be protected by the first outer frame 513 so as to protect the items placed on the lower shelf 50, and the structural strength of the lower shelf 50 may be provided by the first outer frame 513 so as to prevent the lower shelf 50 from being deformed.

Additionally, the utility model discloses a supporting part 512 upside can set to the form that at least some slopes set up to place the article of treating abluent on it, simultaneously after the washing is accomplished, the second is placed the article in district and can be more quick drop dry moisture.

In connection with the above embodiment, the lower shelf 50 of the present invention comprises a first frame 513, a support portion 512 is connected around a bottom bracket 511, and the upper side of the support portion 512 extends toward a space far away from the upper side of the bracket, in other words, the upper side of the support portion 512 extends toward the first frame 513, wherein, in the direction that the upper side of the support portion 512 extends toward the first frame 513, at least a portion of the upper side of the support portion 512 is inclined downward until being connected to the first frame 513 and being connected below the upper edge of the frame, so that the shape of the required inclined arrangement between the upper side of the support portion 512 and the first frame 513 is constructed, and, since the support portion 512 is connected below the upper edge of the first frame 513, a concave structure is constructed between the support portion 512 and the first frame 513 to construct a second placing area, when an article is placed on the second placing area, the article can be supported by both the support 512 and the first casing 513. since at least a portion of the upper side of the support 512 is inclined downwardly, the lower side of the article will be directed downwardly and away from the first casing 513.

Wherein, the lower portion of the first outer frame 513 may be provided with support legs to support the lower rack 50 on a cleaning device or other support platform, and the first support legs are provided with through holes 101 to reduce the consumables of the lower rack 50 and optimize the cleaning efficiency and effect. Among them, the lower portion of the first frame 513 may be provided with a plurality of support legs provided at intervals in the circumferential direction of the lower rack 50, for example, the first frame 513 may be provided in a rectangular frame shape, and the support legs are provided at all four corners of the first frame 513.

In addition, at least a portion of the base portion 511 may be arranged to be inclined such that when a bottle is placed on the base portion 511, the bottle is inclined, thereby facilitating draining of the bottle and improving cleaning of the bottle. The bottom support 511 may be arranged in a convex arc shape, i.e. the bottom support 511 is higher in the middle than in the peripheral position, and the whole bottom support 511 is substantially in the shape of a convex arc plate. Like this, when placing a plurality of feeding bottles on collet 511, can make a plurality of feeding bottles can both be in the state of slope, improve abluent efficiency and effect effectively, in addition, the utility model discloses in set up support piece, when the feeding bottle is in the tilt state under collet 511's effect, support piece can provide the supporting role for the feeding bottle, makes the feeding bottle can maintain at stable state, improves abluent efficiency and effect.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature "under," "beneath," and "under" a second feature may be directly under or obliquely under the second feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean 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 this specification, the schematic representations of the terms used above are not necessarily intended to 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. Moreover, various embodiments or examples and features of various embodiments or examples described in this specification can be combined and combined by one skilled in the art without being mutually inconsistent.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (15)

1. A loading mechanism, comprising:

an upper shelf (11), a bottom wall of the upper shelf (11) having a grid-like structure, and the bottom wall of the upper shelf (11) including a first portion (11a) and a second portion (11b), the first portion (11a) being higher than the second portion (11b) to configure the bottom wall of the upper shelf (11) to be stepped.

2. The loading mechanism of claim 1, further comprising:

the flow guide part (116) is connected with the upper shelf (11), and the flow guide part (116) is configured to guide the medium sprayed to the flow guide part (116) from bottom to top to the periphery of the flow guide part (116).

3. The loading mechanism of claim 2,

the lower surface of the flow guide part (116) is configured into a shape which is gradually convex downwards from the periphery to the middle part; and/or

The flow guide portion (116) is provided to the second portion (11 b).

4. The loading mechanism according to claim 1, wherein a positioning member (118) is disposed on a bottom wall of the upper rack (11), a positioning hole (102) is formed on the positioning member (118), and the positioning hole (102) is used for positioning a component to be cleaned.

5. The loading mechanism according to claim 4, wherein a transition cavity (103) is provided at one side of the positioning member (118), and the positioning member (118) has a guide groove (104), and the guide groove (104) connects the transition cavity (103) and the positioning hole (102).

6. Loading mechanism according to claim 5, wherein one end of the guide channel (104) is flared gradually to a flare communicating with the transition chamber (103).

7. The loading mechanism of claim 4,

the positioning piece (118) comprises a first positioning piece (118a) and a second positioning piece (118b) which are arranged oppositely, notches are formed in the first positioning piece (118a) and the second positioning piece (118b), and the notch in the first positioning piece (118a) is opposite to the notch in the second positioning piece (118b) and is formed into the positioning hole (102).

8. The loading mechanism of claim 7,

the first positioning sheet (118a) and the second positioning sheet (118b) are arranged at intervals; and/or

At least one of the first positioning piece (118a) and the second positioning piece (118b) is configured to be an elastic piece.

9. The loading mechanism according to any one of claims 1-8, wherein the upper rack (11) further comprises:

the support legs (117) are arranged along the circumferential direction of the upper shelf (11), and the lower ends of the support legs (117) are flush.

10. Loading mechanism according to any one of claims 1-8, wherein at least one of the first part (11a) and the second part (11b) is provided with a through hole (101) so that a spray pipe below the upper rack (11) can spray medium through the through hole (101) to the upper side of the upper rack (11).

11. The loading mechanism of any of claims 1-8, further comprising:

the spray arm (12) is connected below the first part (11a) in a rotatable mode around a vertical axis, a plurality of spray nozzles (105) are arranged on the spray arm (12), and at least one part of the plurality of spray nozzles (105) can spray media towards the space above and/or the space below the first part (11 a).

12. Loading mechanism according to claim 11, characterized in that at least a part of the spray arm (12) is higher than the second part (11 b).

13. The loading mechanism of claim 11, further comprising:

a support column (13), the support column (13) is connected with the first part (11a), a water outlet is arranged on the support column (13),

the spray arm (12) is rotatably sleeved on the support column (13) and is communicated with the water outlet.

14. A baby bottle cleaning machine, characterized by comprising:

the base is also provided with a spray pipe;

the shell is connected with the base and is internally provided with a washing cavity;

a loading mechanism disposed within the washing chamber, the loading mechanism according to any one of claims 1-13,

wherein the spout is configured to be adapted to spray a medium towards the upper shelf (11).

15. The baby bottle washing machine as defined in claim 14,

the loading mechanism further comprises a flow guide part (116), the flow guide part (116) is vertically opposite to the spray pipe, so that the spray pipe sprays media towards the flow guide part (116), and flow is guided to the periphery of the flow guide part (116) through the flow guide part (116); and/or

A through hole (101) is formed in the bottom wall of the upper shelf (11), the spray pipe is vertically opposite to the through hole (101), and the spray pipe can spray media towards the corresponding through hole (101); and/or

The loading mechanism further comprises a spray arm (12) which is connected to the lower portion of the first portion (11a) in a rotatable mode around a vertical axis, and a water column (20) communicated with the spray arm (12) is arranged on the base.

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