CN110821214B - Assembled and modularized retail intelligent terminal - Google Patents

Abstract

The invention discloses an assembled and modularized intelligent retail terminal (1), an intelligent sorting method and an assembling method of the intelligent retail terminal, wherein the intelligent retail terminal (1) comprises an intelligent store (3) and a retail store (4) and is used for commodity sales and the like, the intelligent retail terminal comprises a multi-frame combined shell frame with opposite top ends and bottom ends, the multi-frame combined shell frame comprises an outer frame (2), a first inner frame (31) and a second inner frame (41), the outer frame (2), the first inner frame (31) and the second inner frame (41) are respectively provided with a bottom frame, a top frame and a supporting assembly, the supporting assembly is used for supporting and connecting the bottom frame and the top frame, and the bottom frame, the top frame and the supporting assembly can be detached.

Description

Assembled and modularized retail intelligent terminal

Technical Field

The invention relates to the field of intelligent manufacturing, in particular to an assembled and modularized retail intelligent terminal.

Background

Currently, the existing retail terminal is usually fixedly installed in a specific place, such as a supermarket, a shopping mall, an airport waiting room, a wharf waiting room, a railway station waiting room, a subway station exit, a high-speed rail station waiting room, and the like. But current retail terminal can't dismantle, and this kind of fixed mounting mode construction cycle is long, and the fund input is big, can not carry out nimble transformation along with scene change.

In the process of implementing the invention, the inventor of the invention finds that: the existing retail terminal needs to be modified so as to achieve the purposes of saving the cost of merchants, shortening the construction period, being flexible to disassemble and assemble, saving energy and protecting environment.

Disclosure of Invention

In order to solve the technical problems, embodiments of the present invention provide an assembled and modularized retail intelligent terminal, in which each component is assembled in a detachable manner, the assembled components are convenient to transport, and are convenient to be quickly assembled and disassembled at a preset position according to user requirements, the installation period is short, and the terminal can be repeatedly recycled, is environment-friendly, and saves resources.

The embodiment of the invention adopts the following technical scheme for solving the technical problems:

an assembled and modular retail intelligent terminal for merchandise sales, comprising:

the outer frame that has opposite top portion and bottom portion, outer frame is including being located outer frame bottom portion's outer chassis, being located the outer roof-rack and the outer supporting component of top portion, outer chassis and outer roof-rack is all dismantled, wherein, outer supporting component's both ends are detachably connected respectively outer chassis with outer roof-rack, so that outer chassis with form retail region between the outer roof-rack.

Optionally, the outer chassis comprises a bottom frame and a bearing plate, wherein the bearing plate is used for being laid on the bottom frame, so that the bottom frame and the bearing plate form the outer chassis;

the bottom framework comprises at least four outer bottom beams, a bottom tee joint connecting piece used for connecting the outer bottom beams and a diagonal brace, and the diagonal brace is used for preventing the adjacent outer bottom beams from moving relatively.

Optionally, the outer roof frame includes an outer roof frame and a roof plate, and the cover plate is used for being laid on the outer roof frame, so that the outer roof frame and the roof plate form the outer roof frame;

the outer top framework comprises at least four outer top beams and a top three-way connecting piece used for connecting the outer top beams, and the outer top beams are connected end to form the outer top framework through the top three-way connecting piece.

Optionally, the retail area includes an intelligent area and an artificial service area, the intelligent area is provided with an intelligent terminal therein, the artificial service area is provided with a retail store, the intelligent terminal includes a first inner frame, the retail store is provided with a second inner frame therein, the first inner frame is disposed adjacent to the second inner frame, wherein the first inner frame and the second inner frame are both detachable.

Optionally, the first inner frame includes a first inner chassis, a first inner support assembly and a first inner top frame, wherein the first inner support assembly is configured to detachably connect the first inner chassis and the first inner top frame.

Optionally, the intelligent terminal further comprises a first compartment assembly, the first compartment assembly is used for forming the intelligent terminal together with the first inner frame, intelligent sorting equipment for supplying goods is placed in the intelligent terminal, and the intelligent sorting equipment is used for supplying goods according to orders of outside service terminals.

Optionally, the intelligent terminal further comprises a display screen, the display screen is installed on the first compartment component, and the display screen is used for a user to select a required commodity.

Optionally, the second inner frame comprises a second inner chassis, a second inner support assembly and a second inner top frame, wherein the second inner support assembly is for detachably connecting the second inner chassis and the second inner top frame.

Optionally, the retail store further comprises a second compartment assembly for co-building the retail store with the second inner frame, the retail store having positioned therein a processing tool for placing customization equipment and kits, the second compartment assembly for serving dumplings, delicatessens, desserts, pastry and/or fruit.

Optionally, the retail store further comprises a flap panel and a folding bracket, the flap panel being removably mounted to the second compartment assembly by the folding bracket such that the flap panel can be unfolded or folded relative to the second compartment assembly.

The embodiment of the invention has the beneficial effects that: the assembled and modularized retail intelligent terminal provided by the embodiment of the invention comprises an outer frame with opposite top end and bottom end, wherein the outer frame comprises an outer bottom frame positioned at the bottom end, an outer top frame positioned at the top end and an outer supporting component, the outer bottom frame and the outer top frame are both detachable, and two ends of the outer supporting component are respectively detachably connected with the outer bottom frame and the outer top frame, so that a retail area is formed between the outer bottom frame and the outer top frame. From this, retail intelligent terminal need not to destroy alright dismantle each equipment part respectively to the installation next time, be convenient for transportation and cyclic utilization, environmental protection and resources are saved.

Drawings

One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the figures in which like reference numerals refer to similar elements and which are not to scale unless otherwise specified.

FIG. 1 is a schematic diagram of a retail intelligent terminal according to one embodiment of the invention;

FIG. 2 is an exploded schematic view of FIG. 1;

FIG. 3 is a schematic view of the outer frame of FIG. 1;

FIG. 4 is an exploded view of the structure of FIG. 3;

FIG. 5 is an exploded view of a portion of the structure of FIG. 4;

FIG. 6 is an assembled effect view of FIG. 5;

FIG. 7 is a schematic view of another assembly configuration of FIG. 4;

FIG. 8 is a further assembled view of FIG. 7;

FIG. 9 is a still further assembled view of FIG. 8;

FIG. 10 is a schematic view of another assembly configuration of FIG. 9;

FIG. 11 is a schematic diagram of the structure of the intelligent store of FIG. 2;

FIG. 12 is an exploded view of the structure of FIG. 11;

FIG. 13 is a schematic view of a portion of the structure of FIG. 11;

FIG. 14 is a schematic view of the assembled structure of FIG. 13;

FIG. 15 is a schematic view of the structure of FIG. 13 in further assembly

FIG. 16 is a schematic view of the assembled structure of FIG. 15;

FIG. 17 is a schematic view of the further assembled structure of FIG. 16;

FIG. 18 is a structural schematic view of FIG. 17 in still further assembly;

FIG. 19 is a structural schematic view of a further assembly of FIG. 18;

FIG. 20 is a schematic structural view of the retail store of FIG. 2;

FIG. 21 is an exploded view of the structure of FIG. 20;

FIG. 22 is a schematic view of a portion of the structure of FIG. 20;

fig. 23 is an assembled state view of fig. 22;

FIG. 24 is a further assembled structural schematic of FIG. 22;

FIG. 25 is an assembled state view of FIG. 24;

FIG. 26 is a further assembled structural schematic of FIG. 25;

FIG. 27 is a structural schematic view of FIG. 26 in still further assembly;

FIG. 28 is a schematic view of the assembled state of FIG. 27;

FIG. 29 is a further assembled structural schematic of FIG. 28;

FIG. 30 is a schematic structural view of the further assembly step of FIG. 29;

FIG. 31 is a schematic view of the assembled structure of FIG. 30;

FIG. 32 is a further assembled structural schematic of FIG. 31;

FIG. 33 is a structural schematic view of a further assembly of FIG. 32;

FIG. 34 is a structural schematic view of a further assembly of FIG. 33;

fig. 35 is a schematic assembled structure of fig. 22-34.

Detailed Description

In order to facilitate an understanding of the invention, the invention is described in more detail below with reference to the accompanying drawings and specific examples. It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may be present. As used in this specification, the terms "upper," "lower," "inner," "outer," "vertical," "horizontal," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the invention and simplicity in description, and do not indicate or imply that the referenced devices or elements must be in a particular orientation, constructed and operated in a particular orientation, and are not to be considered limiting of the invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

Specific features of the smart store, retail store and retail smart terminal and their respective reference numerals are listed below and in the figures.

The invention provides an assembled and modularized retail intelligent terminal 1, wherein the retail intelligent terminal 1 is used for commodity sales, such as selling dumplings, cooked food, sweetmeats, pastries and/or fruits. It can be understood that retail intelligent terminal 1 each constitutes the part and assembles through the detachable mode, and the part transportation of its equipment is convenient, is convenient for install and dismantle fast in predetermineeing the position according to the user needs, and installation cycle is short, and can cyclic utilization repeatedly, environmental protection and resources are saved.

It should be noted that the preset positions include different places such as a supermarket, a shopping mall, an airport waiting room, a wharf waiting room, a railway station waiting room, a subway station exit, a high-speed rail station waiting room, and the like, and can be freely set up and used in the places such as the above-mentioned example according to the needs of users themselves.

The detailed structure of the retail intelligent terminal is described in detail as follows:

referring to fig. 1-10, the retail intelligent terminal 1 includes an outer frame 2 having opposite top and bottom ends, the outer frame 2 includes an outer chassis 21 at the bottom end, an outer top frame 22 at the top end, and an outer support assembly 23, the outer chassis 21 and the outer top frame 22 are both detachable, and two ends of the outer support assembly 23 are respectively detachably connected to the outer chassis 21 and the outer top frame 23, so as to form a retail area between the outer chassis 21 and the outer top frame 22.

As shown in fig. 4 to 5, the outer chassis 21 includes a bottom frame 211 and a bottom plate 212, the bottom plate 212 is laid on the bottom frame 211, and the bottom plate 212 covers the bottom frame 211. It is understood that the base plate 212 mounted on the lower frame 211 is required to bear not only the weight of the customer but also the weight of the equipment placed on the base plate 212, and thus, the base plate 212 is required to secure sufficient strength. In this embodiment, the bottom plate 212 is formed by laying a plurality of wood strips.

Further, the bottom skeleton 211 includes at least four outsole beams 2111, a bottom tee connector 2112 for connecting the outsole beams 2111, a diagonal 2113, and a bottom auxiliary beam 2114, wherein the diagonal 2113 is used for preventing the adjacent outsole beams 2111 from moving relatively. Specifically, the outer bottom beam comprises a first outer bottom beam, a second outer bottom beam, a third outer bottom beam and a fourth outer bottom beam, the bottom three-way connecting piece comprises a first bottom three-way connecting piece, a second bottom three-way connecting piece, a third bottom three-way connecting piece and a fourth bottom three-way connecting piece, wherein the bottom three-way connecting piece refers to a cartesian coordinate system and is provided with a transverse connecting portion 21121, a longitudinal connecting portion 21122 and a normal connecting portion 21123 respectively, and the connection relation between the bottom three-way connecting piece and the outer bottom beam is as follows:

two ends of the first outsole beam are detachably connected with the first bottom three-way connecting piece and the fourth bottom three-way connecting piece respectively, specifically, one end of the first outsole beam is detachably connected with a longitudinal connecting portion 21122 of the first bottom three-way connecting piece, and the other end of the first outsole beam is detachably connected with a transverse connecting portion 21121 of the fourth bottom three-way connecting piece;

the second outer bottom cross beam is parallel to the first outer bottom cross beam, and two ends of the second outer bottom cross beam are detachably connected with the second bottom tee connecting piece and the third bottom tee connecting piece respectively; specifically, one end of the second outer bottom beam is detachably connected to the transverse connecting portion 21121 of the second bottom three-way connecting piece, and the other end of the second outer bottom beam is detachably connected to the longitudinal connecting portion 21122 of the third bottom three-way connecting piece;

two ends of the third outsole cross beam are detachably connected with the first bottom tee connecting piece and the second bottom tee connecting piece respectively; specifically, one end of the third outsole beam is detachably connected to the transverse connecting portion 21121 of the first bottom-tee connector, and the other end of the third outsole beam is detachably connected to the transverse connecting portion 21121 of the second bottom-tee connector;

the fourth outer bottom cross beam and the third outer bottom cross beam are parallel to each other, and two ends of the fourth outer bottom cross beam are detachably connected with the third bottom tee connecting piece and the fourth bottom tee connecting piece respectively; specifically, one end of the fourth outer bottom beam is detachably connected to the transverse connecting portion 21121 of the third bottom tee connector, and the other end of the fourth outer bottom beam is detachably connected to the longitudinal connecting portion 21122 of the fourth bottom tee connector, so that the first outer bottom beam, the second outer bottom beam, the third outer bottom beam and the fourth outer bottom beam are connected end to form the bottom skeleton 211.

Further, the bottom frame 211 further includes four diagonal braces 2113, and two ends of each diagonal brace 2113 are respectively connected to one end of two adjacent outer bottom beams 2111. It can be understood that the bracing 2113 can enhance the fastening of the connection between the adjacent outsole lateral beams 21, and effectively prevent the deformation of the bottom chassis 211.

In some embodiments, the bottom frame 211 further includes a bottom auxiliary beam 2114, and two ends of the bottom auxiliary beam 2114 are respectively connected to two parallel outer bottom beams 2111, where the first outer bottom beam and the second outer bottom beam are taken as an example to express the installation relationship of the bottom auxiliary beam 2114. Specifically, a first bearing block (not shown) is arranged on one side of the first outer bottom beam, a second bearing block (not shown) is arranged on one side of the second outer bottom beam, and two ends of the bottom auxiliary beam 2114 are detachably connected with the first bearing block and the second bearing block respectively. As can be appreciated, the bottom auxiliary beam 2114 is used to further reinforce the firmness of the bottom chassis 211, so as to improve the strength of the chassis outer frame 2.

Further, the external roof rack 22 includes an external roof framework 221, a roof panel 222, and an angle aluminum 223, and the roof panel 222 is laid on the external roof framework 221 through the angle aluminum 223, so that the external roof framework 221 and the roof panel 222 form the external roof rack 22. The outer top frame 221 includes at least four outer top beams 2211 and a top tee joint 2212 for connecting the outer top beams 2211, and the outer top beams 2211 are connected end to end through the top tee joint 2212 to form the outer top frame 221. It will be appreciated that one end of the angle aluminum 223 is fixed to the outer top beam 2211 and the top plate 222 is detachably carried on the other end of the angle aluminum 223.

It should be noted that the connection manner between each outer top beam 2211 and the top three-way connection is the same as the connection manner between each outer bottom beam 2111 and the bottom three-way connection 2112, and the description thereof is omitted.

As shown in fig. 5-6, the outer support assembly 23 further includes a main support beam 231 and a secondary support beam 232, and both ends of the main support beam 231 are detachably connected to the normal connection portion 21123 of the bottom tee connection member and the normal connection portion 21123 of the top tee connection member, respectively, so as to support and connect the outer top frame 22. It will be appreciated that the secondary support beams 232 serve to provide enhanced support to the outer roof frame 22 to equalize the forces on the outer roof frame 22.

Referring to fig. 2, 11-19, in some embodiments, the retail area includes an intelligent area in which the intelligent store 3 is disposed, and an artificial service area in which the retail store 4 is disposed, the intelligent store 3 includes a first inner frame 31, a second inner frame 32 is disposed in the retail store 4, the first inner frame 31 is disposed adjacent to the second inner frame 41, and both the first inner frame 31 and the second inner frame 41 are detachable.

As shown in fig. 12 to 15, further, the first inner frame 31 includes a first inner bottom frame 311, a first inner support assembly 312, and a first inner top frame 313, and the first inner support assembly 312 detachably connects the first inner bottom frame 311 and the first inner top frame 313.

The first inner chassis 311 includes at least four inner bottom beams 3111 and an inner bottom plate 3112 laid on the inner bottom beams 3111, and each of the inner bottom beams 3111 are sequentially connected end to form the first inner chassis 311.

In some embodiments, the first inner chassis also includes a first cross brace and a first bottom sub-beam, and the first cross brace and the first bottom sub-beam have the same structure and function as the cross brace 2113 and the first bottom sub-beam 2114.

Similarly, the first inner top frame 313 includes at least four inner top cross beams 3131 and inner top flaps 3132, wherein each of the inner top cross beams 3131 is provided with a hanging strip 31311, and the inner top flaps 3132 are detachably mounted on the hanging strip 31311, so that the inner top flaps 3132 and the inner top cross beams 3131 together constitute the first inner top frame 313.

It is understood that the first support assembly 312 includes four inner support posts 3121 installed at four corners of the first inner frame 31, and each of the inner support posts 3121 is provided at both ends thereof with connection blocks 31211, the connection blocks 31211 are used to detachably connect the inner support posts 3121 with the inner bottom cross beam 3111 or the inner top cross beam 3131, in this embodiment, the inner bottom cross beam 3111 is a square tube with an inner hollow, so that the connection block 31211 at one end of the inner support posts 3121 can be directly inserted into the inner bottom cross beam 3111, and the inner bottom cross beam 3111 is abutted against the inner support posts 3121, and then, the connection is detachably fixed by screws, so as to complete the connection between the inner bottom frame 311 and the inner support posts 3121. Secondly, the inner top frame one 313 is detachably mounted at the other end of the inner support column one 3121, that is, the four inner support columns one 3121 together support the inner top frame one 313. Thereby, the first inner frame 31 is formed.

Referring to fig. 12, 17-19, in some embodiments, the intelligent store 3 further includes a first compartment assembly 32. The first partition assembly 32 includes a first door panel 321, a first door frame 322, and a side plate 323, wherein the first door frame 322 is detachably mounted on a side of the first inner frame 31, so that the first door panel 321 is movably mounted on the first door frame 322. It is understood that the first door panel 321 may be a transparent glass door, or a non-transparent wood door or a metal door. The first door panel 321 may be hinged to the first door frame 322, so that the first door panel 321 rotates towards the first inner frame 31 or rotates towards the outside of the first inner frame 31. In addition, when the pulley is installed between the first door panel 321 and the first door frame 322, the first door panel 321 can slide relatively along the first door frame 322 (not shown), so as to communicate or isolate the first inner frame 31 from the outside.

Similarly, the side plate 323 is detachably mounted on a side surface of the first inner frame 31, and a limiting groove (not shown) is mounted between the side plate 323 and the first inner frame 31, along which the side plate 323 can slide, so as to connect or isolate the first inner frame 31 with the outside.

In some embodiments, intelligent sorting equipment (not shown) is placed in the intelligent store, and the intelligent sorting equipment is used for supplying goods according to orders of outside service terminals. Wherein the intelligent sorting equipment comprises a goods shelf for storing goods, a mobile intelligent goods taking bucket, a guide rail and a control device, the goods shelf is divided into a plurality of independent sub-goods channels with n x m by partition plates, each independent sub-goods channel is provided with a crawler belt, and the baffle corresponding to each sub-cargo channel is provided with a sensor at the outlet of the sub-cargo channel, the mobile intelligent cargo taking bucket can establish a space coordinate system through the sensors, namely, the sensor at the position of the most corner n x 1 or n x m is used as a base point of a space coordinate, after the controller controls the mobile intelligent goods taking bucket to move to the corresponding coordinate position, the controller controls the caterpillar track of the corresponding sub goods channel to rotate, thereby drop the goods to on the removal intelligence gets the goods fill to finally get the goods fill through removing intelligence and transport to the opening part of curb plate 323, provide the customer with corresponding goods. It should be noted that the intelligent sorting device described above uses an existing sorting machine, and the present invention does not improve the sorting machine, and therefore, the description thereof is omitted here. Of course, when the goods set on the shelf are special goods (including cigarettes, medicines, etc.), the goods need to be transported to the side close to the intelligent store 3 and adjacent to the retail store 4 by the intelligent sorting equipment, and the special goods are taken out by the operator in the retail store, and the order information of the customer is checked, and then the goods are supplied to the customer.

In some embodiments, the smart store further comprises a display screen (not shown) mounted to the first compartment assembly, the display screen being for user selection of a desired item. Specifically, the display screen is mounted on the side plate 323, and the display screen is connected to the control device, and may be wired through a cable or wirelessly connected through a wireless module (not shown) built in the display screen. It can be understood that, after a customer selects a commodity and pays for the commodity through the display screen, a signal sending module (not shown) arranged in the display screen sends order information to a server (not shown), then the order information is generated, the customer sends the order information to an operator in the retail store 4 for code scanning, after the code scanning is completed, the server generates a corresponding delivery signal and sends the delivery signal to a control device, the control device controls the mobile intelligent goods taking bucket to move according to the commodity information corresponding to the delivery signal, after the mobile intelligent goods taking bucket moves to a goods channel corresponding to the commodity and receives the commodity falling from a goods shelf, then the mobile intelligent goods taking bucket moves to a goods taking port, the operator in the retail store takes out a special commodity and checks the order information of the customer, and the customer is supplied after the order information is confirmed to be correct.

Referring to fig. 20-35, in some embodiments, retail store 4 includes a second inner frame 41 and a second compartment assembly 42, wherein second compartment assembly 42 is configured to form retail store 4 together with second inner frame 41. Wherein customized equipment and associated tooling are located within the retail outlet 4 and the second compartment assembly is used to serve dumplings, delicatessens, desserts, pastries, drinks and/or fruits.

As shown in fig. 22, further, the second inner frame 41 includes a second inner chassis 411, a second inner support assembly 412, and a second inner top frame 413, and the second inner support assembly 412 is detachably connected to the second inner chassis 411 and the second inner top frame 413.

Chassis 411 includes two 4111 of three inner bottom crossbeams, a connecting pipe 4112, two 4113 of interior base plate and reinforcing bar 4114 in the second, wherein, one the both ends of two inner bottom crossbeams 4111 respectively with two in addition two the connection can be dismantled to two inner bottom crossbeams 4111 to enclose and become to have the open-ended square frame, just the opening part of square frame is connected connecting pipe 4112. It can be understood that the both ends of reinforcing bar 4114 are respectively connected with two inner bottom beams 4111 which are arranged in opposite directions, the square frame can be prevented from being deformed, and the two inner bottom plates 4113 are laid on the square frame, so that an operator can move in the retail store 4.

Similarly, the second inner top frame 413 includes three inner top beams two 4131 and two connecting pipes 4132, two ends of one of the inner top beams two 4131 are detachably connected with one end of the other two inner top beams two 4131, and enclose a square frame identical to the second inner bottom frame 411, and an opening of the square frame is also connected with the second connecting pipe 4132. Here, the first connecting pipe 4112 and the second connecting pipe 4132 have the same structure, and are both square pipes penetrating inside.

It is understood that the second support assembly 412 includes four inner support columns two 4121 and a door frame two 4122. On one hand, the second inner supporting columns 4121 are respectively located at four corners of the second inner frame 41, and each second inner supporting column 4121 is provided with two connecting blocks 41211 perpendicular to each other, the connecting blocks 41211 are used for achieving detachable connection between the second inner supporting columns 4121 and the second inner bottom cross beam 4111 or the second inner top cross beam 4131, in this embodiment, the second inner bottom cross beam 4111 and the second inner top cross beam 4131 are square tubes with hollow inner portions. Therefore, the connecting block 41211 provided on the second inner supporting column 4121 can be directly inserted into the second inner bottom cross beam 4111 and the second inner top cross beam 4131, and the second inner bottom cross beam 4111 and the second inner top cross beam 4131 are respectively abutted against the second inner supporting column 4121, and then the second inner supporting column 4121 is detachably and fixedly connected with the second inner bottom frame 411 and the second inner top frame 413 by screws, so as to complete the connection of the second inner supporting column 4121 with the second inner bottom frame 411 and the second inner top frame 413. On the other hand, the door frame two 4122 is also provided with an insertion block 41221 having a structure similar to that of the connection block 41211, the door frame two 4122 is inserted into the connection pipe one 4112 and the connection pipe two 4132 through the insertion block 41221, and the door frame two 4122 is fixedly connected with the connection pipe one 4112 and the connection pipe two 4132 through screws.

By the above-mentioned connection structure between the second inner frame 411, the second support assembly 412 and the second inner top frame 413, the assembly of the second inner frame 41 can be finally completed.

Further, in order to enhance the connection stability of the second inner frame 41, the second inner top frame 41 further includes a second auxiliary cross beam 414, the second auxiliary cross beam 414 is detachably mounted on the second support assembly 412, specifically, the second auxiliary cross beam 414 is a square tube with a hollow inside, and two ends of the second auxiliary cross beam 414 are respectively connected with two adjacent second inner support columns 4121, that is, the second auxiliary cross beam 414 is inserted and connected through a connection block 41211 on the second inner support columns 4121 and fixed through a screw. In this embodiment, the second auxiliary beam 414 includes a second top auxiliary beam 4141 and a second bottom auxiliary beam 4142.

In some embodiments, the retail store 4 further includes a second compartment assembly 42. The second compartment assembly 42 includes an inner flap 421, a second door panel 422 and a window 423, and the inner flap 421, the second door panel 422 and the window 423 are detachably mounted on the second inner frame 41. The inner baffle 421 includes an upper baffle 4211 and a lower baffle 4212, the upper baffle 4211 is installed between the second inner top beam 4131 and the second top auxiliary beam 4141, and the lower baffle 4212 is installed between the second inner bottom beam 4111 and the second bottom auxiliary beam 4142. Specifically, two opposite ends of the upper baffle 4211 are respectively folded towards one direction, so that the upper baffle 4211 surrounds the area between the second inner top cross beam 4131 and the second top auxiliary cross beam 4141. Similarly, in order to fix the lower baffle 4212 to the second inner frame 41, a turned edge is also disposed around the lower baffle 4212, and the lower baffle 4212 is abutted to the area between the second inner bottom cross beam 4111 and the second bottom auxiliary cross beam 4142 through the turned edge and fixed by screws.

Further, the second compartment assembly further comprises a clamping plate 424, and the clamping plate 424 is used in cooperation with the inner baffle 421, so that a sandwich space is formed between the inner baffle 421 and the clamping plate 424, and a user can conveniently hide cables in the sandwich space, and the appearance of the retail store 4 is prevented from being affected.

It can be understood that a corresponding frame strip is required to be pre-installed at the location where the second door panel 422 and the window 423 are installed, so that the second door panel 422 and the window 423 are fixed to the second inner frame 42. Wherein the second door panel 422 is installed on a side of the second inner frame 41 away from the first inner frame 31, and the window 423 is installed on both sides adjacent to the second door panel 422. In the present embodiment, the window 423 includes a fixed window 4231 and a movable window 4232, the fixed window 4231 is fixedly installed on the second inner frame 41, the movable window 4232 is movably installed on the second inner frame 41, and both the fixed window 4231 and the movable window 4232 are installed between the upper barrier 4211 and the lower barrier 4212. The movable window 4232 is composed of a first sub-window and a second sub-window, the first sub-window is hinged to one end of the second sub-window, and the other end of the first sub-window is hinged to the frame strip. It can be understood that the operator in the retail store 4 can open the movable window by simply moving the second sub-window upward along the frame strip, so as to ventilate.

Similarly, the second door panel 422 is detachably mounted on the second inner frame 41, and is specifically mounted between the second inner top cross beam 4131 and the second inner bottom cross beam 4111, wherein the second door panel 422 is composed of a fixed door 4221 and a movable door 4222. The fixing door 4221 is fixedly installed on the second inner frame 41 and is fixed. The movable door 4222 is movably mounted on the second inner frame 41, and in particular, pulleys (not shown) are mounted at two ends of the movable door 4222, so that the movable door 4222 can be pulled or folded along two sides of the central axis of the inner bottom cross beam two 4111. It will be appreciated that an operator may enter and exit the retail store 4 by opening the moveable door 4222 or closing the moveable door 4222 to prevent non-operator access to the retail store 4. It is understood that the second door panel 422 may be fully transparent or partially transparent, and may be a wood door or a metal door, and the specific material thereof may be selected according to the user's requirement. Preferably, the second door panel 422 is made of a partially transparent metal door, that is, the upper portion of the second door panel 422 is made of transparent glass, and the lower portion of the second door panel 422 is made of an opaque metal plate.

In some embodiments, the retail store 4 further comprises a flipping bar (not shown) and a folding bracket (not shown) comprising a folding wing panel that can be folded or unfolded relative to a fixing panel for fixed mounting on the lower baffle 4212, and the folding wing panel is connected with the flipping bar. By unfolding the folding bracket, the bar turnover board is unfolded relative to the lower baffle 421 to provide a placing plane, so that an operator can place manufactured commodities on the bar turnover board for a customer to take. When the retail store is in a non-business state, the bar turning plate can be folded up only by folding up the folding wing plates, so that the occupied space is prevented.

In some embodiments, the retail store interior 4 further comprises a hanger 43 comprising a hanger plate 431 and a hanger rod 432 connected to the hanger plate 431, the hanger rod 432 being detachably mounted to the second internal roof rail 413. The hanging plate can be used for placing articles, such as condiments and the like. The total weight of the objects placed on the hanging plate 432 should not exceed the weight that the hanger bar can bear, so as to prevent the hanger bar from deforming after being overloaded.

The retail store 4 is formed by the above-described structure of the second inner frame 41 and the second compartment assembly 42.

In some embodiments, the retail store 4 has customized equipment and associated processing tools placed therein, including induction cookers, autoclaves, microwave ovens, toasters, and juicers, but other equipment may be used in the kitchen for cooking purposes in addition to the equipment described above. The matched processing tools comprise tools required for making food, such as a kitchen knife, a sticky board, a boiler, a rolling pin and the like. It is understood that any tool necessary for making dumplings, delicatessens, desserts, pastries, drinks and/or fruits, etc., and sufficient space inside the retail store 4, may be placed inside the retail store 4.

The assembled and modularized retail intelligent terminal 1 provided by the embodiment of the invention comprises an outer frame 2 with opposite top and bottom ends, wherein the outer frame 2 comprises an outer chassis 21 at the bottom end, an outer top frame 22 at the top end and an outer support assembly 23, the outer chassis 21 and the outer top frame 23 are both detachable, wherein two ends of the outer support assembly 22 are respectively detachably connected with the outer chassis 21 and the outer top frame 23, so that a retail area is formed between the outer chassis 21 and the outer top frame 23. From this, retail intelligent terminal 1 need not to destroy alright dismantle each equipment part respectively to the installation next time, be convenient for transportation and cyclic reuse, environmental protection and resources are saved.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (8)

1. An assembled and modular retail intelligent terminal (1) for the sale of goods, characterized in that it comprises:

an outer frame (2) having opposite top and bottom ends, the outer frame (2) including an outer chassis (21) at the bottom end, an outer roof (22) at the top end, and an outer support assembly (23), the outer chassis (21) and the outer roof (22) being removable, wherein the outer support assembly (23) detachably connects the outer chassis (21) and the outer roof (22) at opposite ends thereof, respectively, such that a retail area is formed between the outer chassis (21) and the outer roof (22);

the retail area comprises an intelligent area and an artificial service area, wherein an intelligent store (3) is arranged in the intelligent area, a retail store (4) is arranged in the artificial service area, the intelligent store (3) comprises a first inner frame (31), a second inner frame (41) is arranged in the retail store (4), the first inner frame (31) and the second inner frame (41) are arranged adjacently, and the first inner frame (31) and the second inner frame (41) are both detachable;

the first inner frame (31) comprises a first inner bottom frame (311), a first inner support assembly (312) and a first inner top frame (313), wherein the first inner support assembly (312) is used for detachably connecting the first inner bottom frame (311) and the first inner top frame (313).

2. Retail intelligent terminal (1) according to claim 1, characterized in that the outer chassis (21) comprises a bottom chassis (211) and a bottom plate (212), the bottom plate (212) being intended to be laid on the bottom chassis (211) such that the bottom chassis (211) and the bottom plate (212) constitute the outer chassis (21);

the bottom skeleton (211) comprises at least four outsole beams (2111), a bottom tee joint (2112) for connecting the outsole beams (2111), and a diagonal brace (2113), wherein the diagonal brace (2113) is used for preventing the relative movement of the adjacent outsole beams (2111).

3. A retail intelligent terminal (1) according to claim 2, characterized in that the outer roof rack (22) comprises an outer roof skeleton (221) and a roof (222), the roof (222) being used to lay on the outer roof skeleton (221) so that the outer roof skeleton (221) and the roof (222) constitute the outer roof rack (22);

the outer top framework (221) comprises at least four outer top beams (2211) and top tee joint connectors (2212) used for connecting the outer top beams (2211), and the outer top beams (2211) are connected end to end through the top tee joint connectors (2212) to form the outer top framework (221).

4. Retail intelligent terminal (1) according to claim 1, characterized in that the intelligent store (3) further comprises a first compartment assembly (32), the first compartment assembly (32) being adapted to constitute the intelligent store (3) together with the first inner frame (31), an intelligent sorting device for supplying goods being placed inside the intelligent store (3), the intelligent sorting device being adapted to supply goods according to orders from outside service terminals.

5. A retail intelligent terminal (1) according to claim 4, characterised in that the intelligent store (3) further comprises a display screen mounted on the first compartment assembly (32) for the user to select the desired goods.

6. Retail smart terminal (1) according to claim 1, characterized in that the second inner frame (41) comprises a second inner chassis (411), a second inner support assembly (412) and a second inner top frame (413), wherein the second inner support assembly (412) is for detachably connecting the second inner chassis (411) and the second inner top frame (413).

7. Retail smart terminal (1) according to claim 5, characterized by the fact that the retail store (4) further comprises a second compartment assembly (42), the second compartment assembly (42) being intended to constitute the retail store (4) together with the second inner frame (41), inside the retail store (4) there being placed customization equipment and assorted processing tools, the second compartment assembly (42) being intended to serve dumplings, delicates, sweets, pastries, drinks and/or fruits.

8. The retail intelligent terminal (1) according to claim 7, wherein the retail store (4) further comprises a flap panel and a folding bracket, the flap panel being detachably mounted on the second compartment assembly (42) by the folding bracket such that the flap panel can be unfolded or folded with respect to the second compartment assembly (42).

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