CN215738543U - Pipe clamp device and food material management system - Google Patents

Abstract

The utility model discloses a pipe clamp device and a food material management system, wherein the pipe clamp device comprises: the method comprises the following steps: the pipe clamp box is provided with an accommodating space and an induction module; at least one presss from both sides the body, and it corresponds multiple edible material, and each presss from both sides the body and all saves in accommodation space, presss from both sides the body and includes: clamping a front shell; the upper end of the clamp rear shell is hinged with the upper end of the clamp front shell; the elastic reset piece is used for resetting after the front clamp shell and the rear clamp shell are opened to form an angle; the processing module is connected with the sensing module and is used for sensing the clamp body; when the clamp body is taken out of the pipe clamp box and clamped on the corresponding food material, the processing module starts to time the storage time of the food material. According to the food material storage timing device, the clips corresponding to different food materials are clamped on the food materials, so that the food material storage timing is triggered, and the food material storage time can be mastered in time conveniently.

Description

Pipe clamp device and food material management system

Technical Field

The utility model relates to the technical field of intelligent management, in particular to a pipe clamp device and a food material management system.

Background

With the social development and the increasing living standard of people, for example, when a refrigerator is used, the refrigerator is not only used as storage, but also the intelligent management demand of the refrigerator on food materials is higher and higher.

The existing refrigerator is easy to accumulate a large amount of food under the daily using state of a user, so that the storage time of each food material is forgotten, the problems of overdue food materials, temporary storage and the like are caused, the food materials are wasted, and the health of the user is influenced if the overdue food materials are eaten. Therefore, it is necessary for a user to open the refrigerator door frequently to check it, time and effort are wasted, and frequent door opening easily causes leakage of cooling capacity.

The above information disclosed in this background section is only for enhancement of understanding of the background of the application and therefore it may comprise prior art that does not constitute known to a person of ordinary skill in the art.

Disclosure of Invention

One objective of the present invention is to provide a tube clamping device, which triggers the timing of storing food materials by clamping the food materials with clips corresponding to different food materials, so as to facilitate the timely grasping of the time for storing food materials.

In order to realize the purpose of the utility model, the utility model adopts the following technical scheme to realize:

a tube clamp device, comprising:

the pipe clamp box is provided with an accommodating space and an induction module;

at least one presss from both sides the body, and it corresponds multiple edible material, and each presss from both sides the body and all saves in the accommodation space, press from both sides the body and include:

a front cartridge shell;

the upper end of the rear clamping shell is hinged with the upper end of the front clamping shell;

an elastic reset piece, which is used for resetting after the front clamping shell and the rear clamping shell are opened to form an angle;

the processing module is connected with the sensing module and used for sensing the clamp body;

when the clamp body is taken out of the clamp box and clamped on the corresponding food material, the processing module starts to time the storage time of the food material.

In the present application, the pipe clamping device further comprises:

and the prompt module is used for outputting prompt information when the storage time of the food material is less than a preset value.

In the present application, the pipe clamp box includes:

a pipe clamp housing having the accommodating space and the sensing module;

and a pipe clamp upper cover for opening and closing the accommodating space.

In the present application, the elastic return member is a spring;

the front pod comprises:

a first housing on which a rotation shaft is provided;

a second housing mounted on the first housing;

the rear clamping shell is provided with:

the guide post is sleeved with the spring;

and the mounting part is used for mounting the rotating shaft.

In the present application, the second housing is detachably connected to the first housing;

the processing module is detachably connected with the rear clamping shell.

In the present application, at least two first card slots are disposed in the first housing;

the second shell is provided with first clamping blocks corresponding to the first clamping grooves;

each first clamping groove is matched with each first clamping block in a clamping mode, so that the second shell is installed in the lower portion of the first shell.

In the application, at least two second clamping grooves are arranged in the rear clamping shell;

the processing module is provided with second clamping blocks corresponding to the second clamping grooves;

and each second clamping groove is in clamping fit with each second clamping block, so that the processing module is arranged in the lower part of the rear clamping shell.

In the present application, the second housing corresponds to the processing module;

the side of the second shell facing the processing module is provided with at least one first protruding part;

the side face, facing the second shell, of the processing module is provided with at least one second protruding portion, and the first protruding portions are opposite to the second protruding portions one by one.

In this application, the first and second projections are each closed ribs.

The application relates to a pipe clamp device compares prior art, has following advantage and beneficial effect:

the pipe clamp device is intelligent, can respond to through the response module in the pipe clamp case and press from both sides the processing module in the body and press from both sides the body and whether being used for the centre gripping to when using the centre gripping of pressing from both sides the body and eating the material, can trigger the timing to eating the material, intelligence realizes the management to eating the storage time of material.

The application also relates to a food material management system, which is characterized by comprising: the pipe clamping device as described above; and the terminal is in communication connection with the pipe clamp device, and an application program for managing food materials clamped by the clamp body in the pipe clamp device is loaded on the terminal.

Through the communication connection of terminal and pipe clamp device, can manage the edible material that presss from both sides the body centre gripping through the application program loaded on the terminal, can in time reflect the save time who eats the material on the application program, guarantee to eat the new freshness of material, avoid eating the material overdue.

Other features and advantages of the present invention will become more apparent from the following detailed description of the utility model when taken in conjunction with the accompanying drawings.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a block diagram of one embodiment of a pipe clamping device according to the present invention;

FIG. 2 is a view showing a structure of a clamp body in an embodiment of the pipe clamping device according to the present invention;

figure 3 is an exploded view of a clamp body in an embodiment of the pipe clamping device of the present invention;

FIG. 4 is a structural view of a first housing of a front clamp shell in an embodiment of the pipe clamping device of the present invention;

fig. 5 is a structural view of a second housing of the front clamp housing in the embodiment of the pipe clamping device proposed in the present invention;

fig. 6 is a sectional view showing an embodiment of the pipe clamping device according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and examples.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "inner", "outer", "upper", "lower", "left", "right", "front", "rear", etc. are based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected unless otherwise explicitly stated or limited. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. In the foregoing description of embodiments, the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

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 one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

The present application relates to a tube clamping device for intelligently managing food materials stored in a refrigerator, for example, such as storage time.

Referring to fig. 1, the pipe clamping device includes a pipe clamping box 200 and at least one clamp body 100.

The pipe clamp box 200 includes a pipe clamp housing 220 and a pipe clamp cover 210, and the pipe clamp cover 210 may be connected to the pipe clamp housing 220 by a snap or hinge.

The pipe clamp housing 220 has an accommodating space, and the accommodating space can be divided into a plurality of sections (for example, section a), each section is used for accommodating one clamp body 100, and the clamp body 100 can be conveniently accommodated.

The pipe clamp cover 210 covers the accommodating space when covering the pipe clamp housing 220, and exposes the accommodating space when opening the pipe clamp cover 210, so as to take and place the clamp body 100.

A sensing module (not shown) is further disposed in the accommodating space, and may be, for example, an RFID reader-writer, which may include an RFID reader-writer and an RFID antenna.

Of course, other sensing means can be used, for example, an infrared sensor can be used to sense whether the clamp body 100 is in the clamp box 200.

It should be noted that the radiation field generated by the RFID antenna should be distributed throughout the entire accommodating space so as to reliably sense the clip body 100.

At least one of the clip bodies 100 corresponds to a plurality of food materials, and the food materials may be the same or different in kind.

For example, the three clip bodies 100 may correspond to beef, mutton, and shrimp, respectively; or the three clamp bodies 100 can respectively correspond to beef, beef and shrimp, and the like.

In the present application, the structure of each clip body 100 is the same.

Referring to fig. 2 to 6, a structure of one clip body 100 will be described as an example.

The clip body 100 includes a front clip housing, a rear clip housing 120, an elastic restoring member, and a processing module 160.

In the present application, the elastic restoring member is a spring 150 for restoring after the front and rear clam shells 120 are opened at an angle, i.e., between the front and rear clam shells 120 to 0 ° (the state shown in fig. 2).

In order to achieve good clamping of the clamp body 100 with the food material, the front clamping shell comprises a first shell 110 and a second shell 130 mounted in the first shell 110.

Referring to fig. 3 and 4, the first case 110 includes a front cover plate 111 and four circumferential side plates 112 to 115 butted against circumferential edges of the front cover plate 111, and a lower panel portion 1111 of the front cover plate 111 forms a downwardly inclined slope.

In order to realize the hinge joint of the front and rear cases 120, specifically, the hinge joint of the first housing 110 and the rear case 120, a rotating shaft is provided on the first housing 110, and correspondingly, a mounting portion (described in detail below) for mounting the rotating shaft is provided on the rear case 120.

The second case 130 is correspondingly installed in the lower portion of the first case 110, and includes a rear side plate 131 and four circumferential side plates 132 to 135 butted against circumferential edges of the rear side plate 131.

In order to detachably mount the first housing 110 and the second housing 130, a plurality of slots are disposed in the first housing 110, and correspondingly, a plurality of blocks corresponding to the plurality of slots are disposed on the second housing 130.

Alternatively, a plurality of clamping blocks may be disposed in the first housing 110, and correspondingly, a plurality of clamping grooves corresponding to the plurality of blocks may be disposed on the second housing 130, and when each clamping groove is in clamping fit with each clamping block, the second housing 130 is installed in the lower portion of the first housing 110.

In the present application, a first card slot (not shown) is provided on the projection 116 of the first housing 110, and at least one card slot is also formed on the inner surface of the bottom side plate 114 of the four circumferential side plates 112 to 115, and fig. 4 shows a card slot 1141 and a card slot 1141'.

Referring to fig. 3 and 5, a first latch 1321 corresponding to the first latch groove is provided on an outer surface of a top side plate 132 of the four circumferential side plates 132 to 135 of the second housing 130, and latches 1331 and 1331 'corresponding to the respective latch grooves 1141' and 1141 are provided on an outer surface of a bottom side plate 133 of the four circumferential side plates 132 to 135.

Alternatively, the arrangement positions of the card slot and the card block are not limited to the positions described above as long as the card connection between the two can be realized.

Since the lower portion 1111 in the front panel 111 in the first casing 110 is designed to be slanted, for the purpose of fitting, referring to fig. 3, the outer edges of the left and right side plates 134 and 135 among the four circumferential side plates 132 to 135 of the second casing 130 are designed to be slanted edges.

When the second housing 130 is mounted, when the first latching block 1321 is latched into the first latching groove and the latching blocks 1331 and 1331 'are respectively latched into the latching grooves 1141' and 1141, the second housing 130 is mounted into the first housing 110, wherein an outer surface of the rear panel 121 of the second housing 120 faces outward, and the outer surface is on the same plane as a plane surrounded by outer edges of the four circumferential side panels 132 to 135 of the first housing 110.

The processing module 140 may be implemented by an integrated chip, and the processing module 140 is connected to the sensing module.

For example, the processing module 140 may include an RFID module, which can write the type of food material (e.g., beef) clamped by the clamp body 110, and determine whether the clamp body 100 has left the pipe clamp box 200 (i.e., whether the clamp body 100 is used) by sensing the presence or absence of the RFID module by the sensing module.

If the clamp body 100 leaves the pipe clamping box 200, it indicates that the clamp body 100 is taken out and used for clamping food; if the clamp body 100 is not separated from the pipe clamp box 200, it indicates that the clamp body 100 is not used.

In the radiation field range of the RFID antenna, if the RFID module can be read by the RFID reader/writer, it indicates that the clamp body 100 has not left the pipe clamp box 200; if the RFID module cannot be read by the RFID reading/writing device, it indicates that the clip body 100 is already used for clipping food materials.

When the clip body 100 leaves the tube clamping box 200, it is known which food material, for example, beef, the currently taken-out clip body 100 is used for clamping.

In order to more intuitively identify the food material type indicated by each clip body 100 to the user, the food material type has different colors and characters in appearance, for example, a silk screen area is provided on the outer surface of the front cover plate 111, and the silk screen area is provided with a food material name or a food material pattern.

In the present application, the processing module 140 is mounted within the rear pod 120, as will be described in detail below.

Referring to fig. 3, the rear clam shell 120 is provided with a guide post 126 and a mounting portion 127.

The guide post 126 is sleeved with a spring 150, and the mounting portion 127 is used for mounting a rotating shaft so as to realize the hinge connection between the rear clamping shell 120 and the first shell 110.

Specifically, referring to fig. 3, the rear pod 120 includes a rear cover plate 121 and four circumferential side plates 122 to 125 abutting circumferential edges of the rear cover plate 121.

The guide posts 126 are formed on the inner side walls of the upper portion of the rear cover 121.

When the front and rear pods 120 are hingedly assembled into one body, one end of the spring 150 abuts against the inner surface of the rear cover plate 121 of the rear pod 120 and the other end abuts against the inner surface of the front cover plate 111 of the first housing 110.

The mounting portion 127 is provided transversely between the left and right opposite side plates 124 and 125 of the four circumferential side plates 121 to 125 of the rear clam shell 120, and the mounting portion 127 extends in two projecting portions 128 and 128' in a direction away from the inner surface of the rear cover plate 121.

The two protruding portions 128 and 128' are opened with a first guide hole (not marked) and a second guide hole (not marked) having openings, respectively, wherein the depth direction of the holes of the first guide hole and the second guide hole is the left-right direction.

And a gap is formed between the mounting part 127 and the inner surface of the back cover plate 121.

Referring to fig. 4, the rotation shafts as described above include a first rotation shaft 117 and a second rotation shaft 117' formed at opposite left and right sides of the projection 116.

The first shaft 117 extends into the first guide hole through the opening of the first guide hole, and the second shaft 117' extends into the second guide hole through the opening of the second guide hole, so as to realize the hinge connection between the first shell 110 and the rear clamping shell 120.

Referring to fig. 6, the process module 140 is correspondingly installed in the lower portion of the rear clam shell 120.

And with continued reference to fig. 3 and 6, the processing module 140 includes a main board 141, and left, right and bottom side plates (not shown) on the left, right and bottom sides of the main board 141, a right side plate 143, and a bottom side plate 142.

In order to detachably mount the processing module 140 and the rear pod 120, a plurality of slots may be disposed in the rear pod 120, and correspondingly, a plurality of blocks corresponding to the plurality of slots are disposed on the processing module 140.

Alternatively, a plurality of clamping blocks may be disposed in the rear clamping shell 120, and correspondingly, a plurality of clamping grooves corresponding to the plurality of blocks are disposed on the processing module 140, and when each clamping groove is in clamping fit with each clamping block, the processing module 140 is installed in the lower portion of the rear clamping shell 120.

In the present application, referring to fig. 3, the card slots 1231 and 1231' are formed on the inner surface of the bottom side plate 123 among the four circumferential side plates 122 to 125 of the rear cover plate 121 of the rear clam shell 120.

Clamping blocks 1421 and 1421 'corresponding to the clamping grooves 1231 and 1231' are disposed on the outer surface of the bottom plate 142 corresponding to the processing module 140.

Referring to fig. 6, when the process module 140 is mounted, the top end of the process module 140 is clamped into a gap between the mounting portion 127 and the inner surface of the rear cover plate 121 of the rear clamping shell 120, so that one side surface of the top end of the process module 140, which is far away from the rear cover plate 121, abuts against the mounting portion 127, the clamping blocks 1421 and 1421 'are correspondingly clamped into the clamping grooves 1231 and 1231', respectively, and the outer edges of the left side plate and the right side plate 143 abut against the inner surface of the rear cover plate 121, thereby achieving the purpose of mounting the process module 140 in place.

Referring to fig. 6, after the process module 140 is mounted in place, the outer surface of the main plate 141 of the process module 140 faces outward, and is in the same plane as the plane enclosed by the outer edges of the lower portions of the four circumferential side plates 122 to 125 of the rear cassette housing 120.

Alternatively, the arrangement positions of the card slot and the card block are not limited to the above-described positions as long as the clamping between the process module 140 and the rear clam shell 120 is achieved.

After the second housing 130 is mounted into the first housing 110, the process module 140 is mounted into the rear clam shell 120, and the first housing 110 and the rear clam shell 120 are hinge-mounted, the second housing 130 and the process module 140 are opposite, and in particular, an outer surface of the rear side plate 131 of the second housing 130 is opposite to an outer surface of the main plate 141 of the process module 140.

At least one first protrusion is disposed on the outer surface of the rear side plate 131 of the second housing 130, and correspondingly, at least one second protrusion is disposed on the outer surface of the main plate 141 of the processing module 140, and the first protrusions and the second protrusions are opposite to each other in position, so that when the clip body 100 is in the initial reset state in fig. 2, the first protrusions and the second protrusions are opposite to each other and abut against each other.

Each of the first and second protrusions may be a bump, a ridge, or the like.

In the present application, referring to fig. 3 and 5, the first protrusion is a first rib 136 and the second protrusion is a second rib 145.

The first rib 136 and the second rib 145 are closed circular, square, polygonal, etc. ribs.

When the clip body 100 is in the initial reset state, each of the first ribs 136 and each of the second ribs 145 correspond to and abut against each other (see fig. 6).

When the food material is clamped by the clamp body 100, the food material or the packaging bag of the food material is in direct contact with the first rib 136 and the second rib 145 respectively, so that the friction between the food material and the packaging bag can be increased, and reliable and stable clamping is realized.

In the present application, referring to fig. 3 and 6, the pipe clamping device is further provided with a non-slip cushion 160 for protecting the process module 140.

After the non-slip mat 160 is installed in the rear clam shell 120, the process module 140 is installed.

Specifically, referring to fig. 6, the non-slip pad 160 may be mounted to the inner surface of the back cover plate 121 of the rear clam shell 120, for example, by gluing.

Since a layer of the anti-slip pad 160 is added to the inner surface of the back cover plate 121, referring to fig. 3 and 6, arc-shaped protrusions 144 'and 144 are formed at the upper portions of the left and right side plates 143 of the process module 140, respectively, and the protruding directions of the arc-shaped protrusions 144' and 144 are parallel to the plane of the left and right side plates 143.

With continued reference to fig. 6, when the process module 140 is mounted above the non-slip mat 160, the outer edges of the left, right and bottom side panels 143, 142 of the process module 140 all abut against the upper surface of the non-slip mat 160, and the two arc-shaped protrusions 144' and 144 are located above the top of the non-slip mat 160 and abut against the inner surface of the rear cover 121 of the rear clamshell 120, respectively, for anti-slip and protection of the process module 160.

At this point, the assembly of the entire clip body 100 is completed.

In order to achieve time management of food materials when the clamp body 100 clamps the food materials, the processing module 140 further includes a timing module (not shown) triggered to time the clamped food materials when the clamp body 100 leaves the pipe clamping box 200.

In addition, a prompting module (not shown) can be used for prompting the storage time of the food material.

The food material may be timed up, for example, from 1 second, and then prompted after the timed up to a certain time or by segments within a certain time, and the prompting information may be output in a form of audio (e.g., beep sound) or blinking of an indicator light, for example.

The certain time may represent the longest time for eating the food material at the latest, and exceeding the longest time represents that the food material is inedible.

If the segment prompt is performed within a certain time, for example, the certain time is 7 days, the prompt is performed once in 2 days, the prompt is performed once in 4 days, and the prompt is performed once in 6 days, and the prompt degree (for example, the volume of the audio, the flashing frequency of the indicator light, and the like) may be different each time, so as to indicate that the degree of urgency is different.

The food material may also be counted down, for example, a timing duration is pre-stored according to different food materials (for example, the timing duration of cucumber may be 2 days, the timing duration of chicken may be 3 days, the timing duration of milk may be 7 days, etc.).

When the clamp body 100 leaves the pipe clamp box 200, the timing module is triggered, a timing thread is added to milk for example, and the counting is started from 7 days, and when the remaining time of the timing thread is less than a preset value (for example, 1 day), a prompt message can be output.

The prompting can also be performed in segments within 7 days, for example, the prompting is performed once less than 6 days, once less than 4 days, and once less than 2 days, and the prompting degree can be different in each prompting so as to indicate that the urgency degree is different.

The stored food materials can not only be the food materials placed in the refrigerator, but also be the food materials placed outside the refrigerator, and can remind a user of the storage time of the food materials in time so as to guarantee the freshness of the food materials.

In the present application, it also relates to a food material management system comprising a pipe clamping device as described above and a terminal (not shown, e.g. a mobile phone, a computer, a PAD, etc.) communicating with the pipe clamping device.

The APP application program for managing the folder body 100 is loaded on the terminal, and by opening the APP application program, the storage time and the like of the folder body 100 corresponding to which food materials are used and clamped food materials can be correspondingly checked.

The timing duration of the food material can be obtained by uploading and sharing the timing duration of the food material through the internet of things, for example, when the food material is purchased; or different timing durations are prestored according to different food materials (for example, the timing duration of cucumber can be 2 days, the timing duration of chicken can be 3 days, the timing duration of milk can be 7 days, etc.).

When storing milk, for example, if the remaining time of the timing thread is less than a preset value (for example, 1 day), a prompt message indicating that the milk is about to expire can be output to the terminal, so that a user can eat the milk in time, and waste caused by expiration of the milk is avoided.

When pressing from both sides body 100 and leaving pipe clamp box, can in time see each the food material kind (for example beef, chicken, mutton, shrimp etc.) of pressing from both sides the centre gripping of body 100 that uses, eat material storage time etc. through APP on the terminal, the user of being convenient for masters the condition of all edible materials to in time remind information to user propelling movement time, guarantee to eat the new freshness of material, avoid eating the material overdue, cause the wasting of resources.

When various food materials are stored in the refrigerator, the storage time of the food materials can be known under the condition that the refrigerator door is not opened, the cold quantity leakage of the refrigerator is avoided, and the energy consumption of the refrigerator is saved.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (10)

1. A tube clamp device, comprising:

the pipe clamp box is provided with an accommodating space and an induction module;

at least one presss from both sides the body, and it corresponds multiple edible material, and each presss from both sides the body and all saves in the accommodation space, press from both sides the body and include:

a front cartridge shell;

the upper end of the rear clamping shell is hinged with the upper end of the front clamping shell;

an elastic reset piece, which is used for resetting after the front clamping shell and the rear clamping shell are opened to form an angle;

the processing module is connected with the sensing module and used for sensing the clamp body;

when the clamp body is taken out of the clamp box and clamped on the corresponding food material, the processing module starts to time the storage time of the food material.

2. A pipe clamping device as claimed in claim 1, further comprising:

and the prompt module is used for outputting prompt information when the storage time of the food material is less than a preset value.

3. A pipe clamping device as defined in claim 1, wherein said pipe clamping box comprises:

a pipe clamp housing having the accommodating space and the sensing module;

and a pipe clamp upper cover for opening and closing the accommodating space.

4. A pipe clamping device as defined in claim 1, wherein said resilient return member is a spring;

the front pod comprises:

a first housing on which a rotation shaft is provided;

a second housing mounted on the first housing;

the rear clamping shell is provided with:

the guide post is sleeved with the spring;

and the mounting part is used for mounting the rotating shaft.

5. Pipe clamping device according to claim 4,

the second shell is detachably connected with the first shell;

the processing module is detachably connected with the rear clamping shell.

6. Pipe clamping device according to claim 5,

at least two first clamping grooves are formed in the first shell;

the second shell is provided with first clamping blocks corresponding to the first clamping grooves;

each first clamping groove is matched with each first clamping block in a clamping mode, so that the second shell is installed in the lower portion of the first shell.

7. A pipe clamping device as defined in claim 5 or 6,

at least two second clamping grooves are formed in the rear clamping shell;

the processing module is provided with second clamping blocks corresponding to the second clamping grooves;

and each second clamping groove is in clamping fit with each second clamping block, so that the processing module is arranged in the lower part of the rear clamping shell.

8. Pipe clamping device according to claim 5,

the second shell corresponds to the processing module;

the side of the second shell facing the processing module is provided with at least one first protruding part;

the side face, facing the second shell, of the processing module is provided with at least one second protruding portion, and the first protruding portions are opposite to the second protruding portions one by one.

9. A pipe clamping device as defined in claim 8, wherein said first and second projections are each a closed fin.

10. A food material management system, characterized by comprising:

a pipe clamping device as defined in any one of claims 1 to 9; and

and the terminal is in communication connection with the pipe clamp device and is loaded with an application program for managing food materials clamped by the clamp body in the pipe clamp device.

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