CN114670910B - Fruit transportation container capable of measuring weight of fruits and using method thereof - Google Patents

Abstract

The invention discloses a fruit transportation container capable of measuring the weight of fruits, which comprises a vehicle body and a container body arranged above the vehicle body, wherein an equipment box is arranged at the bottom of the vehicle body, a placing cavity is arranged at the top of the vehicle body, a plurality of groups of weighing devices are arranged in the placing cavity, gaps are reserved among the weighing devices, wheels are arranged at the bottom of the container body and comprise front wheels and rear wheels, when the container body moves in the placing cavity and the front wheels and the rear wheels are synchronously pressed into two weighing units, a locking mechanism is used for limiting the movement of the container body, and after weighing is finished, the locking mechanism is unlocked and is locked again when the container body moves to an adjacent weighing device; according to the invention, as a plurality of groups of weighing devices are arranged on a limited bearing platform, and a gap is reserved between adjacent weighing devices for placing the front wheel and the rear wheel of the container body, and a plurality of groups of numerical values are compared after the numerical values of multiple weights are obtained, the problem that the precision of the weighing devices is reduced and cannot be found due to the fact that a large number of weighing devices are used is solved.

Description

Fruit transportation container capable of measuring weight of fruits and using method thereof

Technical Field

The invention relates to the technical field of fruit processing, in particular to a fruit transportation container capable of measuring the weight of fruits.

Background

Can use the transport case in the transportation of fruit, carry out the splendid attire through the transport case in order to vegetables fruit, the transport case plays certain guard action to vegetables fruit, at present in to fruit treatment process, the transportation is essential step, need treat the vegetables and fruits of encapsulation according to the manufacturing procedure needs, the record of weighing before the encapsulation, in order to reduce the process steps, it will transport and the step simplification of weighing to have a transport trolley who has the weighing at present, but discover in the use, present transport trolley who has weighing machine structure, only one platform of weighing, the hose box or the pocket that holds fruit are directly placed on this platform, transport in the completion after through the record numerical value, the shortcoming that comes down to exist like this is as follows:

1. the road surface jolts during transportation, and the weight of the fruits is continuously on the weighing platform, so that the precision of the weighing platform is easily reduced after long-time use;

2. the independent weighing platform is along with long-time use, and the precision reduces the back, can't in time notice, consequently leads to the numerical value of follow-up record to be different with the numerical value of the outer record of finished product case, influences the external market of product.

In summary, we propose a fruit transportation container capable of measuring the weight of fruit and a method for using the same to solve the above-mentioned disadvantages.

Disclosure of Invention

The invention aims to solve the problems that the precision of a weighing platform is easily reduced after long-time use because the road surface jolts and the weight of fruits is continuously on the weighing platform during transportation, and the external market of products is influenced because the subsequently recorded numerical value is different from the numerical value recorded outside a finished product box because the precision of an independent weighing platform cannot be timely perceived after the precision is reduced along with the long-time use.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a fruit transportation container of measurable quantity fruit weight, includes the automobile body and arranges in the vessel above the automobile body, the equipment box is installed to the automobile body bottom, the automobile body top is equipped with places the chamber, it is equipped with the multiunit weigher to place the intracavity, the multiunit has the clearance between the weigher, the vessel bottom has the wheel, the wheel includes front wheel and rear wheel, and every group the weigher all contain two with the corresponding weighing unit of front wheel and rear wheel, the equipment incasement is equipped with locking mechanism when the vessel body is placing the intracavity and is removing and two weighing units of synchronous pressfitting of front wheel and rear wheel, locking mechanism is used for the restriction the vessel body removes, after weighing the completion, locking mechanism removes the locking and locks in the time when the vessel body removes to adjacent weigher.

Preferably, the weigher comprises a first weigher body, a second weigher body, a third weigher body and a fourth weigher body, wherein the first weigher body, the second weigher body, the third weigher body and the fourth weigher body respectively comprise two weighing rods which are equidistant to the front wheels and the rear wheels, the weighing rods are arranged with the vehicle body in a sliding manner, and the bottom of each weighing rod is provided with a push rod; the weighing device comprises a first weighing device body, a second weighing device body, a third weighing device body, a fourth weighing device body and a weighing sensor, wherein a first I-shaped frame is installed at the tail end of a push rod at the bottom of the first weighing device body, a second I-shaped frame is installed at the tail end of a push rod at the bottom of the second weighing device body, a third I-shaped frame is installed at the tail end of a push rod at the bottom of the third weighing device body, a fourth I-shaped frame is installed at the tail end of a push rod at the bottom of the fourth weighing device body, and the weighing sensor is installed at the central bottoms of the first I-shaped frame, the second I-shaped frame, the third I-shaped frame and the fourth I-shaped frame.

Preferably, a first supporting plate is arranged in the equipment box and positioned at the bottom of the first I-shaped frame; a second supporting plate is arranged between the first I-shaped frame and the second I-shaped frame; a third supporting plate is arranged between the second I-shaped frame and the third I-shaped frame; a fourth supporting plate is arranged between the third I-shaped frame and the fourth I-shaped frame; the weighing sensor comprises a first sensor body which is arranged at the top of the first supporting plate, and the output end of the first sensor body is abutted against the first I-shaped frame; the second sensor body is arranged on the second supporting plate, and the output end of the second sensor body is abutted against the second I-shaped frame; the third sensor body is arranged on the third supporting plate, and the output end of the third sensor body is abutted against the third I-shaped frame; the fourth sensor body is arranged on the fourth supporting plate, and the output end of the fourth sensor body abuts against the fourth I-shaped frame;

the distribution box is installed in the equipment box and electrically connected with the first sensor body, the second sensor body, the third sensor body and the fourth sensor body.

Preferably, first recess, second recess have been seted up on the automobile body and with the perpendicular groove that the second recess link up mutually, locking mechanism sets up including rotating actuating lever in the first recess, fixedly connected with sliding sleeve in the equipment box, sliding sleeve sliding connection has the slide bar, equipment box lateral wall is passed and outside extension to slide bar one end, the slide bar extend the end with the actuating lever bottom is connected, second recess internal rotation is connected with the V-arrangement pole, perpendicular inslot sliding connection has the inserted bar, V-arrangement pole one end with the inserted bar is connected, the other end with sliding rod connects, the container body bottom is equipped with the locking board, the direction of advance of container body has the spigot surface, the bottom equidistance of locking board be equipped with a plurality ofly with the jack that the inserted bar corresponds.

Preferably, the bottom of the driving rod is provided with a first chute, the sliding rod is provided with a first pin shaft, the first pin shaft is movably connected in the first chute, one end of the V-shaped rod is provided with a second chute, the other end of the V-shaped rod is provided with a third chute, the sliding rod is connected with a second pin shaft movably connected in the second chute, and the inserted rod is provided with a third pin shaft movably connected in the third chute.

Preferably, a tension spring is connected between the outer wall of the placing cavity and the driving rod.

Preferably, the slide bar is fixedly connected with a baffle, the slide bar is sleeved with a spring, and two ends of the spring respectively abut against the sliding sleeve and the baffle.

Preferably, the number of the jacks is five, and when the inserted rod is inserted into the jack at the tail end, the front wheel and the rear wheel are separated from the weighing device.

Preferably, the bottom of the vehicle body is provided with a main wheel structure, the top of the vehicle body is provided with a pull rod, and the tail of the vehicle body is detachably connected with a feeding plate.

A method for using a fruit transport container capable of measuring the weight of fruit comprises the following steps: firstly, fruits are prevented from being in a container body, and the container is pushed into a placing cavity on the top of a vehicle body; when the front wheel and the rear wheel at the bottom of the container body are pressed on the first group of weighing devices, the locking mechanism locks the container body to obtain the integral weight of the container body for the first time; the locking mechanism is unlocked, and when the front wheel and the rear wheel at the bottom of the container body are pressed on the next weighing device, the locking mechanism is locked again to obtain the whole weight of the container body again; and comparing the weights of the container bodies obtained for multiple times, and judging whether the values are equal or not.

Compared with the prior art, the invention provides a fruit transportation container capable of measuring the weight of fruits, which has the following beneficial effects:

according to the invention, as a plurality of groups of weighing devices are arranged on a limited bearing platform, and a gap is reserved between adjacent weighing devices for placing the front wheel and the rear wheel of the container body, the independence of each measurement is ensured, the integral weight of the container body is obtained for a plurality of times, a plurality of groups of numerical values are compared after the numerical values of the weights are obtained for a plurality of times, and whether the plurality of numerical values are equal or not is judged, thus the problem that the precision of the weighing devices is reduced and the weighing devices cannot be found due to the use of a large number of weighing devices is solved, and the damaged weighing devices can be found visually by comparing the numerical values of the plurality of groups of weighing devices.

Drawings

Fig. 1 is a first structural schematic view of a fruit transportation container capable of measuring the weight of fruit according to the present invention;

FIG. 2 is a schematic structural diagram of a fruit transportation container capable of measuring the weight of fruit according to the present invention;

FIG. 3 is a third schematic structural view of a fruit transportation container capable of measuring the weight of fruit according to the present invention;

FIG. 4 is a schematic view of the internal structure of a fruit transportation container equipment box capable of measuring the weight of fruit according to the present invention;

FIG. 5 is a first schematic structural diagram of a fruit container weigher capable of measuring the weight of fruit according to the present invention;

FIG. 6 is a schematic structural diagram of a fruit container weigher capable of measuring the weight of fruit according to the present invention;

FIG. 7 is a schematic view of a portion A of FIG. 1 of a fruit transportation container capable of measuring the weight of fruit according to the present invention;

fig. 8 is a schematic structural view of a part B of fig. 1 of a fruit transportation container capable of measuring the weight of fruit according to the present invention.

In the figure: 100. a vehicle body; 101. a pull rod; 103. a placement chamber; 104. an equipment box; 105. feeding plates; 109. a first groove; 106. a second groove; 107. a vertical slot; 108. inserting a rod; 110. a drive rod; 111. a first chute; 112. a slide bar; 113. a sliding sleeve; 114. a baffle plate; 115. a spring; 116. a V-shaped rod; 117. a second chute; 118. a third chute; 120. a tension spring; 200. a container body; 201. a wheel; 202. a locking plate; 203. a jack; 300. a first scale body; 301. a second scale body; 302. a third scale body; 303. a fourth scale body; 304. a push rod; 305. a first I-shaped frame; 306. a second I-shaped frame; 307. a third I-shaped frame; 308. a fourth I-shaped frame; 309. a first support plate; 310. a first sensor body; 311. a second support plate; 312. a second sensor body; 313. a third support plate; 314. a third sensor body; 315. a fourth support plate; 316. a fourth sensor body; 317. a distribution box.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-8, a fruit transportation container capable of measuring the weight of fruits, comprising a vehicle body 100 and a container body 200 arranged above the vehicle body 100, wherein an equipment box 104 is arranged at the bottom of the vehicle body 100, a placing cavity 103 is arranged at the top of the vehicle body 100, a plurality of groups of weighing devices are arranged in the placing cavity 103, gaps are arranged among the weighing devices, a wheel 201 is arranged at the bottom of the container body 200, the wheel 201 comprises a front wheel and a rear wheel, each group of weighing devices comprises two weighing units corresponding to the front wheel and the rear wheel, a locking mechanism is arranged in the equipment box 104, when the container body 200 moves in the placing cavity 103 and the front wheel and the rear wheel are synchronously pressed on the two weighing units, the locking mechanism is used for limiting the movement of the container body 200, after the weighing is completed, the locking mechanism is unlocked and is locked again when the container body 200 moves to the adjacent weighing devices, a main wheel 201 structure is arranged at the bottom of the vehicle body 100, the top of the vehicle body 100 is provided with a pull rod 101, the tail of the vehicle body 100 is detachably connected with a feeding plate 105, fruits are prevented from being in the container body 200, the container body 200 is pushed to enter a placing cavity 103 in the top of the vehicle body 100 along with the feeding plate 105, at the moment, a front wheel and a rear wheel at the bottom of the container body 200 are pressed on a first group of weighing devices, so that the weight of the container body 200 is obtained for the first time, in order to ensure that the container body 200 is completely arranged on the weighing devices, the container body 200 is locked through a locking mechanism, when the container body 200 is positioned on the first group of weighing devices, the locking mechanism is automatically locked, and the advantage of the arrangement is that a plurality of groups of weighing devices can be installed on a limited bearing platform, a gap is reserved between adjacent weighing devices for placing the front wheel and the rear wheel of the container body 200, the independence of each measurement is ensured, and the first measurement is completed; the locking mechanism is unlocked, the front wheel and the rear wheel at the bottom of the container body 200 are pressed on the next weighing device, the locking mechanism is locked again, the overall weight of the container body 200 can be obtained for multiple times, multiple groups of numerical values are compared after the numerical values of multiple times of weight are obtained, whether the multiple numerical values are equal or not is judged, the problem that the precision of the weighing device is reduced and cannot be found due to the fact that the weighing devices are used in large quantities is solved, the numerical values of the multiple groups of weighing devices are compared, the damaged weighing devices can be found visually, after the last group of weighing is completed, the container body 200 can be moved to the tail end of the placing cavity 103, the container body 200 is locked through the locking mechanism for transportation at the moment, the transportation state is that the container body 200 is not in contact with the weighing devices, and the phenomenon that the precision of the weighing device is damaged due to long-time pressing during transportation is avoided.

Referring to fig. 1-8, a fruit transportation container capable of measuring the weight of fruits, comprising a vehicle body 100 and a container body 200 arranged above the vehicle body 100, wherein an equipment box 104 is arranged at the bottom of the vehicle body 100, a placing cavity 103 is arranged at the top of the vehicle body 100, a plurality of groups of weighing devices are arranged in the placing cavity 103, gaps are arranged among the weighing devices, wheels 201 are arranged at the bottom of the container body 200, each wheel 201 comprises a front wheel and a rear wheel, each group of weighing devices comprises two weighing units corresponding to the front wheel and the rear wheel, a locking mechanism is arranged in the equipment box 104, when the container body 200 moves in the placing cavity 103 and the front wheel and the rear wheel are synchronously pressed on the two weighing units, the locking mechanism is used for limiting the movement of the container body 200, after the weighing is completed, the locking mechanism is unlocked and is locked again when the container body 200 moves to the adjacent weighing devices, a main wheel 201 structure is arranged at the bottom of the vehicle body 100, the top of the vehicle body 100 is provided with a pull rod 101, the tail of the vehicle body 100 is detachably connected with a feeding plate 105, fruits are prevented from being in the container body 200, the container body 200 is pushed to enter a placing cavity 103 in the top of the vehicle body 100 along with the feeding plate 105, at the moment, a front wheel and a rear wheel at the bottom of the container body 200 are pressed on a first group of weighing devices, so that the weight of the container body 200 is obtained for the first time, in order to ensure that the container body 200 is completely on the weighing devices, the container body 200 is locked through a locking mechanism, and when the container body 200 is positioned on the first group of weighing devices, the locking mechanism is automatically locked, so that the advantage of the arrangement is that a plurality of groups of weighing devices can be installed on a limited bearing platform, a gap is reserved between adjacent weighing devices for placing the front wheel and the rear wheel of the container body 200, the independence of each measurement is ensured, and after the initial measurement is completed; the locking mechanism is unlocked, the front wheel and the rear wheel at the bottom of the container body 200 are pressed on the next weighing device group, the locking mechanism is locked again, so that the overall weight of the container body 200 can be obtained for multiple times, multiple groups of numerical values are compared after the numerical values of the multiple weights are obtained, whether the multiple numerical values are equal or not is judged, the problem that the precision of the weighing device is reduced and cannot be found due to the fact that the weighing devices are used in large quantities is solved, the numerical values of the multiple groups of weighing devices are compared, the damaged weighing device can be found visually, after the last group of weighing is completed, the container body 200 can be moved to the tail end of the placing cavity 103, and at the moment, the locking mechanism is used for locking and transporting, the transportation state is that the container body 200 is not in contact with the weighing device, and the phenomenon that the precision of the weighing device is damaged due to long-time pressing on the weighing device during transportation is avoided, and a preferable embodiment of the invention is as follows: the weighing device comprises a first weighing device body 300, a second weighing device body 301, a third weighing device body 302 and a fourth weighing device body 303, wherein the first weighing device body 300, the second weighing device body 301, the third weighing device body 302 and the fourth weighing device body 303 respectively comprise two weighing rods which are equidistant to the front wheels and the rear wheels, the weighing rods are arranged with the vehicle body 100 in a sliding manner, and a push rod 304 is arranged at the bottom of each weighing rod; the end of a push rod 304 at the bottom of the first weighing device body 300 is provided with a first I-shaped frame 305, the end of a push rod 304 at the bottom of the second weighing device body 301 is provided with a second I-shaped frame 306, the end of a push rod 304 at the bottom of the third weighing device body 302 is provided with a third I-shaped frame 307, the end of a push rod 304 at the bottom of the fourth weighing device body 303 is provided with a fourth I-shaped frame 308, weighing sensors are arranged at the bottoms of the centers of the first I-shaped frame 305, the second I-shaped frame 306, the third I-shaped frame 307 and the fourth I-shaped frame 308, the first I-shaped frame 305, the second I-shaped frame 306, the third I-shaped frame 307 and the fourth I-shaped frame 308 are sequentially arranged from bottom to top, and are not mutually influenced by moving up and down.

Referring to fig. 1-8, a fruit transportation container capable of measuring the weight of fruits, comprising a vehicle body 100 and a container body 200 arranged above the vehicle body 100, wherein an equipment box 104 is arranged at the bottom of the vehicle body 100, a placing cavity 103 is arranged at the top of the vehicle body 100, a plurality of groups of weighing devices are arranged in the placing cavity 103, gaps are arranged among the weighing devices, wheels 201 are arranged at the bottom of the container body 200, each wheel 201 comprises a front wheel and a rear wheel, each group of weighing devices comprises two weighing units corresponding to the front wheel and the rear wheel, a locking mechanism is arranged in the equipment box 104, when the container body 200 moves in the placing cavity 103 and the front wheel and the rear wheel are synchronously pressed on the two weighing units, the locking mechanism is used for limiting the movement of the container body 200, after the weighing is completed, the locking mechanism is unlocked and is locked again when the container body 200 moves to the adjacent weighing devices, a main wheel 201 structure is arranged at the bottom of the vehicle body 100, the top of the vehicle body 100 is provided with a pull rod 101, the tail of the vehicle body 100 is detachably connected with a feeding plate 105, fruits are prevented from being in the container body 200, the container body 200 is pushed to enter a placing cavity 103 in the top of the vehicle body 100 along with the feeding plate 105, at the moment, a front wheel and a rear wheel at the bottom of the container body 200 are pressed on a first group of weighing devices, so that the weight of the container body 200 is obtained for the first time, in order to ensure that the container body 200 is completely arranged on the weighing devices, the container body 200 is locked through a locking mechanism, when the container body 200 is positioned on the first group of weighing devices, the locking mechanism is automatically locked, and the advantage of the arrangement is that a plurality of groups of weighing devices can be installed on a limited bearing platform, a gap is reserved between adjacent weighing devices for placing the front wheel and the rear wheel of the container body 200, the independence of each measurement is ensured, and the first measurement is completed; the locking mechanism is unlocked, the front wheel and the rear wheel at the bottom of the container body 200 are pressed on the next weighing device group, the locking mechanism is locked again, so that the overall weight of the container body 200 can be obtained for multiple times, multiple groups of numerical values are compared after the numerical values of the multiple weights are obtained, whether the multiple numerical values are equal or not is judged, the problem that the precision of the weighing device is reduced and cannot be found due to the fact that the weighing devices are used in large quantities is solved, the numerical values of the multiple groups of weighing devices are compared, the damaged weighing device can be found visually, after the last group of weighing is completed, the container body 200 can be moved to the tail end of the placing cavity 103, and at the moment, the locking mechanism is used for locking and transporting, the transportation state is that the container body 200 is not in contact with the weighing device, and the phenomenon that the precision of the weighing device is damaged due to long-time pressing on the weighing device during transportation is avoided, and a preferable embodiment of the invention is as follows: a first supporting plate 309 is arranged in the equipment box 104 and at the bottom of the first I-shaped frame 305; a second support plate 311 is arranged between the first I-shaped frame 305 and the second I-shaped frame 306; a third support plate 313 is arranged between the second I-shaped frame 306 and the third I-shaped frame 307; a fourth supporting plate 315 is arranged between the third I-shaped frame 307 and the fourth I-shaped frame 308; the weighing sensor comprises a first sensor body 310 which is arranged on the top of the first supporting plate 309 and the output end of the first sensor body is abutted against the first I-shaped frame 305; a second sensor body 312 mounted on the second support plate 311 and having an output end abutting against the second i-shaped frame 306; a third sensor body 314 mounted on the third support plate 313 and having an output end abutting against the third i-shaped frame 307; a fourth sensor body 316 mounted on the fourth support plate 315 and having an output end abutting against the fourth i-shaped frame 308; the distribution box 317 is installed in the equipment box 104, the distribution box 317 is electrically connected with the first sensor body 310, the second sensor body 312, the third sensor body 314 and the fourth sensor body 316, when the front wheels and the rear wheels at the bottom of the container body 200 are simultaneously pressed on the weighing rod, the insertion hole 203 of the locking plate 202 at the bottom of the container body 200 is just located at the position of the insertion rod 108 to realize locking, and the sensors are pressed downwards along with the I-shaped frame to finish weight collection.

Referring to fig. 1-8, a fruit transportation container capable of measuring the weight of fruits, comprising a vehicle body 100 and a container body 200 arranged above the vehicle body 100, wherein an equipment box 104 is arranged at the bottom of the vehicle body 100, a placing cavity 103 is arranged at the top of the vehicle body 100, a plurality of groups of weighing devices are arranged in the placing cavity 103, gaps are arranged among the weighing devices, wheels 201 are arranged at the bottom of the container body 200, each wheel 201 comprises a front wheel and a rear wheel, each group of weighing devices comprises two weighing units corresponding to the front wheel and the rear wheel, a locking mechanism is arranged in the equipment box 104, when the container body 200 moves in the placing cavity 103 and the front wheel and the rear wheel are synchronously pressed on the two weighing units, the locking mechanism is used for limiting the movement of the container body 200, after the weighing is completed, the locking mechanism is unlocked and is locked again when the container body 200 moves to the adjacent weighing devices, a main wheel 201 structure is arranged at the bottom of the vehicle body 100, the top of the vehicle body 100 is provided with a pull rod 101, the tail of the vehicle body 100 is detachably connected with a feeding plate 105, fruits are prevented from being in the container body 200, the container body 200 is pushed to enter a placing cavity 103 in the top of the vehicle body 100 along with the feeding plate 105, at the moment, a front wheel and a rear wheel at the bottom of the container body 200 are pressed on a first group of weighing devices, so that the weight of the container body 200 is obtained for the first time, in order to ensure that the container body 200 is completely arranged on the weighing devices, the container body 200 is locked through a locking mechanism, when the container body 200 is positioned on the first group of weighing devices, the locking mechanism is automatically locked, and the advantage of the arrangement is that a plurality of groups of weighing devices can be installed on a limited bearing platform, a gap is reserved between adjacent weighing devices for placing the front wheel and the rear wheel of the container body 200, the independence of each measurement is ensured, and the first measurement is completed; the locking mechanism is unlocked, the front wheel and the rear wheel at the bottom of the container body 200 are pressed on the next weighing device group, the locking mechanism is locked again, so that the overall weight of the container body 200 can be obtained for multiple times, multiple groups of numerical values are compared after the numerical values of the multiple weights are obtained, whether the multiple numerical values are equal or not is judged, the problem that the precision of the weighing device is reduced and cannot be found due to the fact that the weighing devices are used in large quantities is solved, the numerical values of the multiple groups of weighing devices are compared, the damaged weighing device can be found visually, after the last group of weighing is completed, the container body 200 can be moved to the tail end of the placing cavity 103, and at the moment, the locking mechanism is used for locking and transporting, the transportation state is that the container body 200 is not in contact with the weighing device, and the phenomenon that the precision of the weighing device is damaged due to long-time pressing on the weighing device during transportation is avoided, and a preferable embodiment of the invention is as follows: the vehicle body 100 is provided with a first groove 109, a second groove 106, and a vertical groove 107 communicating with the second groove 106, the locking mechanism includes a driving rod 110 rotatably disposed in the first groove 109, a sliding sleeve 113 is fixedly connected in the equipment box 104, a sliding rod 112 is slidably connected in the sliding sleeve 113, one end of the sliding rod 112 penetrates through a side wall of the equipment box 104 and extends outward, an extending end of the sliding rod 112 is connected with a bottom of the driving rod 110, a V-shaped rod 116 is rotatably connected in the second groove 106, an insertion rod 108 is slidably connected in the vertical groove 107, one end of the V-shaped rod 116 is connected with the insertion rod 108, and the other end is connected with the sliding rod 112, the bottom of the container body 200 is provided with a locking plate 202, a guide surface is provided in the advancing direction of the container body 200, the bottom of the locking plate 202 is provided with a plurality of insertion holes 203 corresponding to the insertion rods 108 at equal intervals, as shown in fig. 1, 7 and 8, this embodiment does not limit the locking mechanism, other mechanisms capable of locking the container body 200 can be applied to the present invention, the working principle is explained by pulling the driving the sliding rod 110, the sliding rod 112 drives the sliding rod 112 to slide in the sliding sleeve 108 in the sliding sleeve 112 in the sliding rod 112, the sliding sleeve 112, the sliding rod 112, the insertion hole 106 is provided in the guide surface, and the sliding rod 116, and the sliding sleeve 116 is automatically, and the sliding rod 116 is provided in the sliding rod 116, and the sliding sleeve 116, and the sliding rod 112, and the sliding sleeve 116 is automatically moves up direction of the sliding rod 116.

Referring to fig. 1-8, a fruit transportation container capable of measuring the weight of fruits, comprising a vehicle body 100 and a container body 200 arranged above the vehicle body 100, wherein an equipment box 104 is arranged at the bottom of the vehicle body 100, a placing cavity 103 is arranged at the top of the vehicle body 100, a plurality of groups of weighing devices are arranged in the placing cavity 103, gaps are arranged among the weighing devices, wheels 201 are arranged at the bottom of the container body 200, each wheel 201 comprises a front wheel and a rear wheel, each group of weighing devices comprises two weighing units corresponding to the front wheel and the rear wheel, a locking mechanism is arranged in the equipment box 104, when the container body 200 moves in the placing cavity 103 and the front wheel and the rear wheel are synchronously pressed on the two weighing units, the locking mechanism is used for limiting the movement of the container body 200, after the weighing is completed, the locking mechanism is unlocked and is locked again when the container body 200 moves to the adjacent weighing devices, a main wheel 201 structure is arranged at the bottom of the vehicle body 100, the top of the vehicle body 100 is provided with a pull rod 101, the tail of the vehicle body 100 is detachably connected with a feeding plate 105, fruits are prevented from being in the container body 200, the container body 200 is pushed to enter a placing cavity 103 in the top of the vehicle body 100 along with the feeding plate 105, at the moment, a front wheel and a rear wheel at the bottom of the container body 200 are pressed on a first group of weighing devices, so that the weight of the container body 200 is obtained for the first time, in order to ensure that the container body 200 is completely arranged on the weighing devices, the container body 200 is locked through a locking mechanism, when the container body 200 is positioned on the first group of weighing devices, the locking mechanism is automatically locked, and the advantage of the arrangement is that a plurality of groups of weighing devices can be installed on a limited bearing platform, a gap is reserved between adjacent weighing devices for placing the front wheel and the rear wheel of the container body 200, the independence of each measurement is ensured, and the first measurement is completed; the locking mechanism is unlocked, the front wheel and the rear wheel at the bottom of the container body 200 are pressed on the next weighing device group, the locking mechanism is locked again, so that the overall weight of the container body 200 can be obtained for multiple times, multiple groups of numerical values are compared after the numerical values of the multiple weights are obtained, whether the multiple numerical values are equal or not is judged, the problem that the precision of the weighing device is reduced and cannot be found due to the fact that the weighing devices are used in large quantities is solved, the numerical values of the multiple groups of weighing devices are compared, the damaged weighing device can be found visually, after the last group of weighing is completed, the container body 200 can be moved to the tail end of the placing cavity 103, and at the moment, the locking mechanism is used for locking and transporting, the transportation state is that the container body 200 is not in contact with the weighing device, and the phenomenon that the precision of the weighing device is damaged due to long-time pressing on the weighing device during transportation is avoided, and a preferable embodiment of the invention is as follows: the bottom of the driving rod 110 is provided with a first chute 111, the sliding rod 112 is provided with a first pin shaft, the first pin shaft is movably connected in the first chute 111, one end of the V-shaped rod 116 is provided with a second chute 117, the other end of the V-shaped rod is provided with a third chute 118, the sliding rod 112 is connected with a second pin shaft movably connected in the second chute 117, and the inserted link 108 is provided with a third pin shaft movably connected in the third chute 118.

Alternatively, referring to fig. 1-8, a preferred embodiment of the present invention: a tension spring 120 is connected between the outer wall of the placing cavity 103 and the driving rod 110.

Alternatively, referring to fig. 1-8, a preferred embodiment of the present invention: the sliding rod 112 is fixedly connected with a baffle 114, the sliding rod 112 is sleeved with a spring 115, and two ends of the spring 115 respectively abut against the sliding sleeve 113 and the baffle 114.

Referring to fig. 1 to 8, a preferred embodiment of the present invention: the number of the insertion holes 203 is five, and when the insertion rod 108 is inserted into the insertion hole 203 of the tip, the front and rear wheels are separated from the scale.

A method for using a fruit transport container capable of measuring the weight of fruit comprises the following steps: firstly, fruits are prevented from being in the container body 200, and the container is pushed into the placing cavity 103 on the top of the vehicle body 100; when the front wheel and the rear wheel at the bottom of the container body 200 are pressed on the first group of weighing devices, the locking mechanism locks the container body 200 to obtain the integral weight of the container body 200 for the first time; the locking mechanism is unlocked, when the front wheel and the rear wheel at the bottom of the container body 200 are pressed on the next group of weighing devices, the locking mechanism is locked again, and the whole weight of the container body 200 is obtained twice; the weights of the container bodies 200 obtained a plurality of times are compared to determine whether the values are equal.

According to the invention, fruits are prevented from being in the container body 200, the container body 200 is pushed to enter the placing cavity 103 at the top of the vehicle body 100 along with the feeding plate 105, at the moment, the front wheel and the rear wheel at the bottom of the container body 200 are pressed on the first group of weighing devices, so that the weight of the container body 200 is obtained for the first time, in order to ensure that the container body 200 is completely on the weighing devices, the container body 200 is locked through the locking mechanism, and when the container body 200 is positioned on the first group of weighing devices, the locking mechanism is automatically locked, so that the advantage that a plurality of groups of weighing devices can be installed on a limited bearing platform, a gap is reserved between the adjacent weighing devices for placing the front wheel and the rear wheel of the container body 200, the independence of each measurement is ensured, and after the initial measurement is completed; the locking mechanism is unlocked, the front wheel and the rear wheel at the bottom of the container body 200 are pressed on the next weighing device, the locking mechanism is locked again, the whole weight of the container body 200 can be obtained for multiple times, multiple groups of values are compared after the values of multiple times of weight are obtained, whether the multiple values are equal or not is judged, the problem that the precision of the weighing device is reduced and cannot be found due to the fact that the weighing devices are used in large quantities is solved, the values of the multiple groups of weighing devices are compared, the damaged weighing devices can be found visually, after the weighing of the last group is completed, the container body 200 can move to the tail end of the placing cavity 103, the container body 200 is locked through the locking mechanism for transportation at the moment, the transportation state is that the container body 200 is not in contact with the weighing devices, and the phenomenon that the precision of the weighing devices is damaged due to long-time pressing during transportation is avoided.

According to the invention, as a plurality of groups of weighing devices are arranged on a limited bearing platform, and a gap is reserved between adjacent weighing devices for placing the front wheel and the rear wheel of the container body 200, the independence of each measurement is ensured, the integral weight of the container body 200 is obtained for a plurality of times, and a plurality of groups of numerical values are compared after the numerical values of the weights are obtained for a plurality of times to judge whether the plurality of numerical values are equal, so that the problem that the precision of the weighing devices is reduced and the weighing devices cannot be found due to the large use of the weighing devices is solved, and the damaged weighing devices can be found visually by comparing the numerical values of the plurality of groups of weighing devices.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (8)

1. A fruit transportation container capable of measuring the weight of fruits comprises a vehicle body (100) and a container body (200) arranged above the vehicle body (100), and is characterized in that an equipment box (104) is installed at the bottom of the vehicle body (100), a placing cavity (103) is arranged at the top of the vehicle body (100), a plurality of groups of weighing machines are arranged in the placing cavity (103), gaps are reserved among the groups of weighing machines, wheels (201) are arranged at the bottom of the container body (200), each group of wheels (201) comprises a front wheel and a rear wheel, each group of weighing machines comprises two weighing units corresponding to the front wheel and the rear wheel, a locking mechanism is arranged in the equipment box (104), the container body (200) is moved in the placing cavity (103), and when the front wheel and the rear wheel are synchronously pressed on the two weighing units, the locking mechanism is used for limiting the movement of the container body (200), and after weighing is completed, the locking mechanism is unlocked and is locked next time when the container body (200) is moved to the adjacent weighing machines;

the weighing device comprises a first weighing device body (300), a second weighing device body (301), a third weighing device body (302) and a fourth weighing device body (303), wherein the first weighing device body (300), the second weighing device body (301), the third weighing device body (302) and the fourth weighing device body (303) respectively comprise two weighing rods which are equidistant to the front wheels and the rear wheels, the weighing rods are arranged with the vehicle body (100) in a sliding manner, and a push rod (304) is arranged at the bottom of each weighing rod;

the end of a push rod (304) at the bottom of the first weighing device body (300) is provided with a first I-shaped frame (305), the end of a push rod (304) at the bottom of the second weighing device body (301) is provided with a second I-shaped frame (306), the end of a push rod (304) at the bottom of the third weighing device body (302) is provided with a third I-shaped frame (307), the end of a push rod (304) at the bottom of the fourth weighing device body (303) is provided with a fourth I-shaped frame (308), and weighing sensors are arranged at the bottoms of the centers of the first I-shaped frame (305), the second I-shaped frame (306), the third I-shaped frame (307) and the fourth I-shaped frame (308);

a first supporting plate (309) is arranged in the equipment box (104) and positioned at the bottom of the first I-shaped frame (305);

a second support plate (311) is arranged between the first I-shaped frame (305) and the second I-shaped frame (306);

a third support plate (313) is arranged between the second I-shaped frame (306) and the third I-shaped frame (307);

a fourth supporting plate (315) is arranged between the third I-shaped frame (307) and the fourth I-shaped frame (308);

the weighing sensor comprises

The first sensor body (310) is arranged on the top of the first supporting plate (309) and the output end of the first sensor body is abutted against the first I-shaped frame (305);

the second sensor body (312) is arranged on the second supporting plate (311), and the output end of the second sensor body is abutted against the second I-shaped frame (306);

a third sensor body (314) which is arranged on the third supporting plate (313) and the output end of which is abutted against the third I-shaped frame (307);

a fourth sensor body (316) which is arranged on the fourth supporting plate (315) and the output end of which is abutted against the fourth I-shaped frame (308);

install block terminal (317) in equipment box (104), block terminal (317) with first sensor body (310), second sensor body (312), third sensor body (314) and fourth sensor body (316) electric connection.

2. Fruit transportation container of measurable quantity fruit weight according to claim 1, characterized in that, first recess (109), second recess (106) and vertical slot (107) that link up with second recess (106) have been seted up on automobile body (100), locking mechanism includes rotation setting up actuating lever (110) in first recess (109), fixedly connected with sliding sleeve (113) in equipment box (104), sliding sleeve (113) sliding connection has slide bar (112), slide bar (112) one end passes equipment box (104) lateral wall and outwards extends, slide bar (112) extension end with actuating lever (110) bottom is connected, second recess (106) internal rotation is connected with V-arrangement pole (116), vertical slot (107) sliding connection has inserted bar (108), V-arrangement pole (116) one end with inserted bar (108) is connected, the other end with slide bar (112) is connected, container body (200) bottom is equipped with locking board (202), container body (200)'s the direction of advance has a guiding surface, the bottom of locking board (202) is equipped with a plurality of corresponding jacks (108) with the equidistant inserted bar (203).

3. The fruit transportation container capable of measuring the weight of fruits according to claim 2, wherein a first sliding groove (111) is formed at the bottom of the driving rod (110), a first pin shaft is arranged on the sliding rod (112), the first pin shaft is movably connected in the first sliding groove (111), one end of the V-shaped rod (116) is provided with a second sliding groove (117), the other end of the V-shaped rod is provided with a third sliding groove (118), the sliding rod (112) is connected with a second pin shaft movably connected in the second sliding groove (117), and a third pin shaft movably connected in the third sliding groove (118) is arranged on the inserted rod (108).

4. Fruit transport container according to claim 3, wherein a tension spring (120) is connected between the outer wall of the placement chamber (103) and the drive rod (110).

5. Fruit transport container of measurable quantity fruit weight according to claim 3, characterized in that, be connected with baffle (114) on slide bar (112) fixedly, be connected with spring (115) on slide bar (112) the cover, spring (115) both ends respectively with sliding sleeve (113) and baffle (114) counterbalance.

6. Fruit transport container according to any one of claims 2-5, wherein the number of receptacles (203) is five and the front and rear wheels are separated from the scale when the insert rod (108) is inserted into the distal receptacle (203).

7. Fruit transport container capable of measuring the weight of fruit according to any one of claims 1 to 5, wherein the bottom of the vehicle body (100) is provided with a main wheel (201) structure, the top of the vehicle body (100) is provided with a pull rod (101), and the tail of the vehicle body (100) is detachably connected with a feeding plate (105).

8. A method of using a fruit shipping container comprising the measurable fruit weight of any one of claims 1-7, comprising the steps of:

the method comprises the following steps: firstly, fruits are prevented in a container body (200), and the container is pushed into a placing cavity (103) at the top of a vehicle body (100);

step two: when the front wheel and the rear wheel at the bottom of the container body (200) are pressed on the first group of weighing devices, the locking mechanism locks the container body (200) to obtain the whole weight of the container body (200) for the first time;

step three: the locking mechanism is unlocked, when the front wheel and the rear wheel at the bottom of the container body (200) are pressed on the next weighing device, the locking mechanism is locked again, and the whole weight of the container body (200) is obtained twice;

step four: the weights of the container bodies (200) obtained in multiple times are compared to judge whether the values are equal.

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