CN111210219B - Supermarket settlement device that weighs based on data identification - Google Patents

Abstract

The invention discloses a supermarket weighing and settlement device based on data identification, which comprises a shell, wherein a weighing cavity is arranged in the shell, a driving cavity is arranged in the left end wall of the weighing cavity, a power mechanism is arranged in the driving cavity, a driven cavity is arranged in the upper end wall of the driving cavity, a binding mechanism is arranged in the driven cavity, the right side of the binding mechanism is connected with a driven mechanism, a power cavity is arranged in the right end wall of the weighing cavity, a tightening mechanism is arranged in the power cavity, and a weighing mechanism is arranged in the weighing cavity, the shopping bag can be bound and sealed through the binding and sealing mechanism, so that the working efficiency is improved, and the time for queuing, weighing and settling the shopping bags by the customers with high labor intensity is reduced.

Description

Supermarket settlement device that weighs based on data identification

Technical Field

The invention relates to the technical field of data identification, in particular to a supermarket weighing and settlement device based on data identification.

Background

At present, when a supermarket purchases bulk snacks for weighing, the traditional mode is a manual weighing mode, customers select the snacks by themselves and then queue for weighing, waiters judge commodity types firstly and seal the snacks manually after confirming information, so that the labor intensity is high, the working time is long, the efficiency is low, the customers waste much time in queuing, the customers weigh in advance and pack the packages in the unmanned supermarket, the customers lack much selection rights, the packages are packaged in advance, the snacks can not be purchased well, a proper amount of commodities can not be selected according to the self needs, and the requirements of the customers for purchasing can not be well met.

Disclosure of Invention

The invention aims to provide a supermarket weighing and settlement device based on data identification, which is used for overcoming the defects.

The supermarket weighing and settlement device based on data identification comprises a shell, wherein a weighing cavity is formed in the shell, a driving cavity is formed in the left end wall of the weighing cavity, a power mechanism is arranged in the driving cavity, a driven cavity is formed in the upper end wall of the driving cavity, a binding mechanism is arranged in the driven cavity, the right side of the binding mechanism is connected with the driven mechanism, a power cavity is formed in the right end wall of the weighing cavity, a tightening mechanism is arranged in the power cavity, and a weighing mechanism is arranged in the weighing cavity;

the power mechanism comprises a driving cavity and a driven cavity which are communicated with each other and provided with a first sliding groove, a first motor is fixed on the rear end wall of the driving cavity, a power shaft is rotatably connected to the front end face of the first motor, a power friction wheel is fixedly arranged on the driven cavity, a driving belt wheel is fixed at the front end of the power shaft, and power for binding is provided through the power mechanism.

On the basis of the technical scheme, the inductor is embedded and arranged on the right end wall of the driving cavity, the rear end wall of the driving cavity is connected with two transmission shafts in a rotating mode through bilateral symmetry of the first motor, the rear end of each transmission shaft is fixed with a torsion spring fixed on the rear end wall of the driving cavity, a transmission friction wheel is fixedly arranged on each transmission shaft, the transmission friction wheel is located on the same vertical plane, a transmission belt wheel is fixed to the front end of each transmission shaft, and a V belt is connected between the transmission belt wheel and the driving belt wheel.

On the basis of the technical scheme, the binding and sealing mechanism comprises a driven cavity and a weighing cavity which are communicated with each other and provided with a second sliding chute, a push rod with the left end positioned in the driven cavity is connected in the second sliding groove in a sliding manner, a supporting arm positioned in the second sliding groove is fixed on the right end surface of the push rod, a connecting rod with the lower end penetrating through the first chute and the lower end positioned in the driving cavity is fixed on the left end surface of the push rod, a friction block which is engaged with the left transmission friction wheel and can be engaged with the power friction wheel and the right transmission friction wheel is fixed on the lower end surface of the connecting rod, a first spring fixed with the right end wall of the driven cavity is fixed on the right end face of the connecting rod, a moving block is connected with the lower end wall of the right side of the driven cavity in a sliding manner, and a second spring fixed with the right end wall of the driven cavity is fixed on the right end face of the moving block, and the moving block can be driven by the sealing mechanism to be sealed.

On the basis of the technical scheme, the driven mechanism comprises a third sliding groove with an upward opening in the upper end wall of the driven cavity, a sliding block is connected in the third sliding groove in a sliding manner, a third spring fixed with the left end wall of the third sliding groove is fixed on the left end face of the sliding block, a connecting shaft is connected to the right rear end wall of the third sliding groove in a rotating manner, a sealing cover with an end abutting against the left end wall of the third sliding groove is fixed on the connecting shaft, a fourth sliding groove with a lower end opening communicated with the third sliding groove and the second sliding groove is arranged in the right end wall of the third sliding groove, a push block is connected in the fourth sliding groove in a sliding manner, a fourth spring fixed with the upper end wall of the fourth sliding groove is fixed on the upper end face of the push block, the upper end of the push block penetrates through the upper end wall of the fourth sliding groove, and a connecting rope with an upper end face fixed on, and a needle for inserting the needle is arranged in the fourth sliding groove and positioned on the upper end surface of the supporting arm, and the needle is inserted progressively through the driven mechanism.

On the basis of the technical scheme, the tightening mechanism comprises a ring groove which is arranged in the inner wall of the weighing cavity and is communicated with the weighing cavity and the right end of the weighing cavity in a vertically symmetrical mode relative to the second sliding groove, a second motor is fixed on the lower end wall of the power cavity, the upper end face of the second motor is in power connection with a reel shaft, two reels are symmetrically arranged on the reel shaft relative to a connecting port of the ring groove and the power cavity, ten buckles are uniformly distributed in the ring groove in an annular array, a pressing block fixed on the inner wall of the ring groove is fixed on the end face, away from the weighing cavity, of the buckling ring, the lower end wall of the ring groove is in rotary connection with a limiting pin located at the connecting port of the ring groove and the power cavity, a positioning pin located on the front side of the limiting pin is in rotary connection with the lower end wall of the ring, a positioning ring is fixed on the positioning pin, the right The hauling rope is used for tightening the bundling belt through the tightening mechanism.

On the basis of the technical scheme, the weighing mechanism comprises a touch screen arranged on the right end face of the shell and a packaging bag arranged in the weighing cavity, a scanning identifier is embedded in the inner wall of the weighing cavity, a limiting groove which is on the same horizontal plane with the supporting arm and is communicated with the weighing cavity is arranged in the right end wall of the weighing cavity, a pressure groove communicated with the weighing cavity is arranged at the upper end of the limiting groove in a communicating manner, pressure sensors are fixed on the scanning identifier and the lower end wall of the weighing cavity in a bilateral symmetry manner, the pressure sensors are connected with a data line through the touch screen, a stress cavity is arranged in each pressure sensor, the outer wall of each stress cavity is connected with a sliding sleeve in a sliding manner, a sliding cavity communicated with the stress cavity is arranged in each sliding sleeve, a pressing block is fixed on the upper end face of each sliding sleeve, and a fifth spring with the upper end, and the weighing mechanism can automatically seal through data identification weighing settlement.

The invention has the beneficial effects that: according to the invention, a customer can selectively purchase bulk snack commodities according to the needs, so that the purchase demand of the customer is improved, the commodities in the shopping bag can be scanned and identified by the weighing mechanism during weighing, the commodity confirmation information is further sent to a customer mobile phone settlement bill for confirmation through data, and after the customer confirms that the customer settles out the account without error, the shopping bag can be bundled and sealed by the bundling mechanism, so that the working efficiency is improved, and the high labor intensity of workers and the time for queuing, weighing and settling of the customer are reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a supermarket weighing and settlement device based on data identification;

FIG. 2 is an enlarged view taken at A in FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of the invention at B of FIG. 1;

FIG. 4 is an enlarged view of FIG. 1 at C according to the present invention;

FIG. 5 is an enlarged view taken at D of FIG. 1 in accordance with the present invention;

FIG. 6 is a schematic view of the invention taken in the direction H-H in FIG. 5;

FIG. 7 is a schematic view of the invention taken along the line E-E in FIG. 1;

FIG. 8 is a schematic view of the invention taken along the line G-G of FIG. 1;

FIG. 9 is a schematic view of the invention taken along the direction F-F in FIG. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-9, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1 to 9, the supermarket weighing and settlement device based on data identification according to the embodiment of the invention includes a housing 10, a weighing cavity 29 is provided in the housing 10, a driving cavity 24 is provided in a left end wall of the weighing cavity 29, a power mechanism 70 is provided in the driving cavity 24, a driven cavity 23 is provided in an upper end wall of the driving cavity 24, a sealing mechanism 71 is provided in the driven cavity 23, a driven mechanism 72 is connected to a right side of the sealing mechanism 71, a power cavity 33 is provided in a right end wall of the weighing cavity 29, a tightening mechanism 73 is provided in the power cavity 33, a weighing mechanism 74 is provided in the weighing cavity 29, the power mechanism 70 includes a first chute 20 which is provided between the driving cavity 24 and the driven cavity 23, a first motor 40 is fixed to a rear end wall of the driving cavity 24, a power shaft 13 is rotatably connected to a front end face of the first motor 40, a power friction wheel 14 is fixed to the driven cavity, the front end of the power shaft 13 is fixed with a driving belt wheel 12, and the power mechanism 70 provides power for sealing.

In addition, in one embodiment, the inductor 63 is embedded in the right end wall of the driving cavity 24, the rear end wall of the driving cavity 24 is connected with two transmission shafts 15 in a bilateral symmetry manner relative to the first motor 40, the rear end of each transmission shaft 15 is fixed with a torsion spring 58 fixed to the rear end wall of the driving cavity 24, a transmission friction wheel 17 is fixedly arranged on each transmission shaft 15, the transmission friction wheel 17 and the power friction wheel 14 are located on the same vertical plane, a transmission belt pulley 16 is fixed to the front end of each transmission shaft 15, and a V-belt 11 is connected between the transmission belt pulley 16 and the driving belt pulley 12.

In addition, in one embodiment, the sealing mechanism 71 includes a second sliding groove 65 communicating the driven cavity 23 with the weighing cavity 29, a push rod 22 with a left end located in the driven cavity 23 is slidably connected in the second sliding groove 65, a bracket 46 located in the second sliding groove 65 is fixed on a right end face of the push rod 22, a connecting rod 19 with a lower end penetrating through the first sliding groove 20 and a lower end located in the driving cavity 24 is fixed on a left end face of the push rod 22, a friction block 18 engaged with the left side transmission friction wheel 17 and engaged with the power friction wheel 14 and the right side transmission friction wheel 17 is fixed on a lower end face of the connecting rod 19, a first spring 21 fixed on a right end wall of the driven cavity 23 is fixed on a right end face of the connecting rod 19, a moving block 25 is slidably connected on a right lower end wall of the driven cavity 23, a second spring 27 fixed on a right end wall of the driven cavity 23 is fixed on a right end face of the moving block 25, the sealing mechanism 71 is driven to perform sealing.

In addition, in one embodiment, the driven mechanism 72 includes a third sliding slot 39 with an upward opening in the upper end wall of the driven cavity 23, a sliding block 62 is slidably connected in the third sliding slot 39, a third spring 38 fixed to the left end wall of the third sliding slot 39 is fixed to the left end surface of the sliding block 62, a connecting shaft 41 is rotatably connected to the right rear end wall of the third sliding slot 39, a sealing cover 37 with an end abutting against the left end wall of the third sliding slot 39 is fixed to the connecting shaft 41, a fourth sliding slot 42 with a lower end opening communicating with the third sliding slot 39 and the second sliding slot 65 is arranged in the right end wall of the third sliding slot 39, a pushing block 44 is slidably connected to the fourth sliding slot 42, a fourth spring 43 fixed to the upper end wall of the fourth sliding slot 42 is fixed to the upper end surface of the pushing block 44, the upper end of the pushing block 44 penetrates through the upper end wall of the fourth sliding slot 42, and the upper end of the connecting rope 26 is located in the driven cavity 23, a needle 45 for inserting the needle is arranged in the fourth sliding groove 42 and positioned on the upper end surface of the bracket arm 46, and the needle is inserted progressively through the driven mechanism 72.

In addition, in one embodiment, the tightening mechanism 73 includes a ring groove 47, which is disposed in the inner wall of the weighing cavity 29 and is vertically symmetrical with respect to the second sliding slot 65, and communicates with the weighing cavity 29, and the right end of which communicates with the power cavity 33, the lower end wall of the power cavity 33 is fixed with the second motor 34, the upper end surface of the second motor 34 is dynamically connected with the reel shaft 30, two reels 31 are symmetrically disposed on the reel shaft 30 with respect to the connection port between the ring groove 47 and the power cavity 33, ten retaining rings 48 are uniformly distributed in the ring groove 47 in an annular array, a pressing block 50 fixed with the inner wall of the ring groove 47 is fixed on the end surface of the retaining ring 48 away from the weighing cavity 29, the lower end wall of the ring groove 47 is rotatably connected with a limit pin 59 located at the connection port between the ring groove 47 and the power cavity 33, and a positioning pin 60 located in front of the limit, a positioning ring 61 is fixed on the positioning pin 60, a traction rope 32 with the right end penetrating through the retaining ring 48 and externally winding the limiting pin 59 and the reel 31 is fixed on the positioning ring 61, and the bundling tape can be tightened through the tightening mechanism 73.

In addition, in one embodiment, the weighing mechanism 74 includes a touch screen 35 disposed on the right end face of the housing 10 and the packaging bag 28 disposed in the weighing cavity 29, a scanning identifier 64 is embedded in the inner wall of the weighing cavity 29, a limiting groove 57 is disposed in the right end wall of the weighing cavity 29 and is in the same horizontal plane as the supporting arm 46 and is communicated with the weighing cavity 29, a pressure groove 56 communicated with the weighing cavity 29 is disposed at the upper end of the limiting groove 57, pressure sensors 55 are symmetrically fixed on the left and right sides of the lower end walls of the scanning identifier 64 and the weighing cavity 29, the pressure sensors 55 and the touch screen 35 are connected with a data line 36, a stress cavity 53 is disposed in the pressure sensor 55, a sliding sleeve 52 is slidably connected to the outer wall of the stress cavity 53, a sliding cavity 51 communicated with the stress cavity 53 is disposed in the sliding sleeve 52, a pressing block 50 is fixed on the upper end face, the fifth spring 54 with the upper end fixed with the upper end wall of the sliding cavity 51 is fixed on the lower end wall of the stress cavity 53, and the fifth spring can be automatically sealed with the weighing mechanism 74 through data identification weighing and settlement.

Sequence of mechanical actions of the whole device:

in an initial state, the first spring 21, the second spring 27, the fourth spring 43, the pressing block 50, the fifth spring 54 and the torsion spring 58 are in a relaxed state, the third spring 38 is in a compressed state, the connecting rod 19 is positioned at the leftmost side of the first chute 20, the friction block 18 can be engaged with the power friction wheel 14 when disengaged from the left transmission friction wheel 17 and can be engaged with the right transmission friction wheel 17 when disengaged from the power friction wheel 14, the friction block 18 and the inductor 63 are positioned on the same horizontal line, the second motor 34 and the first motor 40 can rotate after stopping, the second motor 34 and the first motor 40 are in data connection with the touch screen 35, the third chute 39 is filled with the buckling pins 45, the pushing block 44 blocks the buckling pins 45 filled in the third chute 39, the fourth chute 42 and the second chute 65 connecting port, and the size of the fourth chute 42 and the second chute 65 connecting port is the horizontal width of the buckling pins 45, the bracket arm 46 pushes only one needle 45 to move at a time and the push rod 22 can isolate the fourth chute 42 from the snap ring 48.

When bulk snacks are selected and weighed, the required bulk snacks are bagged in the weighing cavity 29 through the packaging bag 28, the pressing block 50 moves downwards under the action of gravity, the scanning identifier 64 scans and identifies bulk snack commodities in the packaging bag 28, the bulk snack commodities are fed back to the touch screen 35 through the data line 36, the data identification of the mobile phone and the touch screen 35 is provided on the mobile phone for confirmation, the pressing block 50 moves downwards to enable the stress cavity 53 to slide downwards on the outer wall of the pressure sensor 55 to compress the fifth spring 54, the weight detected by the pressure sensor 55 is transmitted to the touch screen 35 through the data line 36 for display, the snacks in the packaging bag 28 are scanned, detected and classified through the scanning identifier 64 and then transmitted into the touch screen 35, the selected snacks are scanned and identified through the mobile phone aiming at the touch screen 35 for confirmation, and then purchase and payment are confirmed, after payment is successfully paid out, the second motor 34 and the first motor 40 are started, the fourth spring 43 drives the reel 31 to rotate through the power cavity 33, the traction rope 32 further drives the torsion spring 58 through the retaining ring 48 to tighten the sealing position of the packaging bag 28, the first motor 40 drives the power friction wheel 14 and the driving pulley 12 to rotate through the power shaft 13, the driving pulley 16 is driven to rotate through the V belt 11, the driving friction wheel 17 and the torsion spring 58 are driven to rotate through the driving shaft 15, the driving friction wheel 17 on the left side drives the friction block 18 to push the push rod 22 to move rightwards through the connecting rod 19, the push rod 22 is meshed with the power friction wheel 14 when being disengaged from the left driving friction wheel 17, the friction block 18 is disengaged from the power friction wheel 14 to be meshed with the right driving friction wheel 17, the push rod 22 drives the buckling needle 45 to move rightwards through the supporting arm 46 to the limiting groove 57, and the buckling groove 56 of the buckling needle 45 is deformed, therefore, the packaging bag 28 is sealed and pricked, and when the friction block 18 drives the connecting rod 19 to move to the rightmost side of the driven cavity 23, the connecting rod 19 pushes the connecting rope 26 to compress the second spring 27, the push block 44 is further enabled to compress the fourth spring 43 to move upwards through the connecting rope 26, the push block 44 is further disengaged from the pricking pin 45 fully filled in the third sliding chute 39 in a butting mode, the slide block 62 is further enabled to push the pricking pin 45 inward in the third sliding chute 39 to move right to be in contact with the right end wall of the fourth sliding chute 42 under the action force of the third spring 38, when the friction block 18 moves to be in contact with the right end wall of the driving cavity 24 and the embedded inductor 63, the second motor 34 and the first motor 40 are stopped to be started, the connecting rod 19 is further pushed under the action force of the first spring 21 to drive the movable friction block 18 to return to the initial position, the connecting rod 19 is disengaged from the pushing movable block 25, and the push block 44 pushes the pricking pin 45 located in the connecting port between the fourth sliding chute 42 and the second sliding chute 65 downward under the action force When the pulling rope 32 is under the action of the sixth spring 66 on the retaining ring 48, the sixth spring 66 pulls the pulling rope 32 back into the annular groove 47 through the retaining ring 48, and the next operation is waited.

The invention has the beneficial effects that: according to the invention, a customer can selectively purchase bulk snack commodities according to the needs, so that the purchase demand of the customer is improved, the commodities in the shopping bag can be scanned and identified by the weighing mechanism during weighing, the commodity confirmation information is further sent to a customer mobile phone settlement bill for confirmation through data, and after the customer confirms that the customer settles out the account without error, the shopping bag can be bundled and sealed by the bundling mechanism, so that the working efficiency is improved, and the high labor intensity of workers and the time for queuing, weighing and settling of the customer are reduced.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (1)

1. The utility model provides a supermarket settlement device that weighs based on data identification, includes the casing, its characterized in that: a weighing cavity is arranged in the shell, a driving cavity is arranged in the left end wall of the weighing cavity, a power mechanism is arranged in the driving cavity, a driven cavity is arranged in the upper end wall of the driving cavity, a binding mechanism is arranged in the driven cavity, the right side of the binding mechanism is connected with the driven mechanism, a power cavity is arranged in the right end wall of the weighing cavity, a tightening mechanism is arranged in the power cavity, and a weighing mechanism is arranged in the weighing cavity; the power mechanism comprises a driving cavity and a driven cavity which are communicated with each other and provided with a first sliding chute, a first motor is fixed on the rear end wall of the driving cavity, the front end face of the first motor is rotatably connected with a power shaft, a power friction wheel is fixedly arranged on the driven cavity, a driving belt wheel is fixed at the front end of the power shaft, and power for binding and sealing is provided through the power mechanism; an inductor is embedded in the right end wall of the driving cavity, the rear end wall of the driving cavity is connected with two transmission shafts in a bilateral symmetry rotation mode relative to the first motor, a torsion spring fixed with the rear end wall of the driving cavity is fixed at the rear end of each transmission shaft, a transmission friction wheel is fixedly arranged on each transmission shaft, the transmission friction wheel and the power friction wheel are located on the same vertical plane, a transmission belt wheel is fixed at the front end of each transmission shaft, and a V belt is connected between the two transmission belt wheels and the driving belt wheel; the pricking mechanism comprises a driven cavity and a weighing cavity which are communicated and provided with a second sliding groove, a push rod with the left end positioned in the driven cavity is connected in the second sliding groove in a sliding mode, a supporting arm positioned in the second sliding groove is fixed on the right end face of the push rod, a connecting rod with the lower end penetrating through the first sliding groove and the lower end positioned in the driving cavity is fixed on the left end face of the push rod, a friction block which is meshed with the transmission friction wheel on the left side and can be meshed with the power friction wheel and the transmission friction wheel on the right side is fixed on the lower end face of the connecting rod, a first spring fixed on the right end wall of the driven cavity is fixed on the right end face of the connecting rod, a moving block is connected on the lower end wall of the right side of the driven cavity in a sliding mode, a second spring fixed on the right end face of the moving block and fixed on; the driven mechanism comprises a third sliding groove with an upward opening in the upper end wall of the driven cavity, a sliding block is connected in the third sliding groove in a sliding manner, a third spring fixed with the left end wall of the third sliding groove is fixed on the left end face of the sliding block, a connecting shaft is connected with the right rear end wall of the third sliding groove in a rotating manner, a sealing cover with an end abutted against the left end wall of the third sliding groove is fixed on the connecting shaft, a fourth sliding groove with a lower end opening communicated with the third sliding groove and the second sliding groove is arranged in the right end wall of the third sliding groove, a push block is connected in the fourth sliding groove in a sliding manner, a fourth spring fixed with the upper end wall of the fourth sliding groove is fixed on the upper end face of the push block, the upper end of the push block penetrates through the upper end wall of the fourth sliding groove, the upper end of the push block is positioned in the driven cavity, a connecting rope fixed on the upper end face of the connecting rope is, the driven mechanism is used for progressively inserting needles; the tightening mechanism comprises a ring groove which is arranged in the inner wall of the weighing cavity and is communicated with the weighing cavity and the power cavity at the right end, the ring groove is vertically and symmetrically arranged in the inner wall of the weighing cavity relative to the second chute, a second motor is fixed on the lower end wall of the power cavity, the upper end face of the second motor is in power connection with a reel shaft, two reels are symmetrically arranged on the reel shaft relative to the joint of the ring groove and the power cavity, ten buckles are uniformly distributed in the ring groove in an annular array, a pressing block fixed with the inner wall of the ring groove is fixed on the end face of the buckle far away from the weighing cavity, a limiting pin located at the joint of the ring groove and the power cavity is rotationally connected with the lower end wall of the ring groove, a positioning pin located in front of the limiting pin is rotationally connected with the lower end wall of the ring groove, a positioning ring is fixed on the positioning pin, and a, the binding belt can be tightened through the tightening mechanism; the weighing mechanism comprises a touch screen arranged on the right end face of the shell and a packaging bag arranged in the weighing cavity, a scanning identifier is embedded in the inner wall of the weighing cavity, a limit groove which is on the same horizontal plane with the support arm and is communicated with the weighing cavity is arranged in the right end wall of the weighing cavity, the upper end of the limiting groove is communicated with a pressure groove communicated with the weighing cavity, pressure sensors are symmetrically fixed on the scanning identifier and the lower end wall of the weighing cavity in a left-right mode, the pressure sensor and the touch screen are connected with a data line, a stress cavity is arranged in the pressure sensor, the outer wall of the stress cavity is connected with a sliding sleeve in a sliding way, a sliding cavity communicated with the stress cavity is arranged in the sliding sleeve, the upper end face of the sliding sleeve is fixedly provided with a pressing block, the lower end wall of the stress cavity is fixedly provided with a fifth spring, the upper end of the fifth spring is fixed with the upper end wall of the sliding cavity, and the fifth spring can be automatically sealed and tied through the weighing mechanism through data identification weighing and settlement.

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