CN218402230U - Detachable bag supplying machine - Google Patents

Abstract

The utility model provides a detachable bag supply machine, which relates to the technical field of logistics weighing, and comprises a scanning weighing section for scanning and weighing a package, an accelerating bag loading section for accelerating the package to be transported to the outside and a plurality of connecting strips; the scanning weighing section and the accelerating upper wrapping section are adjacently arranged; the package outlet of the scanning weighing section is arranged opposite to the package inlet of the acceleration upper package section; the package can move from the scanning weighing section to the accelerating package loading section; the scanning weighing section is detachably connected with the connecting strip; the acceleration upper wrapping section is detachably connected with the connecting strip. The utility model provides a can dismantle confession chartered plane has solved the not high problem of transportation equipment space utilization when supplying the chartered plane to transport to the job site for supply the chartered plane to transport under the state of split, reduced the size demand of transportation equipment, space utilization when improving the transportation equipment transportation.

Description

Detachable bag supplying machine

Technical Field

The utility model relates to a commodity circulation technical field that weighs especially relates to can dismantle confession chartered plane.

Background

The bag feeder is a common device for conveying packages in the logistics transportation process. The feeder needs to complete the identification and weighing of the packages and deliver the packages onto an external track.

For example, the structure of the four-point weighing and packaging machine disclosed in chinese application No. 202022030526.8 describes the structure and the working principle of the packaging machine.

However, the bag feeder is used as a conveying belt for wrapping, and after the bag feeder is assembled, the width of the bag feeder is small and the length of the bag feeder is large; when the bag supply machine needs to be transported to a working site, even if the transport object is a customer who only needs one bag supply machine, the size of the transport equipment is required to meet the requirement of transporting the bag supply machine, but because the length of the assembled bag supply machine is long and the size of the assembled bag supply machine is enough to transport the transport equipment of the bag supply machine, when one bag supply machine is transported, a lot of spare space exists on the width of the transport equipment, the utilization rate of the transport space of the transport equipment is not high, and waste is generated; the bag supplying machine is transported to a working site in a part mode, although transportation equipment with smaller size can be used, the transportation space utilization rate of the transportation equipment is improved, the bag supplying machine is assembled from parts, workers need to be specially arranged to go to the site for installation, and the labor cost can be increased.

SUMMERY OF THE UTILITY MODEL

To the technical problem, the utility model provides a can dismantle confession chartered plane for supply the chartered plane can be in the equipment after accomplishing, with the mode transportation of split one-tenth different modules, reduce because the equipment back, supply the transport vehicle's of the size influence of chartered plane requirement.

In order to achieve the above purpose, the utility model adopts the technical proposal that:

the utility model provides a detachable bag supply machine, which comprises a scanning and weighing section for scanning and weighing the package, an accelerating bag loading section for accelerating the package to be transported to the outside and a plurality of connecting strips; the scanning weighing section and the accelerating upper wrapping section are adjacently arranged; the package outlet of the scanning weighing section is arranged opposite to the package inlet of the acceleration upper package section; a package is movable from the scanning weighing section onto the accelerated bagging section; the scanning weighing section is detachably connected with the connecting strip; the accelerating upper wrapping section is detachably connected with the connecting strip.

The utility model provides a can dismantle confession chartered plane, preferably, still include the transition strip; the transition strip is fixedly arranged on the scanning weighing section; the transition strip allows for smooth movement of parcels from the scan weighing section to the acceleration upwrap section.

The utility model provides a can dismantle confession chartered plane, preferably, the scanning section of weighing includes scanning section and the section of weighing; the scanning section is fixedly connected with the weighing section; the scanning section comprises a weighing component for bearing and supporting the package and a supporting component for weighing and supporting the weighing component; the weighing assembly is arranged on the supporting assembly; the weighing assembly comprises two wallboards, a motor and an object stage for bearing and conveying packages; the plate surfaces of the two wallboards are arranged in parallel; two ends of the object stage are respectively arranged on the two wallboards; the motor is fixedly arranged on one of the wall plates; the motor is located between two of the wallboards.

The utility model provides a detachable bag supplying machine, preferably, a plurality of bending plates are arranged on the wall plate; the surface of the wallboard is vertical to the ground; the surface of the bending plate is horizontally arranged; the bending plate is connected to the wall plate; the bending plate and the wall plate are integrally formed; the lower plate surfaces of all the bending plates are positioned on the same plane; a contact is arranged on the lower plate surface of the bending plate; the supporting component is provided with a plurality of pressure sensors; the number of the pressure sensors is the same as that of the contacts; the contact surface of the pressure sensor is arranged upwards; the contact is arranged in contact with the contact surface of the pressure sensor.

The utility model provides a detachable bag supplying machine, preferably, the weighing component also comprises a plurality of round steel support rods; the axis of the round steel support rod is perpendicular to the plate surface of the wallboard; two ends of the round steel support rod are respectively fixedly arranged on the two wallboards.

The utility model provides a detachable bag supply machine, preferably, the support component comprises a frame and a plurality of fixing pieces; the fixing piece is fixedly arranged on the rack; the pressure sensor is fixedly arranged on the fixing piece; the contact surfaces of all the pressure sensors are in the same plane.

The utility model provides a detachable bag supply machine, preferably, also comprises a motor fixing frame; the motor fixing frame is fixedly arranged on one of the wall plates; the motor is fixedly arranged on the motor fixing frame.

The utility model provides a detachable bag supplying machine, preferably, the objective table comprises a support table, two roll shafts and a conveying belt; the table top of the supporting table is horizontally arranged; the axes of the two roll shafts are arranged in parallel; the two roll shafts can be rotationally fixed on the supporting platform; the axis of the roll shaft is perpendicular to the wallboard; the conveying belt is sleeved outside the support table and the roller shaft; when the roll shaft rotates, the conveying belt can rotate around the outer side of the supporting platform along with the rotation of the roll shaft; one of the roll shafts is rotatably connected with a rotating shaft of the motor through a belt; the pivot of motor rotates and can pass through the belt drive the roller rotates.

The technical scheme has the following advantages or beneficial effects:

the utility model provides a detachable bag supplying machine, which relates to the technical field of logistics weighing and comprises a scanning and weighing section for scanning and weighing a package, an accelerating bag loading section for accelerating the package to be transported to the outside and a plurality of connecting strips; the scanning weighing section and the accelerating upper wrapping section are adjacently arranged; the package outlet of the scanning weighing section is arranged opposite to the package inlet of the acceleration upper package section; a package is movable from the scanning weighing section onto the accelerated bagging section; the scanning weighing section is detachably connected with the connecting strip; the accelerating upper wrapping section is detachably connected with the connecting strip. The utility model provides a can dismantle confession chartered plane has solved the not high problem of transportation equipment space utilization when supplying the chartered plane to remove the job site for supply the chartered plane to transport under the state of split, reduced transportation equipment's size demand, space utilization when improving the transportation of transportation equipment.

Drawings

The invention and its features, aspects and advantages will become more apparent from a reading of the following detailed description of non-limiting embodiments with reference to the attached drawings. Like reference symbols in the various drawings indicate like elements. The drawings are not intended to be drawn to scale, emphasis instead being placed upon illustrating the principles of the invention.

Fig. 1 is an overall structure diagram of a detachable bag feeder provided in embodiment 1 of the present invention.

Fig. 2 is a structure diagram of a connecting strip of the detachable bag feeder according to embodiment 1 of the present invention.

Fig. 3 is an overall structure diagram of the weighing section provided in embodiment 1 of the present invention.

Fig. 4 is an overall structure diagram of the weighing module provided in embodiment 1 of the present invention.

Fig. 5 is a structural diagram of the weighing module provided in embodiment 1 of the present invention when the conveyor belt is removed.

Fig. 6 is an overall structural view of the support assembly provided in embodiment 1 of the present invention.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

As the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like appear, the indicated orientation or positional relationship is based on the orientation or positional relationship as shown in the figures, merely for convenience in describing the invention and to simplify the description, and is not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and is therefore not to be construed as limiting the invention.

The appearances of the terms first, second, and third, if any, are used for descriptive purposes only and are not intended to be limiting or imply relative importance.

Unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are intended to be inclusive and mean, for example, that they may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The technical solutions in the embodiments of the present invention are described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, and not all embodiments. Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention.

Example 1:

in order to solve the problem that the space utilization rate of a conveying device is not high when a bag supply machine is conveyed to a working site in the prior art, the detachable bag supply machine provided by the embodiment 1 of the utility model comprises a scanning and weighing section 1 for scanning and weighing a package, an accelerating bag feeding section 2 for accelerating the package to be conveyed to the outside and a plurality of connecting strips 3, as shown in fig. 1 to 6; the scanning weighing section 1 and the accelerating bale loading section 2 are adjacently arranged; the parcel outlet of the scanning weighing section 1 is arranged opposite to the parcel inlet of the acceleration upper parcel section 2; the package can move from the scanning weighing section 1 to the acceleration package feeding section 2; the scanning weighing section 1 is detachably connected with the connecting strip 3; the accelerating upper wrapping section 2 is detachably connected with the connecting strip 3.

When the detachable bag supply machine provided by the embodiment 1 of the utility model works, a worker firstly places a package on the scanning weighing section 1, the scanning weighing section 1 scans the package, identifies the package, and weighs the package, so that the weight of the package is recorded on the scanning weighing section 1; the parcel can be carried to accelerating on package section 2 after weighing, through pulling open the parcel with higher speed the distance between the parcel, reduces the interference between the parcel, and package section 2 will be wrapped up and carried to the parcel of outside and carry the package work that finishes the parcel on the line with higher speed finally. When the detachable bag supplying machine needs to be transported to a client, a worker takes down the connecting strip 3 connecting the scanning weighing section 1 and the accelerating bagging section 2, and then the scanning weighing section 1 and the accelerating bagging section 2 which can work independently can be obtained; during the transportation, two mutually independent scanning sections of weighing 1 and accelerating the direction of going up package section 2 can be through placing side by side along perpendicular to parcel motion, have carried out once folding to supplying the chartered plane in other words to reduced the length requirement in transportation space of haulage equipment, and rationally utilized the width direction's in transportation space of haulage equipment space, reduced the cost of transportation. In the prior art, a weighing component, a reversing component and an accelerating component are arranged on a supporting component, and even if each module is disassembled and transported after the assembly is finished, the length of the transportation space of the transportation equipment is limited by the length of the supporting component; in order to ensure that the bag supplying machine can normally operate after the assembly is finished, the assembled bag supplying machine needs to be debugged in advance, so that all parts cannot be directly sent to a customer site for assembly; after the bag supply machine is assembled and debugged, the bag supply machine is split into parts to be assembled on the spot by a client, additional workers are required to be arranged, and the cost is higher; this transportation problem has just been solved to the confession chartered plane dismantled that this embodiment provided, the transportation reachs the back, the customer can with the scanning section of weighing 1 with higher speed go up the packet section 2 after the alignment setting, oneself press connecting strip 3, the process of installation connecting strip 3 can not influence the scanning section of weighing 1 with the internal module of packet section 2 with higher speed, the installation method is simple, can restrict the scanning section of weighing 1 with the position of packet section 2 with higher speed after the installation, make the parcel can be transported on supplying the chartered plane more steadily.

The embodiment of the utility model provides a can dismantle confession chartered plane that 1 provided has solved the not high problem of transportation equipment space utilization when supplying the chartered plane to remove the job site for the confession chartered plane can be transported under the state of split, has reduced the size demand of transportation equipment, space utilization when improving the transportation equipment transportation.

In order to make the parcel move from the scanning weighing section 1 to the accelerating upper parcel section 2 more smoothly, in the embodiment, a transition strip 4 is also included; the transition strip 4 is fixedly arranged at a wrapping outlet on the scanning weighing section 1; the transition strip 4 allows the parcel to move smoothly from the scanning weighing section 1 to the accelerating upper parcel section 2. Because the scanning weighing section 1 and the accelerating bale feeding section 2 are mutually independent belt transmission systems, after the scanning weighing section 1 is aligned and the accelerating bale feeding section 2 is aligned, a concave space formed by curling of a belt transmission edge can be reserved between the scanning weighing section 1 and the accelerating bale feeding section 2, the space can possibly influence the conveying of the packages, and the transition strip 4 is arranged at the package outlet of the scanning weighing section 1, so that the packages can be smoothly moved from the scanning weighing section 1 to the accelerating bale feeding section 2.

After the scanning weighing section 1 and the acceleration upwrapping section 2 are taken as separate individuals, the gravity center of the scanning weighing section 1 cannot be shared with the acceleration upwrapping section 2, when the scanning weighing section 1 is offset due to the gravity center, the connection position between the scanning weighing section 1 and the acceleration upwrapping section 2 is possibly deviated, even the scanning weighing section 1 tilts during the half-conveying wrapping process, and in order to ensure the stability of the scanning weighing section 1, in the embodiment, the scanning weighing section 1 comprises a scanning section 11 and a weighing section 12; the scanning section 11 and the weighing section 12 are fixedly connected; the weighing section 12 comprises a weighing assembly 121 for carrying and supporting the parcel and a support assembly 122 for weighing and supporting the weighing assembly 121; the weighing assembly 121 is disposed on the support assembly 122; the weighing assembly 121 comprises two wallboards 1211, a motor 1212 and a stage 1213 for carrying and transporting the packages; the plate surfaces of the two wallboards 1211 are arranged in parallel; the two ends of the objective table 1213 are respectively arranged on the two wallboards 1211; the motor 1212 is fixedly arranged on one of the wallboards 1211; the motor 1212 is located between the two panels 1211. In operation of weigh segment 12, weigh assembly 121 is placed on support assembly 122 such that stage 1213 of weigh assembly 121 can carry a package; placing the package on stage 1213 of weighing assembly 121; at this time, the supporting component 122 can weigh the weighing component 121 and the whole package placed on the weighing component 121; stage 1213 is driven by motor 1212; the package can be moved; the motor 1212 continuously operates so that the stage 1213 can continuously carry the packages; so that weighing of the package is accomplished while the stage 1213 is in transit. The weight of the package is the result of the weighing by the support assembly 2 minus the overall weight of the weighing assembly 1. In an embodiment, the motor 1212 is disposed on one of the wall panels 1211 of the weighing assembly 121, and the motor 1212 is supported and fixed completely through the wall panel 1211, so as to reduce the consumption of additional material for fixing the motor 1212, compared to a method of separately and externally disposing the frame fixing motor 1212; motor 1212 is part of weighing assembly 121, and motor 1212 and stage 1213 are both fixed to wall 1211, so that the relative positions of motor 1212 and stage 1213 are fixed; the weighing device can prevent the object stage 1213 from being wrapped, extruded and displaced due to the independent fixation of the motor 1212 in the weighing process of the object stage 1213, so that the relative position of the object stage 1213 and the motor 1212 is changed, and the transmission of the object stage 1213 by the motor 1212 is influenced. When the package is placed on the weighing component 121, the equipment may roll over due to the gravity center offset state of the weighing component 121; according to the principle of force arm, the weighing assembly 121 is symmetrically arranged on the middle plane between the two wall plates 1211, and when the motor 1212 is arranged at the outer side position of the two wall plates 1211, the gravity center of the weighing assembly 121 is more offset than that when the motor 1212 is arranged between the two wall plates 1211; if the gravity center is over-positioned from the center of the weighing assembly 121, the weighing assembly 121 cannot stably convey the packages; the counterweight is additionally arranged on the side where the motor 1212 is not arranged, so that the cost is increased; the motor 1212 is positioned between the two wall plates 1211, so that the motor 1212 has a small influence on the position of the center of gravity of the weighing assembly 121, and thus the center of gravity of the weighing assembly 121 is not excessively offset, and by controlling the position of the motor 1212 between the two wall plates 1211, the center of gravity of the weighing assembly 121 can be just positioned at the center of the weighing assembly 121, so that the weighing assembly 121 does not influence the stable weighing of the package without adding a weight; the motor 1212 is more stably fixed in the fixed position between the two wallboards 1211; finally, the scanning weighing section 1 can stably convey the packages.

In order to weigh the parcel, in the present embodiment, the weighing assembly 121 further includes a plurality of bending plates 1214, and the wall plate 1211 is provided with the bending plates 1214; the panel surface of the wallboard 1211 is vertical to the ground; the plate surface of the bending plate 1214 is horizontally arranged; bending plate 1214 is attached to wall 1211; bending plate 1214 is integrally formed with wall 1211; the lower plate surfaces of all the bending plates 1214 are positioned on the same plane; a contact 12141 is arranged on the lower plate surface of the bending plate 1214; a plurality of pressure sensors 1221 are arranged on the supporting component 122; the number of pressure sensors 1221 is the same as the number of contacts 12141; the contact surface of the pressure sensor 1221 is disposed upward; the contact 12141 is arranged in contact with the contact surface of the pressure sensor 1221. By disposing contacts 12131 on bending plate 1214 connected to wall 1211, the area of wall 1211 and bending plate 1214 can be adjusted as desired to ensure that only contacts 12131 of weighing assembly 121 contact with support assembly 122 and the rest of the area is not supported by support assembly 122 to provide support force for weighing assembly 121, so that support assembly 122 can accurately support weighing assembly 121; the entire weight of the weighing assembly 121 is pressed against the pressure sensor 21 by means of several contacts 12131; when no package is on the weighing assembly 121, the pressure sensor 1221 on the support assembly 122 can obtain a weight signal of the weighing assembly 121; the weight of the weighing assembly 121 can be known by linking the pressure sensors 1221 all to a dedicated reading device; placing a package on the weighing component 121 to obtain the sum of the weight of the weighing component 1 and the weight of the package; the weight of the package can be obtained by subtracting the weight of the weighing component 121, so that the package is weighed.

In order to make the connection structure between the two wallboards 1211 more stable, thereby ensuring the stability of the weighing assembly 121 supporting the package, in this embodiment, the weighing assembly 121 further includes a plurality of round steel struts 1215; the axis of the round steel stay 1215 is vertical to the plate surface of the wallboard 1211; two ends of the round brace 1215 are respectively fixed on the two wallboards 1211. Round brace 1215 may allow the relative position between the two panels 1211 to be fixed; so that the two panels 1211 can be maintained in a state of being parallel to each other.

In order to further enable only the contact 12131 of the weighing module 121 to contact the pressure sensor 1221 of the supporting module 122, so as to obtain a more accurate weighing result, in this embodiment, the supporting module 122 includes a frame 1222 and a plurality of fixing members 1223; the fixing piece 1221 is fixedly arranged on the frame 1222; the pressure sensor 1221 is fixedly arranged on the fixing piece 1223; the contact surfaces of all the pressure sensors 1221 are in the same plane. A fixing piece 1223 protrudes from the frame 1222 of the support assembly 122, a pressure sensor 1221 is arranged on the fixing piece 1223, and the contact surfaces of all the pressure sensors 1221 are ensured to be in the same plane; because the lower plate surfaces of all the bending plates 1214 are positioned on the same plane, the contacts are arranged on the lower plate surfaces of the bending plates 1214; all the contacts 12131 are in the same plane, and all the contact surfaces of the pressure sensors 1221 are in the same plane; making it easier to align the weighing assembly 121 when it is fixed to the support assembly 122.

In order to make the motor be stably fixed on the wall panel 1211, in this embodiment, a motor fixing frame 5 is further included; the motor fixing frame 5 is fixedly arranged on one wall panel 1211; the motor 1212 is fixedly arranged on the motor fixing frame 5.

In order to realize that the stage 1213 can carry the package, in the present embodiment, the stage 1213 includes a support stage 12131, two rollers 12132, and a conveyor belt 12133; the table top of the support 12131 is arranged horizontally; the axes of the two roll shafts 12132 are arranged in parallel; two roll shafts 12132 are rotatably fixed to the support bases 12131; the axis of roller 12132 is disposed perpendicular to wall panel 1211; the conveying belt 12133 is sleeved outside the support platform 12131 and the roller shaft 12132; when the roller 12132 rotates, the conveyor belt 12133 rotates around the outside of the support stage 12131 as the roller 12132 rotates; one of the roller shafts 12132 is rotatably connected to the rotating shaft of the motor 1212 through a belt; the rotation of the motor 1212 drives the roller 12132 via a belt. The conveying belt 12134 is sleeved outside the support platform 12132, so that the conveying belt 12134 and the platform supported by the support platform 12132 form a plane, and the conveying belt 12134 is wrapped and placed on the plane; because the motor 1212 rotates the roller 12133, the conveyor belt 12134 rotates around the support unit 12132 due to the rotation of the roller 12133, and the package is conveyed along with the movement of the conveyor belt 12134.

To sum up, the utility model provides a detachable bag supply machine, which relates to the technical field of logistics weighing, and comprises a scanning weighing section for scanning and weighing a package, an accelerating bag loading section for accelerating the package to be transported to the outside and a plurality of connecting strips; the scanning weighing section and the accelerating bale loading section are adjacently arranged; the package outlet of the scanning weighing section is arranged opposite to the package inlet of the acceleration upper package section; a package is movable from the scanning weighing section onto the accelerated bagging section; the scanning weighing section is detachably connected with the connecting strip; the accelerating upper wrapping section is detachably connected with the connecting strip. The utility model provides a can dismantle confession chartered plane has solved the not high problem of transportation equipment space utilization when supplying the chartered plane to remove the job site for supply the chartered plane to transport under the state of split, reduced transportation equipment's size demand, space utilization when improving the transportation of transportation equipment.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structural changes made by the contents of the specification and the drawings, or the direct or indirect application in other related technical fields, are included in the same way in the protection scope of the present invention.

Claims (8)

1. A detachable bag supply machine is characterized by comprising a scanning and weighing section, an accelerating bag feeding section and a plurality of connecting strips, wherein the scanning and weighing section is used for scanning and weighing a bag, and the accelerating bag feeding section is used for accelerating the bag to be conveyed to the outside;

the scanning weighing section and the accelerating bale loading section are adjacently arranged; a wrapping outlet of the scanning weighing section is opposite to a wrapping inlet of the accelerating wrapping section; a package is movable from the scan weighing section onto the acceleration bale section;

the scanning weighing section is detachably connected with the connecting strip; the accelerating upper wrapping section is detachably connected with the connecting strip.

2. The removable bag feeder according to claim 1, further comprising a transition bar; the transition strip is fixedly arranged at a parcel outlet on the scanning weighing section; the transition strip allows for smooth movement of parcels from the scan weighing section to the acceleration upwrap section.

3. The removable bag feeder of claim 1, wherein the scanning weighing section comprises a scanning section and a weighing section; the scanning section is fixedly connected with the weighing section;

the weighing section comprises a weighing component for bearing and supporting the package and a supporting component for weighing and supporting the weighing component; the weighing assembly is arranged on the supporting assembly;

the weighing assembly comprises two wallboards, a motor and an object stage for bearing and conveying packages; the plate surfaces of the two wallboards are arranged in parallel; two ends of the object stage are respectively arranged on the two wallboards; the motor is fixedly arranged on one of the wall plates; the motor is located between two of the wallboards.

4. The removable bag feeder according to claim 3, wherein the weighing assembly further comprises a plurality of bending plates, and the bending plates are arranged on the wall plate; the surface of the wallboard is vertical to the ground; the surface of the bending plate is horizontally arranged; the bending plate is connected to the wall plate; the bending plate and the wall plate are integrally formed; the lower plate surfaces of all the bending plates are positioned on the same plane;

the lower plate surface of the bending plate is provided with a contact;

the supporting component is provided with a plurality of pressure sensors; the number of the pressure sensors is the same as that of the contacts; the contact surface of the pressure sensor is arranged upwards; the contact is arranged in contact with the contact surface of the pressure sensor.

5. The removable bag feeder according to claim 4, wherein the weighing assembly further comprises a plurality of round steel spacers;

the axis of the round steel support rod is perpendicular to the plate surface of the wallboard; two ends of the round steel support rod are respectively fixedly arranged on the two wallboards.

6. The removable bag feeder according to claim 5, wherein the support assembly comprises a frame and a plurality of fixing members; the fixing piece is fixedly arranged on the rack; the pressure sensor is fixedly arranged on the fixing piece; the contact surfaces of all the pressure sensors are in the same plane.

7. The detachable bag feeder according to claim 6, further comprising a motor mount; the motor fixing frame is fixedly arranged on one of the wall plates; the motor is fixedly arranged on the motor fixing frame.

8. The detachable bag feeder according to claim 7, wherein the object table includes a support table, two rollers, and a conveyor belt; the table top of the supporting table is horizontally arranged; the axes of the two roll shafts are arranged in parallel; the two roll shafts can be rotatably fixed on the support platform; the axis of the roll shaft is perpendicular to the wall plate; the conveying belt is sleeved outside the support table and the roller shaft; when the roll shaft rotates, the conveying belt can rotate around the outer side of the support platform along with the rotation of the roll shaft;

one of the roll shafts is rotatably connected with a rotating shaft of the motor through a belt; the pivot of motor rotates and can pass through the belt drive the roller rotates.

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