CN118083616A - Multifunctional boxing system - Google Patents

Abstract

The invention provides a multifunctional boxing system, which comprises a storage box, wherein a channel for a carrying vehicle to pass through is arranged below the storage box, a plurality of stations are arranged on the channel, wherein the station vertically below the storage box is a top loading station and is used for filling at the top of a top loading container or a tank car, a first filling pipe is arranged at the bottom end of the storage box, and a valve is arranged on the first filling pipe; at least one side of the top loading station is a side loading station for filling the side loading container, and the side loading station is provided with a side loading mechanism. By adopting the technical scheme, the multifunctional boxing system is provided with the storage box for pre-storing materials to be filled, and a plurality of stations, so that a plurality of filling containers can be filled at the same time, and the multifunctional boxing system is suitable for different types of filling containers.

Description

Multifunctional boxing system

Technical Field

The invention relates to a multifunctional boxing system, and belongs to the technical field of disassembly and assembly of containers.

Background

In the places such as stations, wharfs, ports and mines, various types of containers, such as side-loading containers, top-loading containers and the like, are often used for transporting materials in transit, and in addition to the containers, tank trucks are also used for transporting the materials. Side-loading containers are the most common container form, and adopt a closed structure, and two opposite doors are respectively arranged on the front side and the rear side. The top-loading container can be an open-top container or a container with a filling opening on a box cover, the open-top container has no box top, but a roof made of canvas, plastic cloth or plastic coated cloth can be arranged, and materials are filled in the container in the upper direction in a top loading mode. The applicant's prior chinese patent application CN114803564a discloses a container loading system and a railway transportation system, comprising a support assembly, a door opening and closing assembly and a filling assembly, the support assembly being arranged on a passage for the passage of a container carrying vehicle for locking and tilting the container, the door opening and closing assembly being for opening and closing the door, the filling assembly being for filling into the container. The container packing system can greatly improve the packing efficiency of the side-loading container, but is not suitable for top-loading containers or other forms of filling containers such as tank trucks and the like, and cannot meet the multifunctional requirements of material collection and distribution transportation.

Disclosure of Invention

Therefore, the invention aims to solve the technical problems that the boxing system in the prior art is single in function and can not meet the filling requirements of various containers and tank trucks, thereby providing a novel multifunctional boxing system.

In order to achieve the above purpose, the multifunctional boxing system comprises a storage box, wherein a passage for a carrying vehicle to pass through is arranged below the storage box, a plurality of stations are arranged on the passage, the station vertically below the storage box is a top loading station and is used for filling at the top of a top loading container or a tank car, a first filling pipe is arranged at the bottom end of the storage box, and a valve is arranged on the first filling pipe; at least one side of the top loading station is a side loading station for filling a side loading container, and a side loading mechanism is arranged on the side loading station; the side loading mechanism comprises a supporting frame, a supporting component and a closing component, wherein the supporting component comprises a supporting arm, a locking mechanism and a lifting and tilting mechanism, the locking mechanism is arranged on the supporting arm and used for locking the side loading container, and the lifting and tilting mechanism is used for lifting the side loading container away from a carrier vehicle and tilting the side loading container after filling is finished; the support frame is arranged on the support arm, the support arm is parallel to the extending direction of the channel, a guide rail is arranged on the support frame along the direction vertical to the support arm, the guide rail is positioned above one side of the side-mounted container, and the sealing assembly can move along the guide rail through the driving of the transverse driving device; the sealing assembly comprises a pressing plate and a pressing device, wherein the two split doors are respectively a movable door leaf and a sealing door leaf, when filling is carried out, the sealing door leaf is closed, the movable door leaf is opened, and the pressing device can press the pressing plate at a door opening of the movable door leaf so as to seal the side-mounted container; the pressing plate is provided with a filling opening, the feeding end of a spiral feeder is inserted into the storage box, and the discharging end of the spiral feeder is provided with a second filling pipe which can be connected to the filling opening.

The two sides of the top loading station are respectively provided with a side loading station, the lower ends of the two spiral material conveying machines are inserted into the material storage box, the upper ends of the two spiral material conveying machines are inclined towards the direction away from each other, and the second filling pipes are hung at the lower side of the material discharging end of the spiral material conveying machine.

The storage box is arranged on the frame, a dust removing device is further arranged on the frame, the dust removing device is connected to the storage box through a dust removing pipe, and a silencer is arranged on the dust removing pipe; the material storage box is provided with a material injection opening.

The dust removing device comprises a cloth bag dust remover and a water dust remover.

The bottom of the storage box is provided with a weight measuring sensor.

The support assembly further comprises a base, and the lifting and tilting mechanism comprises a support hydraulic cylinder; one end of the supporting hydraulic cylinder is hinged to the base, the other end of the supporting hydraulic cylinder is hinged to the front portion of the supporting arm, and the rear portion of the supporting arm is hinged to the base; the locking mechanism comprises inserted bar assemblies positioned at two ends of the supporting arm, wherein the inserted bar assemblies comprise inserted bars capable of being inserted into the insertion holes of the side-mounted container corner fittings and linear driving devices for driving the inserted bars to stretch out and draw back; the support arm is provided with an adjusting device, the distance between two inserted bars at two ends of the support arm can be adjusted to be equal to the distance between two jacks matched with the inserted bars on the side-mounted container, and when the two inserted bars are located at the same height, the height of the inserted bars is higher than that of the jacks when the container is located on a carrier vehicle.

The inserted link assembly further comprises a sliding seat and a rotary driving device, the inserted link is rotatably arranged on the sliding seat, the sliding seat is arranged on the supporting arm in a sliding manner, and the linear driving device can drive the sliding seat to slide on the supporting arm; the rotary driving device is arranged on the sliding seat and is used for driving the inserted link to rotate; a locking head is arranged at the end part of the inserted link.

The inserted link assembly is arranged on an installation seat, and the adjusting device is used for driving the installation seat to move back and forth in the extending direction of the supporting arm.

The linear driving device is a hydraulic cylinder, the rotary driving device is a rotary motor, and the adjusting device is a hydraulic cylinder.

The transverse driving device comprises a driving motor, a driving gear is arranged at the power output end of the driving motor, a rack parallel to the guide rail is arranged on the supporting frame, and the driving gear is meshed with the rack.

The sealing assembly further comprises a sliding frame, the pressing plate is hinged to the sliding frame, the pressing device comprises a pressing oil cylinder, one end of the pressing oil cylinder is hinged to the sliding frame, and the other end of the pressing oil cylinder is hinged to the pressing plate.

The inside blast cavity that is provided with of clamp plate, be provided with the window of blowing on the terminal surface of clamp plate towards side dress formula container inboard, be provided with dustproof ventilative pad on the window of blowing, a blast pipe intercommunication in the blast cavity.

The upper part of the pressing plate is also provided with a negative pressure suction pipe which can be communicated with the inside of the side-mounted container.

The lower extreme of clamp plate is provided with the locking lever, the locking lever can compress tightly the lower limb of clamp plate, be provided with the lockpin that can lock in side-mounted container corner fitting jack respectively at the both ends of locking lever.

The locking rod is two sections which are hinged with each other and can be folded.

By adopting the technical scheme, the multifunctional boxing system has the following beneficial effects compared with the prior art:

1. The storage box is arranged for pre-storing materials to be filled, and a plurality of stations are arranged, so that the filling container can be filled at the stations, and the storage box is suitable for various operation scenes and different types of filling containers;

2. A channel for passing the carrier vehicle is arranged below the storage box, a plurality of stations for filling are arranged on the channel, the top-loading container or tank car can be directly transported to the top-loading station for filling through the carrier vehicle, and the side-loading container can also be transported to the side-loading station for filling through the carrier vehicle;

3. Because the side-loading container can be opened to close the door after being inclined by about 60 degrees after the container is completely packed, if the turnover opening type pressing plate structure in the prior art is adopted, a very large operation space is required, and a longer material filling pipeline is required, therefore, the structure of the invention is adopted, on one hand, two side-loading stations are arranged at two sides of a top-loading station, materials are lifted to two sides by two obliquely arranged spiral material conveying machines, and then the filling port is connected with a filling port by a second hanging filling pipe to fill the side-loading container, on the other hand, a translational opening type pressing plate structure is adopted, and only a movable door leaf is opened during filling, and the fixed door leaf is always closed, so that the peripheral edge of the pressing plate only needs to be pressed at a door opening corresponding to the movable door leaf, compared with the structure for opening the two door leaves, the translational travel of the pressing plate is shortened, and the width of the pressing plate is reduced, thereby greatly reducing the occupied area of equipment by the mutual cooperation of the technical means, and the filling structure of the spiral material conveying machine can be simpler; meanwhile, along with the reduction of the width of the pressing plate, the weight is reduced, the power of the corresponding power device and the specification and the size of the supporting material are reduced, and the energy conservation, the emission reduction and the cost saving are facilitated.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is another angular schematic view of fig. 1.

Fig. 3 is a schematic view of a side-mounted mechanism in a first state.

Fig. 4 is a schematic structural view of a second state of the side mounting mechanism.

Fig. 5 is a schematic structural view of a third state of the side-mounted mechanism.

Fig. 6 is a schematic structural view of a state four of the side-mounted mechanism.

Fig. 7 is a schematic structural view of a state five of the side-mounted mechanism.

Fig. 8 is a schematic diagram of an assembly structure of the support frame and the support arm.

Fig. 9 is a partial structural schematic view of the support arm.

Fig. 10 is a schematic structural view of the plunger assembly.

Fig. 11 is another angular schematic view of fig. 10.

Fig. 12 is a schematic view of the assembled structure of the closure assembly.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description.

As shown in fig. 1 and 2, the multifunctional boxing system comprises a storage box 1, a dust removing device and a silencer 2, wherein the storage box 1, the dust removing device and the silencer 2 are arranged on a frame, the dust removing device comprises a cloth bag dust remover 4 and a water dust remover 5 which are connected to the storage box 1 sequentially through a dust removing pipe 3, and a negative pressure fan 51 and the silencer 2 are arranged on the dust removing pipe 3 and positioned between the cloth bag dust remover 4 and the water dust remover 5. Be provided with the notes material mouth 11 on the storage case 1, can annotate the material in to storage case 1 through annotating material mouth 11, storage case 1 still communicates simultaneously has inlet pipe 12, and inlet pipe 12 extends to the ground direction, can directly follow the incoming material vehicle when the material transfer with the material through inlet pipe 12 pump feeding case 1. The bottom of the storage box 1 is also provided with a weight measuring sensor 13, and the weight of the storage box 1 can be measured through the side weight sensor, so that the weight of the filled material can be calculated in real time during filling.

A passage for passing the carrier vehicle is arranged below the storage box 1, and in this embodiment, three stations are arranged on the passage, wherein the station positioned vertically below the storage box 1 is a top loading station, and two sides of the top loading station are side loading stations. The top loading station is used for filling at the top of top loading container or tank car the bottom of storage case 1 is provided with first filling tube 14, is provided with the valve on the first filling tube 14, and storage case 1 bottom can be set up to hopper-shaped, and the material in the storage case 1 can naturally fall through first filling tube 14 after opening the valve.

The side loading station is provided with a side loading mechanism 200 for loading the side loading container 100.

As shown in fig. 3, the side-mounting mechanism includes a support frame 6, a support assembly 7, and a closure assembly 8. The support assembly 7 comprises two bases 71 positioned on both sides of the channel, a support arm 72 hinged to the bases 71, a locking mechanism 73 provided on the support arm 72, and a lifting and tilting mechanism.

The locking mechanism 73 is used for locking the side-mounted container, and the lifting and tilting mechanism is used for lifting the side-mounted container away from the carrier vehicle and tilting the side-mounted container after filling.

In this embodiment, the lift tilt mechanism includes a support cylinder 740. The support cylinder 740 is hinged to the base 71 at one end and to the front of the support arm 72 at the other end, and the rear of the support arm 72 is hinged to the base 71.

The locking mechanism 73 includes a plunger assembly at each end of the support arm 72, as shown in fig. 8-11, which includes a plunger 731 that is insertable into a side-mounted container corner fitting receptacle and a linear drive 732 that drives the plunger 731 in and out. An adjustment device 733 is provided on the support arm 72, said adjustment device 733 being able to adjust the spacing between two sockets 731 at both ends of the support arm 72 to be equal to the spacing between two sockets on a side-mounted container that mate with the sockets 731. When the two said bayonet 731 are at the same height, the height of the bayonet 731 is higher than the height of the receptacle when the container is on a carrier vehicle.

When the carrier vehicle transports the side-mounted container to the side-mounted station, the two inserted bars are positioned at the same height, the height of each inserted bar is higher than the height of each jack on the side-mounted container, the front end of each supporting arm 72 is downwards inclined and the angle is adjusted by controlling the action of each supporting hydraulic cylinder, meanwhile, the inserted bars are driven to move forwards and backwards through the adjusting device 733 so as to be aligned with the jacks at the front end of the side-mounted container, and then the inserted bars 731 at the front end are driven to extend through the linear driving device 732 and are inserted into the corresponding jacks; then controlling the supporting hydraulic cylinder to act so that the front end of the supporting arm 72 tilts upwards, and as the inserted rod 731 at the front end is positioned in the jack at the front end of the container, the side-mounted container tilts gradually along with the lifting of the front end of the supporting arm 72, when the side-mounted container tilts to the same angle with the supporting arm 72, the inserted rod at the rear end of the supporting arm 72 can be aligned with the jack at the rear end of the side-mounted container, and then the inserted rod at the rear end extends and is inserted into the jack at the rear end; the support cylinders are then controlled to operate to drop the forward ends of support arms 72 back until the side-mounted container is level, at which point the container is lifted off the carrier vehicle.

As shown in fig. 8-11, the plunger assembly further includes a sliding seat 734 and a rotation driving device 735, the plunger 731 is rotatably disposed on the sliding seat 734, the sliding seat 734 is slidably disposed on the support arm 72, and the linear driving device 732 is capable of driving the sliding seat 734 to slide to drive the plunger 731 to advance or retract. A rotation driving device 735 is disposed on the sliding seat 734, and a power output end of the rotation driving device 735 is connected to the insert rod 731 for driving the insert rod 731 to rotate; a locking head 731a is provided at an end of the insertion rod 731. The plunger assembly is disposed on a mounting seat 736, and the adjusting device 733 is used for driving the mounting seat 736 to move back and forth in the extending direction of the supporting arm 72. In this embodiment, the linear driving device 732 is a hydraulic cylinder, the rotary driving device 735 is a rotary motor, and the adjusting device 733 is a hydraulic cylinder.

As shown in fig. 3-7, the supporting frame 6 is disposed on the supporting arm 72, the supporting arm 72 is parallel to the extending direction of the channel, the supporting frame 6 is provided with a guide rail 61 along the direction perpendicular to the supporting arm 72, the guide rail 61 is located above one side of the side-mounted container, and the closing assembly 8 can move along the guide rail 61 by driving of the transverse driving device.

As shown in fig. 12, the closing assembly 8 includes a sliding frame 81, a pressing plate 82, and a pressing device, in this embodiment, the pressing plate 82 includes a plate body and a connecting lever 821 fixed to the plate body, the connecting lever 821 is hinged on the sliding frame 81, and the pressing device includes a pressing cylinder 83, one end of the pressing cylinder 83 is hinged on the sliding frame 81, and the other end is hinged on the connecting lever 821. The transverse driving device comprises a driving motor 84, a driving gear 841 is arranged at the power output end of the driving motor 84, a rack 62 parallel to the guide rail 61 is arranged on the supporting frame 6, and the driving gear 841 is meshed with the rack 62.

The side-loading container 100 has two side-by-side doors, namely a movable door leaf 101 and a closed door leaf 102, wherein when filling is performed, the closed door leaf 102 is closed, the movable door leaf 101 is opened, and the compression device can compress the peripheral edge of the pressure plate 82 at the gate of the movable door leaf 101, so that the side-loading container 100 is closed.

Two sides of the storage box 1 are respectively provided with a spiral feeder 9, the lower ends (namely feeding ends) of the two spiral feeders 9 are inserted into the storage box 1, the upper ends of the two spiral feeders are inclined towards the directions away from each other, the discharging ends of the spiral feeders 9 are provided with second filling pipes 91, and the second filling pipes 91 are hung at the lower sides of the discharging ends of the spiral feeders 9. A filling opening 820 is provided in the pressure plate 82, and the second filling pipe 91 is connected to the filling opening 820 for filling the side-loading container.

The inside blast cavity that is provided with of clamp plate 82, be provided with the window of blowing on the terminal surface of clamp plate 82 towards side-mounted container 100 inboard, be provided with dustproof ventilative pad 829 on the window of blowing, the blast pipe 822 communicate in the blast cavity, the blast pipe 822 is connected to the blast opening of air-blower 823. The upper part of the pressing plate 82 is also provided with a negative pressure suction pipe 824, and the negative pressure suction pipe 824 can be communicated with the inside of the side-mounted container 100 for dust removal and negative pressure formation in the container body, so as to avoid expansion of the container.

A locking rod 825 is provided at a lower end of the pressing plate 82, and the locking rod 825 is formed in two sections hinged to each other and capable of being folded. The locking bar 825 can be pressed against the lower edge of the pressing plate 82, and locking pins 825a which can be locked in corner fitting insertion holes of the side-loading container 100 are respectively arranged at two ends of the locking bar 825.

When filling operation is performed, as shown in fig. 3, the closing component 8 is first moved to the side of the supporting frame 6, so that the carrier vehicle can enter the channel, then the container is lifted away from the carrier vehicle by the lifting and tilting mechanism, the carrier vehicle exits the channel, the operator opens the movable door leaf 101, and the closing door leaf 102 is kept in a closed state. As shown in fig. 4, the platen 82 is translated to the doorway of the movable door leaf 101 and the peripheral edge of the platen 82 is pressed against the edge of the doorway. As shown in fig. 5, locking pins at both ends of the locking bar 825 are respectively locked on corner pieces at the bottom of the side-loading container, and then the side-loading container can be injected. After the filling is completed, the side-loading container is tilted as shown in fig. 6. As shown in fig. 7, locking lever 825 is again unlocked, and closure assembly 8 is then moved back into position, the operator closing the moveable door leaf 101 and locking.

By adopting the technical scheme of the invention, the channel for the passing of the carrier vehicle is arranged below the storage box 1, a plurality of stations for filling are arranged on the channel, and the carrier vehicle can be directly used for transporting the top-loading container or the tank truck to the top-loading station for filling, and the carrier vehicle can be used for transporting the side-loading container to the side-loading station for filling.

Meanwhile, the invention realizes the miniaturization and the light weight of the equipment through the following three technical means which are matched with each other, reduces the occupied area, and is respectively as follows: 1. two side loading stations are arranged on two sides of the top loading station, materials are lifted to two sides through two obliquely arranged screw conveyors 9, and then the two side loading stations are connected with a filling port 820 through a second hanging filling pipe 91 for filling into the side loading container; 2. by adopting the structure of the translational opening type pressing plate 82, huge space required by the overturning opening structure is not needed, and interference with the inclined spiral conveyor 9 and the second filling pipe 91 is avoided; 3. when filling, only the movable door leaf 101 is opened, and the fixed door leaf is always closed, so that the peripheral edge of the pressing plate 82 only needs to be pressed at the corresponding gate of the movable door leaf 101, thereby shortening the translation stroke of the pressing plate 82 and reducing the width of the pressing plate 82 compared with a structure of opening two doors.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the invention.

Claims (10)

1. A multi-functional vanning system, characterized in that: the automatic filling system comprises a storage box, wherein a channel for a carrying vehicle to pass through is arranged below the storage box, a plurality of stations are arranged on the channel, the station positioned vertically below the storage box is a top loading station and is used for filling at the top of a top loading container or a tank car, a first filling pipe is arranged at the bottom end of the storage box, and a valve is arranged on the first filling pipe; the two sides of the top loading station are respectively provided with a side loading station for filling the side loading container, and the side loading station is provided with a side loading mechanism; the side loading mechanism comprises a supporting component, a supporting frame and a closing component arranged on the supporting frame, wherein the supporting component comprises a supporting arm, a locking mechanism and a lifting and tilting mechanism, the locking mechanism is arranged on the supporting arm and used for locking the side loading container, and the lifting and tilting mechanism is used for lifting the side loading container off a carrier vehicle and tilting the side loading container after filling is finished; the support frame is arranged on the support arm, the support arm is parallel to the extending direction of the channel, a guide rail is arranged on the support frame along the direction vertical to the support arm, the guide rail is positioned above one side of the side-mounted container, and the sealing assembly can move along the guide rail through the driving of the transverse driving device; the sealing assembly comprises a pressing plate and a pressing device, wherein the two split doors are respectively a movable door leaf and a sealing door leaf, when filling is carried out, the sealing door leaf is closed, the movable door leaf is opened, and the pressing device can press the peripheral edges of the pressing plate at the door opening of the movable door leaf so as to seal the side-loading container; the filling opening is formed in the pressing plate, the lower ends of the two spiral conveying machines are inserted into the storage box, the upper ends of the two spiral conveying machines are inclined in the direction away from each other, the discharge end of each spiral conveying machine is provided with a second filling pipe, and the second filling pipe hangs downwards and can be connected to the filling opening.

2. The multi-functional boxing system in accordance with claim 1, wherein: the storage box is arranged on the frame, a dust removing device is further arranged on the frame, the dust removing device is connected to the storage box through a dust removing pipe, and a silencer is arranged on the dust removing pipe; the top of the storage box is provided with a material injection port.

3. The multi-functional boxing system in accordance with claim 1, wherein: the support assembly further comprises a base, and the lifting and tilting mechanism comprises a support hydraulic cylinder; one end of the supporting hydraulic cylinder is hinged to the base, the other end of the supporting hydraulic cylinder is hinged to the front portion of the supporting arm, and the rear portion of the supporting arm is hinged to the base; the locking mechanism comprises inserted bar assemblies positioned at two ends of the supporting arm, wherein each inserted bar assembly comprises an inserted bar capable of being inserted into a side-mounted container corner fitting jack and a linear driving device for driving the inserted bar to stretch out and draw back; the supporting arm is provided with an adjusting device, and the adjusting device can adjust the distance between two inserted bars at two ends of the supporting arm to be equal to the distance between two jacks matched with the inserted bars on the side-mounted container; when the two said bayonet bars are located at the same height, the height of the bayonet bars is higher than the height of the receptacles when the container is located on a carrier vehicle.

4. A multi-functional boxing system in accordance with claim 3, wherein: the inserted link assembly further comprises a sliding seat and a rotary driving device, the inserted link is rotatably arranged on the sliding seat, and the linear driving device can drive the sliding seat to slide on the supporting arm; the rotary driving device is arranged on the sliding seat and is used for driving the inserted link to rotate; a locking head is arranged at the end part of the inserted link.

5. The multi-purpose boxing system in accordance with claim 4, wherein: the inserted link assembly is arranged on an installation seat, and the adjusting device is used for driving the installation seat to move back and forth in the extending direction of the supporting arm.

6. The multi-purpose boxing system in accordance with any one of claims 1 to 5, wherein: the transverse driving device comprises a driving motor, a driving gear is arranged at the power output end of the driving motor, a rack parallel to the guide rail is arranged on the supporting frame, and the driving gear is meshed with the rack.

7. The multi-purpose boxing system in accordance with any one of claims 1 to 5, wherein: the sealing assembly further comprises a sliding frame, the pressing plate is hinged to the sliding frame, the pressing device comprises a pressing oil cylinder, one end of the pressing oil cylinder is hinged to the sliding frame, and the other end of the pressing oil cylinder is hinged to the pressing plate.

8. The multi-purpose boxing system in accordance with any one of claims 1 to 5, wherein: a blowing cavity is arranged in the pressing plate, a blowing window is arranged on the end surface of the pressing plate facing the inner side of the side-mounted container, a dustproof ventilation cushion is arranged on the blowing window, and a blowing pipe is communicated with the blowing cavity; the upper part of the pressing plate is also provided with a negative pressure suction pipe which can be communicated with the inside of the side-mounted container.

9. The multi-purpose boxing system in accordance with any one of claims 1 to 5, wherein: the lower extreme of clamp plate is provided with the locking lever, the locking lever can compress tightly the lower limb of clamp plate, be provided with the lockpin that can lock in side-mounted container corner fitting jack respectively at the both ends of locking lever.

10. The multi-purpose boxing system in accordance with any one of claims 1 to 5, wherein: the bottom of the storage box is provided with a weight measuring sensor.