CN214225965U - Material counting equipment with flat panel detector lifting mechanism - Google Patents
Material counting equipment with flat panel detector lifting mechanism Download PDFInfo
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- CN214225965U CN214225965U CN202023267214.5U CN202023267214U CN214225965U CN 214225965 U CN214225965 U CN 214225965U CN 202023267214 U CN202023267214 U CN 202023267214U CN 214225965 U CN214225965 U CN 214225965U
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Abstract
The utility model discloses a material counting equipment with flat panel detector elevating system, which comprises a housin, ray emitter, ray detector, flat panel detector elevating system, data processor and electrical source controller, the casing is the cuboid structure, the casing internal surface adopts the stereotype material to wrap up, flat panel detector elevating system fixed mounting is in the casing, ray detector installs on flat panel detector elevating system, data processor and electrical source controller are installed in the side of casing, data processor carries out signal connection with ray emitter and ray detector through the circuit respectively. The utility model has the advantages of ray detector is integrated on elevating system, is favorable to arranging and high-efficiently utilizing the inner space in space to the X ray of ray generator transmission can adjust ray detector's receiving distance according to the thickness of electron material, thereby avoids the interference of electron material thickness, improves the precision of count.
Description
Technical Field
The utility model relates to a material counting equipment field especially relates to a material counting equipment with flat panel detector elevating system.
Background
With the development of electronic industry technology, the rapid and accurate counting statistics of electronic materials used in industrial production can not only improve the production efficiency of a production line, but also can pre-judge and evaluate the material use condition in the large-scale production process, especially, electronic processing enterprises need to ensure enough storage of various materials required by manufacturing, but not only a lot of tiny parts such as stacked resistors and transistors are difficult to store, and the storage condition and cost can be effectively managed only by accurately mastering the current stock quantity.
The material counting device utilizes the characteristics of strong penetrating power, high resolution, capability of imaging the whole scanned object and the like of a radiographic imaging system, overcomes the problems of long detection time consumption, limited detection category range and the like of the traditional photoelectric sensing type material dotting machine, the material mainly comprises a rectangular sheet type element, a cylindrical sheet type element, a composite sheet type element, a special-shaped sheet type element and the like in form, the X-ray material dotting machine uses low-energy X-ray to quickly detect the quantity and the internal quality of the detected object, and a testing means for displaying the image of the detected object by a computer is adopted.
The existing electronic material counting equipment stretches one end of a material packaged on a material tray, is connected to a device with a material collecting tray, and realizes the identification and counting of individual packaging of the material by identifying the difference between adjacent packaged materials through sensors in different modes, so that the material counting work is realized; in addition, if there is no material in the packaging space, the method will cause misjudgment, thereby affecting the point accuracy.
At present, the point material machine that adopts photoelectric sensing principle is the corresponding relation of bullport and part that utilizes electronic components, survey electronic components's part quantity, but traditional point material machine scanning range is limited, in order to adapt to image collector's collection scope, the position requirement placed to the material tape dish is very high, and, when the size specification of material tape dish is great, the point material machine can't once accomplish the scanning to whole material tape dish, consequently need adjust the position of material tape dish and carry out scanning many times, make the operating efficiency of whole flow reduce.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a material counting equipment with flat panel detector elevating system to avoid the interference of electron material thickness, improve the precision of count, equipment carries out altitude mixture control under the condition that does not need artificial automatically moreover, reduces the cost of labor of enterprise when improve equipment overall efficiency.
The utility model provides a material counting equipment with flat panel detector elevating system, which comprises a housin, ray emitter, ray detector, flat panel detector elevating system, data processor and electrical source controller, the casing is the cuboid structure, the casing internal surface adopts the lead plate material parcel, flat panel detector elevating system fixed mounting is in the casing, ray detector installs on flat panel detector elevating system, ray emitter installs in the casing, ray emitter is located ray detector directly over, data processor and electrical source controller install in the side of casing, data processor carries out signal connection through the circuit with ray emitter and ray detector respectively, electrical source controller carries out the electricity through the circuit with ray emitter and ray detector respectively and is connected, flat panel detector elevating system is provided with detector elevating system, ray detector is installed at detector elevating system's top.
The flat panel detector elevating system is provided with detector elevating gear, and ray detector is installed at detector elevating gear's top, and ray detector is integrated on elevating gear, is favorable to arranging and the high-efficient inner space that utilizes in space to the X light that the ray generator launched can adjust ray detector's receiving distance according to the thickness of electron material, thereby avoids the interference of electron material thickness, improves the precision of count.
Further, the detection lifting device comprises a top plate, a bottom plate and a lifting arm, wherein the lifting arm is positioned between the top plate and the bottom plate.
Survey elevating gear contains roof, bottom plate and lifing arm, and the lifing arm is located between roof and the bottom plate, realizes surveying elevating gear's whole lift, and ray detector is perpendicular up-and-down motion to carry out altitude mixture control voluntarily under the condition that does not need the manual work, improve equipment overall efficiency reduces the cost of labor of enterprise simultaneously.
Furthermore, a motor is installed on the lifting arm and is in rotating connection with the lifting arm through a gear.
Furthermore, four steel wire ropes are connected between the top plate and the bottom plate and fixedly connected to four corners of the top plate and the bottom plate.
Furthermore, limiting rods are arranged between the top plate and the bottom plate, the number of the limiting rods is four, and the limiting rods are fixedly installed at four corners of the bottom plate.
Be connected with wire rope between roof and the bottom plate, gag lever post fixed mounting avoids elevating gear too high in four angles of bottom plate, and wire rope avoids elevating gear to hang down excessively, realizes spacing to elevating gear to protective apparatus's safety.
Furthermore, the gag lever post is the cylinder, and the one end and the bottom plate fixed connection of gag lever post, the rubber head is installed to the other end of gag lever post.
Further, a fixed box is arranged in the shell, a material placing box is arranged in the fixed box, and the material placing box is connected with the fixed box in a sliding mode.
Further, a display panel is arranged on the outer surface of the shell and is in electrical signal connection with the data processor, and the display panel is in circuit connection with the power supply controller.
Furthermore, an operation interface is arranged on the outer surface of the shell, a keyboard and a mouse are arranged on the operation interface, and the operation interface is in electric signal connection with the data processor.
Electronic material counting equipment
The utility model provides an intelligence electron material counting equipment, which comprises a housin, ray emitter, ray detector, data processor and electrical source controller, the casing is the cuboid structure, the casing internal surface adopts the lead plate material parcel, ray emitter and ray detector install in the casing, ray emitter is located ray detector directly over, data processor and electrical source controller install in the side of casing, data processor carries out signal connection with ray emitter and ray detector through the circuit respectively, electrical source controller carries out the electricity with ray emitter and ray detector through the circuit respectively and is connected, be provided with the transmission band on the casing, transmission band fixed mounting is inside the casing, the transmission band is located between ray emitter and the ray detector, install the camera on the ray emitter.
Be provided with the transmission band on the casing, transmission band fixed mounting is inside the casing, and the transmission band is located between ray emitter and the radiation detector, installs the camera on the ray emitter, consequently no matter which position of transmission band is placed to the electron material, the image information of electron material can be gathered to the camera of installation on the ray emitter intelligence to improve counting equipment operating efficiency.
Furthermore, an X-ray emission source is arranged in the ray emitter and is positioned right above the conveying belt.
Furthermore, an X-ray receiving device is arranged in the ray detector and is positioned right below the conveying belt.
Further, the X-ray emission source and the X-ray receiving device face each other and are positioned on the same straight line.
The X-ray emission source and the X-ray receiving device face each other and are positioned on the same straight line, so that X-rays emitted by the X-ray emission source penetrate through the electronic material and are accurately received without contacting the material, and the hidden danger of damage or loss of the electronic material is avoided.
Further, the X-ray generated by the X-ray emission source is a line light source.
Further, the X-ray generated by the X-ray emission source is a surface light source.
Furthermore, an image processing module is arranged in the camera and is electrically connected with the camera.
Further, the transmission band comprises gyro wheel, motor, rubber tape and mount, and motor and gyro wheel are installed in the both ends of mount, and gyro wheel and mount are rotatable formula and connect, and the rubber tape is located between the gyro wheel.
The transmission band comprises gyro wheel, motor, rubber tape and mount, transports the electron material count through the transmission band to realize the work of counting of the full automatization of electron material, avoid the count erroneous judgement when improving count efficiency, and then improve the accuracy of count.
Furthermore, the fixing frame comprises a first fixing frame and a second fixing frame, the first fixing frame is fixed on the left side of the shell, and the second fixing frame is fixed on the right side of the shell.
Furthermore, the roller comprises a first roller and a second roller, the first fixing frame is connected with the first roller through a bearing, the second fixing frame is connected with the second roller through a bearing, and the first roller is connected with the second roller through a rubber belt.
Emission source lifting mechanism
The utility model provides an electron material counting equipment with emission source elevating system, which comprises a housin, the ray emission ware, radiation detector, emission source elevating system, data processor and electrical source controller, the casing is the cuboid structure, the casing internal surface adopts the lead plate material to wrap up, emission source elevating system installs in the upper portion of casing, ray emission ware installs on emission source elevating system, radiation detector installs in the casing, ray emission ware is located radiation detector directly over, data processor and electrical source controller install in the side of casing, data processor carries out signal connection through the circuit with ray emission ware and radiation detector respectively, electrical source controller carries out the electricity through the circuit with ray emission ware and radiation detector respectively, emission source elevating system is connected with data processor and electrical source controller respectively, emission source elevating system contains motor, the electrical source is gone up to the electrical source, The motor is arranged on the horizontal longitudinal moving support and the transverse moving platform, the vertical support is fixedly arranged on the side face of the shell, the horizontal longitudinal moving support is connected with the vertical support in a sliding mode, the transverse support is fixedly arranged on the horizontal longitudinal moving support, and the transverse moving platform is connected with the transverse support in a sliding mode.
Emission source elevating system contains motor, vertical support, horizontal longitudinal movement support, horizontal stand and lateral shifting platform, and ray emitter installs on emission source elevating system, thereby emission source elevating system controls the collection area of electron material through the distance of control with the electron material, enlarges or reduces the collection area through the mode of geometric proportion, has improved the application scope of point material machine, has better adapted to the demand in market.
Further, the vertical support comprises four cuboid stand columns, the cuboid stand columns are perpendicular to the horizontal plane and parallel to each other, and the vertical support is provided with a sliding groove.
Further, horizontal longitudinal movement support comprises two cuboid stands, and horizontal longitudinal movement support is provided with the lug, and two cuboid stands are located same horizontal plane and are parallel to each other, and two cuboid stand parallel mount are on vertical support, horizontal longitudinal movement support and vertical support mutually perpendicular.
Further, the horizontal support is two square stand columns, the two square stand columns are installed on the cuboid stand column of the horizontal longitudinal movement support, and the cuboid stand column is perpendicular to the square stand column of the horizontal movement support.
Further, the transverse moving platform is a rectangular platform, the transverse moving platform is parallel to the horizontal plane, a sliding block is arranged at the bottom of the transverse moving platform, and the sliding block is connected with the transverse support in a sliding mode.
The transverse moving platform is parallel to the horizontal plane, a sliding block is arranged at the bottom of the transverse moving platform and is connected with the transverse support in a sliding mode, the transverse moving platform can drive the ray emitter to transversely move in the horizontal plane, the position of an electronic material does not need to be adjusted, scanning irradiation for multiple times is avoided, and counting efficiency is improved.
Furthermore, the emission source lifting mechanism is an integral lifting mechanism which vertically moves up and down, and a transverse moving platform which can horizontally move is arranged on the integral lifting mechanism.
Further, the horizontal longitudinal moving support and the horizontal moving platform simultaneously perform ascending or descending movement.
Further, the vertical support is provided with a fixing buckle, the fixing buckle comprises an upper fixing buckle and a lower fixing buckle, the upper fixing buckle is fixedly arranged at the top end of the vertical support, and the lower fixing buckle is fixedly arranged at the bottom end of the vertical support.
Further, motor bases are arranged in the horizontal longitudinal moving support and the transverse moving platform, the motor base of the horizontal longitudinal moving support is located at one end of the support, and the motor base of the transverse moving platform is located in the middle of the platform.
Further, install the motor in the motor cabinet, the motor contains first motor and second motor, and first motor is located horizontal longitudinal movement support, and the second motor is located the lateral shifting platform.
Pull formula cargo platform
An electronic material counting device with a drawing type carrying platform comprises a shell, a ray emitter, a ray detector, a drawing type carrying platform, a data processor and a power supply controller, wherein the shell is of a cuboid structure, the inner surface of the shell is wrapped by lead plate materials, the ray emitter and the ray detector are arranged in the shell, the ray emitter is positioned right above the ray detector, the data processor and the power supply controller are arranged on the side surface of the shell, the data processor is respectively in signal connection with the ray emitter and the ray detector through circuits, the power supply controller is respectively in electric connection with the ray emitter and the ray detector through circuits, the drawing type carrying platform is positioned between the ray emitter and the ray detector, the drawing type carrying platform is a hollow cuboid box and is provided with a sliding groove, a notch is formed in the shell, and the sliding groove and the notch are mutually matched and in sliding connection, an operation table is arranged on the drawing type object carrying platform and is provided with double starting buttons.
Be provided with the operation panel on the pull formula cargo platform, the operation panel is provided with two start button, and two buttons press simultaneously and could start equipment to prevent artificial maloperation, protection equipment and operating personnel's safety.
Pull formula cargo platform is located between ray emitter and the ray detector, and pull formula cargo platform is hollow cuboid box, and pull formula cargo platform is provided with the spout, is provided with the notch on the casing, and spout and notch match slidingtype each other and connect to can realize rapid and stable's the material of placing.
Further, a self-locking switch is arranged on the pull type carrying platform and located on two sides of the pull type carrying platform, the self-locking switch is provided with a magnet, and an iron sheet matched with the magnet is arranged on the shell.
Further, the operation panel is provided with the pilot lamp, and the pilot lamp contains red pilot lamp, yellow pilot lamp and green pilot lamp.
The operation panel is provided with the pilot lamp, when operating personnel receive and releases the operation of material, the pilot lamp can indicate operating personnel whether operate the standard to protection operating personnel safety prevents unexpected emergence.
Further, the console is provided with a photoelectric sensor for monitoring.
Further, pull formula cargo platform is provided with the blowing device, and the blowing device contains guide rail and tray, and the tray is installed on the guide rail.
Further, a motor is arranged on the guide rail, a transmission shaft is mounted on the motor, and the motor drives the tray to horizontally move through the transmission shaft.
Further, the ray emitter includes X ray emitter and detection camera, and detection camera is located the left side of X ray emitter, and X ray emitter and detection camera fixed mounting are on the casing.
Furthermore, the ray detector is positioned below the tray, and a certain gap is formed between the ray detector and the tray.
Furthermore, a light emitting diode is arranged above the side face of the shell and fixedly installed inside the shell.
Further, a display panel is arranged on the outer surface of the shell and is in electrical signal connection with the data processor, and the display panel is in circuit connection with the power supply controller.
Furthermore, an operation interface is arranged on the outer surface of the shell, a keyboard and a mouse are arranged on the operation interface, and the operation interface is in electric signal connection with the data processor.
The utility model has the advantages that: the flat panel detector elevating system is provided with detector elevating gear, and ray detector is installed at detector elevating gear's top, and ray detector is integrated on elevating gear, is favorable to arranging and the high-efficient inner space that utilizes in space to the X light that the ray generator launched can adjust ray detector's receiving distance according to the thickness of electron material, thereby avoids the interference of electron material thickness, improves the precision of count. Survey elevating gear contains roof, bottom plate and lifing arm, and the lifing arm is located between roof and the bottom plate, realizes surveying elevating gear's whole lift, and ray detector is perpendicular up-and-down motion to carry out altitude mixture control voluntarily under the condition that does not need the manual work, improve equipment overall efficiency reduces the cost of labor of enterprise simultaneously. Be connected with wire rope between roof and the bottom plate, gag lever post fixed mounting avoids elevating gear too high in four angles of bottom plate, and wire rope avoids elevating gear to hang down excessively, realizes spacing to elevating gear to protective apparatus's safety.
Drawings
Fig. 1 is a schematic structural diagram of an intelligent electronic material counting device.
Fig. 2 is a schematic structural diagram of an electronic material counting device with an emission source lifting mechanism.
Fig. 3 is a schematic structural diagram of a material counting device with a flat panel detector lifting mechanism.
Fig. 4 is a schematic structural diagram of an electronic material counting device with a pull-out loading platform.
The labels in the figure are: the device comprises a shell 1, a ray emitter 2, a ray detector 3, a data processor 4, a power controller 5, a transmission belt 6, an emission source lifting mechanism 7, a flat panel detector lifting mechanism 8, a drawing type object carrying platform 9 and an operation table 10.
Detailed Description
Not enough to prior art exists, the utility model provides a material counting equipment with flat panel detector elevating system to avoid the interference of electron material thickness, improve the precision of count, equipment carries out the altitude mixture control voluntarily under the condition that does not need the manual moreover, reduces the cost of labor of enterprise when improve equipment overall efficiency.
In order to solve the technical problem, the utility model adopts the following technical scheme:
as an implementation manner, as shown in fig. 1, an intelligent electronic material counting device includes a housing 1, a radiation emitter 2, a radiation detector 3, a data processor 4 and a power controller 5, where the housing 1 is a rectangular parallelepiped structure, an inner surface of the housing 1 is wrapped with a lead plate material, the radiation emitter 2 and the radiation detector 3 are installed in the housing 1, the radiation emitter 2 is located right above the radiation detector 3, the data processor 4 and the power controller 5 are installed on a side surface of the housing 1, the data processor 4 is in signal connection with the radiation emitter 2 and the radiation detector 3 through a circuit, the power controller 5 is electrically connected with the radiation emitter 2 and the radiation detector 3 through a circuit, a transmission belt 6 is provided on the housing 1, the transmission belt 6 is fixedly installed inside the housing 1, the transmission belt 6 is located between the radiation emitter 2 and the radiation detector 3, the ray emitter 2 is provided with a camera.
Preferably, be provided with transmission band 6 on the casing 1, transmission band 6 fixed mounting is inside casing 1, and transmission band 6 is located between ray emitter 2 and the radiation detector 3, installs the camera on the ray emitter 2, consequently no matter which position at transmission band 6 is placed to the electron material, the image information of electron material can intelligent collection to the camera of installation on the ray emitter 2 to improve counting equipment operating efficiency.
Preferably, an X-ray emitting source is provided in the radiation emitter 2, which is located directly above the conveyor belt 6.
Preferably, an X-ray receiving device is arranged in the radiation detector 3, and the X-ray receiving device is positioned right below the conveyor belt 6.
Preferably, the X-ray emission source and the X-ray receiving device face each other and are positioned on the same straight line.
Preferably, the X-ray emission source and the X-ray receiving device face each other and are positioned on the same straight line, so that X-rays emitted by the X-ray emission source penetrate through the electronic material and are accurately received without contacting the material, and the hidden danger of damage or loss of the electronic material is avoided.
Preferably, the X-rays generated by the X-ray emission source are line sources.
Preferably, the X-rays generated by the X-ray emission source are surface light sources.
Preferably, the camera is internally provided with an image processing module, and the image processing module is electrically connected with the camera.
As an implementation mode, the conveying belt 6 is composed of rollers, a motor, a rubber belt and a fixing frame, the motor and the rollers are installed at two ends of the fixing frame, the rollers and the fixing frame are rotatably connected, and the rubber belt is located between the rollers.
Preferably, transmission band 6 comprises gyro wheel, motor, rubber tape and mount, transports the electron material count through transmission band 6 to realize the work of counting of the full automatization of electron material, avoid the count erroneous judgement when improving counting efficiency, and then improve the accuracy of count.
Preferably, the fixing frame comprises a first fixing frame and a second fixing frame, the first fixing frame is fixed on the left side of the casing 1, and the second fixing frame is fixed on the right side of the casing 1.
Preferably, the roller comprises a first roller and a second roller, the first fixing frame is connected with the first roller through a bearing, the second fixing frame is connected with the second roller through a bearing, and the first roller is connected with the second roller through a rubber belt.
Embodiment of emission source lifting mechanism
As an embodiment, as shown in fig. 2, an electronic material counting device with an emission source lifting mechanism 7 comprises a housing 1, a radiation emitter 2, a radiation detector 3, an emission source lifting mechanism 7, a data processor 4 and a power controller 5, wherein the housing 1 is of a cuboid structure, the inner surface of the housing 1 is wrapped by lead plate materials, the emission source lifting mechanism 7 is installed at the upper part of the housing 1, the radiation emitter 2 is installed on the emission source lifting mechanism 7, the radiation detector 3 is installed in the housing 1, the radiation emitter 2 is positioned right above the radiation detector 3, the data processor 4 and the power controller 5 are installed at the side surface of the housing 1, the data processor 4 is respectively in signal connection with the radiation emitter 2 and the radiation detector 3 through circuits, the power controller 5 is respectively in electrical connection with the radiation emitter 2 and the radiation detector 3 through circuits, the emission source lifting mechanism 7 is respectively connected with the data processor 4 and the power controller 5, the emission source lifting mechanism 7 comprises a motor, a vertical support, a horizontal longitudinal moving support, a transverse support and a transverse moving platform, the motor is installed on the horizontal longitudinal moving support and the transverse moving platform, the vertical support is fixedly installed on the side face of the shell 1, the horizontal longitudinal moving support is connected with the vertical support in a sliding mode, the transverse support is fixedly installed on the horizontal longitudinal moving support, and the transverse moving platform is connected with the transverse support in a sliding mode.
Preferably, emission source elevating system 7 contains motor, vertical support, horizontal longitudinal movement support, horizontal support and lateral shifting platform, and ray emitter 2 installs on emission source elevating system 7, thereby emission source elevating system 7 controls the collection area of electron material through the distance of control with the electron material, enlarges or reduces the collection area through the mode of geometric proportion, has improved the application scope of point material machine, has better adapted to the demand in market.
Preferably, the vertical support comprises four cuboid stand columns, the cuboid stand columns are perpendicular to the horizontal plane and parallel to each other, and the vertical support is provided with a sliding chute.
Preferably, horizontal longitudinal movement support comprises two cuboid stands, and horizontal longitudinal movement support is provided with the lug, and two cuboid stands are located same horizontal plane and are parallel to each other, and two cuboid stand parallel mount are on vertical support, horizontal longitudinal movement support and vertical support mutually perpendicular.
Preferably, the horizontal support is two square stand columns, and two square stand columns are installed on the cuboid stand column of horizontal longitudinal movement support, and the cuboid stand column is mutually perpendicular with the square stand column of horizontal lateral movement support.
Preferably, the transverse moving platform is a rectangular platform, the transverse moving platform is parallel to the horizontal plane, a sliding block is arranged at the bottom of the transverse moving platform, and the sliding block is connected with the transverse support in a sliding mode.
Preferably, the transverse moving platform is parallel to the horizontal plane, a sliding block is arranged at the bottom of the transverse moving platform and is connected with the transverse support in a sliding mode, the transverse moving platform can drive the ray emitter 2 to transversely move in the horizontal plane, the position of an electronic material does not need to be adjusted, therefore, scanning irradiation for multiple times is avoided, and counting efficiency is improved.
In one embodiment, the emission source elevating mechanism 7 is a whole elevating mechanism that moves vertically up and down, and a horizontal moving platform that can move horizontally is provided on the whole elevating mechanism.
Preferably, the horizontal longitudinal movement bracket and the lateral movement platform perform ascending or descending movements simultaneously.
Preferably, the vertical support is provided with a fixing buckle, the fixing buckle comprises an upper fixing buckle and a lower fixing buckle, the upper fixing buckle is fixedly arranged at the top end of the vertical support, and the lower fixing buckle is fixedly arranged at the bottom end of the vertical support.
Preferably, motor bases are arranged in the horizontal longitudinal moving support and the transverse moving platform, the motor base of the horizontal longitudinal moving support is located at one end of the support, and the motor base of the transverse moving platform is located in the middle of the platform.
Preferably, install the motor in the motor cabinet, the motor contains first motor and second motor, and first motor is located horizontal longitudinal movement support, and the second motor is located the horizontal migration platform.
Implementation scheme of flat panel detector lifting mechanism
As an embodiment, as shown in fig. 3, a material counting apparatus with a flat panel detector lifting mechanism 8 includes a housing 1, a radiation emitter 2, a radiation detector 3, a flat panel detector lifting mechanism 8, a data processor 4 and a power controller 5, where the housing 1 is a rectangular parallelepiped, an inner surface of the housing 1 is wrapped by a lead plate material, the flat panel detector lifting mechanism 8 is fixedly installed in the housing 1, the radiation detector 3 is installed on the flat panel detector lifting mechanism 8, the radiation emitter 2 is installed in the housing 1, the radiation emitter 2 is located right above the radiation detector 3, the data processor 4 and the power controller 5 are installed on a side surface of the housing 1, the data processor 4 is in signal connection with the radiation emitter 2 and the radiation detector 3 through a circuit, the power controller 5 is in electrical connection with the radiation emitter 2 and the radiation detector 3 through a circuit, the flat panel detector lifting mechanism 8 is provided with a detector lifting device, and the top of the detector lifting device is provided with the ray detector 3.
Preferably, flat panel detector elevating system 8 is provided with detector elevating gear, and ray detector 3 is installed at detector elevating gear's top, and ray detector 3 is integrated on elevating gear, is favorable to arranging and the high-efficient inner space that utilizes of space to the X ray of ray generator transmission can adjust ray detector 3's receiving distance according to the thickness of electron material, thereby avoids the interference of electron material thickness, improves the precision of count.
Preferably, the detection lifting device comprises a top plate, a bottom plate and a lifting arm, and the lifting arm is positioned between the top plate and the bottom plate.
Preferably, survey elevating gear and contain roof, bottom plate and lifing arm, the lifing arm is located between roof and the bottom plate, realizes surveying elevating gear's whole lift, and vertical up-and-down motion is done to ray detector 3 to do the altitude mixture control voluntarily under the condition that does not need the manual work, improve equipment overall efficiency reduces the cost of labor of enterprise simultaneously.
Preferably, the lifting arm is provided with a motor, and the motor is in rotating connection with the lifting arm through a gear.
Preferably, be connected with wire rope between roof and the bottom plate, wire rope has four, four wire rope fixed connection in four angles of roof and bottom plate.
Preferably, be provided with the gag lever post between roof and the bottom plate, the gag lever post has four, gag lever post fixed mounting in four angles of bottom plate.
Preferably, be connected with wire rope between roof and the bottom plate, gag lever post fixed mounting is in four angles of bottom plate, and wire rope avoids elevating gear too high, and the gag lever post avoids elevating gear to hang down excessively, realizes spacing to elevating gear to protective apparatus's safety.
Preferably, the gag lever post is the cylinder, and the one end and the bottom plate fixed connection of gag lever post, the rubber head is installed to the other end of gag lever post.
As an implementation mode, a fixed box is arranged in the shell 1, a material placing box is arranged in the fixed box, and the material placing box is connected with the fixed box in a sliding mode.
Preferably, the outer surface of the casing 1 is provided with a display panel, the display panel is in electrical signal connection with the data processor 4, and the display panel is in circuit connection with the power controller 5.
Preferably, the outer surface of the shell 1 is provided with an operation interface, the operation interface is provided with a keyboard and a mouse, and the operation interface is in electrical signal connection with the data processor 4.
Embodiments of a pull platform
As an implementation manner, as shown in fig. 4, an electronic material counting device with a pull-out type loading platform 9 includes a housing 1, a ray emitter 2, a ray detector 3, a pull-out type loading platform 9, a data processor 4 and a power supply controller 5, where the housing 1 is a cuboid structure, an inner surface of the housing 1 is wrapped by a lead plate material, the ray emitter 2 and the ray detector 3 are installed in the housing 1, the ray emitter 2 is located right above the ray detector 3, the data processor 4 and the power supply controller 5 are installed on a side surface of the housing 1, the data processor 4 is in signal connection with the ray emitter 2 and the ray detector 3 through a circuit respectively, the power supply controller 5 is electrically connected with the ray emitter 2 and the ray detector 3 through a circuit respectively, the pull-out type loading platform 9 is located between the ray emitter 2 and the ray detector 3, pull formula cargo platform 9 is hollow cuboid box, and pull formula cargo platform 9 is provided with the spout, is provided with the notch on the casing 1, and spout and notch mutually match slidingtype connection are provided with operation panel 10 on the pull formula cargo platform 9, and operation panel 10 is provided with two start button.
Preferably, an operation table 10 is arranged on the drawing type object carrying platform 9, the operation table 10 is provided with double starting buttons, and the equipment can be started only by pressing the two buttons simultaneously, so that manual misoperation is prevented, and the safety of the equipment and operators is protected.
Preferably, pull formula cargo platform 9 is located between ray emitter 2 and the ray detector 3, and pull formula cargo platform 9 is hollow cuboid box, and pull formula cargo platform 9 is provided with the spout, is provided with the notch on the casing 1, and spout and notch mutually support sliding type and connect to can realize rapid and stable's the material of placing.
Preferably, a self-locking switch is arranged on the drawing type carrying platform 9 and located on two sides of the drawing type carrying platform 9, the self-locking switch is provided with a magnet, and an iron sheet matched with the magnet is arranged on the shell 1.
Preferably, the console 10 is provided with indicator lights including a red indicator light, a yellow indicator light, and a green indicator light.
Preferably, the operation panel 10 is provided with an indicator light, and when operating personnel carries out the operation of receiving and releasing the material, the indicator light can indicate whether operating personnel operates the standard to protection operating personnel safety prevents unexpected emergence.
Preferably, the console 10 is provided with a photoelectric sensor for monitoring.
As an embodiment, the pull-out type loading platform 9 is provided with a material placing device, and the material placing device comprises a guide rail and a tray, and the tray is installed on the guide rail.
Preferably, a motor is arranged on the guide rail, a transmission shaft is arranged on the motor, and the motor drives the tray to horizontally move through the transmission shaft.
Preferably, the radiation emitter 2 comprises an X-ray emitter 2 and a detection camera, the detection camera is located at the left side of the X-ray emitter 2, and the X-ray emitter 2 and the detection camera are fixedly installed on the housing 1.
Preferably, the radiation detector 3 is located below the tray, and a certain gap is formed between the radiation detector 3 and the tray.
Preferably, a light emitting diode is arranged above the side surface of the housing 1, and the light emitting diode is fixedly installed in the housing 1.
Preferably, the outer surface of the casing 1 is provided with a display panel, the display panel is in electrical signal connection with the data processor 4, and the display panel is in circuit connection with the power controller 5.
Preferably, the outer surface of the shell 1 is provided with an operation interface, the operation interface is provided with a keyboard and a mouse, and the operation interface is in electrical signal connection with the data processor 4.
The utility model has the advantages that: the flat panel detector elevating system is provided with detector elevating gear, and ray detector is installed at detector elevating gear's top, and ray detector is integrated on elevating gear, is favorable to arranging and the high-efficient inner space that utilizes in space to the X light that the ray generator launched can adjust ray detector's receiving distance according to the thickness of electron material, thereby avoids the interference of electron material thickness, improves the precision of count. Survey elevating gear contains roof, bottom plate and lifing arm, and the lifing arm is located between roof and the bottom plate, realizes surveying elevating gear's whole lift, and ray detector is perpendicular up-and-down motion to carry out altitude mixture control voluntarily under the condition that does not need the manual work, improve equipment overall efficiency reduces the cost of labor of enterprise simultaneously. Be connected with wire rope between roof and the bottom plate, gag lever post fixed mounting avoids elevating gear too high in four angles of bottom plate, and wire rope avoids elevating gear to hang down excessively, realizes spacing to elevating gear to protective apparatus's safety.
All patents and publications mentioned in the specification of the invention are indicative of the state of the art to which this invention pertains and of the technology disclosed herein as being applicable. All patents and publications cited herein are hereby incorporated by reference to the same extent as if each individual publication was specifically and individually indicated to be incorporated by reference. The invention described herein may be practiced in the absence of any element or elements, limitation or limitations, which limitation is not specifically disclosed herein. For example, in each of the examples herein the terms "comprising", "consisting essentially of", and "consisting of" may be substituted for the remaining 2 terms of either. The terms and expressions which have been employed herein are used as terms of description and not of limitation, and there is no intention in the use of such terms and expressions of excluding any equivalents of the features shown and described, but it is recognized that various modifications and changes may be made within the scope of the invention and the claims which follow. It is to be understood that the embodiments described herein are preferred embodiments and features and that modifications and variations may be made by one skilled in the art in light of the teachings of the present disclosure, and are to be considered within the purview of this disclosure and scope of the invention as defined by the appended claims and the independent claims.
Claims (9)
1. The utility model provides a material counting equipment with flat panel detector elevating system which characterized in that: the radiation detector comprises a housin, the ray emission ware, ray detector, flat panel detector elevating system, data processor and electrical source controller, the casing is the cuboid structure, casing internal surface adopts the lead plate material parcel, flat panel detector elevating system fixed mounting is in the casing, ray detector installs on flat panel detector elevating system, ray emission ware installs in the casing, ray emission ware is located ray detector directly over, data processor and electrical source controller install in the side of casing, data processor carries out signal connection through the circuit with ray emission ware and ray detector respectively, electrical source controller carries out the electricity with ray emission ware and ray detector through the circuit respectively and connects, flat panel detector elevating system is provided with detector elevating gear, ray detector is installed at detector elevating gear's top.
2. The material counting device with the flat panel detector lifting mechanism according to claim 1, characterized in that: the detector lifting device comprises a top plate, a bottom plate and a lifting arm, wherein the lifting arm is positioned between the top plate and the bottom plate.
3. The material counting device with the flat panel detector lifting mechanism according to claim 2, characterized in that: the lifting arm is provided with a motor, and the motor is rotationally connected with the lifting arm through a gear.
4. The material counting device with the flat panel detector lifting mechanism according to claim 2, characterized in that: four steel wire ropes are connected between the top plate and the bottom plate and fixedly connected to four corners of the top plate and the bottom plate.
5. The material counting device with the flat panel detector lifting mechanism according to claim 2, characterized in that: the top plate and the bottom plate are provided with limiting rods, the number of the limiting rods is four, and the limiting rods are fixedly installed at four corners of the bottom plate.
6. The material counting device with the flat panel detector lifting mechanism according to claim 5, characterized in that: the limiting rod is a cylinder, one end of the limiting rod is fixedly connected with the bottom plate, and the other end of the limiting rod is provided with a rubber head.
7. The material counting device with the flat panel detector lifting mechanism according to claim 1, characterized in that: the shell is internally provided with a fixed box, the fixed box is internally provided with a material discharging box, and the material discharging box is connected with the fixed box in a sliding way.
8. The material counting device with the flat panel detector lifting mechanism according to claim 1, characterized in that: the outer surface of the shell is provided with a display panel, the display panel is in electrical signal connection with the data processor, and the display panel is in circuit connection with the power supply controller.
9. The material counting device with the flat panel detector lifting mechanism according to claim 1, characterized in that: the outer surface of the shell is provided with an operation interface, the operation interface is provided with a keyboard and a mouse, and the operation interface is in electric signal connection with the data processor.
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CN202023267214.5U CN214225965U (en) | 2020-12-30 | 2020-12-30 | Material counting equipment with flat panel detector lifting mechanism |
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CN202023267214.5U CN214225965U (en) | 2020-12-30 | 2020-12-30 | Material counting equipment with flat panel detector lifting mechanism |
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