CN213579147U

CN213579147U - Mould taking device capable of outputting electric signals

Info

Publication number: CN213579147U
Application number: CN202022521495.6U
Authority: CN
Inventors: 赵壮壮; 赵佳佳; 徐诣卓; 赵康康; 赵永康; 赵豪佳
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-04
Filing date: 2020-11-04
Publication date: 2021-06-29
Anticipated expiration: 2030-11-04

Abstract

The utility model relates to a can export type ware of getting of signal of telecommunication, including holder, gleitbretter, solid fixed splint, contact, gleitbretter baffle, circuit board, drive battery and drive circuit, the holder is inside to be divided into the power supply room in proper order, control room and gleitbretter room, drive battery inlays in the power supply room, drive circuit inlays in the control room, the gleitbretter inlays in the gleitbretter room, the terminal surface all is located the holder outside and is connected with the contact respectively under the gleitbretter up end and, gu fixed splint inlay in the gleitbretter room and with constant head tank cell wall sliding connection, the gleitbretter baffle inlays in solid fixed splint up. The utility model discloses a mode that measurement principle and signal of telecommunication output technique combined together, very big improvement get type ware measuring precision, overcome traditional get type ware during operation can not many times continuous measurement, measuring result and actual error big, can't save the scheduling problem to reading data.

Description

Mould taking device capable of outputting electric signals

Technical Field

The utility model relates to a can export type ware of getting of signal of telecommunication belongs to measuring equipment technical field.

Background

In actual life and measurement application, measurement and drawing of the appearance shape of an object are common, and for some irregular edge shape curves, the appearance outline and the size of the object cannot be accurately measured by common measuring equipment, so that the production and the life are inconveniently influenced.

The shape taking device is a common physical contour curve measuring tool, the tips of a plurality of parallel movable sliding sheets are arranged on the device and are in direct contact with an object to be measured, the shape finally shown by the sliding sheets is the shape curve of the appearance contour of the read object to be measured, the measurement of the appearance contour of some simple irregular objects can be realized, and the shape taking device is widely applied to the fields of furniture manufacturing, indoor and outdoor decoration, ceramic repair and the like. For example: the shape extractor [ P ]. CN305800087S,2020-05-22 and the profiling rule profile gauge shape extractor [ P ]. CN305400000S,2019-10-25 can both functionally measure the physical dimension profile, and have the advantages of simple operation, small volume, light weight, convenient carrying and the like. However, the former still has the following defects: firstly, continuous measurement for many times cannot be realized, and a measured profile curve must be drawn in time after each measurement, so that the working efficiency is reduced; secondly, the measurement precision is low, and a certain error exists between the result and the reality due to the fact that the measurement and drawing processes are both manually operated and drawn; (III) the measured profile curve result cannot be stored in real time; and (IV) one profile curve needs to be measured repeatedly for many times, and because the modeler undergoes the transition of time and space positions between measurement and manual drawing, the result measured by the modeler and the drawn profile curve have errors, and the object needs to be measured for many times, so that the errors are reduced. The situation brings great inconvenience and errors to the operation process and the measurement result, and is a main problem of the existing shape extractor in practical application. Therefore, it is necessary to design a sampler which can continuously measure for many times, has high precision of measured data and has a real-time storage function.

SUMMERY OF THE UTILITY MODEL

To the not enough that exists on the prior art, the utility model provides a can export type ware and method of getting of signal of telecommunication to reach the purpose that nimble and accurate operating pressure and fracturing effect detection operation carry out.

In order to achieve the above purpose, the present invention is realized by the following technical solution:

a mould taking device capable of outputting electric signals comprises a holder, a sliding sheet, a fixed clamp plate, a contact, a spring sheet electrode, a sliding sheet baffle, a circuit board, a driving battery and a driving circuit, wherein the holder is of a plate-shaped structure with a rectangular cross section, the interior of the holder is sequentially divided into a power supply chamber, a control chamber and a sliding sheet chamber from front to back along the axis direction, the driving battery is embedded in the power supply chamber, the driving circuit is embedded in the control chamber and is electrically connected with the circuit board and the driving battery respectively, a plurality of sliding sheets are embedded in the sliding sheet chamber respectively, the sliding sheets are mutually connected in parallel and are distributed vertically to the axis of the holder respectively and are uniformly distributed along the axis direction of the holder, the distance between every two adjacent sliding sheets is 0-5 mm and are connected in a sliding manner, the upper end face and the lower end face of each sliding sheet are positioned outside the holder and are connected with the contact respectively, the fixing clamp plate is internally provided with a positioning groove which is distributed with the sliding pieces in the same seat, and forms a groove-shaped structure with a II-shaped axial section with the positioning groove, the fixing clamp plate is of an I-shaped groove-shaped structure with a cross section, is embedded in the sliding piece chamber and is distributed coaxially with the sliding piece chamber, and is embedded in the positioning groove of each sliding piece and is connected with the groove wall of the positioning groove in a sliding way, a plurality of sliding piece baffles are embedded on the upper end surface of the fixing clamp plate and are uniformly distributed along the axial direction of the fixing clamp plate, each sliding piece baffle corresponds to the number and the position of the sliding piece, a sliding piece baffle is arranged in the positioning groove of each sliding piece and is abutted against the upper end surface of the positioning groove, a plurality of elastic piece electrodes are arranged in the groove body of the front end surface of the fixing clamp plate, the elastic piece electrodes are uniformly distributed along the axial direction, the circuit board is embedded in the groove body of the rear end face of the fixed clamping plate and is distributed in parallel with the axis of the fixed clamping plate, the line holes are formed in the fixed clamping plate corresponding to the circuit board, the circuit board is electrically connected with the elastic piece electrodes and the driving circuit through wires respectively, and the wires connected with the elastic piece electrodes are embedded in the line holes.

Further, the holder include base, protective cover and mounting hole, wherein base, protective cover are the cross-section and personally submit "U" font slot-like structure, base, protective cover interconnect and constitute closed cavity structures, power supply room, control room and gleitbretter room all inlay in the base, the mounting hole is a plurality of, the equipartition is on base, protective cover surface respectively, just solid fixed splint passes through the mounting hole and is connected with base and protective cover.

Furthermore, the gleitbretter include loading board, electrically conductive sheetmetal, resistance and series connection line, the loading board is the platelike structure that the cross section is the rectangle, and its inside establishes the constant head tank with the coaxial distribution of loading board, electrically conductive sheetmetal, resistance all at least, from last equipartition down along the loading board axis direction, respectively with the constant head tank cell wall be connected and with loading board axis parallel distribution, electrically connected through at least one series connection line between electrically conductive sheetmetal, resistance, electrically connected with a shell fragment electrode respectively, and electrically conductive sheetmetal, resistance correspond the shell fragment electrode connect in parallel each other to respectively through wire and circuit board electrical connection.

Furthermore, the spring plate electrode comprises a metal spring plate and a contact point, wherein the metal spring plate is of a triangular structure, the vertex angle of the metal spring plate is connected with the contact point and is electrically connected with the sliding plate through the contact point, one end of the rear end face is connected with the fixed clamping plate, and the other end of the rear end face is embedded in the wire passing hole and is electrically connected with the circuit board through a wire.

Furthermore, the circuit board comprises a bearing substrate, a combined logic circuit board, a fixed resistor, a power supply contact and a signal output contact, wherein the combined logic circuit board, the fixed resistor, the power supply contact and the signal output contact are all embedded on the bearing substrate, the combined logic circuit board is respectively electrically connected with the fixed resistor, the power supply contact and the signal output contact are respectively electrically connected with a spring plate electrode and a driving circuit through wires, in addition, the bearing substrate is a double-sided circuit board, the two sides of the bearing substrate are divided into a side and a side b, a power supply anode flows into the a side of the circuit board through the power supply contact, then n lines are divided into spring plate electrodes through electroplating through holes to a fixed clamping plate, the fixed resistors flow into the fixed resistors through the spring plate electrodes through the wires, and flow into the spring plates through spring plate electrode contacts on, the circuit board flows into the surface a of the circuit board through the electroplating through hole, the circuit flows through the fixed resistor to be converged into a main circuit, the main circuit flows back to the positive pole of the power supply through the power supply contact to form a loop, a circuit is led out from one end of the fixed resistor, close to the positive pole, in the branch circuit to be connected with the combinational logic circuit board, a circuit is led out from the negative pole of the circuit to be connected with the combinational logic circuit board, and two circuits are led out from the combinational logic circuit board to be connected with the contact of the signal.

Furthermore, the hole walls of the wire through holes are provided with conductive electroplated layers with the thickness of 0.1-3 mm.

Furthermore, the contacts are of a right-angle trapezoidal plate-shaped structure, the maximum width of the contacts is at least 1.3 times of the thickness of the holder, the rear end faces of the contacts are flush with the slide sheet and the upper end face and the lower end face of the holder, the front end faces of the contacts respectively form included angles of 15-60 degrees with the upper end face and the lower end face of the holder, and the front end faces of the contacts at the upper end face and the lower end face of the holder are distributed in parallel.

Furthermore, the drive circuit is a circuit system based on an industrial single chip microcomputer, and the drive circuit is additionally provided with a wireless communication device and at least one communication terminal and a power terminal, wherein the communication terminal and the power terminal are embedded in the outer surface of the holder.

The utility model discloses more traditional equipment and technique, the mode that measurement principle and signal of telecommunication output technique combined together, great breakthrough has been carried out on the measurement of getting the type ware and data reading, very big improvement get the measuring precision of type ware, it can not many times continuous measurement to have overcome the tradition and got the type ware during operation, measuring result and actual error are big, can't save the scheduling problem to reading data, have many times continuous measurement, measuring accuracy is high, save data in real time, and the operation is simple, light in weight, portable's advantage, be worth popularizing and applying in the measurement technology field.

Drawings

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic side sectional view of the structure of the present invention;

FIG. 3 is a partial sectional view of the holder;

FIG. 4 is a schematic diagram of a spring plate electrode structure;

FIG. 5 is a schematic diagram of a circuit board structure;

FIG. 6 is a schematic diagram of a slider structure.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in fig. 1-6, a mold taking device capable of outputting electrical signals comprises a holder 1, sliding pieces 2, a fixed clamp plate 3, a contact 4, a spring piece electrode 5, a sliding piece baffle 7, a circuit board 8, a driving battery 9 and a driving circuit 10, wherein the holder 1 is a plate-shaped structure with a rectangular cross section, the interior of the holder is sequentially divided into a power supply chamber 101, a control chamber 102 and a sliding piece chamber 103 from front to back along an axis direction, the driving battery 9 is embedded in the power supply chamber 101, the driving circuit 10 is embedded in the control chamber 102 and is respectively electrically connected with the circuit board 8 and the driving battery 9, a plurality of sliding pieces 2 are respectively embedded in the sliding piece chamber 103, the sliding pieces 2 are mutually connected in parallel and are respectively distributed vertically to the axis of the holder 1 and are uniformly distributed along the axis direction of the holder 1, the interval between two adjacent sliding pieces 2 is 0-5 mm and are connected in a sliding manner, the upper end face and, the side surface of the slip sheet 2 is embedded in the slip sheet chamber 103 of the holder 1 and is connected with the slip sheet chamber 103 in a sliding way, the slip sheet 2 is of a plate-shaped structure which is distributed perpendicular to the axis of the slip sheet chamber 103, a positioning groove 11 which is distributed in the same way as the slip sheet 2 is arranged in the slip sheet chamber, and forms a groove-shaped structure with a II-shaped axial section with the positioning groove 11, the fixed splint 3 is of an I-shaped groove-shaped structure which is embedded in the slip sheet chamber 103 and is distributed coaxially with the slip sheet chamber 103, the fixed splint 3 is additionally embedded in the positioning groove 11 of each slip sheet 2 and is connected with the groove wall of the positioning groove 11 in a sliding way, a plurality of slip sheet baffles 7 are embedded on the upper end surface of the fixed splint 3 and are uniformly distributed along the axis direction of the fixed splint 3, each slip sheet baffle 7 corresponds to the number and the position of the slip sheet 2, a slip sheet baffle 7 is arranged in the positioning groove 11 of, shell fragment electrode 5 is along 2 axis directions from the top equipartitions down of gleitbretter, shell fragment electrode 5 inlays in constant head tank 11, its rear end face is connected with the preceding terminal surface cell body tank bottom of solid fixed splint 3, preceding terminal surface and 11 lateral wall sliding connection of constant head tank, circuit board 8 inlays in the cell body of solid fixed splint 3 rear end face and with solid fixed splint 3 axis parallel distribution, establish line hole 12 on the solid fixed splint 3 that circuit board 8 corresponds, circuit board 8 passes through the wire respectively with shell fragment electrode 5 and drive circuit 10 electrical connection, and inlay in line hole 12 with the wire that shell fragment electrode 5 is connected.

In this embodiment, the holder 1 includes a base 111, a protecting cover 112 and mounting holes 113, wherein the base 111 and the protecting cover 112 are both u-shaped groove-shaped in cross section, the base 111 and the protecting cover 112 are connected to each other to form a closed cavity structure, the power supply chamber 101, the control chamber 102 and the slide chamber 103 are all embedded in the base 111, the mounting holes 113 are uniformly distributed on the outer surfaces of the base 111 and the protecting cover 112, and the fixing plate 3 is connected to the base 111 and the protecting cover 112 through the mounting holes 113.

It should be noted that the sliding blade 2 includes a bearing plate 21, a conductive metal sheet 22, a resistor 23 and a series connection line 24, the bearing plate 21 is a plate-shaped structure with a rectangular cross section, a positioning slot 11 coaxially distributed with the bearing plate 21 is arranged in the bearing plate, at least one of the conductive metal sheet 22 and the resistor 23 is uniformly distributed along the axis direction of the bearing plate 21 from top to bottom, and is respectively connected with the slot wall of the positioning slot 11 and distributed parallel to the axis of the bearing plate 21, the conductive metal sheet 22 and the resistor 23 are electrically connected with each other through at least one series connection line 24, the conductive metal sheet 22 and the resistor 23 are respectively electrically connected with a spring plate electrode 5, and the spring plate electrodes 5 corresponding to the conductive metal sheet 22 and the resistor 23 are mutually connected in parallel and are respectively electrically connected with the circuit board.

Meanwhile, the spring plate electrode 5 comprises a metal spring plate 51 and a contact point 52, wherein the metal spring plate 51 is of a triangular structure, the vertex angle of the metal spring plate is connected with the contact point 52 and is electrically connected with the sliding sheet 2 through the contact point 52, one end of the rear end face is connected with the fixed clamping plate 3, and the other end of the rear end face is embedded in the wire passing hole 12 and is electrically connected with the circuit board 8 through a wire.

It is important to point out that the circuit board 8 includes a carrying substrate 81, a combinational logic circuit board 82, a fixed resistor 83, a power contact 84 and a signal output contact 85, wherein the combinational logic circuit board 82, the fixed resistor 83, the power contact 84 and the signal output contact 85 are all embedded on the carrying substrate 81, the combinational logic circuit board 82 is electrically connected with the fixed resistor 83, the power contact 84 and the signal output contact 85 respectively, and the power contact 84 and the signal output contact 85 are electrically connected with the spring plate electrode 5 and the driving circuit 10 respectively through wires, furthermore, the carrying substrate 81 is a double-sided circuit board, the two sides are divided a and b, the positive electrode of the power supply flows into the a side of the circuit board through the power contact 84, then n lines flow into the spring plate electrode on the fixed clamp plate 3 through the plated through hole, flow into the fixed resistor 83 through the spring plate electrode, flow into the metal sheet through the remaining fixed resistor 83 through wires, the circuit board is characterized in that the circuit board flows into the elastic sheet through an elastic sheet electrode 5 contact on the elastic sheet of the fixed splint 3, flows into the a surface of the circuit board through the electroplating through hole, flows through the fixed resistor 83 through the circuit and converges into a main circuit, flows back to the positive pole of the power supply through the power connection point 84 to form a loop, a circuit is led out from one end of the fixed resistor 83 close to the positive pole in the branch circuit to be connected with the combinational logic circuit board 81, a circuit is led out from the negative pole of the circuit to be connected with the combinational logic circuit board 82, and two circuits are led out from the combinational logic circuit.

In this embodiment, the hole walls of the wire through holes 12 are all provided with the conductive plating layers 6 with the thickness of 0.1-3 mm.

It should be noted that the contacts 4 are all right-angle trapezoidal plate-shaped structures, the maximum width of the contacts 4 is at least 1.3 times of the thickness of the holder 1, the rear end faces of the contacts 4 are flush with the slide sheet 2 and the upper end face and the lower end face of the holder 1, the front end faces of the contacts 4 respectively form an included angle of 15-60 degrees with the upper end face and the lower end face of the holder 1, and the front end faces of the contacts 4 at the positions of the upper end face and the lower end face of the holder 1 are distributed in parallel.

In this embodiment, the driving circuit 10 is a circuit system based on an industrial single chip, and the driving circuit 10 is further provided with a wireless communication device and at least one communication terminal 13 and a power terminal 14, and the communication terminal 13 and the power terminal 14 are both embedded in the outer surface of the holder 1.

In the concrete implementation of the novel sampling device, the following steps are carried out for copying and sampling operation:

s1, prefabricating equipment, assembling the clamp holder, the slip sheet, the fixed clamp plate, the contact, the elastic sheet electrode, the slip sheet baffle, the circuit board, the driving battery and the driving circuit, connecting the assembled utility model with an external power supply and data acquisition system, completing data acquisition and power supply operation, finally adjusting each slip sheet to be at the lowest position, and the lower end face of each slip sheet to be in the same plane, wherein the circuit parameters of each slip sheet acquired by the circuit board are kept consistent, thus the utility model can be assembled for standby;

s2, data acquisition, accomplish S1 step back, will treat the data acquisition work piece and fix, then will the utility model discloses a terminal surface treats side surface contact through contact and work piece under each gleitbretter, make each gleitbretter carry out corresponding position adjustment along with work piece surface undulation, thereby make realize under each gleitbretter terminal surface equipartition treat the side surface and carry out the profile modeling at the surface that awaits measuring, then gather the circuit parameter of each gleitbretter after accomplishing the orientation location through the circuit board, and each gleitbretter circuit data transmission after will gathering to drive circuit in, carry to external data collection equipment after the drive circuit is handled at last, thereby the completion reaches to the collection of work piece surface data parameter according to each gleitbretter circuit parameter change, and generate the actual curve figure of detection surface.

In steps S1 and S2, the circuit parameters of the slider include the voltage, current and resistance of each slider.

Those skilled in the art should understand that the present invention is not limited by the above embodiments. The foregoing embodiments and description have been made only for the purpose of illustrating the principles of the invention. The present invention can be further modified and improved without departing from the spirit and scope of the present invention. Such changes and modifications are intended to be within the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A can output the type ware of electrical signal, its characterized in that: the shape taking device capable of outputting electric signals comprises a holder, a slip sheet, a fixed clamp plate, a contact, a spring sheet electrode, a slip sheet baffle, a circuit board, a driving battery and a driving circuit, wherein the holder is of a plate-shaped structure with a rectangular cross section, the interior of the holder is sequentially divided into a power supply chamber, a control chamber and a slip sheet chamber from front to back along the axis direction, the driving battery is embedded in the power supply chamber, the driving circuit is embedded in the control chamber and is electrically connected with the circuit board and the driving battery respectively, a plurality of slip sheets are embedded in the slip sheet chamber respectively, the slip sheets are mutually connected in parallel and are distributed vertically to the axis of the holder respectively and are uniformly distributed along the axis direction of the holder, the distance between every two adjacent slip sheets is 0-5 mm and are connected in a sliding manner, the upper end face and the lower end face of each slip sheet are positioned, the sliding sheet is of a plate-shaped structure which is vertically distributed along the axis of the sliding sheet chamber, positioning grooves which are distributed along with the sliding sheet are arranged in the sliding sheet chamber, the sliding sheet and the positioning grooves form a groove-shaped structure with a II-shaped axial section, the fixed clamping plate is of an I-shaped groove-shaped structure with a cross section, is embedded in the sliding sheet chamber and is coaxially distributed with the sliding sheet chamber, the fixed clamping plate is additionally embedded in the positioning grooves of the sliding sheets and is in sliding connection with the groove walls of the positioning grooves, a plurality of sliding sheet baffles are embedded on the upper end face of the fixed clamping plate and are uniformly distributed along the axis direction of the fixed clamping plate, the number and the positions of the sliding sheet baffles correspond to the number and the positions of the sliding sheets, a sliding sheet baffle is arranged in the positioning groove of each sliding sheet and abuts against the upper end face of the positioning groove, a plurality of electrodes are arranged in, the rear end face of the circuit board is connected with the bottom of the groove body of the front end face of the fixed clamp plate, the front end face of the circuit board is connected with the side wall of the positioning groove in a sliding mode, the circuit board is embedded in the groove body of the rear end face of the fixed clamp plate and is distributed in parallel with the axis of the fixed clamp plate, the line holes are formed in the fixed clamp plate corresponding to the circuit board, the circuit board is electrically connected with the elastic piece electrodes and the driving circuit through wires, and the wires connected with the elastic piece.

2. The sampler capable of outputting an electrical signal according to claim 1, wherein: the holder include base, protective cover and mounting hole, wherein base, protective cover are the cross-section and personally submit "U" font slot-like structure, base, protective cover interconnect and constitute closed cavity structures, power supply room, control room and gleitbretter room all inlay in the base, the mounting hole is a plurality of, the equipartition is on base, protective cover surface respectively, just solid fixed splint passes through the mounting hole and is connected with base and protective cover.

3. The sampler capable of outputting an electrical signal according to claim 1, wherein: the gleitbretter include loading board, electrically conductive sheetmetal, resistance and series connection line, the loading board is the platelike structure that the cross section is the rectangle, and its inside is established the constant head tank with the coaxial distribution of loading board, electrically conductive sheetmetal, resistance all at least, from last equipartition down along the loading board axis direction, be connected with the constant head tank cell wall respectively and with loading board axis parallel distribution, electrically conductive sheetmetal, resistance are connected through at least one series connection line electricity between, electrically conductive sheetmetal, resistance respectively with a shell fragment electrode electrical connection, and electrically conductive sheetmetal, resistance correspond the shell fragment electrode connect in parallel each other to respectively through wire and circuit board electrical connection.

4. The sampler capable of outputting an electrical signal according to claim 1, wherein: the elastic sheet electrode comprises a metal elastic sheet and a contact point, wherein the metal elastic sheet is of a triangular structure, the vertex angle of the metal elastic sheet is connected with the contact point and is electrically connected with the sliding sheet through the contact point, one end of the rear end face is connected with the fixed clamping plate, and the other end of the rear end face is embedded in the wire passing hole and is electrically connected with the circuit board through a wire.

5. The sampler capable of outputting an electrical signal according to claim 1, wherein: the circuit board comprises a bearing substrate, a combined logic circuit board, a fixed resistor, a power supply contact and a signal output contact, wherein the combined logic circuit board, the fixed resistor, the power supply contact and the signal output contact are all embedded on the bearing substrate, the combined logic circuit board is respectively electrically connected with the fixed resistor, the power supply contact and the signal output contact are respectively electrically connected with a spring plate electrode and a driving circuit through leads, in addition, the bearing substrate is a double-sided circuit board, the two sides of a and b are divided, a power supply anode flows into the a surface of the circuit board through the power supply contact, then n lines of, the circuit board flows into the surface a of the circuit board through the electroplating through hole, the circuit flows through the fixed resistor to be converged into a main circuit, the main circuit flows back to the positive pole of the power supply through the power supply contact to form a loop, a circuit is led out from one end of the fixed resistor, close to the positive pole, in the branch circuit to be connected with the combinational logic circuit board, a circuit is led out from the negative pole of the circuit to be connected with the combinational logic circuit board, and two circuits are led out from the combinational logic circuit board to be connected with the contact of the signal.

6. The sampler capable of outputting an electrical signal according to claim 1, wherein: the hole walls of the wire passing holes are all provided with conductive electroplated layers with the thickness of 0.1-3 mm.

7. The sampler capable of outputting an electrical signal according to claim 1, wherein: the contact is in a right-angle trapezoid plate-shaped structure, the maximum width of the contact is at least 1.3 times of the thickness of the holder, the rear end face of the contact is flush with the slide sheet and the upper end face and the lower end face of the holder, the front end face of the contact forms an included angle of 15-60 degrees with the upper end face and the lower end face of the holder respectively, and the front end faces of the contacts at the upper end face and the lower end face of the holder are distributed in parallel.

8. The sampler capable of outputting an electrical signal according to claim 1, wherein: the drive circuit is a circuit system based on an industrial single chip microcomputer, the drive circuit is additionally provided with a wireless communication device and at least one communication terminal and a power terminal, and the communication terminal and the power terminal are embedded in the outer surface of the holder.