CN209400084U - Terahertz time-domain spectroscopy instrument - Google Patents

Abstract

The utility model relates to tera-hertz spectra technical fields, provide a kind of terahertz time-domain spectroscopy instrument, including spectrometer unit body, sample bearing structure and scanning driving device, spectrometer unit body includes Terahertz generator and installation cooperation structure, installation cooperation structure is detachably connected with reflection imaging device/transmission spectrum test device, sample bearing structure has scanning operation position and scans unemployed position, scanning driving device is for driving sample bearing structure to move back and forth between scanning operation position and the unemployed position of scanning, and for driving sample bearing structure to be scanned movement when sample bearing structure is in scanning operation position.Terahertz time-domain spectroscopy instrument transformation test pattern is without frequently dismounting and debugging scanning imagery test device, and test device replacement is efficient and convenient, conversion is not necessarily to optical alignment, can meet user's diversification testing requirement.

Description

Terahertz time-domain spectroscopy instrument

Technical field

The utility model relates to tera-hertz spectra technical field more particularly to a kind of terahertz time-domain spectroscopy instrument.

Background technique

Terahertz time-domain spectroscopic technology is that one of terahertz light spectral technology is emerging, very effective electromagnetic radiation position phase Coherent detection technology can effectively analyze substance spectra characteristic, composed structure, molecular vibration rotational characteristic and deep Research can carry out qualitative analysis to sample, be widely used in biomedicine, chemistry, agricultural, medicine pharmacy, material, food The fields such as product, drug detection.

In actual application, according to different sample and test request, different test such as scanning imagery can be filled It sets, the test devices such as transmission spectrum test device are connected to the test number that sample is obtained on the host of terahertz time-domain spectroscopy instrument It is more common means of testing according to, wherein scanning imagery and spectral line test.However, traditional terahertz time-domain spectroscopy instrument When being scanned imaging, scanning imagery test device need to be stacked and be installed on above host, and debug relevant parameter, and into When row spectral line is tested, and need to dismantle the scanning imagery test device just transmission spectrum test device can be used to carry out spectral line survey to sample Examination causes when carrying out the measurement of different sample messages, need to frequently dismount and debug scanning imagery test device, operation ten again Divide cumbersome, not convenient.

Utility model content

The purpose of this utility model is to provide a kind of terahertz time-domain spectroscopy instrument, it is intended to solve existing terahertz time-domain light When spectrometer converts test pattern, the problem of always need to frequently dismounting and debug scanning imagery test device again.

In order to solve the above technical problems, the technical solution of the utility model is: a kind of terahertz time-domain spectroscopy instrument at least can It is enough to be used cooperatively with reflection imaging device/transmission spectrum test device, comprising:

Spectrometer unit body, including for generating THz wave Terahertz generator and with the Terahertz generator The installation cooperation structure of connection, the installation cooperation structure and the reflection imaging device/transmission spectrum test device are removable Connection is unloaded, the Terahertz generator is able to carry out scanning imagery operation when being used cooperatively with the reflection imaging device, and Transmission spectrum test jobs are able to carry out when being used cooperatively with the transmission spectrum test device；

Sample bearing structure is used for bearing test sample, has scanning operation position and scans unemployed position, the sample Bearing structure scans the test sample, the sample carrying knot for the Terahertz generator at the scanning operation position Structure avoids the reflection imaging device/transmission spectrum test device at the unemployed position of the scanning, so that described be reflected into It can install as device/transmission spectrum test device to the spectrometer unit body or be separated from the spectrometer unit body；

Scanning driving device, for driving the sample bearing structure to move back and forth in the scanning operation position and described It scans between unemployed position, and for driving the sample bearing structure to be in the scanning operation in the sample bearing structure Movement is scanned when position.

Further, the scanning driving device include the lateral driver device being connect with the sample bearing structure and The longitudinal driving device connecting with the lateral driver device, the lateral driver device is for driving the sample bearing structure Transversal scanning operation is carried out when the sample bearing structure is in the scanning operation position, the longitudinal driving device is used for The sample bearing structure is driven to move back and forth between the scanning operation position and the unemployed position of scanning, and for driving It moves the sample bearing structure and carries out longitudinal scanning operation when the sample bearing structure is in the scanning operation position.

Further, the longitudinal driving device includes longitudinal slide rail and slides along the longitudinal direction of longitudinal slide rail sliding Block, the longitudinal sliding block are connect with the lateral driver device, the longitudinal driving device further include longitudinal drive and with The longitudinal electric connector and/or longitudinal micro-control knob that the longitudinal drive is electrically connected, the longitudinal drive is for driving The longitudinal sliding block is slided when the sample bearing structure is in the scanning operation position along the longitudinal slide rail, described vertical It is used to be electrically connected with the spectrometer unit body to electric connector, and for controlling the longitudinal sliding block along the longitudinal slide rail The step-length of sliding, the longitudinal direction micro-control knob is for manually adjusting the step-length that the longitudinal sliding block is slided along the longitudinal slide rail.

Further, the scanning driving device further includes buffering connector, and the buffering connector is described for connecting Longitudinal sliding block and the lateral driver device, and for avoiding the lateral driver device when carrying out transversal scanning operation and institute State spectrometer unit body friction.

Further, the lateral driver device includes horizontal slide rail and slides along the transverse direction of horizontal slide rail sliding Block, the sample bearing structure are connect with the transverse slider, the lateral driver device further include traverse driver and with The lateral electric connector that the traverse driver is electrically connected, the traverse driver is for driving the transverse slider described Sample bearing structure is slided when being in the scanning operation position along the horizontal slide rail, and the transverse direction electric connector is used for and institute The electric connection of spectrometer unit body is stated, and for controlling the step-length that the transverse slider is slided along the horizontal slide rail.

Further, the spectrometer unit body further includes electrical exchanging structure, and the electrical property exchanging structure is used for and institute Lateral electric connector is stated to be electrically connected.

Further, the spectrometer unit body further includes scanning unemployed structure and connecting with the unemployed structure of scanning Longitudinally mounted structure, the unemployed structure of the scanning when the sample bearing structure is in the unemployed position of the scanning for accommodating The lateral driver device and the sample bearing structure, the longitudinally mounted structure is for installing the longitudinal driving device.

Further, the terahertz time-domain spectroscopy instrument further includes supporting element, and the supporting element is used to support the longitudinal direction Driving device, and for keeping the top plane of the longitudinal driving device concordant with the top plane of the longitudinally mounted structure.

Further, the sample bearing structure includes carrying ontology and regulating mechanism, and the carrying ontology is for holding The test sample is carried, the regulating mechanism makes the test sample be in a level for adjusting the carrying ontology two sides Face.

Further, the terahertz time-domain spectroscopy instrument further includes sample connector, and the sample connector is for connecting The sample bearing structure and the scanning driving device.

The utility model has the beneficial effects that

Terahertz time-domain spectroscopy instrument provided by the utility model at least can be with reflection imaging device/transmission spectrum test device It is used cooperatively, when terahertz time-domain spectroscopy instrument need to be used cooperatively with reflection imaging device to carry out image scanning to test sample When, installation cooperation structure and the reflection imaging device of spectrometer unit body are detachably connected, and scanning driving device drives sample Bearing structure arrives at scanning operation position and carries out scanning motion, caused by the Terahertz generator by spectrometer unit body THz wave and reflection imaging device can be scanned imaging to the reflex of THz wave to test sample；Work as terahertz When hereby time-domain spectroscopy instrument need to be used cooperatively with transmission spectrum test device to carry out transmission spectrum test to test sample, sample carrying knot Structure returns to scanning unemployed position under the action of scanning driving device, and the installation cooperation structure and transmission spectrum of spectrometer unit body are surveyed Trial assembly, which is set, to be detachably connected, can be to test specimens by the Terahertz generator and the transmission spectrum test device of spectrometer unit body Product carry out transmission spectrum test.Terahertz time-domain spectroscopy instrument provided by the utility model only needs to drive sample by scanning driving device It is replaceable test device to become that bearing structure, which moves back and forth between the scanning operation position and the unemployed position of scanning, Change test pattern, without always frequently dismount and again debug scanning imagery test device, test device replace it is efficient and convenient, Conversion is not necessarily to optical alignment, can meet user's diversification testing requirement.

Detailed description of the invention

Fig. 1 is the schematic perspective view of terahertz time-domain spectroscopy instrument provided by the embodiment of the utility model, wherein terahertz Hereby time-domain spectroscopy instrument is used cooperatively with catoptric imaging；

Fig. 2 is the partial structure diagram of terahertz time-domain spectroscopy instrument shown in FIG. 1；

Fig. 3 is the schematic perspective view of spectrometer unit body provided by the embodiment of the utility model；

Fig. 4 is the schematic perspective view of longitudinal driving device provided by the embodiment of the utility model；

Fig. 5 is the schematic perspective view of lateral driver device provided by the embodiment of the utility model.

Appended drawing reference:

Specific embodiment

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to explain The utility model is not used to limit the utility model.

In the description of the utility model embodiment, it is to be understood that term " length ", " width ", "upper", "lower", The orientation or positional relationship of the instructions such as "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside" is It is based on the orientation or positional relationship shown in the drawings, is merely for convenience of description the utility model embodiment and simplifies description, without It is that the device of indication or suggestion meaning or element must have a particular orientation, be constructed and operated in a specific orientation, therefore not It can be interpreted as the limitation to the utility model embodiment.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more of the features.The meaning of " plurality " is two or two in the description of the present invention, More than, unless otherwise specifically defined.

In the utility model embodiment unless specifically defined or limited otherwise, term " installation ", " connects " connected " Connect ", the terms such as " fixation " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral； It can be mechanical connection, be also possible to be electrically connected；It can be directly connected, can also indirectly connected through an intermediary, it can be with It is the interaction relationship of the connection or two elements inside two elements.For the ordinary skill in the art, may be used To understand concrete meaning of the above-mentioned term in the utility model embodiment as the case may be.

The specific implementation of the utility model is further described in more detail below in conjunction with specific embodiment:

Fig. 1-5 is please referred to, the utility model embodiment provides a kind of terahertz time-domain spectroscopy instrument, at least can be with reflection 20/ transmission spectrum test device of imaging device is used cooperatively.Terahertz time-domain spectroscopy instrument includes spectrometer unit body 11, sample carrying Structure 12 and scanning driving device 13.It should be noted that terahertz time-domain spectroscopic technology is terahertz light spectral technology One of emerging, very effective electromagnetic radiation position phase coherent detection technology, principle applied by terahertz time-domain spectroscopy instrument Are as follows: the mutually relevant sampling and measuring in position is carried out by the electric field strength of terahertz pulse different moments, to obtain terahertz pulse electricity Time domain waveform, Fourier transformation is being carried out to its time domain waveform, to obtain terahertz pulse electric field frequency spectrum and position is believed Breath, and when terahertz time-domain spectroscopy instrument is attached from different test devices, different measurements can be carried out to test sample, from And the relevant parameter of test sample is obtained, for example, when terahertz time-domain spectroscopy instrument is connect with scanning imagery test device to cooperate In use, imaging can be scanned to test sample；When terahertz time-domain spectroscopy instrument is connect with transmission spectrum test device to cooperate In use, carrying out transmission spectrum test to test sample using transmission principle；Terahertz time-domain spectroscopy instrument can also be with other tests Device is used cooperatively tested accordingly sample, will not enumerate explanation herein.Herein it should also be noted that, In the present embodiment, the function of scanning imagery test device is by for reflected terahertz, hereby wave by test sample and receives by test specimens The THz wave of product reflection is used for the reflection imaging device 20 that is imaged and being contained in terahertz time-domain spectroscopy instrument The scanning driving device 13 that driving test sample is scanned operation is realized jointly.

Wherein, spectrometer unit body 11 includes the Terahertz generator 111 and and Terahertz for generating THz wave The installation cooperation structure 112 that generator 111 connects, installation cooperation structure 112 and 20/ transmission spectrum test device of reflection imaging device It being detachably connected, Terahertz generator 111 is able to carry out scanning imagery operation when being used cooperatively with reflection imaging device 20, and Transmission spectrum test jobs are able to carry out when being used cooperatively with transmission spectrum test device.It should be noted that installation cooperation Structure 112 is detachably connected with 20/ transmission spectrum test device of reflection imaging device, and 20/ transmission spectrum of reflection imaging device is tested Device can only select one and be installed in installation cooperation structure 112.Spectrometer unit body 11 further includes for receiving THz wave too Hertz detector, when Terahertz generator 111 with reflection imaging device 20 when being used cooperatively, Terahertz generator 111 is produced Raw THz wave reflexes to test sample via reflection imaging device 20, and is reflected back terahertz detector via test sample The THz wave is received by terahertz detector, to realize the imaging job to test sample；When Terahertz generator 111 exists When being used cooperatively with transmission spectrum test device, at this point, test sample is installed on the sample mounting frame inside transmission spectrum test device, THz wave caused by Terahertz generator 111 via transmission spectrum test device be transmitted through after its internal test sample by Terahertz detector is received, to realize the transmission spectrum test jobs to test sample.Herein it should also be noted that, installation The shape and size of fit structure 112 need to install the shape of the 20/ transmission spectrum test device of reflection imaging device of cooperation with the structure Shape is adapted with size.

Sample bearing structure 12 is used for bearing test sample, has scanning operation position and scans unemployed position, sample is held Structure 12 is carried at scanning operation position for 111 sweep test sample of Terahertz generator, sample bearing structure 12 scanning to 20/ transmission spectrum test device of reflection imaging device is avoided when industry position, so that 20/ transmission spectrum test device energy of reflection imaging device Enough installations are separated to spectrometer unit body 11 or from spectrometer unit body 11.It should be noted that sample bearing structure 12 For carrying and fixing test sample, when sample bearing structure 12 is in scanning operation position, folded by sample bearing structure 12 The test sample held is located substantially at the surface of reflection imaging device 20, and THz wave caused by Terahertz generator 111 can It is reflexed in test sample clamped by sample bearing structure 12 via reflection imaging device 20, test sample is anti-by its THz wave It is emitted back towards terahertz detector, imaging job is carried out to the region that the THz wave of test sample detects to realize；Work as sample When bearing structure 12 is in scanning unemployed position, 20/ transmission spectrum test device of reflection imaging device can be pacified according to testing requirement It is filled in the installation cooperation structure 112 of spectrometer unit body 11, specifically, when terahertz time-domain spectroscopy instrument is surveyed from scanning imagery When die trial formula switches to transmission spectrum test pattern, transmission spectrum surveyed after reflection imaging device 20 is separated from spectrometer unit body 11 Trial assembly is set in installation to the installation cooperation structure 112 of spectrometer unit body 11；Conversely, when terahertz time-domain spectroscopy instrument is from transmission Spectrum test pattern is when switching to scanning imagery test pattern, by transmission spectrum test device from spectrometer unit body 11 separate after will be anti- It penetrates in the installation to the installation cooperation structure 112 of spectrometer unit body 11 of imaging device 20.

Scanning driving device 13 is for driving sample bearing structure 12 to move back and forth in scanning operation position and scan unemployed Between position, and it is dynamic for driving sample bearing structure 12 to be scanned when sample bearing structure 12 is in scanning operation position Make.It should be noted that when terahertz time-domain spectroscopy instrument needs replacing test pattern or needs to carry out test sample saturating When penetrating spectrum test, scanning driving device 13 drives sample bearing structure 12 to unemployed position is scanned, before this, can be by sample Test sample clamped by bearing structure 12 is removed from sample bearing structure 12；When terahertz time-domain spectroscopy instrument needs are scanned When imaging job, scanning driving device 13 drives sample bearing structure 12 to scanning operation position from unemployed position is scanned, At this point, test sample can be fixed in sample bearing structure 12, when sample bearing structure 12 is in scanning operation position, sweep Retouching driving device 13 can drive sample bearing structure 12 to be scanned movement with even step sizes, to make the everywhere of test sample It is reflected by the THz wave reflected by reflection imaging device 20, to realize scanning imagery operation.

Specifically, the substantially process for using of terahertz time-domain spectroscopy instrument provided by the utility model embodiment are as follows: when too When hertz time-domain spectroscopy instrument needs to be scanned imaging job, scanning driving device 13 is unemployed from scanning by sample bearing structure 12 Position drives to scanning operation position, and test sample is fixed in sample bearing structure 12, at sample bearing structure 12 When scanning operation position, THz wave caused by Terahertz generator 111 reflexes to test via reflection imaging device 20 Sample, and be reflected back terahertz detector via test sample and the THz wave, turntable driving dress are received by terahertz detector Setting 13 can drive sample bearing structure 12 with even step sizes mobile example bearing structure 12, so that reflection imaging device 20 reflected THz wave has been scanned across the total of test sample, to realize the scanning imagery operation to entire test sample；When When terahertz time-domain spectroscopy instrument needs replacing test pattern, for example needs to carry out transmission spectrum test to test sample, sample is held It carries test sample clamped by structure 12 to remove from sample bearing structure 12, scanning driving device 13 drives sample bearing structure 12 It moves to unemployed position is scanned, it will after reflection imaging device 20 is separated out of spectrometer unit body 11 installation cooperation structure 112 Transmission spectrum test device is installed to the installation cooperation structure 112 of spectrometer unit body 11, and test sample is installed on transmission spectrum Sample mounting frame inside test device is to carry out transmission spectrum test to test sample；When without starting terahertz time-domain spectroscopy instrument When, test sample clamped by sample bearing structure 12 is removed from sample bearing structure 12, scanning driving device 13 is by sample The driving of bearing structure 12 is to unemployed position is scanned, to form seal protection to each optical component by spectrometer unit body 11.

Terahertz time-domain spectroscopy instrument provided by the embodiment of the utility model only needs to drive sample by scanning driving device 13 Bearing structure 12 move back and forth between the scanning operation position and the unemployed position of the scanning i.e. replaceable test device with Test pattern is converted, without always frequently dismounting and again debugging scanning imagery test device, the quick side of test device replacement Just, conversion is not necessarily to optical alignment, can meet user's diversification testing requirement.

Referring to FIG. 1-2, scanning driving device 13 include the lateral driver device 131 that is connect with sample bearing structure 12 with And the longitudinal driving device 132 being connect with lateral driver device 131, lateral driver device 131 is for driving sample bearing structure 12 carry out transversal scanning operation when sample bearing structure 12 is in scanning operation position, and longitudinal driving device 132 is for driving Sample bearing structure 12 moves back and forth between scanning operation position and the unemployed position of scanning, and for driving sample bearing structure 12 carry out longitudinal scanning operation when sample bearing structure 12 is in scanning operation position.It should be noted that passing through cross To driving device 131 and longitudinal driving device 132, sample bearing structure 12 can realize two-dimensional movement.Preferably, by scanning operation Position and the unemployed position of scanning are set within the scope of the driving of longitudinal driving device 132, when scanning driving device 13 carries sample Structure 12 is from when scanning unemployed position and driving to scanning operation position, it is only necessary to realize sample carrying knot by longitudinal driving device 132 The movement of structure 12；When sample bearing structure 12 is in scanning operation position, scanning driving device 13 drives sample bearing structure 12 When being scanned movement with even step sizes, first by longitudinal driving device 132 and lateral driver device 131 by sample bearing structure 12 A vertex move to the surface of the THz wave that reflection imaging device 20 is reflected (this said for sentencing the sample upper left corner It is bright), then lateral driver device 131 drives sample bearing structure 12 to carry out transversal scanning operation again, until reflection imaging device 20 THz waves reflected scan on the test specimen forms first horizontal line region, then passes through longitudinal driving device 132 Driving sample bearing structure 12 takes a step back, and the column leftmost side is moved to reflection imaging device by lateral driver device 131 The surface of 20 THz waves reflected, then lateral driver device 131 drives sample bearing structure 12 laterally sweep again Operation is retouched, until the THz wave that reflection imaging device 20 is reflected scans form Article 2 horizontal line region on the test specimen, So recycle repeatedly, until the everywhere of test sample is reflected by the THz wave reflected by reflection imaging device 20, from And realize scanning imagery operation.

Fig. 2,4 are please referred to, the sliding of sliding rail 1321 including longitudinal slide rail 1321 and along longitudinal direction of longitudinal driving device 132 is indulged To sliding block 1322, longitudinal sliding block 1322 is connect with lateral driver device 131, and longitudinal driving device 132 further includes longitudinal drive 1323 and the longitudinal electric connector 1324 and/or longitudinal micro-control knob 1325 that are electrically connected with longitudinal drive 1323, it is longitudinal Driver 1323 is for driving the sliding rail along longitudinal direction when sample bearing structure 12 is in scanning operation position of longitudinal sliding block 1322 1321 slidings, longitudinal electric connector 1324 are used to be electrically connected with spectrometer unit body 11, and for controlling longitudinal sliding block 1322 The step-length that sliding rail 1321 slides along longitudinal direction, longitudinal micro-control knob 1325 is for manually adjusting the sliding rail along longitudinal direction of longitudinal sliding block 1322 The step-length of 1321 slidings.It should be noted that longitudinal driving device 132 further includes drive shaft, drive shaft one end and longitudinal direction Driver 1323 connects, and the drive shaft other end is connect with longitudinal sliding block 1322, in the case where longitudinal driving device 132 starts, Longitudinal drive 1323 is flexible to drive the longitudinal sliding block 1322 being firmly connected with it sliding rail along longitudinal direction by control drive shaft 1321 slidings；Longitudinal driving device 132 can be provided only with a longitudinal electric connector 1324 or a longitudinal micro-control knob 1325, One longitudinal electric connector 1324 and a longitudinal micro-control knob 1325, longitudinal electric connector 1324 and longitudinal direction can be set simultaneously Micro-control knob 1325 is used equally for adjusting the step-length that sliding rail 1321 slides along longitudinal direction of longitudinal sliding block 1322, i.e. adjusting zigzag tread patterns dress Set the drive that 132 driving sample bearing structures 12 carry out longitudinal scanning operation when sample bearing structure 12 is in scanning operation position Dynamic frequency, wherein longitudinal electric connector 1324 is used to be electrically connected with the main control module of terahertz time-domain spectroscopy instrument, longitudinal micro-control Knob 1325 is for manually adjusting, and the error in such a way that longitudinal electric connector 1324 realizes control is relative to using longitudinal micro- It controls knob 1325 and realizes that the error of the mode of control is small.

Fig. 2,4 are please referred to, scanning driving device 13 further includes buffering connector 133, and buffering connector 133 is vertical for connecting To sliding block 1322 and lateral driver device 131, and for avoiding lateral driver device 131 from carrying out transversal scanning operation Shi Yuguang Spectrometer main body 11 rubs.It should be noted that the longitudinal direction that lateral driver device 131 is set to longitudinal driving device 132 is sliding On block 1322, to avoid lateral driver device 131 in the process of starting since vibration leads to lateral driver device 131 and spectrometer Main body 11 generates CONTACT WITH FRICTION, between the longitudinal sliding block 1322 and lateral driver device 131 of longitudinal driving device 132, if Set the connection that a buffering connector 133 realizes the two.Herein also it should be added that, buffer connector 133 on be additionally provided with Cross spacing region, which is designed according to the outer dimension of lateral driver device 131, when laterally driven dress When setting 131 on buffering connector 133, which can play position-limiting action to lateral driver device 131.

Fig. 2,5 are please referred to, lateral driver device 131 includes horizontal slide rail 1311 and the cross that transversely sliding rail 1311 slides To sliding block 1312, sample bearing structure 12 is connect with transverse slider 1312, and lateral driver device 131 further includes traverse driver 1313 and the lateral electric connector 1314 that is electrically connected with traverse driver 1313, traverse driver 1313 is for driving transverse direction When sample bearing structure 12 is in scanning operation position, transversely sliding rail 1311 slides sliding block 1312, lateral electric connector 1314 For being electrically connected with spectrometer unit body 11, and for controlling the step-length that transversely sliding rail 1311 slides of transverse slider 1312. It should be noted that 1311 bottom of horizontal slide rail of lateral driver device 131 is connect with longitudinal driving device 132, laterally The horizontal slide rail 1311 of driving device 131 is connect with sample bearing structure 12, in the case where lateral driver device 131 starts, Traverse driver 1313 drives transverse slider 1312, and transversely sliding rail 1311 reciprocatingly slides；It is laterally driven to control scanning accuracy Device 131 is equipped with a lateral electric connector 1314 and is used to be electrically connected with the main control module of terahertz time-domain spectroscopy instrument, is used in combination In adjusting transverse slider 1312 step-length that transversely sliding rail 1311 slides, that is, adjust lateral driver device 131 and drive sample carrying Structure 12 carries out the driving frequency of transversal scanning operation when sample bearing structure 12 is in scanning operation position.

Fig. 3,5 are please referred to, spectrometer unit body 11 further includes electrical exchanging structure 113, and electrical exchanging structure 113 passes through tool There is the cable of multiple electric leads to be electrically connected with lateral electric connector 1314.For make to be electrically connected with lateral driver device 131 The cabling layout of electric lead is not regular, in disorder and not exposed, in the electrical exchanging structure 113 of setting one in spectrometer unit body 11, It is laterally driven to realize by the lateral electric connector 1314 and the electrical electric connection of exchanging structure 113 of lateral driver device 131 The main control module of device 131 and terahertz time-domain spectroscopy instrument is electrically connected.

Please refer to Fig. 1,3, spectrometer unit body 11 further include scan unemployed structure 114 and with scan unemployed structure 114 The longitudinally mounted structure 115 of connection scans unemployed structure 114 for when the accommodating when scanning unemployed position of sample bearing structure 12 Lateral driver device 131 and sample bearing structure 12, longitudinally mounted structure 115 is for installing longitudinal driving device 132.It needs herein It is noted that longitudinal driving device 132 is installed in longitudinally mounted structure 115, so set, can be by longitudinal driving device The cabling layout of 132 conductor cable is set to spectrometer unit body 11, avoids its exposed to its service life of raising；At this point, Operation will be carried out scanning in unemployed structure 114 by being connected to the lateral driver device 131 on longitudinal driving device 132, when too Hertz time-domain spectroscopy instrument needs replacing test pattern or when without starting terahertz time-domain spectroscopy instrument, and scanning driving device 13 can will Sample bearing structure 12 is contracted to inside the unemployed structure 114 of scanning, to avoid reflection imaging device 20/ when replacing test device Transmission spectrum test device and without start terahertz time-domain spectroscopy instrument to its structure carry out airtightness protection.Supplementary explanation It is that in the present embodiment, electrical exchanging structure 113, which is set to, to be scanned at unemployed 114 one side wall of structure, to facilitate lateral driver device 131 lateral electric connector 1314 is electrically connected.

Fig. 2,4 are please referred to, terahertz time-domain spectroscopy instrument further includes supporting element 14, and supporting element 14 is used to support zigzag tread patterns dress 132 are set, and for keeping the top plane of longitudinal driving device 132 concordant with the top plane of longitudinally mounted structure 115.It needs herein Bright, supporting element 14 is used to support the longitudinal driving device 132 being installed in longitudinally mounted structure 115, in supporting element 14 Under supporting role, the top plane of the top plane of the longitudinal drive 1323 of longitudinal driving device 132 and longitudinally mounted structure 115, The baseplane for scanning unemployed structure 114 is concordant, so set, space needed for can reducing the unemployed structure 114 of scanning as far as possible, benefit It designs in the terahertz time-domain spectroscopy instrument of miniaturization, under the action of longitudinal sliding block 1322 of longitudinal driving device 132, laterally drives Dynamic device 131 is slided the baseplane for scanning unemployed structure 114 is almost close to, and buffering connector 133 can be used for avoiding at this time Friction of the lateral driver device 131 when carrying out transversal scanning operation with the baseplane for scanning unemployed structure 114.It also needs herein Supplementary explanation, supporting element 14 are equipped with longitudinal spacing region, and the longitudinal spacing region is according to the outer of longitudinal driving device 132 Shape size is designed, and when longitudinal driving device 132 is set on supporting element 14, which can fill zigzag tread patterns Set 132 position-limiting actions.

Sample bearing structure 12 includes carrying ontology 121 and regulating mechanism 122 referring to FIG. 1-2, carries ontology 121 For bearing test sample, the regulating mechanism 122 is in the test sample for adjusting 121 two sides of carrying ontology One horizontal plane.It should be noted that carrying ontology 121 is arranged according to the shape of test sample, it is preferable that due to test specimens Product are mostly circle, thus, in the present embodiment, carrying ontology 121 is circular clamp, and according to the size of test sample, is adjusted The size of section carrying ontology 121 is adapted it with test sample size, to be fixed and support to test sample.Carrying 121 two sides of ontology are additionally provided with regulating mechanism 122, by the height of 122 adjustable carrier ontology of regulating mechanism, 121 two sides, make The test sample being carried on carrying ontology 121 is on a horizontal plane, to guarantee that test sample is being scanned imaging work Planarization during industry, that is, during so that test sample is scanned imaging job, each point of test sample and reflection The distance of imaging device 20 is equal always.

Terahertz time-domain spectroscopy instrument further includes sample connector 15 referring to FIG. 1-2, and sample connector 15 is for connecting sample Product bearing structure 12 and scanning driving device 13.It should be noted that being needed when sample 12 holding test samples of bearing structure Test sample is set to be in a horizontal plane, so that reflection imaging device 20 is scanned imaging to it, thus, sample connector 15 With orthogonal first end and second end, the transverse direction of the lateral driver device 131 in first end and scanning driving device 13 Sliding block 1312 is fixedly connected, and second end is connect with sample bearing structure 12, to realize sample bearing structure 12 and turntable driving The connection of device 13 drives sample bearing structure 12 to be scanned imaging job conducive to scanning driving device 13.

Zigzag tread patterns dress when terahertz time-domain spectroscopy instrument needs to be scanned imaging job, in scanning driving device 13 It sets 132 to drive sample bearing structure 12 to scanning operation position from unemployed position is scanned, test sample is fixed on sample On the carrying ontology 121 of bearing structure 12, and it is fixed on test sample in sample bearing structure 12 by regulating mechanism 122, When sample bearing structure 12 is in scanning operation position, THz wave caused by Terahertz generator 111 is via being reflected into As device 20 reflexes to test sample, and terahertz detector is reflected back via test sample, this is received too by terahertz detector Hertz wave, longitudinal driving device 132 and lateral driver device 131 in scanning driving device 13 driving sample bearing structure jointly 12 with even step sizes mobile example bearing structure 12, so that the THz wave that reflection imaging device 20 reflects has been scanned across test The total of sample, to realize the scanning imagery operation to entire test sample；When terahertz time-domain spectroscopy instrument needs more When changing test pattern, for example needing to carry out transmission spectrum test to test sample, regulating mechanism 122 is unclamped, sample is carried and is tied Test sample clamped by structure 12 is removed from sample bearing structure 12, and scanning driving device 13 drives sample bearing structure 12 extremely Unemployed position is scanned, at this point, sample bearing structure 12 is contracted to inside the unemployed structure 114 of scanning to avoid reflection imaging device 20/ transmission spectrum test device, will after reflection imaging device 20 is separated out of spectrometer unit body 11 installation cooperation structure 112 Transmission spectrum test device is installed to the installation cooperation structure 112 of spectrometer unit body 11, and test sample is installed on transmission spectrum Sample mounting frame inside test device is to carry out transmission spectrum test to test sample；When without starting terahertz time-domain spectroscopy instrument When, test sample clamped by sample bearing structure 12 is removed from sample bearing structure 12, scanning driving device 13 is by sample The driving of bearing structure 12 scans inside unemployed structure 114 to unemployed position is scanned at this point, sample bearing structure 12 is contracted to, with Seal protection is formed to each optical component.

Terahertz time-domain spectroscopy instrument provided by the embodiment of the utility model only needs to drive sample by scanning driving device 13 Bearing structure 12 move back and forth between the scanning operation position and the unemployed position of the scanning i.e. replaceable test device with Test pattern is converted, without always frequently dismounting and again debugging scanning imagery test device, the quick side of test device replacement Just, conversion is not necessarily to optical alignment, can meet user's diversification testing requirement.Meanwhile terahertz provided by the embodiment of the utility model Hereby the cabling layout of the conductor cable of the scanning driving device 13 of time-domain spectroscopy instrument is set to inside spectrometer unit body 11, is avoided Conductor cable is exposed, to improve terahertz time-domain spectroscopy instrument service life to a certain extent.

The above is only the preferred embodiments of the present utility model only, is not intended to limit the utility model, all practical at this Made any modifications, equivalent replacements, and improvements etc., should be included in the guarantor of the utility model within novel spirit and principle Within the scope of shield.

Claims (10)

1. a kind of terahertz time-domain spectroscopy instrument can be at least used cooperatively with reflection imaging device/transmission spectrum test device, special Sign is, comprising:

Spectrometer unit body is connect including the Terahertz generator for generating THz wave and with the Terahertz generator Installation cooperation structure, the installation cooperation structure detachably connects with the reflection imaging device/transmission spectrum test device Connect, the Terahertz generator is able to carry out scanning imagery operation when being used cooperatively with the reflection imaging device, and with The transmission spectrum test device is able to carry out transmission spectrum test jobs when being used cooperatively；

Sample bearing structure is used for bearing test sample, has scanning operation position and scans unemployed position, the sample carrying Structure scans the test sample for the Terahertz generator at the scanning operation position, and the sample bearing structure exists The reflection imaging device/transmission spectrum test device is avoided when the unemployed position of the scanning, so that the catoptric imaging fills Set/the transmission spectrum test device can install to the spectrometer unit body or separate from the spectrometer unit body；

Scanning driving device, for driving the sample bearing structure to move back and forth in the scanning operation position and the scanning Between unemployed position, and for driving the sample bearing structure to be in the scanning operation position in the sample bearing structure When be scanned movement.

2. terahertz time-domain spectroscopy instrument as described in claim 1, which is characterized in that the scanning driving device include with it is described The lateral driver device of sample bearing structure connection and the longitudinal driving device being connect with the lateral driver device, the cross To driving device for drive the sample bearing structure when the sample bearing structure is in the scanning operation position into Row transversal scanning operation, the longitudinal driving device is for driving the sample bearing structure to move back and forth in the scanning operation Between position and the unemployed position of scanning, and for driving the sample bearing structure to be in institute in the sample bearing structure Longitudinal scanning operation is carried out when stating scanning operation position.

3. terahertz time-domain spectroscopy instrument as claimed in claim 2, which is characterized in that the longitudinal driving device includes longitudinal sliding Rail and the longitudinal sliding block slided along the longitudinal slide rail, the longitudinal sliding block are connect with the lateral driver device, described vertical It further include longitudinal drive and the longitudinal electric connector being electrically connected with the longitudinal drive and/or longitudinal direction to driving device Micro-control knob, the longitudinal drive is for driving the longitudinal sliding block to be in the scanning operation in the sample bearing structure It is slided when position along the longitudinal slide rail, the longitudinal direction electric connector is used to be electrically connected with the spectrometer unit body, is used in combination In the step-length that the control longitudinal sliding block is slided along the longitudinal slide rail, the longitudinal direction micro-control knob is described vertical for manually adjusting The step-length slided to sliding block along the longitudinal slide rail.

4. terahertz time-domain spectroscopy instrument as claimed in claim 3, which is characterized in that the scanning driving device further includes buffering Connector, the buffering connector are used to avoid the cross for connecting the longitudinal sliding block and the lateral driver device To driving device when carrying out transversal scanning operation with the spectrometer unit body friction.

5. terahertz time-domain spectroscopy instrument as claimed in claim 2, which is characterized in that the lateral driver device includes laterally sliding Rail and the transverse slider slided along the horizontal slide rail, the sample bearing structure are connect with the transverse slider, the cross The lateral electric connector for further including traverse driver to driving device and being electrically connected with the traverse driver, the transverse direction Driver is for driving the transverse slider when the sample bearing structure is in the scanning operation position along the transverse direction Sliding rail sliding, the transverse direction electric connector are used to be electrically connected with the spectrometer unit body, and described laterally sliding for controlling The step-length that block is slided along the horizontal slide rail.

6. terahertz time-domain spectroscopy instrument as claimed in claim 5, which is characterized in that the spectrometer unit body further includes electrical property Exchanging structure, the electrical property exchanging structure are electrically connected by the cable with multiple electric leads with the lateral electric connector It connects.

7. terahertz time-domain spectroscopy instrument as claimed in claim 2, which is characterized in that the spectrometer unit body further includes scanning Unemployed structure and the longitudinally mounted structure connecting with the unemployed structure of scanning, the unemployed structure of scanning are used to work as the sample Product bearing structure accommodates the lateral driver device and the sample bearing structure, the longitudinal direction at the unemployed position of the scanning Mounting structure is for installing the longitudinal driving device.

8. terahertz time-domain spectroscopy instrument as claimed in claim 7, which is characterized in that the terahertz time-domain spectroscopy instrument further includes Supporting element, the supporting element are used to support the longitudinal driving device, and for make the top plane of the longitudinal driving device with The top plane of the longitudinally mounted structure is concordant.

9. such as terahertz time-domain spectroscopy instrument described in any item of the claim 1 to 8, which is characterized in that the sample carrying knot Structure includes carrying ontology and regulating mechanism, and for carrying the test sample, the regulating mechanism is used for the carrying ontology Adjusting the carrying ontology two sides makes the test sample be in a horizontal plane.

10. terahertz time-domain spectroscopy instrument as claimed in claim 9, which is characterized in that the terahertz time-domain spectroscopy instrument also wraps Sample connector is included, the sample connector is for connecting the sample bearing structure and the scanning driving device.