CN205038216U - Thrombelastogram instrument - Google Patents

Abstract

The utility model belongs to the technical field of the medical equipment technique and specifically relates to a thrombelastogram instrument. This thrombelastogram instrument is used for detecting the sample in the reaction cup, its characterized in that include shell, frame, a plurality of measuring station, with the transmission of the same quantity of measuring station and with the heating device of the same quantity of measuring station, a plurality of measuring stations and transmission all locate in the frame, every transmission cover is established on a measuring station, is equipped with the guide arm on every transmission, heating device locates on the guide arm, and lie in slide about under the measuring station and set up, heating device is including a glass groove, heating plate, tray and end of tray board, be equipped with first mounting hole on the cup groove, be equipped with the second mounting hole on the tray, the reaction cup is located in the first mounting hole, the measuring station lower extreme stretches into detect in the reaction cup, through the end of tray board with the cup groove compress tightly in between tray and the end of tray board, the heating plate hug closely in on the lower terminal surface in cup groove or on the side.

Description

A kind of thrombelastogram instrument

Technical field

The utility model relates to technical field of medical equipment, specifically a kind of thrombelastogram instrument.

Background technology

Thrombelastogram instrument is a kind of from whole dynamic process to monitor the analyser of coagulation process, thrombelastogram (thromboela-stogram, TEG) be that reflection blood clotting dynamic change (comprises fibrinous formation speed, the soundness of dissolved state and solidifying shape, elastic force degree) index, therefore the factor affecting thrombelastogram mainly contains: the speed of erythrocytic state of aggregation, erythrocytic rigidity, blood clotting, the height etc. of fibrinolytic activity.In order to improve the accuracy of detection, need to be used for depositing the temperature of reaction cup constant temperature a setting of detection blood sample, and then ensure the reliability of testing result, the thermostat complex structure of existing thrombelastogram instrument, and constant temperature effect is not ideal enough, and existing temperature sensor is all generally be close to heater strip, the temperature sensed like this is not very accurate, therefore has certain limitation; In addition, what existing thrombelastogram instrument did in human-computer interaction is not in place.

Utility model content

The utility model provides heating component and the heating arrangement of the thrombelastogram instrument that a kind of structure is simple, good constant-temperature effect, Detection accuracy are high.

The utility model is achieved through the following technical solutions:

A kind of heating component of thrombelastogram instrument, for the sample in detection reaction cup, comprise shell, frame, some measuring stations, with the gearing of described measuring station equal number and the heating arrangement with described measuring station equal number, some measuring stations and gearing are all located in described frame, each gearing is set on a measuring station, each gearing is provided with guide rod, described heating arrangement is located on described guide rod, and be positioned at immediately below described measuring station and slide up and down setting, described heating arrangement comprises a glass groove, heating plate, pallet and tray substrate, described cup groove is provided with the first mounting hole, described pallet is provided with the second mounting hole, described reaction cup is located in described first mounting hole, described measuring station lower end is stretched in described reaction cup and is detected, by tray substrate, cup groove is pressed between described pallet and tray substrate, on the lower surface that described heating plate is close to described cup groove or on side.

The lateral wall of described cup groove is provided with a mounting plane, and described cup groove is provided with temperature sensor, and described mounting plane is close to by described temperature sensor, and described heating plate is provided with terminals, and described temperature sensor is connected with described terminals.

The both sides described pallet being positioned at described second mounting hole are respectively provided with first pilot hole, described tray substrate is provided with two the second pilot holes with two the first pilot hole corresponding sections, and first pilot hole and second pilot hole be positioned on same axis are provided with a guide rod; Described first mounting hole is hole through from top to down, described heating plate is provided with the first through hole, described gland is provided with the second through hole coaxially arranged with described first through hole, described heating arrangement also comprises push rod, described push rod upper end is through described first through hole, near or touch with the bottom connection of described reaction cup, the lower end of described push rod through described second through hole, and extends the lower surface exposing described tray substrate.

Be provided with a copper sheathing in each first pilot hole, described guide rod through described copper sheathing, and is passed down through described second pilot hole, and described pallet inside is positioned at above two the second pilot holes and is provided with a steel wire, and the guide pillar through copper sheathing clamps by described steel wire.

Described frame is provided with printer module, and described shell is provided with installing port, and described printer module lateral surface exposes outside described installing port, and described shell is covered in described Shelf External; Described frame comprises support body, middle plate, left plate and right plate, and described left plate and right plate are located at two mutual corresponding sides of described support body, and described middle grillage is between described left plate and right plate, and described printer module is located on described left plate.

Described printer module comprises printer, printer frame and two fixing feet, described left plate is provided with square aperture with corresponding section, described installing port position, described printer snaps in described printer frame, and through described square aperture, by two fixing feet, printer is fixed on described left plate; The lateral surface of described printer is provided with a circle block reinforcement, the outside dimension of described block reinforcement is greater than the inside dimension of described square aperture, described printer snaps in described square aperture, described block reinforcement blocks described square aperture, the outside dimension of described printer frame is greater than the inside dimension of described installing port, and described printer frame is stuck on the lateral surface of described left plate.

Described frame is provided with barcode machine assembly, and described shell is provided with transmission mouth, and described barcode machine assembly is embedded within described transmission mouth, and described shell is covered in described Shelf External; Described frame comprises support body, middle plate, left plate and right plate, and described left plate and right plate are located at two mutual corresponding sides of described support body, and described middle grillage is between described left plate and right plate, and described barcode machine assembly is located on described middle plate.

Described barcode machine assembly comprises barcode machine and mount pad, described barcode machine is fixed on the lower surface of described middle plate by mount pad, described left plate is provided with square aperture with described transmission mouth opposite position place, and the barcode scanning mouth of described barcode machine faces described square aperture.

Described thrombelastogram instrument also comprises display screen and industrial computer, and described display screen and industrial computer are all located in described frame, and described display screen is electrically connected with described industrial computer.

Described thrombelastogram instrument comprises four measuring stations, four gearings and four heating arrangements, the corresponding gearing of each measuring station and a heating arrangement.

The beneficial effect that the utility model brings is:

In the utility model, described thrombelastogram instrument is used for the sample in detection reaction cup, comprise shell, frame, some measuring stations, with the gearing of described measuring station equal number and the heating arrangement with described measuring station equal number, the container storing blood sample is provided with in described heating arrangement, the blood sample of patient is left in heating arrangement, described gearing for connecting heating arrangement, and enables heating arrangement move up and down, the heating component of described thrombelastogram instrument is for heating reaction cup, comprise glass groove and heating plate, described heating plate is located on the lower surface of described cup groove, described reaction cup is located in described cup groove, and be positioned at the center of glass groove, when heating plate heats, transfer heat to a glass groove, whole cup groove temperature rises, again by heat radiation to reaction cup, and then the heating achieved reaction cup, described cup groove is close to by described temperature sensor, the temperature of real-time induction cup groove, transmission temperature signal, coordinate with heating plate, detect under making reaction cup be in a stationary temperature always, and then ensure the accuracy of detection.Described heating arrangement comprises heating component, pallet and tray substrate, heating component is pressed between the two by described pallet and tray substrate, by guide rod, whole heating arrangement can be moved up and down along guide rod again, when moving upwards, reaction cup detects near measuring station, when moving downward, taking to operator or putting into reaction cup reserves operating space; The setting of described push rod, when push rod upwards pushes away by operator, described reaction cup moves upward, and handled easily person takes reaction cup.Above structure is simple, and easy to operate, cost is low, and installation and maintenance are convenient.

Testing result can print by described printer module arrange timely and effectively, use when handled easily person and doctor link up, if find that experimental result is undesirable or difference is larger, so can again test, reduce the time delaying detection as far as possible, and if hospital is approved, is so also can as the annex of formal report.

Described barcode machine assembly the bar code that doctor only needs to be strafed by barcode machine on blood sample test tube is set, do not need manual input, convenient and swift, and can not make mistakes, further increase the accuracy of detection, on the other hand, also can carry out information mutual communication with the client information system of hospital, operator can be helped further according to other information of bar code automatic filling patient, improve the integrality of examining report.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is described in further detail.

Fig. 1 is the structural representation of the heating component of thrombelastogram instrument described in the utility model.

Fig. 2 is the structural representation in cup groove front described in the utility model.

Fig. 3 is the structural representation of cup groove reverse side described in the utility model.

Fig. 4 is the structural representation in the heating arrangement front of thrombelastogram instrument described in the utility model.

Fig. 5 is the structural representation of the heating arrangement reverse side of thrombelastogram instrument described in the utility model.

Fig. 6 is the explosive view of the heating arrangement of thrombelastogram instrument described in the utility model.

Fig. 7 is the structural representation with the thrombelastogram instrument of printer described in the utility model.

Fig. 8 is the structural representation that shell removed by the thrombelastogram instrument with printer described in the utility model.

Fig. 9 is the mounting structure schematic diagram of printer module described in the utility model.

Figure 10 is the explosive view of printer module described in the utility model.

Figure 11 is the structural representation of measuring station described in the utility model.

Figure 12 is the structural representation of gearing described in the utility model.

Figure 13 is the structural representation of heating arrangement described in the utility model.

Figure 14 is the mounting structure schematic diagram of barcode machine assembly described in the utility model.

Figure 15 is the explosive view of barcode machine assembly described in the utility model.

Figure 16 is the mounting structure schematic diagram of display screen described in the utility model.

Figure 17 is the explosive view of display screen described in the utility model.

The label that in figure, component names is corresponding is as follows:

1, shell; 2, measuring station; 3, gearing; 4, heating arrangement; 5, support body; 6, left plate; 7, right plate; 8, guide rod; 9, printer module; 10, installing port; 11, printer; 12, printer frame; 13, fixing feet; 14, square aperture; 15, block reinforcement; 16, rib; 17, renovate; 18, gap; 122, reaction cup; 222, cup groove; 322, heating plate; 422, the first mounting hole; 522, temperature sensor; 622, terminals; 722, mounting plane; 822, block reinforcement; 922, pallet; 1022, tray substrate; 1122, the second mounting hole; 1222, gland; 1322, the first pilot hole; 1422, guide rod; 1522, the first through hole; 1622, the second through hole; 1722, push rod; 1822, copper sheathing; 1922, steel wire; 2022, convex tendon; 2122, the 3rd mounting hole; 2222, the second pilot hole; 2322, opening; 91, barcode machine assembly; 101, transmission mouth; 111, barcode machine; 121, mount pad; 131, middle plate; 141, square aperture; 151, waist through hole; 161, manhole; 19, display screen; 20, industrial computer; 21, fixed head; 22, display screen cover cap.

Embodiment

Below in conjunction with drawings and Examples, the utility model is described in further detail:

As the embodiment of thrombelastogram instrument described in the utility model, as Fig. 1, Fig. 2, Fig. 3, Fig. 4, shown in Fig. 5 and Fig. 6, for the sample in detection reaction cup 122, it is characterized in that comprising shell 1, frame, four measuring stations 2, four gearings 3 and four heating arrangements 4, four measuring stations 2 and gearing 3 are all located in described frame, each gearing 3 is set on a measuring station 2, each gearing 3 is provided with guide rod 8, described heating arrangement 4 is located on described guide rod 8, and be positioned at immediately below described measuring station 2 and slide up and down setting, described heating arrangement 4 comprises glass groove 222, heating plate 322, pallet 922 and tray substrate 1022, described cup groove 222 is provided with the first mounting hole 422, described pallet 922 is provided with the second mounting hole 1122, described reaction cup 122 is located in described first mounting hole 422, described measuring station 2 lower end is stretched in described reaction cup 122 and is detected, by tray substrate 1022, cup groove 222 is pressed between described pallet 922 and tray substrate 1022, described heating plate 322 is close on the lower surface of described cup groove 222.

In the present embodiment, the lateral wall of described cup groove 222 is provided with a mounting plane 722, described cup groove 222 is provided with temperature sensor 522, described mounting plane 722 is close to by described temperature sensor 522, described heating plate 322 is provided with terminals 622, and described temperature sensor 522 is connected with described terminals 622.

In the present embodiment, described heating arrangement is for heating reaction cup 122, described heating component comprises glass groove 222 and heating plate 322, described cup groove 222 is provided with the first mounting hole 422, described reaction cup 122 is located in described first mounting hole 422, and described heating plate 322 is close on the lower surface of described cup groove 222, and described cup groove 222 is provided with temperature sensor 522, described heating plate 322 is provided with terminals 622, and described temperature sensor 522 is connected with described terminals 622.The lateral wall of described cup groove 222 is provided with a mounting plane 722, and described mounting plane 722 is close to by described temperature sensor 522.Described reaction cup 122 is located in described cup groove 222, and is positioned at the center of glass groove 222, when heating plate 322 heats, transfer heat to glass groove 222, whole cup groove 222 temperature rises, then by heat radiation to reaction cup 122, and then achieve the heating to reaction cup 122.Described cup groove 222 is close to by described temperature sensor 522, and the paste position of temperature sensor 5 is independent of heating plate 3, can the temperature of more real-time induction cup groove 222, transmission temperature signal, coordinate with heating plate 322, detect under making reaction cup 122 be in a stationary temperature always, and then ensure the accuracy of detection.

In the present embodiment, the lateral surface of described reaction cup 122 openend is provided with a circle block reinforcement 822, and the outside dimension of described block reinforcement 822 is greater than the inside dimension of described first mounting hole 422.The setting of described block reinforcement 822 is in order to make reaction cup 122 frame in described first mounting hole 422.

In the present embodiment, described pallet 922 is provided with the second mounting hole 1122, the upper end of described cup groove 222 loads described second mounting hole 1122 from below to up, described reaction cup 122 loads described first mounting hole 422 from top to down, be provided with gland 1222 below described cup groove 222, by tray substrate 1022, cup groove 222 and gland 1222 be pressed between described pallet 922 and tray substrate 1022.The both sides described pallet 922 being positioned at described second mounting hole 1122 are respectively provided with first pilot hole 1322, described tray substrate 1022 is provided with two the second pilot holes, 2222, first pilot hole 1322 with two the first pilot hole 1322 corresponding sections and is provided with a guide rod 1422 with second pilot hole 2222 be positioned on same axis.Heating component is pressed between the two by described pallet 922 and tray substrate 1022, by guide rod 1422, whole heating arrangement can be moved up and down along guide rod 1422 again, when moving upwards, reaction cup 122 detects near measuring station, when moving downward, taking to operator or putting into reaction cup 122 reserves operating space.

In the present embodiment, described first mounting hole 422 is hole through from top to down, described heating plate 322 is provided with the first through hole 1522, described gland 1222 is provided with coaxial the second through hole 1622 arranged with described first through hole 1522, described heating arrangement also comprises push rod 1722, described push rod 1722 upper end is through described first through hole 1522, touch with the bottom connection of described reaction cup 122, the lower end of described push rod 1722 through described second through hole 1622, and extends the lower surface exposing described tray substrate 1022.After detection completes, operator only needs by the lower end of push rod 1722 upwardly, then described in the upper end fore-set of push rod 1722, the bottom of reaction cup 122, impels reaction cup 122 to move upward, and then handled easily person takes reaction cup 122.Above structure is simple, and easy to operate, cost is low, and installation and maintenance are convenient.

In the present embodiment, a copper sheathing 1822 is provided with in each first pilot hole 1322, described guide rod 1422 is through described copper sheathing 1822, and be passed down through described second pilot hole 2222, described pallet 922 inside is positioned at above two the second pilot holes 2222 and is provided with a steel wire 1922, and the guide pillar 1422 through copper sheathing 1822 clamps by described steel wire 1922.It is more steady, smooth that the design of described copper sheathing 1822 makes guide rod 1422 slide in the first pilot hole 1322; Guide rod 1422 can clamp by described steel wire 1922 arrange effectively, and when needs slide up and down, heating arrangement manually slides up and down by operator.

In the present embodiment, the lateral surface of described push rod 1722 is provided with a circle convex tendon 2022, and the outside dimension of described convex tendon 2022 is greater than the inside dimension of described second through hole 1622.Arranging of described convex tendon 2022 can the landing downwards of anti-throw-out lever 1722, ensure that the stability of structure.

In the present embodiment, described tray substrate 1022 has coaxially been provided with the 3rd mounting hole 2122 with described second mounting hole 1122, and described gland 1222 bottom is stretched in described 3rd mounting hole 2122, and the lower surface of described tray substrate 1022 is exposed in lower end.Described gland 1222 this kind of vibrational power flow makes moving up and down of push rod 1722 more stable.

In the present embodiment, described pallet 922 is provided with opening 2322 with described terminals 622 corresponding section, and described terminals 622 expose outside described opening 2322.

As shown in Fig. 7, Fig. 8, Fig. 9, Figure 10, Figure 11, Figure 12 and Figure 13, in the present embodiment, described left plate 6 is provided with printer module 9, and described shell 1 is provided with installing port 10, described printer module 9 lateral surface exposes outside described installing port 10, and described shell 1 is covered in described Shelf External.Described measuring station 2 is pick-up unit, for detecting the blood of patient, being provided with the container storing blood sample in described heating arrangement 4, the blood sample of patient being left in heating arrangement 4, described gearing 3 for connecting heating arrangement 4, and makes heating arrangement 4 move up and down; Testing result can print by described printer module 9 arrange timely and effectively, use when handled easily person and doctor link up, if find that experimental result is undesirable or difference is larger, so can again test, reduce the time delaying detection as far as possible, and if hospital is approved, is so also can as the annex of formal report.

In the present embodiment, described printer module 9 comprises printer 11, printer frame 12 and two fixing feet 13, described left plate 6 is provided with square aperture 14 with corresponding section, described installing port 10 position, described printer 11 snaps in described printer frame 12, and through described square aperture 14, by two fixing feet 13, printer 11 is fixed on described left plate 6.The lateral surface of described printer 11 is provided with a circle block reinforcement 15, the outside dimension of described block reinforcement 15 is greater than the inside dimension of described square aperture 14, described printer 11 snaps in described square aperture 14, described block reinforcement 15 blocks described square aperture 14, the outside dimension of described printer frame 12 is greater than the inside dimension of described installing port 10, and described printer frame 12 is stuck on the lateral surface of described left plate 6.The medial surface of described left plate 6 is provided with two ribs be symmetrically set 16 around described installing port 10, and described fixing feet 13 one end is fixedly connected with described printer 11, the other end and described rib 16 inconsistent.The mounting structure of above printer 11 is relatively simple, only needs to be snapped in by printer in printer frame and installing port successively, on the one hand by block reinforcement 15 bumping post printer 11, realizes being strained and fixed of printer 11 on the other hand by the installation of fixing feet 13.

In the present embodiment, described installing port 10 place is provided with renovates 17, describedly renovate 17 with described shell 1 and be hinged, described in renovate between the upper surface of 17 and the end face of described installing port 10 and be provided with a gap 18, the printer paper of described printer 11 stretches out from described gap 18.Describedly renovate 17 arrange and effectively can process dress paper or paper jam phenomenon, do not need to open whole shell 1, operation is relatively simple, and arranging of described gap 18 facilitates printer paper to discharge smoothly.

In the present embodiment, described fixing feet 13 is connected with described printer 11 by screw (not shown).

As shown in Figure 14 and Figure 15, in the present embodiment, described frame is provided with barcode machine assembly 91, and described shell 1 is provided with transmission mouth 101, and described barcode machine assembly 9 is embedded within described transmission mouth 101, and described shell 1 is covered in described Shelf External.Described measuring station 2 is pick-up unit, for detecting the blood of patient, being provided with the container storing blood sample in described heating arrangement 4, the blood sample of patient being left in heating arrangement 4, described gearing 3 for connecting heating arrangement 4, and makes heating arrangement 4 move up and down; Described barcode machine assembly 91 the bar code that doctor only needs to be strafed by barcode machine on blood sample test tube is set, do not need manual input, convenient and swift, and can not make mistakes, further increase the accuracy of detection, on the other hand, also can carry out information mutual communication with the client information system of hospital, operator can be helped further according to other information of bar code automatic filling patient, improve the integrality of examining report.

In the present embodiment, described frame comprises support body 5, middle plate 131, left plate 6 and right plate 7, described left plate 6 and right plate 7 are located at two mutual corresponding sides of described support body 5, described middle plate 131 frame is between described left plate 6 and right plate 7, and described barcode machine assembly 91 is located on described middle plate 131.Described middle plate 131 is for installing critical piece in frame, such as measuring station 2, and therefore firmness, levelness and intensity are all relatively good, and barcode machine assembly 91 is for strafing bar code on blood sample test tube, therefore needing certain stability.

In the present embodiment, described barcode machine assembly 91 comprises barcode machine 111 and mount pad 121, described barcode machine 11 is fixed on the lower surface of described middle plate 131 by mount pad 121, described left plate 6 is provided with square aperture 141 with described transmission mouth 101 opposite position place, and the barcode scanning mouth of described barcode machine 111 faces described square aperture 141.The barcode scanning mouth of described barcode machine 111 is identified by the bar code in square aperture 141 and transmission mouth 101 pairs of blood sample test tubes.

In the present embodiment, described mount pad 121 is in inverted " L " shape, and the top of described mount pad 121 is fixed on the lower surface of described middle plate 131, and described barcode machine 111 is fixed on the side of described mount pad 121 bottom.Described mount pad 121 bottom is provided with two horizontally disposed waist through hole 151, through described waist through hole 151, described barcode machine 111 is fixed on the bottom of described mount pad 121 by screw (not shown).The top of described mount pad 121 is provided with three manholes 161, is fixed on the lower surface of described middle plate 131 by mount pad 121 through described manhole 161 by screw (not shown).The installation of barcode machine 111 can be realized preferably by the fixed form of screw, and when barcode machine 111 goes wrong, detachable maintaining is also more convenient, described two horizontally disposed waist through hole 15 can effective adjustment bar ink recorder 111 installation site in the horizontal direction, and installation is put in place more.

As shown in Figure 16 and Figure 17, in the present embodiment, described thrombelastogram instrument also comprises display screen 19 and industrial computer 20, and described display screen 19 and industrial computer 20 are all located in described frame, and described display screen 19 is electrically connected with described industrial computer 20.Described display screen 19 is fixed between described left plate 6 and right plate 7 by fixed head 21, and is provided with display screen cover cap 22 outside display screen 19.

Certainly, described heating plate also can be close on the side of described cup groove; Described pallet also can be arranged simultaneously one or three or four guide rods; Described first through hole is passed in described push rod upper end, near the bottom with described reaction cup; Sliding up and down of certain heating arrangement also can be realized by electronic mode with moving up and down of push rod; The described thrombelastogram instrument with printer also can comprise one or two or three or five or six measuring stations, corresponding, then comprise one or two or three or five or six gearings and one or two or three or five or six heating arrangements.So, also all within the utility model protection domain, repeat no longer one by one here.

Claims (10)

1. a thrombelastogram instrument, for the sample in detection reaction cup, it is characterized in that comprising shell, frame, some measuring stations, with the gearing of described measuring station equal number and the heating arrangement with described measuring station equal number, some measuring stations and gearing are all located in described frame, each gearing is set on a measuring station, each gearing is provided with guide rod, described heating arrangement is located on described guide rod, and be positioned at immediately below described measuring station and slide up and down setting, described heating arrangement comprises a glass groove, heating plate, pallet and tray substrate, described cup groove is provided with the first mounting hole, described pallet is provided with the second mounting hole, described reaction cup is located in described first mounting hole, described measuring station lower end is stretched in described reaction cup and is detected, by tray substrate, cup groove is pressed between described pallet and tray substrate, on the lower surface that described heating plate is close to described cup groove or on side.

2. thrombelastogram instrument as claimed in claim 1, it is characterized in that the lateral wall of described cup groove is provided with a mounting plane, described cup groove is provided with temperature sensor, described mounting plane is close to by described temperature sensor, described heating plate is provided with terminals, and described temperature sensor is connected with described terminals.

3. thrombelastogram instrument as claimed in claim 2, it is characterized in that the both sides described pallet being positioned at described second mounting hole are respectively provided with first pilot hole, described tray substrate is provided with two the second pilot holes with two the first pilot hole corresponding sections, and first pilot hole and second pilot hole be positioned on same axis are provided with a guide rod; Described first mounting hole is hole through from top to down, described heating plate is provided with the first through hole, gland is provided with below described cup groove, described gland is provided with the second through hole coaxially arranged with described first through hole, described heating arrangement also comprises push rod, and described push rod upper end is through described first through hole, close or tactile with the bottom connection of described reaction cup, the lower end of described push rod through described second through hole, and extends the lower surface exposing described tray substrate.

4. thrombelastogram instrument as claimed in claim 3, it is characterized in that being provided with a copper sheathing in each first pilot hole, described guide rod is through described copper sheathing, and be passed down through described second pilot hole, described pallet inside is positioned at above two the second pilot holes and is provided with a steel wire, and the guide pillar through copper sheathing clamps by described steel wire.

5. thrombelastogram instrument as claimed in claim 1, it is characterized in that described frame is provided with printer module, described shell is provided with installing port, and described printer module lateral surface exposes outside described installing port, and described shell is covered in described Shelf External; Described frame comprises support body, middle plate, left plate and right plate, and described left plate and right plate are located at two mutual corresponding sides of described support body, and described middle grillage is between described left plate and right plate, and described printer module is located on described left plate.

6. thrombelastogram instrument as claimed in claim 5, it is characterized in that described printer module comprises printer, printer frame and two fixing feet, described left plate is provided with square aperture with corresponding section, described installing port position, described printer snaps in described printer frame, and through described square aperture, by two fixing feet, printer is fixed on described left plate; The lateral surface of described printer is provided with a circle block reinforcement, the outside dimension of described block reinforcement is greater than the inside dimension of described square aperture, described printer snaps in described square aperture, described block reinforcement blocks described square aperture, the outside dimension of described printer frame is greater than the inside dimension of described installing port, and described printer frame is stuck on the lateral surface of described left plate.

7. thrombelastogram instrument as claimed in claim 1, it is characterized in that described frame is provided with barcode machine assembly, described shell is provided with transmission mouth, and described barcode machine assembly is embedded within described transmission mouth, and described shell is covered in described Shelf External; Described frame comprises support body, middle plate, left plate and right plate, and described left plate and right plate are located at two mutual corresponding sides of described support body, and described middle grillage is between described left plate and right plate, and described barcode machine assembly is located on described middle plate.

8. thrombelastogram instrument as claimed in claim 7, it is characterized in that described barcode machine assembly comprises barcode machine and mount pad, described barcode machine is fixed on the lower surface of described middle plate by mount pad, described left plate is provided with square aperture with described transmission mouth opposite position place, and the barcode scanning mouth of described barcode machine faces described square aperture.

9. thrombelastogram instrument as claimed in claim 1, it is characterized in that described thrombelastogram instrument also comprises display screen and industrial computer, described display screen and industrial computer are all located in described frame, and described display screen is electrically connected with described industrial computer.

10. thrombelastogram instrument as claimed in claim 1, is characterized in that described thrombelastogram instrument comprises four measuring stations, four gearings and four heating arrangements, the corresponding gearing of each measuring station and a heating arrangement.