CN213957401U - Efficient blood routine detector - Google Patents

Abstract

The utility model belongs to the technical field of medical equipment, in particular to a high-efficiency blood routine detector, which comprises a detector body, wherein the front wall of the detector body is provided with a display screen and a control key, a printing device is arranged inside the detector body, a telescopic cavity is arranged inside the detector body, a slide rail is screwed inside the telescopic cavity and is connected with a bearing tray in a sliding way, the rear wall of the bearing tray is provided with a spiral transmission hole and a guide rod jack forwards, the rear side of the telescopic cavity is provided with a push-pull motor installation chamber, a push-pull motor is arranged in the push-pull motor installation chamber, the output shaft of the push-pull motor is fixedly connected with a transmission screw rod, a test tube installation device is arranged on the bearing tray, the top of the telescopic cavity is communicated with a sampling device accommodation cavity, an automatic lifting sampling device is arranged inside the sampling device accommodation cavity, a plurality of blood samples can be automatically detected in a single flow of the device, the manual feeding of the test tube by a detector is not needed in the process, convenient to use, work efficiency is higher.

Description

Efficient blood routine detector

Technical Field

The utility model belongs to the technical field of medical equipment, concretely relates to efficient blood conventional detector.

Background

The conventional blood detector is also called a blood cell analyzer, a blood globe, a blood cell counter and the like, is one of instruments widely applied to clinical examination in hospitals, and with the development of computer technology in recent years, the technology of blood cell analysis is also changed from three-point grouping to five-point grouping, from two-dimensional space to three-dimensional space, and the five-point classification technology of modern blood cell analyzers is also noticed to adopt the same technology as the current very advanced flow cytometry, such as scattered light detection technology, sheath flow technology, laser technology and the like.

Compared with the prior art the problem that exists:

in the blood routine detector use, need the manual sample with the sampling tube butt joint on the sample tube with the detector in proper order of individual test tube, it is inconvenient to use, and its work efficiency still has the promotion space.

SUMMERY OF THE UTILITY MODEL

To solve the problems set forth in the background art described above. The utility model provides an efficient blood conventional detector, through the setting of bearing dish, test tube installation device, automatic rising sampling device etc. the testing process is automatic to be accomplished, but a plurality of blood samples of single flow automated inspection, the in-process need not the manual feeding that carries out the test tube of testing personnel, convenient to use, and work efficiency is higher.

In order to achieve the above object, the utility model provides a following technical scheme: a high-efficiency blood routine detector comprises a detector body, wherein a display screen and a control key are arranged on the front wall of the detector body, a printing device is arranged inside the detector body, a telescopic cavity is arranged inside the detector body, a sliding rail is screwed inside the telescopic cavity and is in sliding connection with a bearing tray, a spiral transmission hole and a guide rod insertion hole are formed in the back wall of the bearing tray in the forward direction, a push-pull motor installation chamber is arranged on the back side of the telescopic cavity, a push-pull motor is arranged in the push-pull motor installation chamber, an output shaft of the push-pull motor is fixedly connected with a transmission screw rod, the other end of the transmission screw rod is in spiral transmission connection with the spiral transmission hole in the bearing tray, a guide rod is screwed on the back wall of the telescopic cavity, a limiting bulge is integrally formed at the tail end of the guide rod, and the guide rod is inserted into the guide rod insertion hole, the drill way inboard of guide bar jack is fixed and is equipped with the spacing ring, install test tube installation device on the tray, the top in flexible chamber holds the chamber intercommunication with sampling device, the internally mounted that sampling device held the chamber has automatic rising sampling device.

Preferably, the bottom of the detector body is provided with a sucker, and the sucker can enable the device to be stably placed on a smooth desktop and avoid sliding.

Preferably, the front side of the printing device is hinged with a cover plate, and the cover plate is closed when not in use to protect the printing strip outlet.

Preferably, the front side in flexible chamber articulates there is the closed sheet frame, the perspective board is installed to the inboard of closed sheet frame, install first magnetism on the closed sheet frame and inhale the piece, the second magnetism is inhaled the piece to the front side of detector body, closes the closed sheet frame when detecting, and the perspective board adopts transparent PVC material to make, and the detector of being convenient for observes flexible intracavity internal conditions.

Preferably, test tube installation device includes a miniature servo motor, a miniature servo motor joint is in the inner chamber of tray bottom, a miniature servo motor's output shaft runs through out the roof and the fixed inserted block fixed connection of cross of tray, the fixed inserted block of cross inserts in the cross jack, the cross jack link up circular test-tube rack from top to bottom and is located its central point and put, and a miniature servo motor operation can drive the fixed inserted block of cross and rotate together with circular test-tube rack, makes the test tube can remove the bottom of sampling tube in proper order along with the rotation of circular test-tube rack.

Preferably, open downwards at the top of circular test-tube rack has a plurality of test tube jack, the test tube has been inserted in the test tube jack, and the test tube jack uses the center of circular test-tube rack as centre of a circle annular distribution, and the interval equals, all inwards open the front side and the rear side of circular test-tube rack has the finger jack, and the finger jack is used for making things convenient for the measurement personnel to remove circular test-tube rack.

Preferably, the automatic lifting sampling device comprises a second micro servo motor, an output shaft of the second micro servo motor is connected with a lifting spiral transmission rod, the lifting spiral transmission rod is in spiral transmission connection with a lifting sampling tube connecting device, a lifting guide rod is further arranged in the sampling device accommodating cavity and is in sliding connection with the lifting sampling tube connecting device, a sampling tube is connected to the bottom of the lifting sampling tube connecting device, a conveying pipe is connected to the bottom of the lifting sampling tube connecting device, the conveying pipe is connected with a detection unit in the detector body, the automatic lifting sampling device can be controlled to work through a control key, the second micro servo motor drives the lifting spiral transmission rod to rotate, the lifting sampling tube connecting device is driven by spiral transmission to drive the lifting sampling tube connecting device to descend under the matching of the lifting guide rod, and the sampling tube is inserted into a test tube to be sucked and sampled, and the second micro servo motor drives the lifting spiral transmission rod to rotate reversely after sampling is finished, so that the sampling tube is driven to reset.

Preferably, the antetheca of detector body is equipped with voice prompt device, voice prompt device and count module electric connection, count module installs the inside at the detector body, count module and the miniature servo motor electric connection of second, the miniature servo motor of second accomplishes once going up and down every time the sampling tube is driven, count module is once counted promptly, when the number of times of counting reaches the test tube quantity on the test tube jack, the used test tube of representing promptly has all accomplished the sample, voice prompt device sends voice prompt promptly, reminds the testing personnel to open the closed sheet frame, drive the bearing tray through control key control push-and-pull motor and release from flexible intracavity, can stretch into the finger jack through the finger and take off circular test-tube rack from the fixed inserted block of cross.

Compared with the prior art, the beneficial effects of the utility model are that:

the test tube is inserted into a test tube jack on the round test tube rack, a sealing plate frame which is matched with the detector body through the first magnetic block and the second magnetic block and is fixed with the detector body through magnetic attraction is opened, the push-pull motor is controlled by the control key to drive the transmission screw rod to rotate, the bearing tray is pushed out from the telescopic cavity along the slide rail under the matching of the guide rod and the guide rod jack through spiral transmission, the circular test tube rack is taken up through the finger jack on the circular test tube rack, the cross jack on the circular test tube rack is aligned with the cross fixed insert block and inserted into the cross fixed insert block, the circular test tube rack can be arranged on the bearing tray, after the installation is finished, the push-pull motor is controlled by the control key to drive the transmission screw rod to rotate reversely to drive the bearing tray to reset, the closed plate frame can be closed, the detection process is completed in the detector body under the protection of the telescopic cavity and the closed plate frame, and the detection is prevented from being disturbed by the conditions such as mistaken collision and the like;

the automatic lifting sampling device can be controlled to work by a control key, the second micro servo motor drives the lifting spiral transmission rod to rotate, the lifting sampling tube connecting device is driven by spiral transmission to descend by the matching of the lifting guide rod and the sampling tube, the sampling tube is inserted into the test tube to suck and sample, and a blood sample is conveyed to the detection unit, after the sampling is finished, the second micro servo motor drives the lifting spiral transmission rod to reversely rotate, so that the sampling tube is driven to reset, then the first micro servo motor operates to drive the cross-shaped fixed plug block and the circular test tube rack to rotate until the next test tube is aligned with the bottom of the sampling tube, the automatic lifting sampling device can work again, the second micro servo motor is electrically connected with the counting module, the second micro servo motor drives the sampling tube to complete lifting once every time, the counting module counts once, when the number of counting times reaches the number of test tubes on the test tube jacks, the voice prompt device can send out voice prompts to remind detection personnel to open the sealing plate frame, the detection process is automatically completed, a plurality of blood samples can be automatically detected in a single flow, the detection personnel do not need to manually feed the test tubes in the process, the use is convenient, and the working efficiency is high;

circular test-tube rack passes through the cooperation of the fixed inserted block of cross jack and cross and installs on the tray, can follow first miniature servo motor's operation and rotate, simultaneously can freely dismantle and the installation, it is simple and convenient with the mounting means, in testing process, can wait to detect next batch and detect blood specimen test tube and install on another circular test-tube rack for use, detect the completion back, can directly take off the circular test-tube rack that detects from the fixed inserted block of cross, directly insert next circular test-tube rack and the fixed inserted block of cross again and be connected, need not one and take out the new test tube of another installation with the test tube, further efficiency has been promoted.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of an axial measurement structure of the present invention;

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic right sectional view of the present invention;

fig. 4 is a schematic top view of the inside of the telescopic cavity of the present invention;

fig. 5 is a schematic top sectional view of the bearing tray of the present invention.

In the figure: 100. a detector body; 110. a display screen; 120. a control key; 130. a printing device; 131. a cover plate; 140. a suction cup; 200. a telescoping chamber; 201. closing the plate frame; 202. a see-through plate; 210. a slide rail; 220. a support tray; 221. a helical drive bore; 222. a guide rod insertion hole; 223. a limiting ring; 230. a push-pull motor installation chamber; 231. a push-pull motor; 232. a drive screw; 240. a guide bar; 241. a limiting bulge; 300. a test tube mounting device; 310. a first micro servo motor; 320. a cross-shaped fixed insert block; 330. a circular test tube rack; 331. a cross-shaped jack; 332. inserting holes of the test tubes; 333. a test tube; 334. a finger jack; 400. a sampling device receiving cavity; 500. an automatic lifting and sampling device; 510. a second micro servo motor; 520. a lifting screw transmission rod; 530. a lifting sampling tube connecting device; 531. a sampling tube; 532. a delivery pipe; 540. a lifting guide rod; 610. a first magnetic attraction block; 620. a second magnetic attraction block; 710. a voice prompt device; 720. and a counting module.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Referring to fig. 1-5, the present invention provides the following technical solutions: a high-efficiency blood routine detector comprises a detector body 100, wherein a display screen 110 and a control key 120 are arranged on the front wall of the detector body 100, a printing device 130 is arranged inside the detector body 100, a telescopic cavity 200 is arranged inside the detector body 100, a slide rail 210 is screwed inside the telescopic cavity 200, the slide rail 210 is connected with a bearing tray 220 in a sliding manner, a spiral transmission hole 221 and a guide rod jack 222 are formed in the rear wall of the bearing tray 220 in a forward direction, a push-pull motor installation chamber 230 is arranged on the rear side of the telescopic cavity 200, a push-pull motor 231 is installed in the push-pull motor installation chamber 230, an output shaft of the push-pull motor 231 is fixedly connected with a transmission screw rod 232, the other end of the transmission screw rod 232 is in spiral transmission connection with the spiral transmission hole 221 on the bearing tray 220, a guide rod 240 is screwed on the rear wall of the telescopic cavity 200, and a limiting bulge 241 is integrally formed at the tail end of the guide rod 240, the utility model discloses a test tube installation device, including guide bar 240, guide bar jack 222, the fixed spacing ring 223 that is equipped with in drill way inboard, install test tube installation device 300 on the tray 220, the top and the sampling device in flexible chamber 200 hold chamber 400 intercommunication, the internally mounted that the sampling device held chamber 400 has automatic rising sampling device 500.

In this embodiment: a high-efficiency blood routine detector comprises a detector body 100, wherein a display screen 110 and a control key 120 are arranged on the front wall of the detector body 100, a printing device 130 is arranged inside the detector body 100, a telescopic cavity 200 is arranged inside the detector body 100, a slide rail 210 is screwed inside the telescopic cavity 200, the slide rail 210 is connected with a bearing tray 220 in a sliding manner, slide bars are integrally formed on the left side wall and the right side wall of the bearing tray, the slide bars are matched with the slide rail 210 to enable the bearing tray 220 to slide, a spiral transmission hole 221 and a guide rod jack 222 are formed in the front wall of the bearing tray 220, a push-pull motor installation chamber 230 is arranged on the rear side of the telescopic cavity 200, a push-pull motor 231 is installed in the push-pull motor installation chamber 230, an output shaft of the push-pull motor 231 is fixedly connected with a transmission screw 232, and the other end of the transmission screw 232 is in spiral transmission connection with the spiral transmission hole 221 on the bearing tray 220, the back wall spiro union in flexible chamber 200 has guide bar 240, the terminal integrated into one piece of guide bar 240 has spacing arch 241, guide bar 240 inserts in guide bar jack 222, the fixed spacing ring 223 that is equipped with in guide bar jack 222's drill way inboard, spacing arch 241 and the cooperation of spacing ring 223, it is spacing to bearing tray 220, prevent deviating from, install test tube installation device 300 on the bearing tray 220, the top in flexible chamber 200 and sampling device hold chamber 400 intercommunication, the internally mounted that sampling device held chamber 400 has automatic rising sampling device 500.

Specifically, the bottom of the detector body 100 is provided with a suction cup 140, and the suction cup 140 can enable the device to be stably placed on a smooth desktop to avoid sliding.

Specifically, the front side of the printing device 130 is hinged with a cover plate 131, and the cover plate 131 is closed when not in use to protect the printing strip outlet.

Specifically, the front side in flexible chamber 200 articulates there is sealed sheet frame 201, see-through plate 202 is installed to sealed sheet frame 201's inboard, install first magnetism on the sealed sheet frame 201 and inhale piece 610, second magnetism is inhaled piece 620 to the front side of detector body 100 is installed, closes sealed sheet frame 201 when detecting, and see-through plate 202 adopts transparent PVC material to make, and the testing personnel of being convenient for observe flexible intracavity portion's condition.

Specifically, test tube installation device 300 includes first miniature servo motor 310, first miniature servo motor 310 joint is in the inner chamber of tray 220 bottom, the roof that tray 220 was run through out to first miniature servo motor 310's output shaft and the fixed inserted block 320 fixed connection of cross, the fixed inserted block 320 of cross inserts in cross jack 331, cross jack 331 link up circular test-tube rack 330 from top to bottom and is located its central point and put, and first miniature servo motor 310 operates, can drive the fixed inserted block 320 of cross and rotate together with circular test-tube rack 330, makes test tube 333 can move the bottom of sampling tube 531 in proper order along with the rotation of circular test-tube rack 330.

Specifically, a plurality of test tube jack holes 332 are downwards formed in the top of the circular test tube rack 330, test tubes 333 are inserted into the test tube jack holes 332, the test tube jack holes 332 are annularly distributed around the center of the circular test tube rack 330, the distance is equal, finger jack holes 334 are inwards formed in the front side and the rear side of the circular test tube rack 330, and the finger jack holes 334 are used for facilitating the movement of the circular test tube rack 330 by detection personnel.

Specifically, the automatic lifting sampling device 500 comprises a second micro servo motor 510, an output shaft of the second micro servo motor 510 is connected with a lifting spiral transmission rod 520, the lifting spiral transmission rod 520 is in spiral transmission connection with a lifting sampling tube connecting device 530, a lifting guide rod 540 is further arranged in the sampling device accommodating cavity 400, the lifting guide rod 540 is in sliding connection with the lifting sampling tube connecting device 530, a sampling tube 531 is connected to the bottom of the lifting sampling tube connecting device 530, a conveying pipe 532 is connected to the bottom of the lifting sampling tube connecting device 530, the conveying pipe 532 is connected with a detection unit inside the detector body 100, the automatic lifting sampling device 500 can be controlled to work through a control key 120, the second micro servo motor 510 drives the lifting spiral transmission rod 520 to rotate, the lifting sampling tube connecting device 530 is driven through spiral transmission, the sampling tube 531 is used to descend under the cooperation of the lifting guide rod 540, the sampling tube 531 is inserted into the test tube 333 for sampling, and the blood sample is transferred to the detection unit, after sampling, the second micro servo motor 510 drives the lifting screw transmission rod 520 to rotate reversely, so as to drive the sampling tube 531 to reset.

Specifically, the front wall of the detector body 100 is provided with a voice prompt device 710, the voice prompt device 710 is electrically connected with a counting module 720, the counting module 720 is installed inside the detector body 100, the counting module 720 is electrically connected with a second micro servo motor 510, the second micro servo motor 510 completes lifting every time the sampling tube 531 is driven by the second micro servo motor 510, the counting module 720 counts once, when the counting number of times reaches the number of test tubes 333 in the test tube insertion holes 332, the used test tubes 333 finish sampling, the voice prompt device 710 sends out a voice prompt to prompt a detector to open the sealing plate frame 201, the push-pull motor 230 is controlled by the control key 120 to drive the bearing tray 220 to be pushed out from the telescopic cavity 200, and the circular test tube frame 330 can be taken down from the cross-shaped fixing insertion block 320 by extending fingers into the finger insertion holes 334.

The working principle and the using process of the invention are as follows: inserting a test tube 333 into a test tube jack 332 on a circular test tube rack 330, opening a closed plate frame 201 which is matched with a first magnetic block 610 and a second magnetic block 620 and is magnetically fixed with the detector body 100, controlling a push-pull motor 231 to drive a transmission screw 232 to rotate through a control key 120, pushing a support tray 220 out of a telescopic cavity 200 along a slide rail 210 under the matching of a guide rod 240 and a guide rod jack 222 through spiral transmission, picking up the circular test tube rack 330 through a finger jack 334 on the circular test tube rack 330, aligning and inserting a cross jack 331 on the circular test tube rack 330 and a cross fixed plug 320, installing the circular test tube rack 330 on the support tray 220, controlling the push-pull motor 230 to drive the transmission screw 232 to reversely rotate through the control key 120 after the installation, driving the support tray 220 to reset, closing the closed plate frame 201, and controlling the automatic lifting sampling device 500 to work through the control key 120, the second micro-servo motor 510 drives the lifting screw transmission rod 520 to rotate, the lifting sampling tube connecting device 530 is driven by screw transmission to descend with the sampling tube 531 in cooperation with the lifting guide rod 540, the sampling tube 531 is inserted into the test tube 333 to suck and sample, and the blood sample is conveyed to the detection unit, after the sampling is finished, the second micro-servo motor 510 drives the lifting screw transmission rod 520 to rotate reversely, so as to drive the sampling tube 531 to reset, then the first micro-servo motor 310 operates to drive the cross-shaped fixed plug 320 and the circular test tube rack 330 to rotate until the next test tube 333 is aligned with the bottom of the sampling tube 531, the automatic lifting sampling device 500 can work again, the second micro-servo motor 510 is electrically connected with the counting module 720, when the second micro-servo motor 510 drives the sampling tube 531 to complete lifting once, the counting module 720 counts once, when the number of counts up to the number of test tubes 333 on the test tube jack 332, the used test tubes 333 are sampled, the voice prompt device 710 sends voice prompts to remind detection personnel to open the sealing plate frame 201, the push-pull motor 230 is controlled by the control key 120 to drive the bearing tray 220 to be pushed out from the telescopic cavity 200, the circular test tube rack 330 can be taken down from the cross-shaped fixed insertion block 320 through the finger insertion hole 334, the next circular test tube rack 330 is replaced, blood samples in the test tubes 333 are detected through the detection unit, and detection results are displayed through the display screen 110 and printed out in a paper strip mode through the printing device 130.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. An efficient blood routine detector is characterized in that: the detector comprises a detector body (100), a display screen (110) and a control key (120) are arranged on the front wall of the detector body (100), a printing device (130) is arranged inside the detector body (100), a telescopic cavity (200) is arranged inside the detector body (100), a sliding rail (210) is screwed inside the telescopic cavity (200), the sliding rail (210) is connected with a bearing tray (220) in a sliding manner, a spiral transmission hole (221) and a guide rod jack (222) are formed in the front wall of the bearing tray (220), a push-pull motor installation chamber (230) is arranged on the rear side of the telescopic cavity (200), a push-pull motor (231) is installed in the push-pull motor installation chamber (230), an output shaft of the push-pull motor (231) is fixedly connected with a transmission screw (232), and the other end of the transmission screw (232) is connected with the spiral transmission hole (221) in the bearing tray (220) in a spiral transmission manner, the back wall spiro union in flexible chamber (200) has guide bar (240), the terminal integrated into one piece of guide bar (240) has spacing arch (241), guide bar (240) insert in guide bar jack (222), the fixed spacing ring (223) that is equipped with in drill way inboard of guide bar jack (222), install test tube installation device (300) on bearing tray (220), the top in flexible chamber (200) holds chamber (400) intercommunication with sampling device, the internally mounted that sampling device held chamber (400) has automatic rising sampling device (500).

2. A high efficiency blood routine monitor according to claim 1, wherein: and a sucker (140) is arranged at the bottom of the detector body (100).

3. A high efficiency blood routine monitor according to claim 1, wherein: the front side of the printing device (130) is hinged with a cover plate (131).

4. A high efficiency blood routine monitor according to claim 1, wherein: the front side in flexible chamber (200) articulates there is sealed sheet frame (201), perspective board (202) are installed to the inboard of sealed sheet frame (201), install first magnetism on sealed sheet frame (201) and inhale piece (610), the second magnetism is inhaled to the front side of detector body (100) and is installed piece (620).

5. A high efficiency blood routine monitor according to claim 1, wherein: test tube installation device (300) include first miniature servo motor (310), first miniature servo motor (310) joint is in the inner chamber of tray (220) bottom, the output shaft of first miniature servo motor (310) runs through the roof of tray (220) and fixed inserted block (320) fixed connection of cross, the fixed inserted block of cross (320) inserts in cross jack (331), cross jack (331) link up circular test-tube rack (330) from top to bottom and are located its central point.

6. The high efficiency blood routine monitor of claim 5, wherein: the top of circular test-tube rack (330) is opened downwards has a plurality of test tube jack (332), insert test tube (333) in test tube jack (332), the front side and the rear side of circular test-tube rack (330) all inwards open have finger jack (334).

7. A high efficiency blood routine monitor according to claim 1, wherein: automatic lifting sampling device (500) includes the miniature servo motor of second (510), the output shaft and the lifting screw transfer line (520) of the miniature servo motor of second (510) are connected, lifting screw transfer line (520) are connected with lifting sampling tube connecting device (530) screw drive, sampling device holds still to be equipped with in chamber (400) lift guide bar (540), lift guide bar (540) and lifting sampling tube connecting device (530) sliding connection, the bottom of lifting sampling tube connecting device (530) is connected with sampling tube (531), the bottom of lifting sampling tube connecting device (530) is connected with conveyer pipe (532), conveyer pipe (532) are connected with the inside detecting element of detector body (100).

8. A high efficiency blood routine testing instrument according to claim 7, wherein: the front wall of the detector body (100) is provided with a voice prompt device (710), the voice prompt device (710) is electrically connected with a counting module (720), the counting module (720) is installed inside the detector body (100), and the counting module (720) is electrically connected with a second micro servo motor (510).

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