CN210514325U - Automatic semen liquefaction time tester - Google Patents

Abstract

The utility model discloses an automatic semen liquefaction time tester, which comprises a driving unit, a liquid level meter and a liquid level meter, wherein the driving unit comprises a driving shaft, a driving wheel and a transmission rod; the detection unit comprises a suction part and a conduction part, the suction part is connected with the conduction part, and the conduction part is connected with the transmission rod; the accommodating unit and the suction part are arranged on the same axis; the driving wheel is divided into a driving wheel and a driven wheel, and the driving wheel is connected with the driving shaft and the driven wheel. The utility model discloses a cooperation of drive unit, detecting element and holding unit has realized the accurate survey of semen liquefaction time.

Description

Automatic semen liquefaction time tester

Technical Field

The utility model relates to a technical field especially relates to an automatic semen liquefaction time apparatus.

Background

After the normal semen is ejected out of the body, the semen is in a thick jelly shape under the action of coagulase secreted by a seminal vesicle, and is liquefied under the action of fibrinolytic enzyme secreted by a prostate after the semen is ejected out of the body for 10-20 minutes to become a flowing liquid shape, and the process is the liquefaction process of the semen. The non-liquefaction or low liquefaction of semen is one of the important causes of male infertility.

The semen liquefaction capacity is usually detected by standing the semen for a period of time, and an experimental operator lifts a semen cup every 5-10 minutes to judge the fluidity of the semen by naked eyes. The method has the defects of long waiting time (up to 60 minutes), large human judgment error, difficult standardization and the like.

Disclosure of Invention

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. In this section, as well as in the abstract and the title of the invention of this application, some simplifications or omissions may be made to avoid obscuring the purpose of this section, the abstract and the title of the invention, and such simplifications or omissions are not intended to limit the scope of the invention.

In view of the above-mentioned problem that exists of the automatic semen liquefaction time apparatus of prior art, provided the utility model discloses.

Therefore, the utility model aims at providing an automatic semen liquefaction time apparatus, it has solved and has used the naked eye to carry out the semen liquefaction and judge and the big technical problem of testing result error that leads to.

In order to solve the technical problem, the utility model provides a following technical scheme: an automatic semen liquefaction time tester comprises a driving unit, a liquid level detection unit and a liquid level detection unit, wherein the driving unit comprises a driving shaft, a driving wheel and a transmission rod, the driving shaft is connected with the driving wheel, and the driving wheel is connected with the transmission rod; the detection unit comprises a suction part and a conduction part, the suction part is connected with the conduction part, and the conduction part is connected with the transmission rod; and the accommodating unit and the suction part are arranged on the same axis.

As an optimized scheme of the automatic semen liquefaction time tester, wherein: the driving wheel is divided into a driving wheel and a driven wheel, and the driving wheel is connected with the driving shaft and the driven wheel.

As an optimized scheme of the automatic semen liquefaction time tester, wherein: the transmission rod comprises a screw and a spiral ring, the screw is connected with the transmission wheel, and the spiral ring is arranged on the screw.

As an optimized scheme of the automatic semen liquefaction time tester, wherein: the suction part comprises a pipe body and a connecting piece, the pipe body is connected with the connecting piece, and the connecting piece is connected with the conduction part.

As an optimized scheme of the automatic semen liquefaction time tester, wherein: the conducting part comprises a conducting wire and a conducting rod, the conducting wire is connected with the connecting piece, and the conducting rod is connected with the driving unit.

As an optimized scheme of the automatic semen liquefaction time tester, wherein: the wire sets up two piece at least wires, the one end of wire is passed the connecting piece with the conduction pole is connected, the other end of wire is not intercommunication each other.

As an optimized scheme of the automatic semen liquefaction time tester, wherein: the holding unit comprises a holding frame and a heating element, and the holding frame is connected with the heating element.

As an optimized scheme of the automatic semen liquefaction time tester, wherein: the box body is provided with a through hole and an accommodating space, and the through hole is formed in the opposite surface of the detection unit and the opposite surface of the box body.

As an optimized scheme of the automatic semen liquefaction time tester, wherein: the accommodating space is divided into a first accommodating space and a second accommodating space, the accommodating unit is connected with the first accommodating space, and the detection unit is connected with the second accommodating space.

The utility model has the advantages that:

the utility model discloses a cooperation of drive unit, detecting element and holding unit has realized the accurate survey of semen liquefaction time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive labor. Wherein:

fig. 1 is a schematic view of the overall structure of the first embodiment of the automatic semen liquefaction time measuring instrument of the present invention.

Fig. 2 is a schematic diagram of the internal structure of the first embodiment of the automatic semen liquefaction time measuring instrument of the present invention.

Fig. 3 is a schematic view of the structure of the conduction part according to the sixth embodiment of the automatic semen liquefaction time measuring apparatus of the present invention.

Fig. 4 is a schematic view of a through hole structure of an eighth embodiment of the automatic semen liquefaction time measuring instrument of the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanying the present invention are described in detail below with reference to the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be implemented in other ways different from the specific details set forth herein, and one skilled in the art may similarly generalize the present invention without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, the references herein to "one embodiment" or "an embodiment" refer to a particular feature, structure, or characteristic that may be included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Furthermore, the present invention will be described in detail with reference to the drawings, and in the detailed description of the embodiments of the present invention, for convenience of illustration, the sectional view showing the device structure will not be enlarged partially according to the general scale, and the drawings are only examples, which should not limit the scope of the present invention. In addition, the three-dimensional dimensions of length, width and depth should be included in the actual fabrication.

Example 1

Referring to fig. 1, for a first embodiment of the present invention, an overall structure diagram of an automatic semen liquefaction time measuring instrument is provided, as shown in fig. 1, an automatic semen liquefaction time measuring instrument includes a driving unit 100 including a driving shaft 101, a driving wheel 102 and a transmission rod 103, the driving shaft 101 is connected with the driving wheel 102, and the driving wheel 102 is connected with the transmission rod 103; the detection unit 200 comprises a suction part 201 and a conduction part 202, wherein the suction part 201 is connected with the conduction part 202, and the conduction part 202 is connected with the transmission rod 103; and, the accommodating unit 300, and the suction part 201 are disposed on the same axis.

The utility model discloses the major structure includes drive unit 100, detecting element 200 and holding unit 300, and the three mutually supports, constitutes the dynamic detection structure, provides the basis for realizing automatic semen liquefaction time survey. Specifically, the driving unit 100 is a power structure and comprises a driving shaft 101, a driving wheel 102 and a transmission rod 103, wherein the driving shaft 101 plays a role in connecting a power source, the driving wheel 102 and the transmission rod 103 play a role in power transmission, and specifically, the driving shaft 101 is connected with the driving wheel 102, the driving wheel 102 is connected with the transmission rod 103, and the three parts are matched with each other to rotate, so that the power driving effect of the driving unit 100 is realized, and power guarantee is provided for further realizing automatic semen liquefaction time measurement; the detection unit 200 plays a detection role, and comprises an absorption part 201 and a conduction part 202, wherein the absorption part 201 plays a role of absorbing a sample, the conduction part 202 plays a role of conducting detection information, specifically, the absorption part 201 is connected with the conduction part 202 to realize the selection of the sample and the conduction of the detection information, and the conduction part 202 is connected with the transmission rod 103 to realize the dynamic detection and the signal conduction; the accommodating unit 300 plays a role in placing a sample, and specifically, the accommodating unit 300 and the suction portion 201 are disposed on the same axis, so that it is ensured that the suction portion 201 can suck the sample from the accommodating unit 300.

In practice, a sample is placed in the accommodating unit 300 by a detection person, and after the driving unit 100 is connected to a power source, the driving shaft 101 drives the driving wheel 102 to rotate, so that the driving rod 103 rotates, and the detection unit 200 is driven to move to generate displacement, so that the suction portion 201 realizes sample suction. When the sample is in a liquid state, the transmission unit 202 transmits detection information after the sample is sucked by the suction unit 201, thereby performing measurement.

Example 2

Referring to fig. 1 and 2, a second embodiment of the present invention is different from the first embodiment in that: the transmission wheel 102 is divided into a driving wheel 102a and a driven wheel 102b, and plays a role in adjusting power transmission. Specifically, referring to fig. 1, the main structure of the device includes a driving unit 100 including a driving shaft 101, a driving wheel 102 and a transmission rod 103, wherein the driving shaft 101 is connected with the driving wheel 102, and the driving wheel 102 is connected with the transmission rod 103; the detection unit 200 comprises a suction part 201 and a conduction part 202, wherein the suction part 201 is connected with the conduction part 202, and the conduction part 202 is connected with the transmission rod 103; and, the accommodating unit 300, and the suction part 201 are disposed on the same axis. The utility model discloses the major structure includes drive unit 100, detecting element 200 and holding unit 300, and the three mutually supports, constitutes the dynamic detection structure, provides the basis for realizing automatic semen liquefaction time survey. Specifically, the driving unit 100 is a power structure and comprises a driving shaft 101, a driving wheel 102 and a transmission rod 103, wherein the driving shaft 101 plays a role in connecting a power source, the driving wheel 102 and the transmission rod 103 play a role in power transmission, and specifically, the driving shaft 101 is connected with the driving wheel 102, the driving wheel 102 is connected with the transmission rod 103, and the three parts are matched with each other to rotate, so that the power driving effect of the driving unit 100 is realized, and power guarantee is provided for further realizing automatic semen liquefaction time measurement; the detection unit 200 plays a detection role, and comprises an absorption part 201 and a conduction part 202, wherein the absorption part 201 plays a role of absorbing a sample, the conduction part 202 plays a role of conducting detection information, specifically, the absorption part 201 is connected with the conduction part 202 to realize the selection of the sample and the conduction of the detection information, and the conduction part 202 is connected with the transmission rod 103 to realize the dynamic detection and the signal conduction; the accommodating unit 300 plays a role in placing a sample, and specifically, the accommodating unit 300 and the suction portion 201 are disposed on the same axis, so that it is ensured that the suction portion 201 can suck the sample from the accommodating unit 300.

The driving wheel 102 is divided into a driving wheel 102a and a driven wheel 102b, the driving wheel 102a plays a role in directly transmitting power, and the driven wheel 102b plays a role in adjusting power transmission, specifically, the driving wheel 102a is connected with the driving shaft 101 and the driven wheel 102b, the driving wheel 102a rotates under the driving of the driving shaft 101, so as to drive the driven wheel 102b to rotate, and to realize power transmission and adjustment, preferably, the driving wheel 102a and the driven wheel 102b are vertically arranged, so as to realize the function of adjusting the power transmission direction, further, at least two driven wheels 102b are arranged, so that the relative position relationship between the detection unit 200 and the driving unit 100 can be adjusted adaptively.

Example 3

Referring to fig. 1 and 2, a third embodiment of the present invention is different from the above embodiments in that: the transmission rod 103 comprises a screw 103a and a spiral ring 103b, and plays a role in pushing. Specifically, referring to fig. 1, the main structure of the device includes a driving unit 100 including a driving shaft 101, a driving wheel 102 and a transmission rod 103, wherein the driving shaft 101 is connected with the driving wheel 102, and the driving wheel 102 is connected with the transmission rod 103; the detection unit 200 comprises a suction part 201 and a conduction part 202, wherein the suction part 201 is connected with the conduction part 202, and the conduction part 202 is connected with the transmission rod 103; and, the accommodating unit 300, and the suction part 201 are disposed on the same axis. The utility model discloses the major structure includes drive unit 100, detecting element 200 and holding unit 300, and the three mutually supports, constitutes the dynamic detection structure, provides the basis for realizing automatic semen liquefaction time survey. Specifically, the driving unit 100 is a power structure and comprises a driving shaft 101, a driving wheel 102 and a transmission rod 103, wherein the driving shaft 101 plays a role in connecting a power source, the driving wheel 102 and the transmission rod 103 play a role in power transmission, and specifically, the driving shaft 101 is connected with the driving wheel 102, the driving wheel 102 is connected with the transmission rod 103, and the three parts are matched with each other to rotate, so that the power driving effect of the driving unit 100 is realized, and power guarantee is provided for further realizing automatic semen liquefaction time measurement; the detection unit 200 plays a detection role, and comprises an absorption part 201 and a conduction part 202, wherein the absorption part 201 plays a role of absorbing a sample, the conduction part 202 plays a role of conducting detection information, specifically, the absorption part 201 is connected with the conduction part 202 to realize the selection of the sample and the conduction of the detection information, and the conduction part 202 is connected with the transmission rod 103 to realize the dynamic detection and the signal conduction; the accommodating unit 300 plays a role in placing a sample, and specifically, the accommodating unit 300 and the suction portion 201 are disposed on the same axis, so that it is ensured that the suction portion 201 can suck the sample from the accommodating unit 300.

The transmission rod 103 comprises a screw 103a and a spiral ring 103b, which are matched with each other to generate a propelling displacement, specifically, the screw 103a is connected with the transmission wheel 102 and can be driven by the transmission wheel 102 to rotate, the spiral ring 103b is arranged on the screw 103a, when the screw 103a rotates, the relative position between the spiral ring 103b and the screw 103a changes, so as to realize a function of adjusting the position of the detection unit 200, and further, the spiral ring 103b is connected with the conduction part 202 to drive the conduction part 202 to move, so that the conduction part 202 and the driving unit 100 generate a relative displacement, thereby realizing dynamic detection.

Example 4

Referring to fig. 1 and 2, a fourth embodiment of the present invention is different from the above embodiments in that: the suction portion 201 includes a tube body 201a and a connector 201b, and plays a role of sucking a sample. Specifically, referring to fig. 1, the main structure of the device includes a driving unit 100 including a driving shaft 101, a driving wheel 102 and a transmission rod 103, wherein the driving shaft 101 is connected with the driving wheel 102, and the driving wheel 102 is connected with the transmission rod 103; the detection unit 200 comprises a suction part 201 and a conduction part 202, wherein the suction part 201 is connected with the conduction part 202, and the conduction part 202 is connected with the transmission rod 103; and, the accommodating unit 300, and the suction part 201 are disposed on the same axis. The utility model discloses the major structure includes drive unit 100, detecting element 200 and holding unit 300, and the three mutually supports, constitutes the dynamic detection structure, provides the basis for realizing automatic semen liquefaction time survey. Specifically, the driving unit 100 is a power structure and comprises a driving shaft 101, a driving wheel 102 and a transmission rod 103, wherein the driving shaft 101 plays a role in connecting a power source, the driving wheel 102 and the transmission rod 103 play a role in power transmission, specifically, the driving shaft 101 is connected with the driving wheel 102, the driving wheel 102 is connected with the transmission rod 103, and the driving wheel, the driving wheel 102 and the transmission rod 103 are matched with each other to rotate, so that the power driving effect of the driving unit 100 is realized, and power guarantee is provided for further realizing automatic semen liquefaction time measurement; the detection unit 200 plays a detection role, and comprises an absorption part 201 and a conduction part 202, wherein the absorption part 201 plays a role of absorbing a sample, the conduction part 202 plays a role of conducting detection information, specifically, the absorption part 201 is connected with the conduction part 202 to realize the selection of the sample and the conduction of the detection information, and the conduction part 202 is connected with the transmission rod 103 to realize the dynamic detection and the signal conduction; the accommodating unit 300 plays a role in placing a sample, and specifically, the accommodating unit 300 and the suction portion 201 are disposed on the same axis, so that it is ensured that the suction portion 201 can suck the sample from the accommodating unit 300.

And absorption portion 201 includes body 201a and connecting piece 201b, and body 201a plays the effect of splendid attire sample, and connecting piece 201b plays the effect of accepting, and is concrete, and body 201a is connected with connecting piece 201b, realizes the absorption of sample, and connecting piece 201b is connected with conduction portion 202, provides the basis for realizing the sample test.

Example 5

Referring to fig. 1 and 2, a fifth embodiment of the present invention is different from the above embodiments in that: the conductive portion 202 includes a conductive wire 202a and a conductive rod 202b, which function as information transmission. Specifically, referring to fig. 1, the main structure of the device includes a driving unit 100 including a driving shaft 101, a driving wheel 102 and a transmission rod 103, wherein the driving shaft 101 is connected with the driving wheel 102, and the driving wheel 102 is connected with the transmission rod 103; the detection unit 200 comprises a suction part 201 and a conduction part 202, wherein the suction part 201 is connected with the conduction part 202, and the conduction part 202 is connected with the transmission rod 103; and, the accommodating unit 300, and the suction part 201 are disposed on the same axis. The utility model discloses the major structure includes drive unit 100, detecting element 200 and holding unit 300, and the three mutually supports, constitutes the dynamic detection structure, provides the basis for realizing automatic semen liquefaction time survey. Specifically, the driving unit 100 is a power structure and comprises a driving shaft 101, a driving wheel 102 and a transmission rod 103, wherein the driving shaft 101 plays a role in connecting a power source, the driving wheel 102 and the transmission rod 103 play a role in power transmission, specifically, the driving shaft 101 is connected with the driving wheel 102, the driving wheel 102 is connected with the transmission rod 103, and the driving wheel, the driving wheel 102 and the transmission rod 103 are matched with each other to rotate, so that the power driving effect of the driving unit 100 is realized, and power guarantee is provided for further realizing automatic semen liquefaction time measurement; the detection unit 200 plays a detection role, and comprises an absorption part 201 and a conduction part 202, wherein the absorption part 201 plays a role of absorbing a sample, the conduction part 202 plays a role of conducting detection information, specifically, the absorption part 201 is connected with the conduction part 202 to realize the selection of the sample and the conduction of the detection information, and the conduction part 202 is connected with the transmission rod 103 to realize the dynamic detection and the signal conduction; the accommodating unit 300 plays a role in placing a sample, and specifically, the accommodating unit 300 and the suction portion 201 are disposed on the same axis, so that it is ensured that the suction portion 201 can suck the sample from the accommodating unit 300.

The conducting portion 202 comprises a conducting wire 202a and a conducting rod 202b, the conducting wire 202a is a conducting medium for detecting information, the conducting rod 202b plays a role of accommodating the conducting wire, specifically, the conducting wire 202a is connected with the connecting piece 201b, when a liquid sample enters the suction portion 201, the liquid sample can touch the conducting wire 202a, a signal path is formed, the conducting rod 202b is connected with the driving unit 100, the moving state of the conducting rod 202b is guaranteed, dynamic conduction of detection signals is achieved, and the conducting rod 202b is preferably connected with the transmission rod 103.

Example 6

Referring to fig. 1, 2 and 3, a sixth embodiment of the present invention is different from the above embodiments in that: the conductive line 202a is provided with at least two conductive lines 202a, which are the basic medium for signal conduction. Specifically, referring to fig. 1, the main structure of the device includes a driving unit 100 including a driving shaft 101, a driving wheel 102 and a transmission rod 103, wherein the driving shaft 101 is connected with the driving wheel 102, and the driving wheel 102 is connected with the transmission rod 103; the detection unit 200 comprises a suction part 201 and a conduction part 202, wherein the suction part 201 is connected with the conduction part 202, and the conduction part 202 is connected with the transmission rod 103; and, the accommodating unit 300, and the suction part 201 are disposed on the same axis. The utility model discloses the major structure includes drive unit 100, detecting element 200 and holding unit 300, and the three mutually supports, constitutes the dynamic detection structure, provides the basis for realizing automatic semen liquefaction time survey. Specifically, the driving unit 100 is a power structure and comprises a driving shaft 101, a driving wheel 102 and a transmission rod 103, wherein the driving shaft 101 plays a role in connecting a power source, the driving wheel 102 and the transmission rod 103 play a role in power transmission, specifically, the driving shaft 101 is connected with the driving wheel 102, the driving wheel 102 is connected with the transmission rod 103, and the driving wheel, the driving wheel 102 and the transmission rod 103 are matched with each other to rotate, so that the power driving effect of the driving unit 100 is realized, and power guarantee is provided for further realizing automatic semen liquefaction time measurement; the detection unit 200 plays a detection role, and comprises an absorption part 201 and a conduction part 202, wherein the absorption part 201 plays a role of absorbing a sample, the conduction part 202 plays a role of conducting detection information, specifically, the absorption part 201 is connected with the conduction part 202 to realize the selection of the sample and the conduction of the detection information, and the conduction part 202 is connected with the transmission rod 103 to realize the dynamic detection and the signal conduction; the accommodating unit 300 plays a role in placing a sample, and specifically, the accommodating unit 300 and the suction portion 201 are disposed on the same axis, so that it is ensured that the suction portion 201 can suck the sample from the accommodating unit 300.

The lead 202a is provided with at least two leads 202a, specifically, one end of each lead 202a penetrates through the connecting piece 201b to be connected with the conducting rod 202b, so that a foundation is provided for signal conduction, the other ends of the leads 202a are not communicated with each other, and after a liquid sample is sucked, especially the liquid sample with just liquefied semen, due to certain viscosity, the two ends of the leads 202a which are not communicated with each other can be communicated, so that a signal path is formed, and measurement is realized.

Example 7

Referring to fig. 1 and 2, a seventh embodiment of the present invention is different from the above embodiments in that: the accommodating unit 300 includes an accommodating frame 301 and a heating member 302, and plays a role of bearing at a constant temperature. Specifically, referring to fig. 1, the main structure of the device includes a driving unit 100 including a driving shaft 101, a driving wheel 102 and a transmission rod 103, wherein the driving shaft 101 is connected with the driving wheel 102, and the driving wheel 102 is connected with the transmission rod 103; the detection unit 200 comprises a suction part 201 and a conduction part 202, wherein the suction part 201 is connected with the conduction part 202, and the conduction part 202 is connected with the transmission rod 103; and, the accommodating unit 300, and the suction part 201 are disposed on the same axis. The utility model discloses the major structure includes drive unit 100, detecting element 200 and holding unit 300, and the three mutually supports, constitutes the dynamic detection structure, provides the basis for realizing automatic semen liquefaction time survey. Specifically, the driving unit 100 is a power structure and comprises a driving shaft 101, a driving wheel 102 and a transmission rod 103, wherein the driving shaft 101 plays a role in connecting a power source, the driving wheel 102 and the transmission rod 103 play a role in power transmission, specifically, the driving shaft 101 is connected with the driving wheel 102, the driving wheel 102 is connected with the transmission rod 103, and the driving wheel, the driving wheel 102 and the transmission rod 103 are matched with each other to rotate, so that the power driving effect of the driving unit 100 is realized, and power guarantee is provided for further realizing automatic semen liquefaction time measurement; the detection unit 200 plays a detection role, and comprises an absorption part 201 and a conduction part 202, wherein the absorption part 201 plays a role of absorbing a sample, the conduction part 202 plays a role of conducting detection information, specifically, the absorption part 201 is connected with the conduction part 202 to realize the selection of the sample and the conduction of the detection information, and the conduction part 202 is connected with the transmission rod 103 to realize the dynamic detection and the signal conduction; the accommodating unit 300 plays a role in placing a sample, and specifically, the accommodating unit 300 and the suction portion 201 are disposed on the same axis, so that it is ensured that the suction portion 201 can suck the sample from the accommodating unit 300.

And the holding unit 300 includes holding frame 301 and heating member 302, and holding frame 301 plays the effect of splendid attire sample, and heating member 302 plays the effect of heating, and is concrete, and holding frame 301 is connected with heating member 302, guarantees that the sample detects under the predetermined temperature, and the preferred, heating member 302 is constant temperature heater, provides the constant temperature environment for the liquefaction of sample, and then has guaranteed the accuracy of survey time.

Further, the heating member 302 includes heating element 302a and heat conduction element 302b, heating element 302a plays the effect of generating heat, heat conduction element 302b plays the effect of heat transfer, specifically, heating element 302a and heat conduction element 302b are connected, heat conduction element 302b and holding frame 301 contact, thereby realize the heating effect of heating member 302 to the sample in holding frame 301, specifically, heat conduction element 302b is the heat conduction line, it encircles holding frame 301 outside lower part, the realization is to the heating of sample, because of the sample size is limited, can also reduce energy waste.

Example 8

Referring to fig. 1, 2 and 4, an eighth embodiment of the present invention is different from the above embodiments in that: and a box 400 for loading. Specifically, referring to fig. 1, the main structure of the device includes a driving unit 100 including a driving shaft 101, a driving wheel 102 and a transmission rod 103, wherein the driving shaft 101 is connected with the driving wheel 102, and the driving wheel 102 is connected with the transmission rod 103; the detection unit 200 comprises a suction part 201 and a conduction part 202, wherein the suction part 201 is connected with the conduction part 202, and the conduction part 202 is connected with the transmission rod 103; and, the accommodating unit 300, and the suction part 201 are disposed on the same axis. The utility model discloses the major structure includes drive unit 100, detecting element 200 and holding unit 300, and the three mutually supports, constitutes the dynamic detection structure, provides the basis for realizing automatic semen liquefaction time survey. Specifically, the driving unit 100 is a power structure and comprises a driving shaft 101, a driving wheel 102 and a transmission rod 103, wherein the driving shaft 101 plays a role in connecting a power source, the driving wheel 102 and the transmission rod 103 play a role in power transmission, and specifically, the driving shaft 101 is connected with the driving wheel 102, the driving wheel 102 is connected with the transmission rod 103, and the three parts are matched with each other to rotate, so that the power driving effect of the driving unit 100 is realized, and power guarantee is provided for further realizing automatic semen liquefaction time measurement; the detection unit 200 plays a detection role, and comprises an absorption part 201 and a conduction part 202, wherein the absorption part 201 plays a role of absorbing a sample, the conduction part 202 plays a role of conducting detection information, specifically, the absorption part 201 is connected with the conduction part 202 to realize the selection of the sample and the conduction of the detection information, and the conduction part 202 is connected with the transmission rod 103 to realize the dynamic detection and the signal conduction; the accommodating unit 300 plays a role in placing a sample, and specifically, the accommodating unit 300 and the suction portion 201 are disposed on the same axis, so that it is ensured that the suction portion 201 can suck the sample from the accommodating unit 300.

And box 400 sets up through-hole 401 and accommodation space M, and through-hole 401 plays the effect of intercommunication, and accommodation space M plays the effect of splendid attire, and is concrete, and through-hole 401 sets up on the opposite face of detecting element 200 and box 400, guarantees that detecting element 200 can partly arrange box 400 in, and outside box 400 was arranged in to the part, and is further, detecting element 200 can be removed smoothly to the scope more than or equal to of through-hole 401 and detecting element 200's removal displacement scope, has guaranteed that detecting element 200 can move smoothly.

Example 9

Referring to fig. 1, a ninth embodiment of the present invention is different from the above embodiments in that: the accommodating space M is divided into a first accommodating space M-1 and a second accommodating space M-2, so that the accommodating spaces are separated. Specifically, referring to fig. 1, the main structure of the device includes a driving unit 100 including a driving shaft 101, a driving wheel 102 and a transmission rod 103, wherein the driving shaft 101 is connected with the driving wheel 102, and the driving wheel 102 is connected with the transmission rod 103; the detection unit 200 comprises a suction part 201 and a conduction part 202, wherein the suction part 201 is connected with the conduction part 202, and the conduction part 202 is connected with the transmission rod 103; and, the accommodating unit 300, and the suction part 201 are disposed on the same axis. The utility model discloses the major structure includes drive unit 100, detecting element 200 and holding unit 300, and the three mutually supports, constitutes the dynamic detection structure, provides the basis for realizing automatic semen liquefaction time survey. Specifically, the driving unit 100 is a power structure and comprises a driving shaft 101, a driving wheel 102 and a transmission rod 103, wherein the driving shaft 101 plays a role in connecting a power source, the driving wheel 102 and the transmission rod 103 play a role in power transmission, and specifically, the driving shaft 101 is connected with the driving wheel 102, the driving wheel 102 is connected with the transmission rod 103, and the three parts are matched with each other to rotate, so that the power driving effect of the driving unit 100 is realized, and power guarantee is provided for further realizing automatic semen liquefaction time measurement; the detection unit 200 plays a detection role, and comprises an absorption part 201 and a conduction part 202, wherein the absorption part 201 plays a role of absorbing a sample, the conduction part 202 plays a role of conducting detection information, specifically, the absorption part 201 is connected with the conduction part 202 to realize the selection of the sample and the conduction of the detection information, and the conduction part 202 is connected with the transmission rod 103 to realize the dynamic detection and the signal conduction; the accommodating unit 300 plays a role in placing a sample, and specifically, the accommodating unit 300 and the suction portion 201 are disposed on the same axis, so that it is ensured that the suction portion 201 can suck the sample from the accommodating unit 300.

The accommodating space M is divided into a first accommodating space M-1 and a second accommodating space M-2, specifically, the accommodating unit 300 is connected to the first accommodating space M-1, and the detecting unit 200 is connected to the second accommodating space M-2, so as to realize separation. Further, the heating element 302 is disposed in the first accommodating space M-1, and the lower portion of the accommodating frame 301 is disposed in the first accommodating space M-1, so as to ensure the heating effect of the heating element 302 on the sample.

It is important to note that the construction and arrangement of the present application as shown in the various exemplary embodiments is illustrative only. Although only a few embodiments have been described in detail in this disclosure, those skilled in the art who review this disclosure will readily appreciate that many modifications are possible (e.g., variations in sizes, dimensions, structures, shapes and proportions of the various elements, values of parameters (e.g., temperatures, pressures, etc.), mounting arrangements, use of materials, colors, orientations, etc.) without materially departing from the novel teachings and advantages of the subject matter recited in this application. For example, elements shown as integrally formed may be constructed of multiple parts or elements, the position of elements may be reversed or otherwise varied, and the nature or number of discrete elements or positions may be altered or varied. Accordingly, all such modifications are intended to be included within the scope of this invention. The order or sequence of any process or method steps may be varied or re-sequenced according to alternative embodiments. In the claims, any means-plus-function clause is intended to cover the structures described herein as performing the recited function and not only structural equivalents but also equivalent structures. Other substitutions, modifications, changes and omissions may be made in the design, operating conditions and arrangement of the exemplary embodiments without departing from the scope of the present inventions. Therefore, the present invention is not limited to a particular embodiment, but extends to various modifications that nevertheless fall within the scope of the appended claims.

Moreover, in an effort to provide a concise description of the exemplary embodiments, all features of an actual implementation may not be described (i.e., those unrelated to the presently contemplated best mode of carrying out the invention, or those unrelated to enabling the invention).

It should be appreciated that in the development of any such actual implementation, as in any engineering or design project, numerous implementation-specific decisions may be made. Such a development effort might be complex and time consuming, but would nevertheless be a routine undertaking of design, fabrication, and manufacture for those of ordinary skill having the benefit of this disclosure, without undue experimentation.

It should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art should understand that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the scope of the claims of the present invention.

Claims (9)

1. An automatic semen liquefaction time tester is characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the driving unit (100) comprises a driving shaft (101), a driving wheel (102) and a transmission rod (103), wherein the driving shaft (101) is connected with the driving wheel (102), and the driving wheel (102) is connected with the transmission rod (103);

the detection unit (200) comprises a suction part (201) and a conduction part (202), wherein the suction part (201) is connected with the conduction part (202), and the conduction part (202) is connected with the transmission rod (103); and the number of the first and second groups,

the accommodating unit (300) and the suction part (201) are arranged on the same axis.

2. The automatic semen liquefaction time determinator of claim 1, wherein: the transmission wheel (102) is divided into a driving wheel (102 a) and a driven wheel (102 b), and the driving wheel (102 a) is connected with the driving shaft (101) and the driven wheel (102 b).

3. The automatic semen liquefaction time determinator of claim 1 or 2, wherein: the transmission rod (103) comprises a screw rod (103 a) and a spiral ring (103 b), the screw rod (103 a) is connected with the transmission wheel (102), and the spiral ring (103 b) is arranged on the screw rod (103 a).

4. The automatic semen liquefaction time determinator of claim 1 or 2, wherein: the suction part (201) comprises a pipe body (201 a) and a connecting piece (201 b), the pipe body (201 a) is connected with the connecting piece (201 b), and the connecting piece (201 b) is connected with the conduction part (202).

5. The automatic semen liquefaction time determinator of claim 4, wherein: the conductive part (202) includes a conductive wire (202 a) and a conductive rod (202 b), the conductive wire (202 a) is connected to the connector (201 b), and the conductive rod (202 b) is connected to the driving unit (100).

6. The automatic semen liquefaction time determinator of claim 5, wherein: the conducting wire (202 a) is provided with at least two conducting wires (202 a), one ends of the conducting wires (202 a) are connected with the conducting rod (202 b) through the connecting piece (201 b), and the other ends of the conducting wires (202 a) are not communicated with each other.

7. The automatic semen liquefaction time determinator of claim 1 or 2, wherein: the accommodating unit (300) comprises an accommodating frame (301) and a heating piece (302), wherein the accommodating frame (301) is connected with the heating piece (302).

8. The automatic semen liquefaction time determinator of claim 1 or 2, wherein: the detection device is characterized by further comprising a box body (400), wherein the box body (400) is provided with a through hole (401) and an accommodating space (M), and the through hole (401) is formed in the opposite surface of the detection unit (200) and the box body (400).

9. The automatic semen liquefaction time determinator of claim 8, wherein: the accommodating space (M) is divided into a first accommodating space (M-1) and a second accommodating space (M-2), the accommodating unit (300) is connected with the first accommodating space (M-1), and the detection unit (200) is connected with the second accommodating space (M-2).

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