CN110927123A - Rapid detection device and method for transmittance of fiber oil - Google Patents

Abstract

The invention relates to a device and a method for quickly detecting the transmittance of a fiber oil agent, which are characterized by comprising the following steps: step (1), checking an oil transmittance rapid detection device; taking out a measuring cup in a detection unit of the rapid detection device for the transmittance of the oil agent from a gate valve outside the detection unit, and filling the oil agent needing to detect the transmittance into the measuring cup, wherein the oil agent under the same oil agent and different concentrations or the oil agent under the same oil agent and different concentrations can be added according to the requirement; step (3), placing the measuring cup filled with the oil agent in a detection unit; step (4), calculating the transmittance of the oil agent; step (5), taking out the measuring cup in the detection unit after the transmittance of the oil solution is detected, pouring out the detected oil solution, and cleaning; if the step (6) needs to carry out the second measurement, repeating the step (2), the step (3) and the step (4), wherein the device comprises: the device comprises a detection unit, a lamp source control unit and a bracket unit.

Description

Rapid detection device and method for transmittance of fiber oil

Technical Field

The invention relates to the technical field of fiber production equipment, in particular to a device for rapidly detecting the transmittance of a fiber oiling agent.

Background

The fibers must be post-treated during the manufacturing process to remove impurities from the fibers that were generated during previous manufacturing operations. In the production process of the viscose, after spinning and forming, the viscose enters the subsequent treatment process after plasticizing, drawing, washing and cutting. The post-treatment process mainly comprises washing, desulfurization and bleaching, the last procedure is oiling, and the oiling purpose is mainly to enable the surface of the fiber to be provided with a layer of oil film, so that the fiber becomes smooth and soft, and meanwhile, the fiber has certain antistatic performance, so that the downstream spinning processing can be smoothly carried out, and the mechanical friction of spinning is reduced. However, in the oiling process, the effect of the dissolution uniformity, the transmittance and the like of the oil agent on the oiling is particularly greatly influenced, so that the detection of the dissolution uniformity, the transmittance and the like of the oil agent is a very important means, particularly the transmittance of the oil agent needs to be rapidly detected, and otherwise, the effect of the oiling on the fiber is particularly greatly influenced.

At present, in viscose fiber production enterprises, many enterprises do not have a unified standard for detecting the transmittance of the oiling agent, and no device and method for quickly detecting the transmittance of the oiling agent are used for guiding, and many enterprises only adopt a relatively intuitive observation method, namely, whether the transmittance of the oiling agent is good or not is observed by eyes. Although the method is very fast, large errors are easy to generate due to the difference between the watching effects of each person; in addition, because the visual observation is also influenced by environmental factors, the transmittance of the oil agent is better if light in the environment is better, and the transmittance of the oil agent is possibly poorer if the ambient light is poorer, so that the transmittance of the oil agent is determined by using the visual observation method, although the transmittance is quicker, the detection effect is not ideal, and errors are easy to generate.

Disclosure of Invention

Aiming at the problems that in viscose fiber production enterprises in the prior art, many enterprises do not have a unified standard for detecting the transmittance of the oiling agent, and no device and method for quickly detecting the transmittance of the oiling agent are used for guidance, and many enterprises only adopt a relatively intuitive observation method, namely, whether the transmittance of the oiling agent is good or not is observed by eyes. Although the method is very fast, large errors are easy to generate due to the difference between the watching effects of each person; in addition, because the visual observation is also influenced by environmental factors, the transmittance of the oiling agent is better if light in the environment is better, and the transmittance of the oiling agent is possibly poorer if the ambient light is poorer, so that the transmittance of the oiling agent is determined by using an eye observation method, although the transmittance is quicker, the detection effect is not ideal, and errors are easy to generate.

A method for rapidly detecting the transmittance of a fiber oil agent is characterized by comprising the following steps:

step (1), checking the rapid detection device for the transmittance of the oil agent, respectively checking whether all the settings of the detection unit and the lamp source control unit are intact, simultaneously checking whether the problem exists in the light source, and performing the next step after all the settings are checked;

taking out a measuring cup in a detection unit of the rapid detection device for the transmittance of the oil agent from a gate valve outside the detection unit, and filling the oil agent needing to detect the transmittance into the measuring cup, wherein the oil agent under the same oil agent and different concentrations or the oil agent under the same oil agent and different concentrations can be added according to the requirement;

step (3), placing the measuring cup filled with the oil agent in the detection unit, closing a gate valve on the outer cover of the detection unit, opening a light source of the light source control unit, reading the filling height of the detected oil agent through a viewing angle port of the gate valve of the detection unit after the light source is stabilized, marking the height as H1, reading the height of the light source divergent light of the light source control unit, which reaches the oil agent, marking as H2, and closing the light source of the light source control unit;

and (4) calculating the transmittance of the oil agent: calculating the transmittance of the oil agent according to the data measured and recorded in the step (3);

step (5), taking out the measuring cup in the detection unit after the transmittance of the oil solution is detected, pouring out the detected oil solution, and cleaning;

and (6) if the second measurement is needed, repeating the step (2), the step (3) and the step (4).

The detailed steps of the step (4) are as follows: the transmittance of the oil agent is calculated as shown in the formula (1-1):

in the formula (1-1), T is the transmittance of the oil agent to be measured, H1 is the height of the oil agent to be measured in the measuring cup, and H2 is the height of the light emitted from the lamp source penetrating through the oil agent to be measured.

The utility model provides a device of fibre finish transmittance short-term test which characterized in that includes: detection element, lamp source control unit and support unit, lamp source control unit sets up on support unit, detection element sets up on lamp source control unit, detection element includes: the detecting element dustcoat, for detecting element push-pull valve, detecting element graduated flask and detecting element scale, the lamp source control unit includes: lamp source control unit dustcoat, lamp source control unit push-pull valve and lamp source control unit's lamp source, the support unit includes: the vertical supporting legs of the support units and the transverse supporting rods of the support units.

The height of the detection unit graduated scale is smaller than that of the detection unit outer cover.

The detecting unit comprises a detecting unit outer cover, a detecting unit graduated scale and detecting unit measuring cups, wherein the detecting unit outer cover is provided with a detecting unit gate valve, the detecting unit graduated scale is arranged inside the detecting unit, and the detecting unit measuring cups are arranged on two sides of the detecting unit graduated scale.

The lamp source control unit comprises a lamp source control unit outer cover, a lamp source control unit gate valve is arranged on the lamp source control unit outer cover, and a lamp source of the lamp source control unit is arranged inside the lamp source control unit.

The horizontal supporting rods of the support units are connected with the vertical supporting legs of the support units on the two sides.

The invention has the beneficial effects that:

1. the detection unit is provided with two measuring cups, so that the transmittance of one oil with different concentrations can be detected simultaneously, and the transmittance of different concentrations of different oils can be detected simultaneously.

2. The lamp source control unit is provided with the outer cover, so that the whole lamp source control unit is in a light-proof state, the influence of an external light source on the lamp source during working can be avoided, and meanwhile, the lamp source with adjustable brightness is arranged and can be replaced according to the requirement, so that the lamp sources with different brightness or different types of lamp sources can be selected according to the requirement of the type of the oil agent.

3. The detection unit and the lamp source control unit are made of non-conductive PVC plates, so that the danger of electric shock caused by electrification of the whole oil transmittance quick detection device can be prevented.

4. The integral device has the advantages of simple structure, convenient manufacture and operation, stable performance, low manufacturing cost, simple method for detecting the transmittance of the oil solution, good detection effect, effective evaluation of the transmittance of the fiber oil solution and better guarantee of the production stability.

Drawings

FIG. 1 is a block diagram of the structure of the rapid detection device for oil transmittance of the present invention;

FIG. 2 is an external block diagram of the rapid detection device for oil transmittance of the present invention;

FIG. 3 is an internal block diagram of the device for rapidly detecting the transmittance of an oil agent.

Reference numerals

1. The detection unit comprises a detection unit, 2, a light source control unit, 3, a support unit, 101, a detection unit outer cover, 102, 103, a detection unit measuring cup, 104, a detection unit graduated scale, 201, a light source control unit outer cover, 202, a light source control unit push-pull valve, 203, a light source of the light source control unit, 301, a vertical supporting leg of the support unit, 302 and a support unit transverse supporting rod.

The specific implementation mode is as follows:

example 1:

a method for rapidly detecting the transmittance of a fiber oil agent is characterized by comprising the following steps:

step (1), checking the rapid detection device for the transmittance of the oil agent, respectively checking whether all the settings of the detection unit and the lamp source control unit are intact, simultaneously checking whether the problem exists in the light source, and performing the next step after all the settings are checked;

taking out a measuring cup in a detection unit of the rapid detection device for the transmittance of the oil agent from a gate valve outside the detection unit, and filling the oil agent needing to detect the transmittance into the measuring cup, wherein the oil agent under the same oil agent and different concentrations or the oil agent under the same oil agent and different concentrations can be added according to the requirement;

step (3), placing the measuring cup filled with the oil agent in the detection unit, closing a gate valve on the outer cover of the detection unit, opening a light source of the light source control unit, reading the filling height of the detected oil agent through a viewing angle port of the gate valve of the detection unit after the light source is stabilized, marking the height as H1, reading the height of the light source divergent light of the light source control unit, which reaches the oil agent, marking as H2, and closing the light source of the light source control unit;

and (4) calculating the transmittance of the oil agent: calculating the transmittance of the oil agent according to the data measured and recorded in the step (3);

step (5), taking out the measuring cup in the detection unit after the transmittance of the oil solution is detected, pouring out the detected oil solution, and cleaning;

and (6) if the second measurement is needed, repeating the step (2), the step (3) and the step (4).

The detailed steps of the step (4) are as follows: the transmittance of the oil agent is calculated as shown in the formula (1-1):

in the formula (1-1), T is the transmittance of the oil agent to be measured, H1 is the height of the oil agent to be measured in the measuring cup, and H2 is the height of the light emitted from the lamp source penetrating through the oil agent to be measured.

The utility model provides a device of fibre finish transmittance short-term test which characterized in that includes: detecting element 1, lamp source control unit 2 and support unit 3, lamp source control unit 2 sets up on support unit 3, detecting element 1 sets up on lamp source control unit 2, detecting element 1 includes: the detecting unit dustcoat 101, for detecting unit push-pull valve 102, detecting unit graduated flask 103 and detecting unit scale 104, the light source control unit 2 includes: lamp source control unit dustcoat 201, lamp source control unit push-pull valve 202 and lamp source 203 of lamp source control unit, support unit 3 includes: vertical legs 301 of the rack unit and rack unit cross struts 302.

The height of the detection unit scale 104 is less than the height of the detection unit housing 101.

Example 2:

a method for rapidly detecting the transmittance of a fiber oil agent is characterized by comprising the following steps:

step (1), checking the rapid detection device for the transmittance of the oil agent, respectively checking whether all the settings of the detection unit and the lamp source control unit are intact, simultaneously checking whether the problem exists in the light source, and performing the next step after all the settings are checked;

taking out a measuring cup in a detection unit of the rapid detection device for the transmittance of the oil agent from a gate valve outside the detection unit, and filling the oil agent needing to detect the transmittance into the measuring cup, wherein the oil agent under the same oil agent and different concentrations or the oil agent under the same oil agent and different concentrations can be added according to the requirement;

step (3), placing the measuring cup filled with the oil agent in the detection unit, closing a gate valve on the outer cover of the detection unit, opening a light source of the light source control unit, reading the filling height of the detected oil agent through a viewing angle port of the gate valve of the detection unit after the light source is stabilized, marking the height as H1, reading the height of the light source divergent light of the light source control unit, which reaches the oil agent, marking as H2, and closing the light source of the light source control unit;

and (4) calculating the transmittance of the oil agent: calculating the transmittance of the oil agent according to the data measured and recorded in the step (3);

step (5), taking out the measuring cup in the detection unit after the transmittance of the oil solution is detected, pouring out the detected oil solution, and cleaning;

and (6) if the second measurement is needed, repeating the step (2), the step (3) and the step (4).

The detailed steps of the step (4) are as follows: the transmittance of the oil agent is calculated as shown in the formula (1-1):

in the formula (1-1), T is the transmittance of the oil agent to be measured, H1 is the height of the oil agent to be measured in the measuring cup, and H2 is the height of the light emitted from the lamp source penetrating through the oil agent to be measured.

The utility model provides a device of fibre finish transmittance short-term test which characterized in that includes: detecting element 1, lamp source control unit 2 and support unit 3, lamp source control unit 2 sets up on support unit 3, detecting element 1 sets up on lamp source control unit 2, detecting element 1 includes: the detecting unit dustcoat 101, for detecting unit push-pull valve 102, detecting unit graduated flask 103 and detecting unit scale 104, the light source control unit 2 includes: lamp source control unit dustcoat 201, lamp source control unit push-pull valve 202 and lamp source 203 of lamp source control unit, support unit 3 includes: vertical legs 301 of the rack unit and rack unit cross struts 302.

The detecting unit comprises a detecting unit outer cover 101, a detecting unit scale 104 and detecting unit measuring cups 103, wherein the detecting unit outer cover 101 is provided with a detecting unit 1 gate valve, the detecting unit scale 104 is arranged inside the detecting unit 1, and the detecting unit measuring cups 103 are arranged on two sides of the detecting unit scale 104.

The lamp source control unit outer cover 201 is provided with a lamp source control unit gate valve 202, and the lamp source 203 of the lamp source control unit is arranged inside the lamp source control unit 2.

The horizontal strut 302 of the bracket unit is connected with the vertical support leg 301 of the bracket unit on both sides.

Example 3:

the utility model provides a device of fibre finish transmittance short-term test which characterized in that includes: detecting element 1, lamp source control unit 2 and support unit 3, lamp source control unit 2 sets up on support unit 3, detecting element 1 sets up on lamp source control unit 2, detecting element 1 includes: the detecting unit dustcoat 101, for detecting unit push-pull valve 102, detecting unit graduated flask 103 and detecting unit scale 104, the light source control unit 2 includes: lamp source control unit dustcoat 201, lamp source control unit push-pull valve 202 and lamp source 203 of lamp source control unit, support unit 3 includes: vertical legs 301 of the rack unit and rack unit cross struts 302.

A method for rapidly detecting the transmittance of a fiber oil agent is characterized by comprising the following steps:

step (1), checking the rapid detection device for the transmittance of the oil agent, respectively checking whether all the settings of the detection unit and the lamp source control unit are intact, simultaneously checking whether the problem exists in the light source, and performing the next step after all the settings are checked;

taking out a measuring cup in a detection unit of the rapid detection device for the transmittance of the oil agent from a gate valve outside the detection unit, and filling the oil agent needing to detect the transmittance into the measuring cup, wherein the oil agent under the same oil agent and different concentrations or the oil agent under the same oil agent and different concentrations can be added according to the requirement;

step (3), placing the measuring cup filled with the oil agent in the detection unit, closing a gate valve on the outer cover of the detection unit, opening a light source of the light source control unit, reading the filling height of the detected oil agent through a viewing angle port of the gate valve of the detection unit after the light source is stabilized, marking the height as H1, reading the height of the light source divergent light of the light source control unit, which reaches the oil agent, marking as H2, and closing the light source of the light source control unit;

and (4) calculating the transmittance of the oil agent: calculating the transmittance of the oil agent according to the data measured and recorded in the step (3);

step (5), taking out the measuring cup in the detection unit after the transmittance of the oil solution is detected, pouring out the detected oil solution, and cleaning;

and (6) if the second measurement is needed, repeating the step (2), the step (3) and the step (4).

The detailed steps of the step (4) are as follows: the transmittance of the oil agent is calculated as shown in the formula (1-1):

in the formula (1-1), T is the transmittance of the oil agent to be measured, H1 is the height of the oil agent to be measured in the measuring cup, and H2 is the height of the light emitted from the lamp source penetrating through the oil agent to be measured.

The height of the detection unit scale 104 is less than the height of the detection unit housing 101.

The lamp source control unit outer cover 201 is provided with a lamp source control unit gate valve 202, and the lamp source 203 of the lamp source control unit is arranged inside the lamp source control unit 2.

The horizontal strut 302 of the bracket unit is connected with the vertical support leg 301 of the bracket unit on both sides.

Example 4:

a method for rapidly detecting the transmittance of a fiber oil agent is characterized by comprising the following steps:

step (1), checking the rapid detection device for the transmittance of the oil agent, respectively checking whether all the settings of the detection unit and the lamp source control unit are intact, simultaneously checking whether the problem exists in the light source, and performing the next step after all the settings are checked;

taking out a measuring cup in a detection unit of the rapid detection device for the transmittance of the oil agent from a gate valve outside the detection unit, and filling the oil agent needing to detect the transmittance into the measuring cup, wherein the oil agent under the same oil agent and different concentrations or the oil agent under the same oil agent and different concentrations can be added according to the requirement;

step (3), placing the measuring cup filled with the oil agent in the detection unit, closing a gate valve on the outer cover of the detection unit, opening a light source of the light source control unit, reading the filling height of the detected oil agent through a viewing angle port of the gate valve of the detection unit after the light source is stabilized, marking the height as H1, reading the height of the light source divergent light of the light source control unit, which reaches the oil agent, marking as H2, and closing the light source of the light source control unit;

and (4) calculating the transmittance of the oil agent: calculating the transmittance of the oil agent according to the data measured and recorded in the step (3);

step (5), taking out the measuring cup in the detection unit after the transmittance of the oil solution is detected, pouring out the detected oil solution, and cleaning;

and (6) if the second measurement is needed, repeating the step (2), the step (3) and the step (4).

The detailed steps of the step (4) are as follows: the transmittance of the oil agent is calculated as shown in the formula (1-1):

in the formula (1-1), T is the transmittance of the oil agent to be measured, H1 is the height of the oil agent to be measured in the measuring cup, and H2 is the height of the light emitted from the lamp source penetrating through the oil agent to be measured.

The utility model provides a device of fibre finish transmittance short-term test which characterized in that includes: detecting element 1, lamp source control unit 2 and support unit 3, lamp source control unit 2 sets up on support unit 3, detecting element 1 sets up on lamp source control unit 2, detecting element 1 includes: the detecting unit dustcoat 101, for detecting unit push-pull valve 102, detecting unit graduated flask 103 and detecting unit scale 104, the light source control unit 2 includes: lamp source control unit dustcoat 201, lamp source control unit push-pull valve 202 and lamp source 203 of lamp source control unit, support unit 3 includes: vertical legs 301 of the rack unit and rack unit cross struts 302.

The height of the detection unit scale 104 is less than the height of the detection unit housing 101.

The detecting unit comprises a detecting unit outer cover 101, a detecting unit scale 104 and detecting unit measuring cups 103, wherein the detecting unit outer cover 101 is provided with a detecting unit 1 gate valve, the detecting unit scale 104 is arranged inside the detecting unit 1, and the detecting unit measuring cups 103 are arranged on two sides of the detecting unit scale 104.

The lamp source control unit outer cover 201 is provided with a lamp source control unit gate valve 202, and the lamp source 203 of the lamp source control unit is arranged inside the lamp source control unit 2.

Example 5:

a method for rapidly detecting the transmittance of a fiber oil agent is characterized by comprising the following steps:

step (1), checking the rapid detection device for the transmittance of the oil agent, respectively checking whether all the settings of the detection unit and the lamp source control unit are intact, simultaneously checking whether the problem exists in the light source, and performing the next step after all the settings are checked;

taking out a measuring cup in a detection unit of the rapid detection device for the transmittance of the oil agent from a gate valve outside the detection unit, and filling the oil agent needing to detect the transmittance into the measuring cup, wherein the oil agent under the same oil agent and different concentrations or the oil agent under the same oil agent and different concentrations can be added according to the requirement;

step (3), placing the measuring cup filled with the oil agent in the detection unit, closing a gate valve on the outer cover of the detection unit, opening a light source of the light source control unit, reading the filling height of the detected oil agent through a viewing angle port of the gate valve of the detection unit after the light source is stabilized, marking the height as H1, reading the height of the light source divergent light of the light source control unit, which reaches the oil agent, marking as H2, and closing the light source of the light source control unit;

and (4) calculating the transmittance of the oil agent: calculating the transmittance of the oil agent according to the data measured and recorded in the step (3);

step (5), taking out the measuring cup in the detection unit after the transmittance of the oil solution is detected, pouring out the detected oil solution, and cleaning;

and (6) if the second measurement is needed, repeating the step (2), the step (3) and the step (4).

The detailed steps of the step (4) are as follows: the transmittance of the oil agent is calculated as shown in the formula (1-1):

in the formula (1-1), T is the transmittance of the oil agent to be measured, H1 is the height of the oil agent to be measured in the measuring cup, and H2 is the height of the light emitted from the lamp source penetrating through the oil agent to be measured.

The utility model provides a device of fibre finish transmittance short-term test which characterized in that includes: detecting element 1, lamp source control unit 2 and support unit 3, lamp source control unit 2 sets up on support unit 3, detecting element 1 sets up on lamp source control unit 2, detecting element 1 includes: the detecting unit dustcoat 101, for detecting unit push-pull valve 102, detecting unit graduated flask 103 and detecting unit scale 104, the light source control unit 2 includes: lamp source control unit dustcoat 201, lamp source control unit push-pull valve 202 and lamp source 203 of lamp source control unit, support unit 3 includes: vertical legs 301 of the rack unit and rack unit cross struts 302.

The height of the detection unit scale 104 is less than the height of the detection unit housing 101.

The detecting unit comprises a detecting unit outer cover 101, a detecting unit scale 104 and detecting unit measuring cups 103, wherein the detecting unit outer cover 101 is provided with a detecting unit 1 gate valve, the detecting unit scale 104 is arranged inside the detecting unit 1, and the detecting unit measuring cups 103 are arranged on two sides of the detecting unit scale 104.

The lamp source control unit outer cover 201 is provided with a lamp source control unit gate valve 202, and the lamp source 203 of the lamp source control unit is arranged inside the lamp source control unit 2.

The horizontal strut 302 of the bracket unit is connected with the vertical support leg 301 of the bracket unit on both sides.

Claims (7)

1. A method for rapidly detecting the transmittance of a fiber oil agent is characterized by comprising the following steps:

step (1), checking the rapid detection device for the transmittance of the oil agent, respectively checking whether all the settings of the detection unit and the lamp source control unit are intact, simultaneously checking whether the problem exists in the light source, and performing the next step after all the settings are checked;

taking out a measuring cup in a detection unit of the rapid detection device for the transmittance of the oil agent from a gate valve outside the detection unit, and filling the oil agent needing to detect the transmittance into the measuring cup, wherein the oil agent under the same oil agent and different concentrations or the oil agent under the same oil agent and different concentrations can be added according to the requirement;

step (3), placing the measuring cup filled with the oil agent in the detection unit, closing a gate valve on the outer cover of the detection unit, opening a light source of the light source control unit, reading the filling height of the detected oil agent through a viewing angle port of the gate valve of the detection unit after the light source is stabilized, marking the height as H1, reading the height of the light source divergent light of the light source control unit, which reaches the oil agent, marking as H2, and closing the light source of the light source control unit;

and (4) calculating the transmittance of the oil agent: calculating the transmittance of the oil agent according to the data measured and recorded in the step (3);

step (5), taking out the measuring cup in the detection unit after the transmittance of the oil solution is detected, pouring out the detected oil solution, and cleaning;

and (6) if the second measurement is needed, repeating the step (2), the step (3) and the step (4).

2. The method for rapidly detecting the transmittance of the fiber finish oil according to claim 1, characterized by comprising the following steps: the detailed steps of the step (4) are as follows: the transmittance of the oil agent is calculated as shown in the formula (1-1):

in the formula (1-1), T is the transmittance of the oil agent to be measured, H1 is the height of the oil agent to be measured in the measuring cup, and H2 is the height of the light emitted from the lamp source penetrating through the oil agent to be measured.

3. The method for rapidly detecting the transmittance of the fiber finish oil according to claim 1, wherein the device for rapidly detecting the transmittance of the fiber finish oil related to the method is characterized by comprising the following steps: detecting element (1), lamp source control unit (2) and support unit (3), lamp source control unit (2) set up on support unit (3), detecting element (1) sets up on lamp source control unit (2), detecting element (1) includes: detection element dustcoat (101), for detection element push-pull valve (102), detection element graduated flask (103) and detection element scale (104), lamp source control unit (2) include: lamp source control unit dustcoat (201), lamp source control unit push-pull valve (202) and lamp source (203) of lamp source control unit, support unit (3) include: vertical support legs (301) of the bracket units and transverse support rods (302) of the bracket units.

4. The device for rapidly detecting the transmittance of the fiber finish oil according to claim 3, is characterized in that: the height of the detection unit scale (104) is smaller than that of the detection unit outer cover (101).

5. The device for rapidly detecting the transmittance of the fiber finish oil according to claim 3, is characterized in that: the detection unit comprises a detection unit outer cover (101), wherein a detection unit (1) gate valve is arranged on the detection unit outer cover (101), a detection unit graduated scale (104) is arranged inside the detection unit (1), and detection unit measuring cups (103) are arranged on two sides of the detection unit graduated scale (104).

6. The device for rapidly detecting the transmittance of the fiber finish oil according to claim 3, is characterized in that: the lamp source control unit comprises a lamp source control unit outer cover (201), wherein a lamp source control unit gate valve (202) is arranged on the lamp source control unit outer cover (201), and a lamp source (203) of the lamp source control unit is arranged inside a lamp source control unit (2).

7. The device for rapidly detecting the transmittance of the fiber finish oil according to claim 3, is characterized in that: the horizontal support rod (302) of the support unit is connected with the vertical support legs (301) of the support units on two sides.

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