CN109470554B - Large-scale sticky tape tensile detection device is used in sticky tape production - Google Patents

Abstract

The invention relates to a detection device, in particular to a large-scale adhesive tape stretching detection device for adhesive tape production. The technical problems of the invention are as follows: the large adhesive tape stretching detection device for adhesive tape production is stable in fixation and simple to operate. The technical scheme is as follows: a large-scale adhesive tape stretching detection device for adhesive tape production comprises a hollow base, a slide rail, a slide block, a rack, a first motor, a gear, a first hollow sleeve and the like; the slide rail is installed on hollow base top right side, and the gliding style is equipped with the slider on the slide rail, and the slider left side is connected with first hollow sleeve, and first motor is installed to slider front side right part, and the gear is installed through the shaft coupling to the output shaft of first motor, and the rack is installed on the upper right portion of slide rail front side. According to the invention, the two ends of the adhesive tape can be fixed by screwing the screw rod to move downwards, so that the adhesive tape is prevented from being loosened, the adhesive tape can be broken by controlling the first motor to rotate forwards, and an operator can detect the tensile property of the adhesive tape by using the measuring scale, so that the effects of stable fixation and simple operation are achieved.

Description

Large-scale sticky tape tensile detection device is used in sticky tape production

Technical Field

The invention relates to a detection device, in particular to a large-scale adhesive tape stretching detection device for adhesive tape production.

Background

Scotch tape was invented in 1928 in saint paul, riche delu, minnesota. The adhesive tape can be divided into the following parts according to the effects of the adhesive tape: the adhesive tape has different effects and is suitable for different industry requirements. The surface of the adhesive tape is coated with a layer of adhesive to enable the adhesive tape to stick articles, the earliest adhesive comes from animals and plants, and in the nineteenth century, rubber is the main component of the adhesive; while various polymers are widely used in modern times.

The adhesive tape needs to be sampled and detected after being produced, the stretching detection is one of the detection items, when people stretch and detect the adhesive tape, one end of the adhesive tape can be fixed, the other end of the adhesive tape is pulled to one side, then the stretching length of the adhesive tape is measured by using a ruler, and whether the adhesive tape is qualified or not is judged according to measurement data. Therefore, the development of a large-scale adhesive tape stretching detection device for adhesive tape production, which is stable in fixation and simple in operation, is urgently needed.

Disclosure of Invention

In order to overcome the defects that one end of a fixed adhesive tape is easy to slide off, the fixation is not stable enough, and the measurement process is complicated, the invention has the technical problems that: the large adhesive tape stretching detection device for adhesive tape production is stable in fixation and simple to operate.

The technical scheme is as follows: a large-scale adhesive tape stretching detection device for adhesive tape production comprises a hollow base, a slide rail, a slide block, a rack and a first motor, the gear, first hollow sleeve, the hollow sleeve of second, the screw rod, fixed block and bearing frame, the slide rail is installed on hollow base top right side, the gliding style is equipped with the slider on the slide rail, the slider left side is connected with first hollow sleeve, first motor is installed to slider front side right part, the gear is installed through the shaft coupling to the output shaft of first motor, the rack is installed on slide rail front side upper right portion, the rack is located the gear right side, rack and gear engagement, slide rail left side sub-unit connection has the hollow sleeve of second, it has the screw to open in the middle of the hollow sleeve top of second, be equipped with the screw rod with threaded mode in the screw, the level is equipped with the fixed block in the hollow sleeve of second, the embedded bearing frame.

Further, still including outer telescopic link, interior telescopic link, first spring, the sliding sleeve, the second spring, the gyro wheel, mounting panel and dipperstick, first hollow sleeve left side is connected with outer telescopic link, telescopic link in the movable interior telescopic link that is equipped with, be connected with first spring between the right side in interior telescopic link right-hand member and the outer telescopic link, interior telescopic link left end is connected with the sliding sleeve, the equal symmetry of left and right sides is equipped with two second springs in the sliding sleeve, the gyro wheel is installed to the second spring end, slide rail left side upper portion is connected with the mounting panel, the dipperstick is installed in mounting panel bottom left side, the dipperstick lower extreme passes the sliding sleeve, dipperstick and gyro wheel contact.

Further, the sliding rail device comprises a connecting plate, a second motor, a first belt pulley, a flat belt and a second belt pulley, the lower portion of the right side of the sliding rail is connected with the connecting plate, the second motor is installed at the top of the connecting plate, the first belt pulley is installed on an output shaft of the second motor through a coupler, the flat belt is wound on the first belt pulley, an opening is formed in the lower portion of the sliding rail and located above the connecting plate, the second belt pulley is installed on the upper portion of the screw rod, and the flat belt penetrates through the opening and is sleeved on the second belt pulley.

Furthermore, the water-saving device also comprises a water inlet pipe, a water outlet pipe and a valve, wherein the left side of the top of the hollow base is connected with the water inlet pipe, the water inlet pipe is communicated with the hollow base, the lower part of the right side of the hollow base is connected with the water outlet pipe, the water outlet pipe is communicated with the hollow base, and the valve is arranged on the water outlet pipe.

An operator penetrates one end of the adhesive tape through the first hollow sleeve, then both ends of the adhesive tape are placed in the second hollow sleeve and are located under the fixing block, and then the screw rod is screwed to move downwards to drive the fixing block to move downwards so as to fix both ends of the adhesive tape. After the fixation, the screwing of the screw is stopped. At the moment, the operator controls the first motor to rotate positively to drive the gear to rotate positively, and the gear rolls upwards on the rack, so that the sliding block moves upwards, the first hollow sleeve moves upwards, and the adhesive tape is stretched. When the sticky tape broke off, closed first motor, operating personnel can detect sticky tape tensile properties with the dipperstick.

Because still including outer telescopic link, interior telescopic link, first spring, the sliding sleeve, the second spring, the gyro wheel, mounting panel and dipperstick, first hollow sleeve left side is connected with outer telescopic link, telescopic link in the movable interior telescopic link that is equipped with, be connected with first spring in interior telescopic link right-hand member and the outer telescopic link between the right side, interior telescopic link left end is connected with the sliding sleeve, the equal symmetry of left and right sides is equipped with two second springs in the sliding sleeve, the gyro wheel is installed to the second spring end, slide rail left side upper portion is connected with the mounting panel, the dipperstick is installed in mounting panel bottom left side, the dipperstick lower extreme passes the sliding sleeve, dipperstick and gyro wheel contact, when first hollow sleeve rebound is driven in first motor corotation, drive outer telescopic link rebound, thereby drive interior telescopic link rebound, the sliding sleeve rebound thereupon. When first motor stopped corotation, the sliding sleeve stopped the rebound, and operating personnel can detect sticky tape tensile properties through the scale on the observation dipperstick to make operating personnel can more conveniently see out the data that detect out.

Because still including the connecting plate, the second motor, first belt pulley, flat belt and second belt pulley, slide rail right side sub-unit connection has the connecting plate, the second motor is installed at the connecting plate top, the output shaft of second motor installs first belt pulley through the shaft coupling, it has flat belt to wind on the first belt pulley, open the slide rail lower part has the opening, the opening is located the connecting plate top, the second belt pulley is installed on screw rod upper portion, flat belt passes the opening and overlaps on the second belt pulley, when the both ends of sticky tape all are located under the fixed block, operating personnel control second motor clockwise turning, drive first belt pulley clockwise turning, drive second belt pulley clockwise turning through flat belt, thereby drive the screw rod and move down, and then drive the fixed block and move down, fix the both ends of sticky tape. After the fixing is well, the second motor is closed, and the screw rod does not need to be screwed manually, so that manual operation is not needed, and time and labor are saved.

Because the water-saving device also comprises a water inlet pipe, a water outlet pipe and a valve, the left side of the top of the hollow base is connected with the water inlet pipe, the water inlet pipe is communicated with the hollow base, the lower part of the right side of the hollow base is connected with the water outlet pipe, the water outlet pipe is communicated with the hollow base, the valve is arranged on the water outlet pipe, and the valve is in a closed state initially. When the tensile property of the adhesive tape needs to be detected, an operator pours a proper amount of water into the hollow base from the water inlet pipe, and fixes the adhesive tape detecting device through the weight of the water, so that the adhesive tape detecting device can be prevented from shaking. When the tensile property of the adhesive tape is detected, an operator opens the valve to enable water in the hollow base to flow out through the water outlet pipe. And after all the water in the hollow base flows out, closing the valve.

According to the invention, the two ends of the adhesive tape can be fixed by screwing the screw rod to move downwards, so that the adhesive tape is prevented from being loosened, the adhesive tape can be broken by controlling the first motor to rotate forwards, and an operator can detect the tensile property of the adhesive tape by using the measuring scale, so that the effects of stable fixation and simple operation are achieved.

Drawings

Fig. 1 is a first front view structure diagram of the present invention.

Fig. 2 is an enlarged schematic view of the fixing block and the bearing housing of the present invention.

Fig. 3 is a second front view structure diagram of the present invention.

Fig. 4 is an enlarged schematic view of a second spring and roller of the present invention.

Fig. 5 is a third schematic view of the present invention.

The parts are labeled as follows: the automatic water supply device comprises a hollow base 1, a sliding rail 2, a sliding block 3, a rack 4, a first motor 5, a gear 6, a first hollow sleeve 7, a second hollow sleeve 8, a screw hole 9, a screw rod 10, a fixed block 11, a bearing block 12, an outer telescopic rod 13, an inner telescopic rod 14, a first spring 15, a sliding sleeve 16, a second spring 17, a roller 18, a mounting plate 19, a measuring scale 20, a connecting plate 21, a second motor 22, a first belt pulley 23, a flat belt 24, an opening 25, a second belt pulley 26, a water inlet pipe 27, a water outlet pipe 28 and a valve 29.

Detailed Description

The above-described scheme is further illustrated below with reference to specific examples. It should be understood that these examples are for illustrative purposes and are not intended to limit the scope of the present application. The conditions used in the examples may be further adjusted according to the conditions of the particular manufacturer, and the conditions not specified are generally the conditions in routine experiments.

Example 1

A large-scale adhesive tape stretching detection device for adhesive tape production is disclosed, as shown in figures 1-5, and comprises a hollow base 1, a slide rail 2, a slide block 3, a rack 4, a first motor 5, a gear 6, a first hollow sleeve 7, a second hollow sleeve 8, a screw 10, a fixed block 11 and a bearing seat 12, wherein the slide rail 2 is installed on the right side of the top of the hollow base 1, the slide block 3 is slidably arranged on the slide rail 2, the left side of the slide block 3 is connected with the first hollow sleeve 7, the right part of the front side of the slide block 3 is provided with the first motor 5, an output shaft of the first motor 5 is provided with the gear 6 through a coupler, the rack 4 is installed on the upper right part of the front side of the slide rail 2, the rack 4 is positioned on the right side of the gear 6, the rack 4 is meshed with the gear 6, the lower part of the left side of the slide rail, a fixed block 11 is horizontally arranged in the second hollow sleeve 8, a bearing seat 12 is embedded in the middle of the fixed block 11, and the lower end of the screw rod 10 is positioned in the bearing seat 12.

Example 2

A large-scale adhesive tape stretching detection device for adhesive tape production is disclosed, as shown in figures 1-5, and comprises a hollow base 1, a slide rail 2, a slide block 3, a rack 4, a first motor 5, a gear 6, a first hollow sleeve 7, a second hollow sleeve 8, a screw 10, a fixed block 11 and a bearing seat 12, wherein the slide rail 2 is installed on the right side of the top of the hollow base 1, the slide block 3 is slidably arranged on the slide rail 2, the left side of the slide block 3 is connected with the first hollow sleeve 7, the right part of the front side of the slide block 3 is provided with the first motor 5, an output shaft of the first motor 5 is provided with the gear 6 through a coupler, the rack 4 is installed on the upper right part of the front side of the slide rail 2, the rack 4 is positioned on the right side of the gear 6, the rack 4 is meshed with the gear 6, the lower part of the left side of the slide rail, a fixed block 11 is horizontally arranged in the second hollow sleeve 8, a bearing seat 12 is embedded in the middle of the fixed block 11, and the lower end of the screw rod 10 is positioned in the bearing seat 12.

Still including outer telescopic link 13, interior telescopic link 14, first spring 15, sliding sleeve 16, second spring 17, gyro wheel 18, mounting panel 19 and dipperstick 20, 7 left sides of first hollow sleeve are connected with outer telescopic link 13, telescopic link 14 in the movable being equipped with in outer telescopic link 13, be connected with first spring 15 between the right side in 14 right-hand members of interior telescopic link and the outer telescopic link 13, 14 left ends of interior telescopic link are connected with sliding sleeve 16, the equal symmetry in the sliding sleeve 16 left and right sides is equipped with two second springs 17, gyro wheel 18 is installed to second spring 17 end, 2 left side upper portions of slide rail are connected with mounting panel 19, dipperstick 20 is installed in 19 bottom left sides of mounting panel, the dipperstick 20 lower extreme passes sliding sleeve 16, dipperstick 20 and the contact of gyro wheel 18.

Example 3

A large-scale adhesive tape stretching detection device for adhesive tape production is disclosed, as shown in figures 1-5, and comprises a hollow base 1, a slide rail 2, a slide block 3, a rack 4, a first motor 5, a gear 6, a first hollow sleeve 7, a second hollow sleeve 8, a screw 10, a fixed block 11 and a bearing seat 12, wherein the slide rail 2 is installed on the right side of the top of the hollow base 1, the slide block 3 is slidably arranged on the slide rail 2, the left side of the slide block 3 is connected with the first hollow sleeve 7, the right part of the front side of the slide block 3 is provided with the first motor 5, an output shaft of the first motor 5 is provided with the gear 6 through a coupler, the rack 4 is installed on the upper right part of the front side of the slide rail 2, the rack 4 is positioned on the right side of the gear 6, the rack 4 is meshed with the gear 6, the lower part of the left side of the slide rail, a fixed block 11 is horizontally arranged in the second hollow sleeve 8, a bearing seat 12 is embedded in the middle of the fixed block 11, and the lower end of the screw rod 10 is positioned in the bearing seat 12.

Still including outer telescopic link 13, interior telescopic link 14, first spring 15, sliding sleeve 16, second spring 17, gyro wheel 18, mounting panel 19 and dipperstick 20, 7 left sides of first hollow sleeve are connected with outer telescopic link 13, telescopic link 14 in the movable being equipped with in outer telescopic link 13, be connected with first spring 15 between the right side in 14 right-hand members of interior telescopic link and the outer telescopic link 13, 14 left ends of interior telescopic link are connected with sliding sleeve 16, the equal symmetry in the sliding sleeve 16 left and right sides is equipped with two second springs 17, gyro wheel 18 is installed to second spring 17 end, 2 left side upper portions of slide rail are connected with mounting panel 19, dipperstick 20 is installed in 19 bottom left sides of mounting panel, the dipperstick 20 lower extreme passes sliding sleeve 16, dipperstick 20 and the contact of gyro wheel 18.

Still including connecting plate 21, second motor 22, first belt pulley 23, flat belt 24 and second belt pulley 26, 2 right side sub-unit connections of slide rail have connecting plate 21, second motor 22 is installed at connecting plate 21 top, first belt pulley 23 is installed through the shaft coupling to the output shaft of second motor 22, around having flat belt 24 on the first belt pulley 23, 2 lower parts of slide rail are opened there is opening 25, opening 25 is located connecting plate 21 top, second belt pulley 26 is installed on screw rod 10 upper portion, flat belt 24 passes opening 25 and overlaps on second belt pulley 26.

Example 4

A large-scale adhesive tape stretching detection device for adhesive tape production is disclosed, as shown in figures 1-5, and comprises a hollow base 1, a slide rail 2, a slide block 3, a rack 4, a first motor 5, a gear 6, a first hollow sleeve 7, a second hollow sleeve 8, a screw 10, a fixed block 11 and a bearing seat 12, wherein the slide rail 2 is installed on the right side of the top of the hollow base 1, the slide block 3 is slidably arranged on the slide rail 2, the left side of the slide block 3 is connected with the first hollow sleeve 7, the right part of the front side of the slide block 3 is provided with the first motor 5, an output shaft of the first motor 5 is provided with the gear 6 through a coupler, the rack 4 is installed on the upper right part of the front side of the slide rail 2, the rack 4 is positioned on the right side of the gear 6, the rack 4 is meshed with the gear 6, the lower part of the left side of the slide rail, a fixed block 11 is horizontally arranged in the second hollow sleeve 8, a bearing seat 12 is embedded in the middle of the fixed block 11, and the lower end of the screw rod 10 is positioned in the bearing seat 12.

Still including outer telescopic link 13, interior telescopic link 14, first spring 15, sliding sleeve 16, second spring 17, gyro wheel 18, mounting panel 19 and dipperstick 20, 7 left sides of first hollow sleeve are connected with outer telescopic link 13, telescopic link 14 in the movable being equipped with in outer telescopic link 13, be connected with first spring 15 between the right side in 14 right-hand members of interior telescopic link and the outer telescopic link 13, 14 left ends of interior telescopic link are connected with sliding sleeve 16, the equal symmetry in the sliding sleeve 16 left and right sides is equipped with two second springs 17, gyro wheel 18 is installed to second spring 17 end, 2 left side upper portions of slide rail are connected with mounting panel 19, dipperstick 20 is installed in 19 bottom left sides of mounting panel, the dipperstick 20 lower extreme passes sliding sleeve 16, dipperstick 20 and the contact of gyro wheel 18.

Still including connecting plate 21, second motor 22, first belt pulley 23, flat belt 24 and second belt pulley 26, 2 right side sub-unit connections of slide rail have connecting plate 21, second motor 22 is installed at connecting plate 21 top, first belt pulley 23 is installed through the shaft coupling to the output shaft of second motor 22, around having flat belt 24 on the first belt pulley 23, 2 lower parts of slide rail are opened there is opening 25, opening 25 is located connecting plate 21 top, second belt pulley 26 is installed on screw rod 10 upper portion, flat belt 24 passes opening 25 and overlaps on second belt pulley 26.

The water-saving device also comprises a water inlet pipe 27, a water outlet pipe 28 and a valve 29, wherein the water inlet pipe 27 is connected to the left side of the top of the hollow base 1, the water inlet pipe 27 is communicated with the hollow base 1, the water outlet pipe 28 is connected to the lower part of the right side of the hollow base 1, the water outlet pipe 28 is communicated with the hollow base 1, and the valve 29 is arranged on the water outlet pipe 28.

An operator penetrates one end of the adhesive tape through the first hollow sleeve 7, then both ends of the adhesive tape are placed in the second hollow sleeve 8 and are located under the fixing block 11, and then the screw rod 10 is screwed to move downwards to drive the fixing block 11 to move downwards so as to fix both ends of the adhesive tape. After the fixation is completed, the screwing of the screw 10 is stopped. At this moment, the operator controls the first motor 5 to rotate positively, so as to drive the gear 6 to rotate positively, and the gear 6 rolls upwards on the rack 4, so that the sliding block 3 moves upwards, the first hollow sleeve 7 moves upwards, and the adhesive tape is stretched. When the tape breaks, the first motor 5 is turned off, and the operator can use the measuring scale 20 to detect the tensile property of the tape.

Because the device also comprises an outer telescopic rod 13, an inner telescopic rod 14, a first spring 15, a sliding sleeve 16, a second spring 17, a roller 18, a mounting plate 19 and a measuring scale 20, the left side of the first hollow sleeve 7 is connected with the outer telescopic rod 13, the inner telescopic rod 14 is movably arranged in the outer telescopic rod 13, the first spring 15 is connected between the right end of the inner telescopic rod 14 and the inner right side of the outer telescopic rod 13, the left end of the inner telescopic rod 14 is connected with the sliding sleeve 16, the left side and the right side in the sliding sleeve 16 are symmetrically provided with the two second springs 17, the tail end of the second spring 17 is provided with the roller 18, the upper part of the left side of the sliding rail 2 is connected with the mounting plate 19, the measuring scale 20 is arranged at the left side of the bottom of the mounting plate 19, the lower end of the measuring scale 20 penetrates through the sliding sleeve 16, the measuring scale 20 is in contact with the roller 18, when the first motor 5 positively rotates to drive, the sleeve 16 is moved upwardly therewith. When the first motor 5 stops rotating positively, the sliding sleeve 16 stops moving upwards, and the operator can detect the tensile property of the adhesive tape by observing the scales on the measuring scale 20, so that the operator can more conveniently see the detected data.

Because the device also comprises a connecting plate 21, a second motor 22, a first belt pulley 23, a flat belt 24 and a second belt pulley 26, the lower part of the right side of the slide rail 2 is connected with the connecting plate 21, the top of the connecting plate 21 is provided with the second motor 22, the output shaft of the second motor 22 is provided with the first belt pulley 23 through a coupling, the flat belt 24 is wound on the first belt pulley 23, the lower part of the slide rail 2 is provided with an opening 25, the opening 25 is positioned above the connecting plate 21, the upper part of the screw rod 10 is provided with the second belt pulley 26, the flat belt 24 penetrates through the opening 25 and is sleeved on the second belt pulley 26, when the two ends of the adhesive tape are positioned under the fixed block 11, an operator controls the second motor 22 to rotate clockwise to drive the first belt pulley 23 to rotate clockwise, the flat belt 24 drives the second belt pulley 26 to rotate clockwise, thereby driving the screw rod 10 to move downwards, the two ends of the adhesive tape are fixed. After the fixing is finished, the second motor 22 is turned off, so that the screw 10 does not need to be screwed manually, and the manual operation is not needed, thereby saving time and labor.

Because the water-saving device also comprises a water inlet pipe 27, a water outlet pipe 28 and a valve 29, the left side of the top of the hollow base 1 is connected with the water inlet pipe 27, the water inlet pipe 27 is communicated with the hollow base 1, the lower part of the right side of the hollow base 1 is connected with the water outlet pipe 28, the water outlet pipe 28 is communicated with the hollow base 1, the valve 29 is arranged on the water outlet pipe 28, and initially, the valve 29 is in a closed state. When the tensile property of the adhesive tape needs to be detected, an operator pours a proper amount of water into the hollow base 1 from the water inlet pipe 27, and fixes the adhesive tape by the weight of the water, so that the adhesive tape can be prevented from shaking. When the tensile property of the adhesive tape is detected, an operator opens the valve 29 to enable water in the hollow base 1 to flow out through the water outlet pipe 28. After all the water in the hollow base 1 flows out, the valve 29 is closed.

It should be understood that this example is only for illustrating the present invention and is not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and such equivalents may fall within the scope of the present invention as defined in the appended claims.

Claims (1)

1. A large-scale adhesive tape stretching detection device for adhesive tape production is characterized by comprising a hollow base, a slide rail, a slide block, a rack and a first motor, the sliding rail is arranged on the right side of the top of the hollow base, the sliding rail is provided with a sliding block in a sliding mode, the left side of the sliding block is connected with the first hollow sleeve, the right part of the front side of the sliding block is provided with a first motor, an output shaft of the first motor is provided with a gear through a coupler, the upper right part of the front side of the sliding rail is provided with a rack, the rack is positioned on the right side of the gear and meshed with the gear, the lower left part of the sliding rail is connected with the second hollow sleeve, a screw hole is formed in the middle of the top of the second hollow sleeve, the screw rod is arranged in the screw hole in a threaded mode, the fixed block is horizontally arranged in the second hollow sleeve, the middle of; the measuring device is characterized by further comprising an outer telescopic rod, an inner telescopic rod, a first spring, a sliding sleeve, second springs, idler wheels, a mounting plate and a measuring scale, wherein the outer telescopic rod is connected to the left side of the first hollow sleeve; the sliding rail is characterized by further comprising a connecting plate, a second motor, a first belt pulley, a flat belt and a second belt pulley, wherein the lower part of the right side of the sliding rail is connected with the connecting plate, the second motor is mounted at the top of the connecting plate, the first belt pulley is mounted on an output shaft of the second motor through a coupler, the flat belt is wound on the first belt pulley, an opening is formed in the lower part of the sliding rail and located above the connecting plate, the second belt pulley is mounted on the upper part of the screw rod, and the flat belt penetrates through the opening and is sleeved on; the water outlet pipe is communicated with the hollow base, and the valve is arranged on the water outlet pipe;

one end of the adhesive tape penetrates through the first hollow sleeve, then the two ends of the adhesive tape are placed into the second hollow sleeve and are positioned under the fixing block, and then the screw rod is screwed to move downwards to drive the fixing block to move downwards so as to fix the two ends of the adhesive tape; after the fixation is finished, stopping screwing the screw rod; at the moment, an operator controls the first motor to rotate forwards to drive the gear to rotate forwards, the gear rolls upwards on the rack, and the sliding block moves upwards, so that the first hollow sleeve moves upwards to stretch the adhesive tape; when the sticky tape broke off, closed first motor, operating personnel can detect sticky tape tensile properties with the dipperstick.

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