CN116879024A - Latex glove adhesive film strength detection device - Google Patents

Abstract

The application relates to the technical field of latex glove detection devices, in particular to a latex glove adhesive film strength detection device which comprises a mounting table, a fixed clamp, a movable clamp and a driving structure, wherein a bearing table is slidably arranged on the mounting table, and a detection assembly is arranged on the mounting table; the fixed clamp is arranged on the mounting table along the sliding direction of the bearing table; the movable clamp is arranged on the bearing table and is opposite to the fixed clamp, and the movable clamp and the fixed clamp are used for clamping the adhesive film together; the driving structure is arranged on the mounting table and is respectively connected with the bearing table and the movable clamp, and the driving structure is used for driving the bearing table to move on the mounting table and is used for driving the movable clamp to rotate along the moving direction perpendicular to the bearing table. The application has the effect of improving the detection accuracy.

Description

Latex glove adhesive film strength detection device

Technical Field

The application relates to the technical field of latex glove detection devices, in particular to a latex glove adhesive film strength detection device.

Background

At present, latex gloves are one kind of gloves, are different from common gloves, are formed by processing latex, can be used as a necessary hand protection article in families, industries, medical treatment, cosmetology and other industries, adopt natural latex and are matched with other fine auxiliary agents to process the latex gloves, and the latex gloves are subjected to special surface treatment, are comfortable to wear, have wide application in industrial and agricultural production, medical treatment and daily life, and need to detect the strength of a rubber film in advance in the production process of the latex gloves.

In the related art, a detection device is generally used to detect the tensile strength of the adhesive film. The detection device comprises a fixed clamp and a movable clamp, the adhesive film is clamped by the fixed clamp and the movable clamp, the position of the movable clamp is adjusted, the adhesive film is stretched, the tensile force born by the adhesive film is recorded through a tension sensor arranged on the fixed clamp, and therefore the tensile strength of the adhesive film can be calculated.

For the related art in the above: the detection device can only detect the tensile strength of the adhesive film, but is inconvenient to detect multiple properties of the adhesive film, so that the problem of incomplete strength detection exists, and the detection accuracy is easy to be low.

Disclosure of Invention

In order to improve detection accuracy, the application provides a latex glove adhesive film strength detection device.

The application provides a latex glove adhesive film strength detection device, which adopts the following technical scheme:

a latex glove adhesive film strength detection device, comprising:

the mounting table is provided with a bearing table in a sliding manner, and the mounting table is provided with a detection assembly;

the fixed clamp is arranged on the mounting table along the sliding direction of the bearing table;

the movable clamp is arranged on the bearing table and is opposite to the fixed clamp, and the movable clamp and the fixed clamp are used for clamping the adhesive film together;

the driving structure is arranged on the mounting table and is respectively connected with the bearing table and the movable clamp, and the driving structure is used for driving the bearing table to move on the mounting table and is used for driving the movable clamp to rotate along the moving direction perpendicular to the bearing table.

By adopting the technical scheme, when the tensile property and the ductility of the adhesive film are required to be tested, the adhesive film is clamped and fixed by the fixing clamp and the movable clamp, then the driving structure is used for driving the bearing table to move in the direction away from the fixing clamp, the bearing table drives the movable clamp to move so as to pull the adhesive film, and the tensile force born by the adhesive film can be displayed on the detection assembly, so that the tensile property of the adhesive film can be conveniently detected; when the flexibility and the elasticity of the adhesive film are required to be tested, the adhesive film is clamped and fixed by the fixing clamp and the movable clamp, the movable clamp is driven to rotate by the driving structure, and the movable clamp drives the adhesive film to bend so as to detect the bending degree of the adhesive film by the detection assembly, so that the flexibility and the elasticity of the adhesive film are convenient to detect, the performance of the adhesive film is convenient to detect, and the detection accuracy is improved to a certain extent.

Optionally, the movable clamp comprises a first clamping part, a second clamping part and a telescopic fixing assembly, wherein the first clamping part is rotationally connected to the bearing table, the second clamping part is arranged on the first clamping part through the telescopic fixing assembly, the first clamping part is connected with the driving structure, and the driving structure is used for driving the first clamping part to rotate.

Through adopting above-mentioned technical scheme, when needs are fixed to the glued membrane, place the glued membrane between first clamping part and second clamping part earlier, the flexible fixed subassembly of reuse is fixed the position of first clamping part and second clamping part to be convenient for first clamping part and second clamping part carry out the centre gripping fixedly to the glued membrane. And the first clamping part is rotated and is connected on the plummer for the drive structure can drive first clamping part and rotate, and first clamping part can drive second clamping part and flexible fixed subassembly rotation, and then is convenient for first clamping part and second clamping part drive the glued membrane crooked, is convenient for detect the pliability and the elasticity of glued membrane to a certain extent.

Optionally, flexible fixed subassembly includes sleeve, slide bar and mounting, the sleeve sets up on the first clamping part, the slide bar sets up on the second clamping part, the slide bar is kept away from the one end of second clamping part slides and inserts and establish in the sleeve, the mounting sets up the sleeve with between the slide bar, the mounting is used for fixing the sleeve with the slide bar.

Through adopting above-mentioned technical scheme, the slide bar slides and inserts to establish in the sleeve for interval between first clamping part and the second clamping part can be adjusted, and the mounting can fix sleeve and slide bar, thereby be convenient for fix the interval between first clamping part and the second clamping part, and then be convenient for first clamping part and second clamping part carry out the centre gripping fixedly to the glued membrane.

Optionally, the sleeve is provided with a limit groove, the slide bar is provided with a holding groove communicated with the limit groove, the fixing piece comprises a spring and a locating pin, the spring is arranged in the holding groove, the locating pin is slidably inserted in the holding groove and connected with the spring, and the locating pin is far away from one end of the holding groove and is slidably inserted in the limit groove.

Through adopting above-mentioned technical scheme, when the slide bar slides and inserts to establish in the sleeve, and holding tank and spacing inslot intercommunication, the locating pin can insert spacing inslot under the effect of spring to be convenient for fix sleeve and slide bar, in order to make the slide bar be difficult for taking place to slide in the sleeve.

Optionally, the driving structure includes a first driving member and a second driving member, where the first driving member is disposed on the mounting table and connected to the bearing table, and the second driving member is disposed on the bearing table and connected to the first clamping portion.

Through adopting above-mentioned technical scheme, the drive plummer of being convenient for removes at the mount table, and the rotation of the first clamping part of drive of being convenient for.

Optionally, the detection component includes the control cabinet and with control cabinet electric connection's tension sensor and bending angle sensor, the control cabinet tension sensor sets up respectively on the mount table, tension sensor with mounting fixture is connected, bending angle sensor sets up on the first clamping part.

Through adopting above-mentioned technical scheme, the tensile that the glued membrane received can be detected to the tension sensor, and the bending angle of glued membrane can be detected to the bending angle sensor to be convenient for detect tensile properties, pliability and elasticity of glued membrane.

Optionally, be provided with the support on the mount table, the support is kept away from the one end of mount table slides and is provided with the bracing piece, the bracing piece is located mounting fixture with remove between the anchor clamps, the bracing piece is close to the one end of mount table slides and is provided with the inserted block, swing joint has the bull stick on the inserted block, be provided with guiding component on the support, the bull stick is kept away from the one end of inserted block with guiding component connects, guiding component is used for controlling the inserted block is in slide on the bracing piece.

Through adopting above-mentioned technical scheme, when needs carry out penetrability and wearability to the glued membrane and test, fix the glued membrane between mounting fixture and removal anchor clamps earlier, the direction removal to keeping away from the bracing piece is kept away from to the guide assembly control inserted block to the inserted block for the one end that the bracing piece was kept away from to the inserted block is contradicted with the glued membrane, so that the bracing piece drives the inserted block and slides on the glued membrane, thereby is convenient for test the wearability of glued membrane. And the guide assembly can further control the insertion block to move towards the adhesive film after the insertion block is abutted against the adhesive film so as to perform penetrability test on the adhesive film, further facilitate detection of multiple performances of the adhesive film, and improve detection accuracy to a certain extent.

Optionally, the direction subassembly includes first deflector, first deflector is followed the slip direction setting of plummer is in on the support, first guide way has been seted up on the first deflector, the bull stick slides and inserts and establish in the first guide way, first guide way is including the first slot part, second slot part and the third slot part of intercommunication in proper order, first slot part the third slot part is all followed the length direction of first deflector is seted up, first slot part is kept away from the plummer and with the dislocation set of third slot part, the bull stick is used for first slot part second slot part and slide in the third slot part is in order to drive the inserted block is close to or keeps away from the glued membrane.

Through adopting above-mentioned technical scheme, when needs carry out the wearability test to the glued membrane, will slide earlier the bull stick and insert and establish in first slot portion, promote the bracing piece again and remove on the support, the bracing piece passes through the kicker and drives the bull stick and remove for the bull stick slides in first slot portion, second slot portion and third slot portion, and the bull stick drives the kicker and slides on the bracing piece. When the bull stick gets into in the third slot part, the inserted block is contradicted with the glued membrane to the bracing piece of being convenient for drives the inserted block and slides on the glued membrane, and then is convenient for test the wearability of glued membrane.

Optionally, the direction subassembly includes the second deflector, the second deflector is followed the slip direction setting of plummer is in on the support, the second guide way has been seted up on the second deflector, the second guide way is the wave setting, the bull stick slides and inserts and establish in the second guide way, the bull stick is used for driving the kicking block is close to or keeps away from the glued membrane.

Through adopting above-mentioned technical scheme, when the bull stick slides and inserts to establish in the second guide way, and the bracing piece drives the bull stick through the inserted block and remove, the bull stick can slide in the second guide way to drive the inserted block and do reciprocating motion on the bracing piece, and when the bull stick moves to the lowest department of second guide way, the inserted block is contradicted earlier with the glued membrane, lasts again to the glued membrane removal, thereby is convenient for carry out penetrability test to the glued membrane.

Optionally, a through groove is formed in one end, away from the mounting table, of the support, a sliding block is arranged on the support rod, and the sliding block is inserted in the through groove in a sliding manner.

Through adopting above-mentioned technical scheme, the slider slides and inserts and establish in logical inslot for the bracing piece is difficult for taking place to rock on the support, thereby the bracing piece of being convenient for drives the insert and stably slides.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the mutual cooperation of the fixed clamp, the movable clamp, the driving structure and the detection assembly, the adhesive film can be clamped and fixed by the fixed clamp and the movable clamp, so that the tensile property, the flexibility and the elasticity of the adhesive film can be detected conveniently, the detection of multiple properties of the adhesive film is facilitated, and the detection accuracy is improved to a certain extent;

2. through the mutual matching of the first clamping part, the second clamping part, the telescopic fixing assembly, the second driving piece and the bending angle sensor, after the adhesive film is clamped between the first clamping part and the second clamping part, the first clamping part and the second clamping part can drive the adhesive film to bend, so that the bending angle sensor can conveniently detect the bending angle of the adhesive film, and the flexibility and the elasticity of the adhesive film can be conveniently detected;

3. through the mutually supporting of support, bracing piece, inserted block, bull stick, first deflector and second deflector for after the inserted block contradicts with the glued membrane, can enough slide on the glued membrane, can continue to remove to the glued membrane again, thereby be convenient for carry out penetrability and wearability test to the glued membrane, further improved the detection accuracy to glued membrane intensity.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a latex glove film strength detection device according to an embodiment of the application.

Fig. 2 is a schematic structural diagram of a carrying platform and a moving clamp according to an embodiment of the application.

Fig. 3 is an exploded view of a telescopic attachment assembly according to an embodiment of the present application.

Fig. 4 is a front view of a latex glove film strength detection device according to an embodiment of the application.

Fig. 5 is a cross-sectional view taken along line A-A in fig. 4.

Fig. 6 is a cross-sectional view taken along line B-B in fig. 4.

Fig. 7 is a schematic structural view of a first guide plate according to an embodiment of the present application.

Fig. 8 is a schematic structural view of a second guide plate according to an embodiment of the present application.

Reference numerals illustrate:

1. a mounting table; 11. a carrying platform; 111. dovetail blocks; 12. a chute; 13. a support block; 14. a bracket; 141. a through groove; 15. a support rod; 151. a slide block; 16. inserting blocks; 161. a rotating rod; 162. an adjustment tank; 163. an adjusting member; 2. a fixing clamp; 21. a fixed block; 211. adjusting a screw rod; 22. a first clamping plate; 23. a second clamping plate; 3. moving the clamp; 31. a first clamping part; 32. a second clamping portion; 33. a telescopic fixing assembly; 331. a sleeve; 3311. a limit groove; 332. a slide bar; 3321. a receiving groove; 333. a fixing member; 3331. a spring; 3332. a positioning pin; 4. a driving structure; 41. a first driving member; 42. a second driving member; 5. a detection assembly; 51. a console; 52. a tension sensor; 53. a bending angle sensor; 6. a guide assembly; 61. a first guide plate; 611. a first guide groove; 6111. a first groove portion; 6112. a second groove portion; 6113. a third groove portion; 62. a second guide plate; 621. and a second guide groove.

Detailed Description

The application is described in further detail below with reference to fig. 1-8.

The embodiment of the application discloses a latex glove adhesive film strength detection device.

It should be noted that, in the description of the present application, it should be understood that the terms "center", "longitudinal", "transverse", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present application and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application.

Referring to fig. 1, the latex glove film strength detection device comprises a mounting table 1, a fixed clamp 2, a movable clamp 3, a driving structure 4 and a detection assembly 5. Wherein, the mounting table 1 is provided with a bearing table 11 in a sliding way, and the fixed clamp 2, the driving structure 4 and the detection assembly 5 are respectively arranged on the mounting table 1; the movable clamp 3 is arranged on the bearing table 11 and opposite to the fixed clamp 2, so that the adhesive film can be clamped and fixed by the movable clamp 3 and the fixed clamp 2 conveniently. The driving structure 4 is respectively connected with the bearing table 11 and the movable clamp 3, so that the driving structure 4 is convenient for driving the bearing table 11 to move on the mounting table 1, and the driving structure 4 is convenient for driving the movable clamp 3 to rotate along the moving direction perpendicular to the bearing table 11.

Referring to fig. 1 and 2, a chute 12 is formed on the mounting table 1, and in this embodiment, the cross section of the chute 12 is in a dovetail shape. One end fixedly connected with forked tail piece 111 of plummer 11, forked tail piece 111 slides and inserts and establish in spout 12 to make plummer 11 can slide on mount table 1, and plummer 11 is difficult for breaking away from mount table 1.

The drive structure 4 comprises a first drive member 41 and a second drive member 42. Wherein first driving piece 41 fixed mounting is on mount table 1, and first driving piece 41 in this embodiment includes the motor and the lead screw of being connected with the output of motor, and motor fixed mounting is on mount table 1, and the one end that the motor was kept away from to the lead screw passes plummer 11 and rotates with mount table 1 to be connected, lead screw and plummer 11 threaded connection to be convenient for utilize motor and lead screw drive plummer 11 to slide on mount table 1. The second driving member 42 is fixedly mounted on the carrying platform 11.

The detecting assembly 5 includes a console 51, a tension sensor 52 and a bending angle sensor 53 electrically connected to the console 51. The console 51 is fixedly connected to the mounting table 1, and a display screen is arranged on the console 51 and is used for displaying data detected by the tension sensor 52 and the bending angle sensor 53.

The mounting table 1 is fixedly connected with a supporting block 13, and the tension sensor 52 is fixedly connected to the supporting block 13.

Referring to fig. 1, the fixing jig 2 includes a fixing block 21, a first clamping plate 22, and a second clamping plate 23. The fixing block 21 is fixedly connected with the tension sensor 52, so that the tension sensor 52 is used for detecting the tension received by the fixing clamp 2. An adjusting screw 211 is rotatably connected to one end of the fixed block 21 away from the mounting table 1.

The first clamping plate 22 is slidably arranged at one end of the fixed block 21, which is away from the supporting block 13, and the first clamping plate 22 is in threaded connection with the adjusting screw 211, so that the position of the first clamping plate 22 on the fixed block 21 can be adjusted by rotating the adjusting screw 211. The second clamping plate 23 is fixedly connected to the fixing block 21, and the second clamping plate 23 is arranged in parallel with the first clamping plate 22, so that the adhesive film can be conveniently clamped by the first clamping plate 22 and the second clamping plate 23.

When the adhesive film needs to be clamped by the fixing clamp 2, the adjusting screw 211 is rotated firstly to separate the first clamping plate 22 from the second clamping plate 23, then the adhesive film is placed between the first clamping plate 22 and the second clamping plate 23, and the adjusting screw 211 is rotated again to enable the first clamping plate 22 to move towards the direction close to the second clamping plate 23, so that the first clamping plate 22 and the second clamping plate 23 can clamp and fix the adhesive film.

Referring to fig. 2, the moving jig 3 includes a first clamping portion 31, a second clamping portion 32, and a telescopic fixing assembly 33. The first clamping portion 31 is rotatably connected to the carrying platform 11, the second clamping portion 32 is connected to the first clamping portion 31 through the telescopic fixing assembly 33, and the first clamping portion 31 is connected to the second driving member 42.

In this embodiment, the second driving member 42 is a motor, and an output end of the second driving member 42 is fixedly connected with a rotating shaft, and an axis of the rotating shaft is perpendicular to a sliding direction of the carrying platform 11. One end of the rotating shaft far away from the second driving piece 42 is fixedly connected with the first clamping part 31, so that the second driving piece 42 can drive the first clamping part 31 to rotate through the rotating shaft. The bending angle sensor 53 is fixedly connected to the rotation shaft, thereby facilitating detection of the rotation angle of the rotation shaft.

In this embodiment, when the first clamping portion 31 is attached to the second clamping portion 32, the cross sections of the first clamping portion 31 and the second clamping portion 32 are circular.

Referring to fig. 2, there are two telescopic fixing members 33, one telescopic fixing member 33 is provided on the end surfaces of the same ends of the first clamping portion 31 and the second clamping portion 32, and the other telescopic fixing member 33 is provided on the end surfaces of the other ends of the first clamping portion 31 and the second clamping portion 32, thereby facilitating the fixing of the first clamping portion 31 and the second clamping portion 32.

Referring to fig. 2 and 3, the telescopic fixing assembly 33 includes a sleeve 331, a sliding rod 332 and a fixing member 333, the sleeve 331 is fixedly connected to the first clamping portion 31, the sliding rod 332 is fixedly connected to the second clamping portion 32, and an end of the sliding rod 332 away from the second clamping portion 32 is slidably inserted into the sleeve 331.

One end of the sliding rod 332 inserted into the sleeve 331 is provided with a containing groove 3321, and the fixing piece 333 is arranged in the containing groove 3321. The fixing member 333 includes a spring 3331 and a positioning pin 3332, the spring 3331 is disposed in the accommodating groove 3321, and the positioning pin 3332 is slidably inserted in the accommodating groove 3321 and fixedly connected with the spring 3331, so that the spring 3331 is convenient for pushing the positioning pin 3332 to move out of the accommodating groove 3321. The positioning pin 3332 in the embodiment is arranged in a hemispherical shape at one end far away from the spring 3331.

The sleeve 331 is provided with a plurality of limiting grooves 3311 along the sliding direction of the sliding rod 332, the limiting grooves 3311 are provided with a plurality of limiting grooves 3311 which are uniformly distributed on the sleeve 331 along the sliding direction of the sliding rod 332, and the limiting grooves 3311 can be respectively communicated with the accommodating groove 3321.

When the limiting groove 3311 is communicated with the accommodating groove 3321, the spring 3331 can push the positioning pin 3332 to be inserted into the limiting groove 3311, so that the position of the sliding rod 332 in the sleeve 331 is fixed, and the positions of the first clamping portion 31 and the second clamping portion 32 are fixed. And the positioning pins 3332 can be inserted into different limiting grooves 3311, so that the spacing between the first clamping part 31 and the second clamping part 32 can be conveniently adjusted, and the clamping force of the first clamping part 31 and the second clamping part 32 on the adhesive film can be conveniently adjusted.

Referring to fig. 1 and 2, when the tensile strength and ductility of the adhesive film are required to be tested, one end of the adhesive film is clamped and fixed by the fixing clamp 2, the other end of the adhesive film is clamped and fixed by the moving clamp 3, and then the first driving member 41 is used for driving the carrying table 11 to move in a direction away from the fixing clamp 2, and the carrying table 11 drives the moving clamp 3 to move so as to pull the adhesive film. At this time, the tension sensor 52 can detect the tension applied to the fixing clamp 2 and transmit the detected tension data to the console 51, and the console 51 displays the detected data on the display screen, so that the tension value can be accurately read, and the tensile property of the adhesive film can be conveniently detected.

When the flexibility and elasticity of the adhesive film are required to be tested, the adhesive film is clamped and fixed by the fixing clamp 2 and the moving clamp 3, the first clamping part 31 is driven to rotate by the second driving part 42, the first clamping part 31 drives the second clamping part 32 to rotate with the telescopic fixing assembly 33, so that the first clamping part 31 and the second clamping part 32 drive the adhesive film to bend, the bending angle of the adhesive film is determined by detecting the rotating angle of the rotating shaft by the bending angle sensor 53, the detecting data can be transmitted to the control console 51 by the bending angle sensor 53, the detecting data are displayed on the display screen by the control console 51, the bending angle of the adhesive film is further accurately read, and the flexibility and the elasticity of the adhesive film are detected to a certain extent.

Referring to fig. 4 and 5, a bracket 14 is fixedly connected to the mounting table 1, and an end of the bracket 14 away from the mounting table 1 is located above the fixed clamp 2 and the movable clamp 3. The end of the bracket 14 away from the mounting table 1 is provided with a through groove 141 along the sliding direction of the bearing table 11, the cross section of the through groove 141 in this embodiment is in a cross-shaped configuration, a vertical portion in the through groove 141 is defined as a vertical groove portion, a horizontal portion is a horizontal groove portion, and the vertical groove portion penetrates through the bracket 14.

The support rod 15 is inserted in the vertical groove part in a sliding way, the slide block 151 is fixedly connected to the support rod 15, and the slide block 151 is inserted in the transverse groove part in a sliding way, so that the support rod 15 is not easy to shake on the support 14, and the support rod 15 can stably slide on the support 14 along the opening direction of the through groove 141.

Referring to fig. 6, an insert 16 is slidably connected to one end of the support rod 15 near the mounting table 1, and a rotating rod 161 is slidably connected to the insert 16 along a direction perpendicular to the opening direction of the through slot 141.

The support 14 is provided with a guide assembly 6, which guide assembly 6 in this embodiment comprises a first guide plate 61 and a second guide plate 62. The first guide plates 61 and the second guide plates 62 are arranged in parallel, and are respectively connected to the bracket 14 along the sliding direction of the bearing table 11 by bolts, so that the first guide plates 61 and the second guide plates 62 can be replaced according to actual requirements.

Referring to fig. 6 and 7, the insert 16 is located between the first guide plate 61 and the second guide plate 62. The first guide plate 61 is provided with a first guide groove 611, the second guide plate 62 is provided with a second guide groove 621 (see fig. 8), and the rotating lever 161 can be inserted into the first guide groove 611 or the second guide groove 621 (see fig. 8).

In this embodiment, the insert block 16 is provided with an adjusting slot 162, an adjusting member 163 is slidably inserted in the adjusting slot 162, one end of the adjusting member 163 passes through the adjusting member 163 and is fixedly connected with the rotating rod 161, and the other end of the adjusting member 163 passes through the through slot 141, so that the rotating rod 161 is conveniently driven to slide in the insert block 16 by the adjusting member 163, and the rotating rod 161 can be inserted in the first guide slot 611 or the second guide slot 621 (refer to fig. 8).

Referring to fig. 6 and 7, in the present embodiment, the first guiding groove 611 includes a first groove portion 6111, a second groove portion 6112 and a third groove portion 6113 which are sequentially communicated, the first groove portion 6111 and the third groove portion 6113 are all opened along the length direction of the first guiding plate 61, and the first groove portion 6111 is far away from the bearing table 11 and is close to the fixing clamp 2, and the first groove portion 6111 and the third groove portion 6113 are arranged in a staggered manner.

When the supporting rod 15 moves on the support 14, the supporting rod 15 drives the rotating rod 161 to move through the insert block 16, so that the rotating rod 161 slides in the first groove 6111, the second groove 6112 and the third groove 6113, and the rotating rod 161 drives the insert block 16 to slide on the supporting rod 15. When the rotating rod 161 enters the third groove portion 6113, the insert block 16 is abutted against the adhesive film fixed between the fixed clamp 2 (refer to fig. 1) and the movable clamp 3 (refer to fig. 1), so that the support rod 15 is convenient to drive the insert block 16 to slide on the adhesive film, the friction condition between fingernails and the adhesive film in the using process of the latex glove is simulated, and the abrasion resistance of the adhesive film is convenient to test.

When the rotating lever 161 enters the first groove portion 6111, the rotating lever 161 does not collide with the adhesive film fixed between the fixed jig 2 and the moving jig 3.

Referring to fig. 6 and 8, in the present embodiment, the second guide groove 621 is provided in a wave shape.

When the rotating rod 161 is slidably inserted into the second guide groove 621, the supporting rod 15 drives the rotating rod 161 to move through the insert block 16, so that the rotating rod 161 slides in the second guide groove 621 to drive the insert block 16 to reciprocate on the supporting rod 15. In this process, when the rotating rod 161 moves toward the lowest position of the second guide groove 621, the insert block 16 first collides with the adhesive film between the fixing clamp 2 (refer to fig. 1) and the moving clamp 3 (refer to fig. 1), and then continuously moves toward the adhesive film, so that the insert block 16 applies a certain acting force to the adhesive film, and whether the adhesive film is damaged or not is observed, thereby facilitating the penetration test of the adhesive film.

In other embodiments, the guiding assembly 6 may also be configured as an air cylinder, where the air cylinder is slidably disposed on the support 14, and the output end of the air cylinder is connected with the insert block 16, so that the insert block 16 is driven by the air cylinder to move on the support rod 15, and further, the insert block 16 is used to perform wear resistance and penetrability test on the adhesive film.

The embodiment of the application relates to a latex glove adhesive film strength detection device, which is implemented according to the following principle: when the strength of the adhesive film is required to be detected, the tensile strength and the ductility of the adhesive film are tested. The adhesive film is clamped and fixed between the fixed clamp 2 and the movable clamp 3, the first driving piece 41 is started, and the first driving piece 41 drives the movable clamp 3 to move through the bearing table 11 so as to pull the adhesive film. At this time, the tension sensor 52 can detect the tension applied to the fixing clamp 2, and transmit the detected tension data to the console 51, and the console 51 displays the tension data on the display screen so as to be convenient for reading, thereby completing the detection of the tensile property of the adhesive film. After the detection is completed, the first driving member 41 is reversed to reset the loading table 11.

And then the flexibility and elasticity of the adhesive film are tested, the second driving piece 42 is utilized to drive the first clamping part 31 to rotate, and the first clamping part 31 drives the second clamping part 32 and the telescopic fixing assembly 33 to rotate, so that the first clamping part 31 and the second clamping part 32 drive the adhesive film to bend. At this time, the bending angle sensor 53 can detect the rotation angle of the rotation shaft to determine the bending angle of the adhesive film, and transmit the detection data to the console 51, and the console 51 displays the detection data on the display screen so as to be convenient for reading, thereby completing the detection of the flexibility and elasticity of the adhesive film. After the detection is completed, the second driving member 42 is reversed to reset the moving jig 3.

Next, the abrasion resistance of the adhesive film is tested, the adjusting member 163 is pushed to move towards the direction approaching to the first guide plate 61, and the adjusting member 163 drives the rotating rod 161 to move, so that the rotating rod 161 is inserted into the first groove 6111. Then the supporting rod 15 is pushed to move on the support 14 in the direction approaching to the moving clamp 3, the supporting rod 15 drives the rotating rod 161 to move through the inserting block 16, so that the rotating rod 161 sequentially passes through the first groove 6111 and the second groove 6112 to enter the third groove 6113, and at the moment, the rotating rod 161 drives the inserting block 16 to move in the direction approaching to the adhesive film, and the inserting block 16 is abutted against the adhesive film. The supporting rod 15 is pushed to move, so that the supporting rod 15 can conveniently drive the insert block 16 to slide on the adhesive film, and the abrasion resistance of the adhesive film is tested. After the test is completed, the supporting rod 15 is reset, so that the rotating rod 161 sequentially passes through the third groove portion 6113 and the second groove portion 6112 to enter the first groove portion 6111, and the inserting block 16 is separated from the adhesive film.

Finally, the penetrability of the adhesive film is tested, the adjusting piece 163 is pushed to move towards the direction approaching to the second guide plate 62, and the adjusting piece 163 drives the rotating rod 161 to move, so that the rotating rod 161 is separated from the first guide groove 611 and is inserted into the second guide groove 621. The support rod 15 is pushed to move on the support 14 in a direction approaching the moving clamp 3, so that the rotating rod 161 slides in the second guide groove 621, and the rotating rod 161 drives the insert block 16 to reciprocate on the support rod 15. In this process, when the rotating rod 161 moves toward the lowest position of the second guide groove 621, the insert block 16 first collides with the adhesive film and then continuously moves toward the adhesive film, so that the insert block 16 applies a certain force to the adhesive film, and whether the adhesive film is damaged is observed, thereby completing the penetrability test of the adhesive film.

In summary, the detection device provided by the application can detect the tensile property, flexibility, elasticity, penetrability and wear resistance of the adhesive film, so that the purpose of detecting multiple properties of the adhesive film is realized, and further the detection accuracy is improved.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (10)

1. The utility model provides a latex glove glued membrane intensity detection device which characterized in that includes:

the device comprises a mounting table (1), wherein a bearing table (11) is slidably arranged on the mounting table (1), and a detection assembly (5) is arranged on the mounting table (1);

a fixing jig (2) provided on the mounting table (1) along the sliding direction of the carrying table (11);

the movable clamp (3) is arranged on the bearing table (11) and is opposite to the fixed clamp (2), and the movable clamp (3) and the fixed clamp (2) are used for clamping the adhesive film together;

the driving structure (4) is arranged on the mounting table (1), the driving structure (4) is respectively connected with the bearing table (11) and the movable clamp (3), and the driving structure (4) is used for driving the bearing table (11) to move on the mounting table (1) and is used for driving the movable clamp (3) to rotate along the moving direction perpendicular to the bearing table (11).

2. The latex glove film strength test apparatus of claim 1, wherein: the movable clamp (3) comprises a first clamping part (31), a second clamping part (32) and a telescopic fixing assembly (33), wherein the first clamping part (31) is rotationally connected to the bearing table (11), the second clamping part (32) is arranged on the first clamping part (31) through the telescopic fixing assembly (33), the first clamping part (31) is connected with a driving structure (4), and the driving structure (4) is used for driving the first clamping part (31) to rotate.

3. The latex glove film strength test apparatus of claim 2, wherein: the telescopic fixing assembly (33) comprises a sleeve (331), a sliding rod (332) and a fixing piece (333), wherein the sleeve (331) is arranged on the first clamping part (31), the sliding rod (332) is arranged on the second clamping part (32), the sliding rod (332) is far away from one end of the second clamping part (32) and is slidably inserted into the sleeve (331), the fixing piece (333) is arranged between the sleeve (331) and the sliding rod (332), and the fixing piece (333) is used for fixing the sleeve (331) and the sliding rod (332).

4. The latex glove film strength test apparatus as claimed in claim 3, wherein: the sleeve (331) is provided with a limiting groove (3311), the slide rod (332) is provided with a containing groove (3321) communicated with the limiting groove (3311), the fixing piece (333) comprises a spring (3331) and a locating pin (3332), the spring (3331) is arranged in the containing groove (3321), the locating pin (3332) is slidably inserted in the containing groove (3321) and connected with the spring (3331), and one end of the locating pin (3332) away from the containing groove (3321) is slidably inserted in the limiting groove (3311).

5. The latex glove film strength test apparatus of claim 2, wherein: the driving structure (4) comprises a first driving piece (41) and a second driving piece (42), the first driving piece (41) is arranged on the mounting table (1) and is connected with the bearing table (11), and the second driving piece (42) is arranged on the bearing table (11) and is connected with the first clamping part (31).

6. The latex glove film strength test apparatus of claim 2, wherein: the detection assembly (5) comprises a control console (51), and a tension sensor (52) and a bending angle sensor (53) which are electrically connected with the control console (51), wherein the control console (51) and the tension sensor (52) are respectively arranged on the mounting table (1), the tension sensor (52) is connected with the fixing clamp (2), and the bending angle sensor (53) is arranged on the first clamping part (31).

7. The latex glove film strength test apparatus of claim 1, wherein: be provided with support (14) on mount table (1), support (14) keep away from the one end of mount table (1) is slided and is provided with bracing piece (15), bracing piece (15) are located mounting fixture (2) with remove between anchor clamps (3), bracing piece (15) are close to one end of mount table (1) is slided and is provided with insert block (16), swing joint has bull stick (161) on insert block (16), be provided with direction subassembly (6) on support (14), bull stick (161) keep away from one end of insert block (16) with direction subassembly (6) are connected, direction subassembly (6) are used for controlling insert block (16) are in slide on bracing piece (15).

8. The latex glove film strength test apparatus as claimed in claim 7, wherein: the guide assembly (6) comprises a first guide plate (61), the first guide plate (61) is arranged on the support (14) along the sliding direction of the bearing table (11), a first guide groove (611) is formed in the first guide plate (61), the rotating rod (161) is slidably inserted into the first guide groove (611), the first guide groove (611) comprises a first groove (6111), a second groove (6112) and a third groove (6113) which are sequentially communicated, the first groove (6111) and the third groove (6113) are formed in the length direction of the first guide plate (61), the first groove (6111) is far away from the bearing table (11) and is staggered with the third groove (6113), and the rotating rod (161) is used for driving the first groove (6111), the second groove (6112) and the third groove (6113) to slide in order to drive the adhesive film inserting block (16) to be close to or far away from.

9. The latex glove film strength test apparatus as claimed in claim 7, wherein: the guide assembly (6) comprises a second guide plate (62), the second guide plate (62) is arranged on the support (14) along the sliding direction of the bearing table (11), a second guide groove (621) is formed in the second guide plate (62), the second guide groove (621) is in a wave-shaped arrangement, the rotating rod (161) is slidably inserted into the second guide groove (621), and the rotating rod (161) is used for driving the inserting block (16) to be close to or far away from a glue film.

10. The latex glove film strength test apparatus as claimed in claim 7, wherein: the support (14) is far away from one end of the mounting table (1) and is provided with a through groove (141), the support rod (15) is provided with a sliding block (151), and the sliding block (151) is inserted in the through groove (141) in a sliding mode.