CN111766016A

CN111766016A - Rubber gloves finger leakproofness check out test set

Info

Publication number: CN111766016A
Application number: CN202010711006.5A
Authority: CN
Inventors: 姜珊珊
Original assignee: Fuzhou Bag Book Bar Electronic Technology Co ltd
Current assignee: Fuzhou Bag Book Bar Electronic Technology Co ltd
Priority date: 2020-07-22
Filing date: 2020-07-22
Publication date: 2020-10-13

Abstract

The invention discloses a finger tightness detection device for rubber gloves, which comprises a base, wherein a machine body is fixed on the upper end surface of the base, a test cavity with a rightward opening is arranged at the right end in the machine body, a clamping mechanism for clamping and conveying a glove is arranged at the upper end in the test cavity, a tightness detection mechanism for detecting the glove is arranged in the middle of the test cavity, an automatic inflation mechanism for automatically inflating the glove is arranged at the upper end in the machine body, the device can detect the tightness of the rubber gloves by utilizing the good ductility of the rubber gloves, tightly clamps the gloves and is in sealed connection with an inflation inlet when in work, a baffle is arranged at the front side of the gloves to enhance the effect of inflation and backward expansion, an inflation pump is automatically started to test the gloves at the later stage, and data can be tested and recorded only when the tightness of five fingers and palm parts of the gloves is good, the tightness of the glove tightness detection is greatly improved.

Description

Rubber gloves finger leakproofness check out test set

Technical Field

The invention relates to the field of rubber, in particular to a device for detecting finger tightness of rubber gloves.

Background

Many articles in daily life are manufactured by using rubber as a raw material, wherein a rubber glove is one of rubber products, and the rubber glove generally needs to have good sealing performance, and the rubber glove with the good sealing performance is a qualified product.

At the present stage, the sealing performance of the rubber gloves is generally detected by a manual detection method, so that not only is great manpower consumed, but also detection data cannot be recorded during detection, and errors are great during manual detection.

Disclosure of Invention

The invention aims to provide a device for detecting the finger tightness of rubber gloves, which solves the problems of large detection error, incapability of automatic detection and the like and increases the detection accuracy and the automatic detection function.

The invention is realized by the following technical scheme.

The invention relates to a rubber glove finger tightness detection device which comprises a base, wherein a machine body is fixed on the upper end surface of the base, a test cavity with a rightward opening is arranged at the right end in the machine body, a clamping mechanism for clamping and conveying a glove is arranged at the upper end in the test cavity, a tightness detection mechanism for detecting the glove is arranged in the middle of the test cavity, and an automatic inflation mechanism for automatically inflating the glove is arranged at the upper end in the machine body;

the clamping mechanism comprises a moving cavity which is positioned in the upper inner wall of the test cavity and has a downward opening, a moving block capable of moving left and right is arranged in the moving cavity, a tension spring is connected between the right end face of the moving block and the right inner wall of the moving cavity, one end of a rope is connected to the left end face of the moving block, a moving pipeline is fixed in the moving block, a channel communicated up and down is arranged in the moving pipeline, a fixing ring is fixed on the lower end face of the moving pipeline, a rotating cavity with a leftward opening and a rightward opening is respectively arranged at the left end and the right end of the lower end of the moving pipeline, a rotating rod is respectively rotated on the front inner wall and the rear inner wall of each rotating cavity, a connecting rod is arranged on each rotating rod, two clamping rings are arranged at the lower end of the moving pipeline, a fixing block is, the right side clamp ring left end face be fixed with two with first magnet opposite poles attract's second magnet, two all be equipped with the ascending slide plate chamber of opening in the fixed block, the slide plate intracavity is equipped with the slide that can the side-to-side motion, the slide up end is fixed with articulated piece, two the connecting rod lower extreme respectively with two articulated piece is articulated, the removal pipeline lower extreme can be overlapped and be equipped with rubber gloves, two rubber gloves accessible clamp ring presss from both sides the clamp ring and tightly fixes the lower extreme at the removal pipeline, test chamber left side is equipped with the drive chamber, be equipped with the motor in the drive chamber upper inner wall, motor lower extreme power is connected with the drive shaft, drive shaft upper end friction connection has the reel, the winding has on the reel the rope.

Further, the tightness detection mechanism comprises a displacement cavity which is positioned in the left inner wall of the test cavity and has a right opening, a displacement plate capable of moving back and forth is arranged in the displacement cavity, a baffle plate positioned in the test cavity is fixed on the right end face of the displacement plate, a pressure spring is connected between the rear end face of the displacement plate and the rear inner wall of the displacement cavity, a rack is fixed on the left end face of the displacement plate, a sliding gear capable of being meshed with the rack is connected with a spline at the lower end of the driving shaft, a slider cavity with a downward opening is arranged in the sliding gear, a slider capable of sliding in the slider cavity is arranged in the slider cavity, two return springs are connected between the lower end face of the slider and the lower inner wall of the driving cavity, one end of a thread rope is further connected to the lower end face of the slider, a push rod cavity with a right opening is arranged in the left inner wall of the, and a compression spring is connected between the left end face of the push rod and the left inner wall of the push rod cavity, and the upper end face of the left end of the push rod is connected with the other end of the cord.

Further, be equipped with five briquetting chambeies that the opening is forward in the test chamber rear inner wall, the briquetting intracavity is equipped with the briquetting of ability seesaw, briquetting rear end face with be connected with connecting spring, every between the briquetting chamber rear inner wall the right-hand member face of briquetting rear end all is connected with the one end of a stay cord, upper right end is equipped with first circular telegram chamber in the fuselage, first circular telegram intracavity lower extreme is equipped with the first battery of ability up-and-down motion, terminal surface under the first battery with be connected with two elasticity springs under the first circular telegram chamber between the inner wall, terminal surface is connected with five under the first battery the other end of stay cord, first circular telegram intracavity upper end is fixed with first conducting block, upper right end face of fuselage is fixed with the counter, the counter with first conducting block electricity is connected with the wire.

Further, the automatic inflation mechanism is including being located remove the last inner wall of chamber left end and the flexible chamber of opening down, flexible intracavity is equipped with the expansion ring of ability up-and-down motion, the expansion ring up end with be connected with two expanding spring between the flexible intracavity upper wall, be equipped with the air inlet chamber of intercommunication external space in the flexible intracavity upper wall, the air inlet intracavity is equipped with the fan, the fan with it is equipped with flexible pipe to connect between the expansion ring.

Furthermore, a second electrifying cavity is formed in the rear side of the driving cavity, a second electrifying block is fixedly arranged at the rear end in the second electrifying cavity, an electric wire is electrically connected between the second electrifying block and the fan, a second battery capable of moving back and forth is arranged at the front end in the second electrifying cavity, a tension spring is connected between the front end face of the second battery and the front inner wall of the second electrifying cavity, and a pressing rod with the rear end extending into the second electrifying cavity is fixedly arranged on the rear end face of the displacement plate.

The invention has the beneficial effects that: this equipment carries out the leakproofness through utilizing the good ductility of rubber gloves to it and detects, press from both sides tightly gloves and with inflation inlet sealing connection at the during operation to through set up the baffle in the gloves front side and aerify the effect of backward inflation in order to strengthen, later stage automatic start pump tests gloves, only can pass through the test and note data when five fingers of gloves and the equal leakproofness in palm position are good, has improved the leakproofness that the gloves leakproofness detected greatly.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic front view of the full-section structure of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram at A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of the structure at B in FIG. 2 according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram at C-C in FIG. 2 according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The device for detecting the finger tightness of the rubber gloves described in the attached drawings 1-5 comprises a base 30, wherein a body 10 is fixed on the upper end surface of the base 30, a testing chamber 28 with a right opening is arranged at the right end in the body 10, a clamping mechanism 82 for clamping and conveying the gloves for detection is arranged at the upper end in the testing chamber 28, a tightness detecting mechanism 80 for detecting the gloves is arranged in the middle of the testing chamber 28, an automatic inflating mechanism 81 for automatically inflating the gloves is arranged at the upper end in the body 10, the clamping mechanism 82 comprises a moving chamber 22 which is arranged in the upper inner wall of the testing chamber 28 and has a downward opening, a moving block 11 capable of moving left and right is arranged in the moving chamber 22, a tension spring 23 is connected between the right end surface of the moving block 11 and the right inner wall of the moving chamber 22, and one end of a rope 40 is connected to the left end surface of the moving block 11, a moving pipeline 25 is fixed in the moving block 11, a channel 27 which is communicated up and down is arranged in the moving pipeline 25, a fixing ring 26 is fixed on the lower end face of the moving pipeline 25, a rotating cavity 68 with a left opening and a right opening is respectively arranged at the left end and the right end of the lower end of the moving pipeline 25, a rotating rod 67 is respectively arranged on the front inner wall and the rear inner wall of each rotating cavity 68 in a rotating way, a connecting rod 66 is arranged on each rotating rod 67, two clamping rings 69 are arranged at the lower end of the moving pipeline 25, a fixing block 64 is respectively fixed on the upper end faces of the two clamping rings 69, two first magnets 70 are fixed on the right end face of the clamping ring 69 on the left side, two second magnets 71 which are opposite to and attracted with the first magnets 70 are fixed on the left end face of the clamping ring 69 on the right side, a sliding plate cavity 62 with an upward opening is respectively arranged in the, the upper end face of the sliding plate 63 is fixed with a hinge block 65, the lower ends of the two connecting rods 66 are respectively hinged with the two hinge blocks 65, the lower end of the moving pipeline 25 can be sleeved with a rubber glove 31, the rubber glove 31 can be clamped and fixed at the lower end of the moving pipeline 25 through the two clamping rings 69, the left side of the testing cavity 28 is provided with a driving cavity 39, the inner wall of the upper part of the driving cavity 39 is internally provided with a motor 43, the lower end of the motor 43 is in power connection with a driving shaft 42, the upper end of the driving shaft 42 is in friction connection with a reel 41, and the rope 40 is.

Advantageously, the tightness detection mechanism 80 includes a displacement chamber 32 located in the left inner wall of the test chamber 28 and having a rightward opening, a displacement plate 33 capable of moving back and forth is located in the displacement chamber 32, a baffle 29 located in the test chamber 28 is fixed to the right end face of the displacement plate 33, a pressure spring 55 is connected between the rear end face of the displacement plate 33 and the rear inner wall of the displacement chamber 32, a rack 34 is fixed to the left end face of the displacement plate 33, a sliding gear 38 capable of meshing with the rack 34 is connected to the lower end face of the driving shaft 42 through a spline, a slider chamber 37 having a downward opening is located in the sliding gear 38, a slider 36 capable of sliding in the slider chamber 37 is located in the slider chamber 37, two return springs 35 are connected between the lower end face of the slider 36 and the lower inner wall of the driving chamber 39, one end of a wire rope 46 is further connected to the lower end face of the slider 36, a push rod chamber 45 having a rightward, a push rod 47 capable of moving left and right is arranged in the push rod cavity 45, a compression spring 44 is connected between the left end face of the push rod 47 and the left inner wall of the push rod cavity 45, and the upper end face of the left end of the push rod 47 is connected with the other end of the cord 46.

Advantageously, five forward-opening pressure block cavities 52 are arranged in the rear inner wall of the test cavity 28, a pressure block 53 capable of moving back and forth is arranged in each pressure block cavity 52, a connecting spring 61 is connected between the rear end surface of the pressing block 53 and the rear inner wall of the pressing block cavity 52, the right end surface of the rear end of each pressing block 53 is connected with one end of a pull rope 72, a first power-on cavity 15 is arranged at the upper right end in the machine body 10, a first battery 20 capable of moving up and down is arranged at the lower end in the first power-on cavity 15, two elastic springs 21 are connected between the lower end surface of the first battery 20 and the lower inner wall of the first electrifying cavity 15, the lower end surface of the first battery 20 is connected with the other ends of the five pull ropes 72, the upper end in the first electrifying cavity 15 is fixed with a first conductive block 18, a counter 17 is fixed on the upper right end face of the body 10, and the counter 17 and the first conductive block 18 are electrically connected with a lead 16.

Beneficially, the automatic inflation mechanism 81 comprises an upper inner wall located at the left end of the movable cavity 22 and a downward telescopic cavity 50 with a downward opening, a telescopic ring 48 capable of moving up and down is arranged in the telescopic cavity 50, two telescopic springs 51 are connected between the upper end face of the telescopic ring 48 and the upper inner wall of the telescopic cavity 50, an air inlet cavity 12 communicated with the external space is arranged in the upper inner wall of the telescopic cavity 50, a fan 13 is arranged in the air inlet cavity 12, and a telescopic pipe 49 is connected between the fan 13 and the telescopic ring 48.

Beneficially, a second electricity-conducting cavity 57 is arranged at the rear side of the driving cavity 39, a second electricity-conducting block 58 is fixedly arranged at the rear end in the second electricity-conducting cavity 57, an electric wire 14 is electrically connected between the second electricity-conducting block 58 and the fan 13, a second battery 60 capable of moving back and forth is arranged at the front end in the second electricity-conducting cavity 57, a tension spring 56 is connected between the front end surface of the second battery 60 and the front inner wall of the second electricity-conducting cavity 57, and a pressing rod 54 with the rear end extending into the second electricity-conducting cavity 57 is fixed at the rear end surface of the displacement plate 33.

In the initial state, the moving block 11 and the moving pipe 25 are located at the right end in the moving cavity 22 under the pulling force of the extension spring 23, the push rod 47 releases the cord 46 under the elastic force of the compression spring 44, the sliding gear 38 is located at the upper side of the rack 34 and is in a non-meshed state with the rack 34, the displacement plate 33 is located at the front end in the driving cavity 39 under the action of the compression spring 55, and the second battery 60 is in a non-contact state with the second electrifying block 58 under the action of the tension spring 56.

When the rubber glove type sliding device works, the rubber glove 31 is sleeved at the lower end of the moving pipeline 25, the two clamping rings 69 are pushed downwards manually, the two first magnets 70 on the left clamping ring 69 and the two second magnets 71 on the right clamping ring 69 are attracted in an opposite manner, so that the rubber glove 31 is clamped and fixed at the lower end of the moving pipeline 25, the motor 43 is started, the motor 43 works to drive the driving shaft 42 to rotate, so that the reel 41 and the sliding gear 38 are driven to rotate, the rope 40 is tightened by the rotation of the reel 41, the moving block 11, the moving pipeline 25 and the rubber glove 31 on the moving pipeline 25 move leftwards under the tension of the rope 40, after the moving block 11 moves leftwards to press the push rod 47 into the push rod cavity 45, the moving block 11 is blocked and cannot move leftwards continuously, the reel 41 slides on the driving shaft 42, and at the moment, the moving pipeline 25 presses, the rubber glove 31 is positioned at the rear side of the baffle 29, the push rod 47 moves leftwards to tighten the rope 46, the sliding gear 38 moves downwards under the tension of the rope 46 and is meshed with the rack 34, the sliding gear 38 rotates to drive the rack 34 and the displacement plate 33 which are meshed with the sliding gear to move backwards, so that the baffle 29 is driven to move backwards for a certain distance, the baffle 29 moves backwards to drive the pressure lever 54 to move backwards, the pressure lever 54 moves backwards to drive the second battery 60 to move backwards to be contacted with the second electrifying block 58, the fan 13 is electrified to start working, the fan 13 blows air into the rubber glove 31 through the telescopic pipe 49, the telescopic ring 48 and the channel 27, if the five fingers of the rubber glove 31 are good in sealing performance, the five fingers of the rubber glove 31 are full of air, and because the front side of the rubber glove 31 is blocked by the rear end face of the baffle 29, the five fingers can only expand backwards, and then the five fingers expand to extrude the pressure block 53 backwards through, the five pressing blocks 53 move backwards to release the pulling ropes 72, the first battery 20 loses the tension action of the five pulling ropes 72 and moves upwards under the elastic force action of the elastic spring 21 to be in contact with the first conductive block 18 for electrifying, the counter 17 records data once when being electrified, the qualified rate of the sealing performance of the fingers of the glove can be known through the number of times that the counter 17 records the data, if the sealing performance of one finger or a plurality of fingers of the rubber glove 31 is poor, the five pulling ropes 72 cannot be released completely, the counter 17 cannot record the data, after the test is finished, the motor 43 is started to work in a reverse rotation way, the rope 40 is released, the moving pipeline 25 moves rightwards to reset under the action of the extension spring 23, the push rod 47 moves rightwards to reset under the action of the compression spring 44, the sliding gear 38 moves upwards to reset under the action of the reset spring 35, the displacement plate 33 moves forwards to reset under the action of the pressure spring, and the fan 13 is powered off to stop working, and the reset is completed.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a rubber gloves finger leakproofness check out test set, includes the base, its characterized in that: the upper end face of the base is fixedly provided with a machine body, the right end in the machine body is provided with a test cavity with a right opening, the upper end in the test cavity is provided with a clamping mechanism for clamping and conveying a glove, the middle in the test cavity is provided with a tightness detection mechanism for detecting the glove, and the upper end in the machine body is provided with an automatic inflation mechanism for automatically inflating the glove; the clamping mechanism comprises a moving cavity which is positioned in the upper inner wall of the test cavity and has a downward opening, a moving block capable of moving left and right is arranged in the moving cavity, a tension spring is connected between the right end face of the moving block and the right inner wall of the moving cavity, one end of a rope is connected to the left end face of the moving block, a moving pipeline is fixed in the moving block, a channel communicated up and down is arranged in the moving pipeline, a fixing ring is fixed on the lower end face of the moving pipeline, a rotating cavity with a leftward opening and a rightward opening is respectively arranged at the left end and the right end of the lower end of the moving pipeline, a rotating rod is respectively rotated on the front inner wall and the rear inner wall of each rotating cavity, a connecting rod is arranged on each rotating rod, two clamping rings are arranged at the lower end of the moving pipeline, a fixing block is, the right side clamp ring left end face be fixed with two with first magnet opposite poles attract's second magnet, two all be equipped with the ascending slide plate chamber of opening in the fixed block, the slide plate intracavity is equipped with the slide that can the side-to-side motion, the slide up end is fixed with articulated piece, two the connecting rod lower extreme respectively with two articulated piece is articulated, the removal pipeline lower extreme can be overlapped and be equipped with rubber gloves, two rubber gloves accessible clamp ring presss from both sides the clamp ring and tightly fixes the lower extreme at the removal pipeline, test chamber left side is equipped with the drive chamber, be equipped with the motor in the drive chamber upper inner wall, motor lower extreme power is connected with the drive shaft, drive shaft upper end friction connection has the reel, the winding has on the reel the rope.

2. The apparatus for testing finger-tightness of rubber gloves according to claim 1, wherein: the tightness detection mechanism comprises a displacement cavity which is positioned in the left inner wall of the test cavity and has a right opening, a displacement plate capable of moving back and forth is arranged in the displacement cavity, a baffle plate positioned in the test cavity is fixed on the right end face of the displacement plate, a pressure spring is connected between the rear end face of the displacement plate and the rear inner wall of the displacement cavity, a rack is fixed on the left end face of the displacement plate, a sliding gear capable of being meshed with the rack is connected with a spline at the lower end of the driving shaft, a sliding block cavity with a downward opening is arranged in the sliding gear, a sliding block capable of sliding in the sliding block cavity is arranged in the sliding block cavity, two return springs are connected between the lower end face of the sliding block and the lower inner wall of the driving cavity, one end of a cotton rope is further connected with the lower end face of the sliding block, a push rod cavity with a right opening is, and a compression spring is connected between the left end face of the push rod and the left inner wall of the push rod cavity, and the upper end face of the left end of the push rod is connected with the other end of the cord.

3. The apparatus for testing finger-tightness of rubber gloves according to claim 2, wherein: the test chamber is characterized in that five pressing block cavities with forward openings are arranged in the inner wall behind the test chamber, pressing blocks capable of moving back and forth are arranged in the pressing block cavities, connecting springs are connected between the pressing block rear end face and the inner wall behind the pressing block cavity, each pressing block rear end face is connected with one end of a pull rope, a first power-on cavity is arranged at the upper right end in the machine body, a first battery capable of moving up and down is arranged at the lower end in the first power-on cavity, two elastic springs are connected between the inner walls under the first battery and the first power-on cavity, five elastic springs are connected to the lower end face of the first battery, a first conductive block is fixed at the upper end in the first power-on cavity, a counter is fixed at the upper right end face of the machine body, and the counter is electrically connected with a wire.

4. The apparatus for testing finger-tightness of rubber gloves according to claim 1, wherein: the automatic inflation mechanism comprises an upper inner wall located at the left end of the movable cavity and a downward telescopic cavity with a downward opening, a telescopic ring capable of moving up and down is arranged in the telescopic cavity, the upper end face of the telescopic ring and two telescopic springs are connected between the upper inner wall of the telescopic cavity, an air inlet cavity communicated with the external space is arranged in the upper inner wall of the telescopic cavity, a fan is arranged in the air inlet cavity, and a telescopic pipe is connected between the fan and the telescopic ring.

5. The apparatus for testing finger-tightness of rubber gloves according to claim 4, wherein: the rear side of the driving cavity is provided with a second electrifying cavity, a second electrifying block is fixedly arranged at the rear end in the second electrifying cavity, an electric wire is electrically connected between the second electrifying block and the fan, the front end in the second electrifying cavity is provided with a second battery capable of moving back and forth, a tension spring is connected between the front end face of the second battery and the front inner wall of the second electrifying cavity, and the rear end face of the displacement plate is fixedly provided with a pressing rod of which the rear end extends into the second electrifying cavity.