CN205449714U - Rubber hardness measurement system and transfer device thereof - Google Patents

Abstract

The utility model provides a rubber hardness measurement system, the test platform comprises a support, rubber sclerometer and horizontal adjusting device, the frame includes the workstation, the workstation is equipped with the recess, horizontal adjusting device includes the connecting rod, the horizontal plate, the sample platform, the locking mechanism of dwang and fixed sample platform, the sample platform sets up and flushes with the workstation in the recess and when static, the height that highly is less than the recess of sample platform, the external diameter of sample platform is less than the internal diameter of recess, the workstation is equipped with the inner chamber, the dwang passes the inner chamber and penetrates the recess, the sample platform is connected to the one end of dwang, and the other end is a free end, the dwang is equipped with the cockscomb structure draw -in groove, locking mechanism sets up in the inner chamber, locking mechanism is equipped with the bur that matches the cockscomb structure draw -in groove, the one end of connecting rod is rotated with the frame and is connected, the other end and horizontal plate fixed connection, the horizontal plate is located rubber sclerometer below, and the plane at horizontal plate place is parallel with the plane at the sufficient place of pressure of rubber sclerometer. The utility model also provides a transfer device.

Description

A kind of rubber hardness measures system and transfer device thereof

Technical field

This utility model relates to material hardness detection field, measures system and transfer device thereof in particular to a kind of rubber hardness.

Background technology

The hardness of rubber is typically measured with Shore durometer (i.e. durometer), and flexible glue shore A represents, high rigidity glue shore D represents.

Shore durometer is to enter specimen surface at the sagging vertical compression of test force effect, and when fitting completely with specimen surface in pressure foot surface, pressing tip surface presses foot plane to have certain extension elongation L relatively, the size of shore hardness is characterized with the size of L-value, L-value is the biggest, represents that shore hardness is the lowest, otherwise the highest.The computing formula of shore hardness is: HA=100-L/0.025 (HD=100-L/0.025), and in formula, HA is Shore A hardness.From formula, Shore A hardness is relevant with pressing displacement, can calculate Shore A hardness value by measuring the displacement of pressing.

Existing industry manufactures and during laboratory experiment, general all uses Shore durometer to detect the hardness of rubber, when detecting, it is desirable to rubbery sample smooth surface, smooth, should there is not air spots, height has other phenomenon, otherwise can cause measuring the bigger error of appearance.But when sample preparation, particularly when new employee's sample preparation or student's sample preparation, sample cutting error the most easily occurs, causing facet is inclined-plane, there is height difference.In this case, must throw aside sample, again sample preparation, and these samples are probably and just obtain through more numerous and diverse process, sample size is the most less, if again sample preparation must spend very more than time and efforts, thus reduce detection efficiency.

Utility model content

In view of this, this utility model provides a kind of rubber hardness and measures system and transfer device thereof, before improving the detection of existing rubber hardness, easily occurs that sample cutting is uneven, thus the problem causing sample waste.

For achieving the above object, the following technical scheme of this utility model offer:

A kind of rubber hardness measures system, and including support, durometer and level(l)ing device, described durometer is connected with described support, and described support includes that workbench, described workbench are provided with groove,

Described level(l)ing device includes connecting rod, horizontal plate, sample stage, rotate bar and the retaining mechanism of fixing described sample stage, in described sample stage is arranged at described groove and flush with described workbench when static, the height of described sample stage is less than the height of described groove, the external diameter of described sample stage is less than the internal diameter of described groove, described workbench is provided with inner chamber, described rotation bar is through described inner chamber and penetrates described groove, one end of described rotation bar connects described sample stage, the other end is free end, described rotation bar is provided with zigzag draw-in groove, described retaining mechanism is arranged at described inner chamber, described retaining mechanism is provided with the bur mating described zigzag draw-in groove,

One end of described connecting rod is rotationally connected with described support, and the other end is fixing with described horizontal plate to be connected, and described horizontal plate is positioned at below described durometer, and the plane at described horizontal plate place is parallel with the plane at the pressure foot place of described durometer.

Sample stage is used for putting sample, and durometer is used for detecting sample.Sample stage is arranged in the groove of workbench, and height and external diameter are respectively less than height and the internal diameter of groove, say, that sample stage is made by rotating under the strength of bar " unsettled " in groove.And rotate bar and have passed through the inner chamber of workbench, and it is connected to sample stage, it is possible to rotate sample stage by rotating bar, make sample stage there is the inclination of smaller angle scope.And it being provided with zigzag draw-in groove owing to rotating bar, retaining mechanism is provided with bur, so after sample stage turns to appropriate location, it is possible to utilize the bur of retaining mechanism to block the zigzag draw-in groove rotating bar, thus fix and rotate bar, it is to avoid it rotates.

In use, if sample facet is uneven, for inclined-plane, then sample can be placed on sample stage；Then it is rotationally connected bar, makes horizontal plate be placed in immediately below durometer；Then utilize and rotate bar regulation sample stage, make sample stage rotational angle, so that the testing surface of the sample on sample stage (i.e. inclined-plane) laminating horizontal plate, obtain test level face；Recycling retaining mechanism locking rotates bar, keeps the location status of sample stage, makes the testing surface of sample keep level, finally removes horizontal plate, so, it is possible to continue with durometer and test sample, obtain hardness data.This kind is arranged, it is possible to the sample uneven to facet proceeds hardness determination, effectively avoids abandoning of the uneven sample of facet, has saved resource, also greatly reduces the probability of repetition sample preparation simultaneously, saves personnel time and energy.

Preferably, in above-mentioned rubber hardness measurement system, described retaining mechanism includes that Y shape is by block, spring and two supporting rods, two described supporting rods are fixed on described inner chamber by rotary shaft, and two described supporting rods are collectively forming X-shaped structure, described Y shape penetrates described workbench by the divergent ends of block, and described divergent ends is slidably connected with two supporting rods of described rotary shaft side, for strutting two described supporting rods, described spring is fixing with two supporting rods of described rotary shaft opposite side to be connected, when pressing described Y shape by block, described spring is extended state, described bur is respectively arranged on two described supporting rods.Two supporting rods can be strutted by Y shape by block so that it is be in open mode, unclamp rotation bar；Can be retracted again two supporting rods by spring so that it is be closed, locking rotates bar.When needs adjust sample stage angle, Y shape can be pinned by block, open supporting rod by Y shape by block, adjust and rotate bar；When needs keep sample stage angle, it is possible to unclamping Y shape by block, by spring straining supporting rod, locking rotates bar.

Preferably, in above-mentioned rubber hardness measurement system, described level(l)ing device also includes the clamping device clamping sample, and described clamping device is arranged on described sample stage and is rotationally connected with described sample stage.Too big for some facet angular deviation, that the inclined-plane that obtains is more steep situation, owing to being provided with clamping device, even if driving sample stage to rotate larger angle so rotating bar, sample also will not fall from sample stage.This kind is arranged, and increases the sample scope that can accept detection.

Preferably, in above-mentioned rubber hardness measurement system, described support includes base, workbench, lifting column, durometer clamping transverse arm and Ding He counterweight, described workbench is arranged on described base, it is provided with lowering or hoisting gear between described workbench and described base, described base is provided with the hands handle controlling the lifting of described lowering or hoisting gear, the two ends of described lifting column connect described base and described durometer clamping transverse arm respectively, described base, described lifting column, described durometer clamping transverse arm is collectively forming Contraband shape structure, described determine lotus counterweight and be arranged at the upside of described durometer clamping transverse arm, described durometer is connected to the downside of described durometer clamping transverse arm.Lowering or hoisting gear can adjust the height of workbench, thus the most just have adjusted the height of sample stage.So, even if thickness of sample is different, durometer is relatively big with workbench distance, durometer remains on and can measure the sample on sample stage.And utilize handle to control the lifting of lowering or hoisting gear, simple to operate, easy to use.

Preferably, in above-mentioned rubber hardness measurement system, described durometer includes upper connecting shaft, instruction device, lower connecting shaft, pressure foot and the pressing being sequentially connected with from top to bottom, and described pressing penetrates described pressure foot.

Preferably, in above-mentioned rubber hardness measurement system, being sequentially provided with flat board, spring and steel ball in described lower connecting shaft from top to bottom, described pressing is arranged under described steel ball.So, obtain mechanical type rubber hardness and measure system.

Preferably, in above-mentioned rubber hardness measurement system, being provided with for detecting the displacement transducer that pressure foot moves with pressing in described lower connecting shaft, described instruction device is electronic pointer, and institute's displacement sensors electrically connects with described electronic pointer.So, obtain electron type rubber hardness and measure system.

Preferably, in above-mentioned rubber hardness measurement system, the bottom of described support is provided with multiple leg, and multiple described legs include at least one adjustable foot.Equipment height, level, inclination can be finely adjusted by adjustable foot, make equipment keep level.

Preferably, in above-mentioned rubber hardness measurement system, described durometer removably connects with described support.So, when needs carry out hardness measurement out of doors, it is possible to take off durometer, in order to carry.

This utility model additionally provides a kind of above-mentioned rubber hardness and measures the transfer device of system, including wheel set, bracing frame, gripper shoe and Rubber shock-absorbing pad, the two ends of support frame as described above connect described wheel set and described gripper shoe respectively, and the surface of described gripper shoe is covered with described Rubber shock-absorbing pad.

For this precision instrument, when being carried out space transfer, it is required for meticulous.Prior art is typically all and is placed back into chest by manpower, then lift chest to designated space, further take out rubber hardness measurement system.This mode is cumbersome, wastes time and energy.And transfer device is set, rubber hardness is measured system and just can be placed on the supporting plate, and is covered with Rubber shock-absorbing pad in gripper shoe, shakes, it is possible to effectively reduce or eliminate in transfer process, the adverse consequences brought.

Relative to prior art, this utility model includes following beneficial effect:

(1) disclosure satisfy that the hardness test of the sample that testing surface is inclined-plane；

(2) reduce sample resource and discard rate, reduce operator's time, the consuming of energy.

Accompanying drawing explanation

For clearer explanation this utility model embodiment or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in describing below is only embodiments more of the present utility model, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the schematic diagram that the rubber hardness that this utility model embodiment one provides measures system；

Fig. 2 is the schematic diagram of the pressure foot portions that this utility model embodiment one provides；

Fig. 3 is the schematic diagram of the transfer device that this utility model embodiment one provides；

Fig. 4 is the schematic diagram that the rubber hardness that this utility model embodiment two provides measures system.

Wherein, reference is summarized as follows:

Base 101；Workbench 102；Handle 103；Lifting column 104；Durometer clamping transverse arm 105；Determine lotus counterweight 106；Lowering or hoisting gear 107；

Upper connecting shaft 201；Instruction device 202；Lower connecting shaft 203；Pressure foot 204；Pressing 205；

Connecting rod 301；Horizontal plate 302；Sample stage 303；Rotate bar 304；Clamping device 305；Bur 306；Y shape presses block 307；Supporting rod 308；

Wheel set 401；Bracing frame 402；Gripper shoe 403；Rubber shock-absorbing pad 404.

Detailed description of the invention

For making the purpose of this utility model embodiment, technical scheme and advantage clearer, below in conjunction with the accompanying drawing in this utility model embodiment, technical scheme in this utility model embodiment is clearly and completely described, obviously, described embodiment is a part of embodiment of this utility model rather than whole embodiments.Generally can with various different configurations arrange and design with the assembly of this utility model embodiment that illustrate described in accompanying drawing herein.

Therefore, the detailed description to the embodiment of the present utility model provided in the accompanying drawings is not intended to limit claimed scope of the present utility model below, but is merely representative of selected embodiment of the present utility model.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of this utility model protection.

It should also be noted that similar label and letter represent similar terms in following accompanying drawing, therefore, the most a certain Xiang Yi accompanying drawing is defined, then need not it be defined further and explains in accompanying drawing subsequently.

In description of the present utility model, it should be noted that, term " " center ", on " ", D score, " left ", " right ", " vertically ", " level ", " interior ", orientation or the position relationship of the instruction such as " outward " are based on orientation shown in the drawings or position relationship, or this utility model product orientation usually put or position relationship when using, it is for only for ease of description this utility model and simplifies description, rather than indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.Describe additionally, term " first ", " second ", " the 3rd " etc. are only used for distinguishing, and it is not intended that indicate or hint relative importance.

In description of the present utility model, in addition it is also necessary to explanation, unless otherwise clearly defined and limited, term " is arranged ", " installation ", " being connected ", " connection " should be interpreted broadly, and connects for example, it may be fixing, can also be to removably connect, or be integrally connected；Can be to be mechanically connected, it is also possible to be electrical connection；Can be to be joined directly together, it is also possible to be indirectly connected to by intermediary, can be the connection of two element internals.For the ordinary skill in the art, above-mentioned term concrete meaning in this utility model can be understood with concrete condition.

Embodiment one

nullFig. 1 shows that the rubber hardness that this utility model embodiment one provides measures system，Including support、Durometer and level(l)ing device，Durometer is connected with support，Support includes workbench 102，Workbench 102 is provided with groove，Level(l)ing device includes connecting rod 301、Horizontal plate 302、Sample stage 303、Rotate bar 304 and the retaining mechanism of fixing sample stage 303，In sample stage 303 is arranged at groove and flush with workbench 102 when static，The height of sample stage 303 is less than the height of groove，The external diameter of sample stage 303 is less than the internal diameter of groove，Workbench 102 is provided with inner chamber，Rotate bar 304 and through inner chamber and penetrate groove，The one end rotating bar 304 connects sample stage 303，The other end is free end，Rotate bar 304 and be provided with zigzag draw-in groove，Retaining mechanism is arranged at inner chamber，Retaining mechanism is provided with the bur 306 of coupling zigzag draw-in groove，One end of connecting rod 301 is rotationally connected with support，The other end is fixing with horizontal plate 302 to be connected，Horizontal plate 302 is positioned at below durometer，And the plane at horizontal plate 302 place is parallel with the plane at pressure foot 204 places of durometer.

In sample stage 303 is arranged at groove and flushing with workbench 102 when static, refer to when rotating bar 304, the surface placing sample of sample stage 303 and the upper surface of workbench 102 are in same level.Certainly, when rotating bar 304, sample stage 303 meeting run-off the straight, now, the upper surface on surface and workbench 102 that sample stage 303 places sample exists for angle difference." upper surface " described herein, refers to that workbench 102 belongs to conventional narration away from ground, that face of close durometer, this kind of saying, do not does too much explanation at this.

Workbench 102 really annular hollow structure, retaining mechanism is arranged on its cavity (inner chamber), rotation bar 304 penetrates in groove from outside through the workbench 102 of hollow again, connect sample stage 303, make sample stage 303 unsettled in groove, rotate bar 304 can rotate, and then the angle of regulation sample stage 303.

Sample stage 303 is used for putting sample, and durometer is used for detecting sample.Sample stage 303 is arranged in the groove of workbench 102, and height and external diameter are respectively less than height and the internal diameter of groove, say, that sample stage 303 is made by rotating under the strength of bar 304 " unsettled " in groove.And rotate bar 304 and have passed through the inner chamber of workbench 102, and it is connected to sample stage 303, it is possible to rotate sample stage 303 by rotating bar 304, make sample stage 303 there is the inclination of smaller angle scope.And it is provided with zigzag draw-in groove owing to rotating bar 304, retaining mechanism is provided with bur 306, so after sample stage 303 turns to appropriate location, it is possible to utilize the bur 306 of retaining mechanism to block the zigzag draw-in groove rotating bar 304, thus fix and rotate bar 304, it is to avoid it rotates.

In use, if sample facet is uneven, for inclined-plane, then sample can be placed on sample stage 303；Then it is rotationally connected bar 301, makes horizontal plate 302 be placed in immediately below durometer；Then utilize rotation bar 304 to regulate sample stage 303, make sample stage 303 rotational angle, so that the testing surface of the sample on sample stage 303 (i.e. inclined-plane) laminating horizontal plate 302, obtain test level face；Recycling retaining mechanism locking rotates bar 304, keeps the location status of sample stage 303, makes the testing surface of sample keep level, finally removes horizontal plate 302, so, it is possible to continue with durometer and test sample, obtain hardness data.This kind is arranged, it is possible to the sample uneven to facet proceeds hardness determination, effectively avoids abandoning of the uneven sample of facet, has saved resource, also greatly reduces the probability of repetition sample preparation simultaneously, saves personnel time and energy.

In the present embodiment, retaining mechanism includes that Y shape is by block 307, spring and two supporting rods 308, two supporting rods 308 are fixed on inner chamber by rotary shaft, and two supporting rods 308 are collectively forming X-shaped structure, Y shape penetrates workbench 102 by the divergent ends of block 307, and divergent ends is slidably connected with two supporting rods 308 of rotary shaft side, for strutting two supporting rods 308, spring is fixing with two supporting rods 308 of rotary shaft opposite side to be connected, when pressing Y shape by block 307, spring is extended state, and bur 306 is respectively arranged on two supporting rods 308.Two supporting rods 308 can be strutted by Y shape by block 307 so that it is be in open mode, unclamp rotation bar 304；Can be retracted again two supporting rods 308 by spring so that it is be closed, locking rotates bar 304.When needs adjust sample stage 303 angle, Y shape can be pinned by block 307, open supporting rod 308 by Y shape by block 307, adjust and rotate bar 304；When needs keep sample stage 303 angle, it is possible to unclamping Y shape by block 307, by spring straining supporting rod 308, locking rotates bar 304.

In the present embodiment, two supporting rods 308 are respectively equipped with a chute, and Y shape is provided with slide block by the divergent ends of block 307, realize Y shape being slidably connected by block 307 and two supporting rods 308 by coordinating of slide block and chute.

Support includes base 101, workbench 102, lifting column 104, durometer clamping transverse arm 105 and Ding He counterweight 106, workbench 102 is arranged on base 101, lowering or hoisting gear 107 it is provided with between workbench 102 and base 101, base 101 is provided with the handle 103 controlling lowering or hoisting gear 107 lifting, the two ends of lifting column 104 connect base 101 and durometer clamping transverse arm 105 respectively, base 101, lifting column 104, durometer clamping transverse arm 105 is collectively forming Contraband shape structure, determine lotus counterweight 106 and be arranged at the upside of durometer clamping transverse arm 105, durometer is connected to the downside of durometer clamping transverse arm 105.Lowering or hoisting gear 107 can adjust the height of workbench 102, thus the most just have adjusted the height of sample stage 303.So, though thickness of sample is different, durometer and workbench 102 apart from relatively big, durometer remains on and can measure the sample on sample stage 303.And utilize handle 103 to control the lifting of lowering or hoisting gear 107, simple to operate, easy to use.

In the present embodiment, one end of connecting rod 301 is just rotationally connected with lifting column 104 by rotating shaft.It is the most common that handle 103 controls arranging of lowering or hoisting gear 107, belongs to prior art, does not repeats them here.

In the present embodiment, durometer includes upper connecting shaft 201, instruction device 202, lower connecting shaft 203, pressure foot 204 and the pressing 205 being sequentially connected with from top to bottom, the structure chart of pressure foot 204 parts sees Fig. 2, pressing 205 penetrates pressure foot 204, being sequentially provided with flat board, spring and steel ball in lower connecting shaft 203 from top to bottom, pressing 205 is arranged under steel ball.So, obtain mechanical type rubber hardness and measure system.Owing to this kind of connected mode belongs to prior art, do not repeat them here.Certainly, this kind of setting is not intended as limiting, it is also possible to be provided for the displacement transducer that detection presses foot 204 and pressing 205 to move in lower connecting shaft 203, and instruction device 202 is set to electronic pointer, and displacement transducer electrically connects with electronic pointer.So, obtain electron type rubber hardness and measure system.

The present embodiment additionally provides a kind of above-mentioned rubber hardness and measures the transfer device of system, see Fig. 3, including wheel set 401, bracing frame 402, gripper shoe 403 and Rubber shock-absorbing pad 404, the two ends of bracing frame 402 connect wheel set 401 and gripper shoe 403 respectively, and the surface of gripper shoe 403 is covered with Rubber shock-absorbing pad 404.

For this precision instrument, when being carried out space transfer, it is required for meticulous.Prior art is typically all and is placed back into chest by manpower, then lift chest to designated space, further take out rubber hardness measurement system.This mode is cumbersome, wastes time and energy.And transfer device is set, rubber hardness is measured system and just can be placed in gripper shoe 403, and is covered with Rubber shock-absorbing pad 404 in gripper shoe 403, shakes, it is possible to effectively reduce or eliminate in transfer process, the adverse consequences brought.

Embodiment two

On the basis of above-described embodiment, Fig. 4 shows that the rubber hardness that this utility model embodiment two provides measures system, level(l)ing device also includes the clamping device 305 clamping sample, and clamping device 305 is arranged on sample stage 303 and is rotationally connected with sample stage 303.Too big for some facet angular deviation, that the inclined-plane that obtains is more steep situation, owing to being provided with clamping device 305, even if driving sample stage 303 to rotate larger angle so rotating bar 304, sample also will not fall from sample stage 303.This kind is arranged, and increases the sample scope that can accept detection.

In the present embodiment, clamping device 305 is two, and each clamping device 305 all includes holding piece and central screw, and holding piece is fixed on central screw, and sample stage 303 is provided with female thread, and clamping device 305 is rotationally connected with the realization that coordinates of female thread by central screw.

The bottom of support is provided with multiple leg, and multiple legs include at least one adjustable foot.Equipment height, level, inclination can be finely adjusted by adjustable foot, make equipment keep level.

In the present embodiment, leg is three, in three legs, has two for adjustable foot.Certainly, this kind of setting is not intended as limiting, it is also possible to being set to six legs, wherein four is adjustable foot.

Durometer removably connects with durometer clamping transverse arm 105.So, when needs carry out hardness measurement out of doors, it is possible to take off durometer, in order to carry.

In the present embodiment, durometer with durometer clamping transverse arm 105 for threadeding.

The foregoing is only preferred embodiment of the present utility model, be not limited to this utility model, for a person skilled in the art, this utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification, equivalent substitution and improvement etc. made, within should be included in protection domain of the present utility model.

Claims (10)

1. a rubber hardness measures system, it is characterised in that: including that support, durometer and level(l)ing device, described durometer are connected with described support, described support includes that workbench, described workbench are provided with groove,

Described level(l)ing device includes connecting rod, horizontal plate, sample stage, rotate bar and the retaining mechanism of fixing described sample stage, in described sample stage is arranged at described groove and flush with described workbench when static, the height of described sample stage is less than the height of described groove, the external diameter of described sample stage is less than the internal diameter of described groove, described workbench is provided with inner chamber, described rotation bar is through described inner chamber and penetrates described groove, one end of described rotation bar connects described sample stage, the other end is free end, described rotation bar is provided with zigzag draw-in groove, described retaining mechanism is arranged at described inner chamber, described retaining mechanism is provided with the bur mating described zigzag draw-in groove,

One end of described connecting rod is rotationally connected with described support, and the other end is fixing with described horizontal plate to be connected, and described horizontal plate is positioned at below described durometer, and the plane at described horizontal plate place is parallel with the plane at the pressure foot place of described durometer.

Rubber hardness the most according to claim 1 measures system, it is characterized in that: described retaining mechanism includes that Y shape is by block, spring and two supporting rods, two described supporting rods are fixed on described inner chamber by rotary shaft, and two described supporting rods are collectively forming X-shaped structure, described Y shape penetrates described workbench by the divergent ends of block, and described divergent ends is slidably connected with two supporting rods of described rotary shaft side, for strutting two described supporting rods, described spring is fixing with two supporting rods of described rotary shaft opposite side to be connected, when pressing described Y shape by block, described spring is extended state, described bur is respectively arranged on two described supporting rods.

Rubber hardness the most according to claim 1 measures system, it is characterised in that: described level(l)ing device also includes the clamping device clamping sample, and described clamping device is arranged on described sample stage and is rotationally connected with described sample stage.

Rubber hardness the most according to claim 1 measures system, it is characterized in that: described support includes base, workbench, lifting column, durometer clamping transverse arm and Ding He counterweight, described workbench is arranged on described base, it is provided with lowering or hoisting gear between described workbench and described base, described base is provided with the hands handle controlling the lifting of described lowering or hoisting gear, the two ends of described lifting column connect described base and described durometer clamping transverse arm respectively, described base, described lifting column, described durometer clamping transverse arm is collectively forming Contraband shape structure, described determine lotus counterweight and be arranged at the upside of described durometer clamping transverse arm, described durometer is connected to the downside of described durometer clamping transverse arm.

Rubber hardness the most according to claim 1 measures system, it is characterised in that: described durometer includes upper connecting shaft, instruction device, lower connecting shaft, pressure foot and the pressing being sequentially connected with from top to bottom, and described pressing penetrates described pressure foot.

Rubber hardness the most according to claim 5 measures system, it is characterised in that: being sequentially provided with flat board, spring and steel ball in described lower connecting shaft from top to bottom, described pressing is arranged under described steel ball.

Rubber hardness the most according to claim 5 measures system, it is characterized in that: be provided with for detecting the displacement transducer that pressure foot moves with pressing in described lower connecting shaft, described instruction device is electronic pointer, and institute's displacement sensors electrically connects with described electronic pointer.

Rubber hardness the most according to claim 1 measures system, it is characterised in that: the bottom of described support is provided with multiple leg, and multiple described legs include at least one adjustable foot.

Rubber hardness the most according to claim 1 measures system, it is characterised in that: described durometer removably connects with described support.

10. the rubber hardness described in an any one of claim 1～9 measures the transfer device of system, it is characterized in that: include wheel set, bracing frame, gripper shoe and Rubber shock-absorbing pad, the two ends of support frame as described above connect described wheel set and described gripper shoe respectively, and the surface of described gripper shoe is covered with described Rubber shock-absorbing pad.