CN117124522A - Color bumping processing technology and equipment for rubber yoga mat - Google Patents

Abstract

The invention discloses color bumping processing equipment of a rubber yoga mat, which comprises a frame, wherein two compression rollers for extruding mixed rubber are arranged on the frame, a plurality of T-shaped hoppers are arranged above the compression rollers, a driving mechanism for driving the T-shaped hoppers to axially move along the compression rollers is arranged on each T-shaped hopper, the driving mechanism comprises a clamping unit fixedly arranged at one side of the T-shaped hopper and a synchronous belt pulley which is horizontally arranged, trigger units are arranged at two sides of the clamping unit, the clamping unit comprises two clamping blocks which are oppositely arranged up and down, and the synchronous belt pulley comprises a toothed belt. According to the required area covered by each color in the color-striking yoga mat, the positions of the two trigger units on each T-shaped hopper are adjusted, and then rubber with different colors is respectively conveyed into each T-shaped hopper, so that the lower side of the T-shaped hopper can convey the rubber to the press roller, and the effect of conveniently adjusting the color distribution of the surface of the processed color-striking yoga mat is achieved.

Description

Color bumping processing technology and equipment for rubber yoga mat

Technical Field

The invention relates to the technical field of rubber yoga mats, in particular to a color bumping processing technology and equipment of the rubber yoga mats.

Background

The yoga mat can be used when the yoga exercise is performed, the pain feeling of human body and ground contact can be effectively reduced, ground cold air can be effectively blocked, and the grabbing force is strong.

The yoga mat in the current market mainly takes single color as main, along with the development of technology, the color-striking yoga mat also gradually appears in the market, but the existing color-striking yoga mat generally uniformly places rubber blocks with different colors into a container, then makes each color mutually mix after mixing and stirs to form the color-striking rubber block, and then forms a rubber sheet with narrower width by extruding a tablet press to tablet the color-striking rubber block, and finally forms a rubber layer by paving on a press roller through a conveyor. However, the color distribution of the processed color-hitting yoga mat is irregular because the rubber with various colors is mixed, so that the color distribution on the color-hitting yoga mat is difficult to be controllably adjusted according to the market sales.

Disclosure of Invention

In order to solve at least one technical problem in the background art, the invention aims to provide color-striking processing equipment for rubber yoga mats, which is convenient for adjusting the color distribution effect of the surfaces of the color-striking yoga mats.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a rubber yoga mat hit look processing equipment, includes the frame, install the compression roller in the frame, a plurality of T shape hoppers are installed to the compression roller top, every install the actuating mechanism who drives T shape hopper along compression roller axial reciprocating motion on the T shape hopper, actuating mechanism includes the joint unit of fixed mounting in T shape hopper one side and drives the synchronous pulley that the joint unit moved along compression roller axial, synchronous pulley includes the toothed belt that the level set up, the joint unit includes two first fixture blocks and the second fixture blocks that set up relatively from top to bottom, first fixture block and second fixture block only have a latch joint with on the toothed belt, still include the slide bar that is used for driving first fixture block and second fixture block along vertical direction removal, the joint unit both sides all are provided with the trigger unit, the trigger unit includes the baffle that is used for the butt slide bar, and under the initial state, and one of them latch joint on first or the second fixture block and the toothed belt when the toothed belt removes the slide bar and the baffle joint on the trigger unit of one of them, first fixture block or second fixture block and joint with the toothed belt make the tooth joint and the other one of them move the tooth and make the tooth joint and make the tooth and move the tooth and make the tooth and move another one and draw-bar.

Two fixing rings positioned on two sides of the toothed belt are rotatably arranged on the peripheral side surface of each rotating wheel, and the fixing rings are fixedly connected with the frame.

The fixed ring is fixedly provided with a guide plate, and the trigger unit is arranged on the guide plate.

The trigger unit comprises a sliding block arranged on the guide plate in a sliding manner, a sliding hole used for the guide plate to pass through is formed in the sliding block, a threaded hole communicated with the sliding hole is formed in one side, away from the T-shaped hopper, of the sliding block, a pressure rod is arranged in the threaded hole, a threaded section in threaded connection with the threaded hole is arranged on the pressure rod, a knob is fixedly arranged on one side, away from the T-shaped hopper, of the pressure rod, when the sliding block and the guide plate slide relatively, the pressure rod is separated from the guide plate, and when the sliding block and the guide plate are relatively stationary, the pressure rod is abutted to the guide plate.

The clamping unit comprises a shell fixedly connected with the T-shaped hopper, the first clamping block and the second clamping block are respectively arranged on the upper side and the lower side of the shell in a sliding mode, a first through hole for the first clamping block and the second clamping block to pass through is formed in the shell, the sliding rod is horizontally arranged in the shell, a second through hole for the sliding rod to pass through is formed in the shell, a first movable rod is hinged between the sliding rod and the first clamping block, a second movable rod is hinged between the sliding rod and the second clamping block, a push rod is hinged to the sliding rod, one end of the push rod, far away from the sliding rod, is rotationally connected with an elastic telescopic rod, one end of the elastic telescopic rod, far away from the sliding rod, is fixedly connected with the inner wall of the shell, the elastic telescopic rod stretches out of the shell along the vertical direction, one of the first clamping block or the second clamping block stretches out of the shell to be clamped with the clamping teeth, the other is located in the shell, the axis of the push rod is not perpendicular to the axis of the sliding rod, and one side of the push rod extends out of the outer side of the shell.

The T-shaped hopper is characterized in that the two sides of the T-shaped hopper are fixedly provided with a frame plate, a support frame is arranged on the lower side of the frame plate in a sliding mode, and the support frame is fixedly connected with the frame.

The T-shaped hopper comprises a transverse bin and a vertical bin, and a first belt wheel for driving rubber to move towards the vertical bin is arranged in the transverse bin.

The T-shaped hopper one side is provided with a plurality of conveyer belts, the conveyer belts are overlapped in proper order from bottom to top, each conveyer belt comprises an inclined area and a horizontal area, the horizontal area is positioned above the T-shaped hopper, and each horizontal area terminal of the conveyer belt extends to right above the corresponding T-shaped hopper from bottom to top respectively.

Further, in the initial state, one of the first clamping block or the second clamping block is clamped with the clamping teeth on the toothed belt, the other clamping block is not clamped with the clamping blocks on the toothed belt, and the triggering unit and the guide plate are relatively static.

S1, rotating a knob to drive a sliding block and a baffle plate to slide relative to a guide plate, and adjusting the required position of the sliding block according to color distribution of the color-striking yoga mat;

s2, reversely rotating the knob to enable the sliding block and the baffle to be static relative to the guide plate;

s3, driving the rotating shaft to rotate by external driving, further driving all rotating wheels to rotate, and driving the toothed belt to rotate by rotating the rotating wheels, so that the T-shaped hopper moves along the horizontal direction through the clamping unit;

s4, when the sliding rod on the clamping unit contacts with the baffle plate for the first time, the sliding rod drives the first clamping block or the second clamping block clamped with the toothed belt to shrink inwards of the shell, and drives the other clamping block to extend out of the shell to be clamped with the toothed belt, so that the clamping unit moves reversely, and further drives the T-shaped hopper to move reversely together, so that the T-shaped hopper moves reciprocally along the horizontal direction;

s5, respectively placing rubber with different colors on different conveying belts, and conveying the rubber into corresponding T-shaped hoppers through the conveying belts;

s, conveying rubber in the transverse bin to the vertical bin by a first belt wheel in the 6T-shaped hopper;

s7, paving rubber back to the compression roller along the horizontal direction by a plurality of T-shaped hoppers;

and S8, rotating the press roller to mix the rubber with various colors to form the color-hitting rubber belt.

Compared with the prior art, the invention has the beneficial effects that: according to the required area that each colour covers in the colour yoga mat hits, adjust two trigger unit positions on every T shape hopper, then carry the rubber of different colours respectively to each T shape hopper in, make T shape hopper downside can carry rubber to compression roller department, simultaneously, external drive source drives synchronous pulley and rotates, and then drive T shape hopper along compression roller axial reciprocating motion through the joint unit, because of two trigger unit on every T shape hopper can remove wantonly, thereby every T shape hopper's removal orbit all can be along with the manual scheduling setting, thereby reach the effect that conveniently adjust the colour distribution of colour yoga mat that hits of processing.

Drawings

FIG. 1 is a first variation of the overall structure of the present invention;

FIG. 2 is a second variation of the overall structure of the present invention;

FIG. 3 is a schematic view of a T-shaped hopper and drive mechanism of the present invention;

FIG. 4 is a cross-sectional view of the T-shaped hopper construction of the present invention;

FIG. 5 is a schematic diagram of a trigger unit according to the present invention;

FIG. 6 is an enlarged schematic view of a portion of the present invention at A in FIG. 5;

FIG. 7 is a first variation of the structure of the clamping unit according to the present invention;

FIG. 8 is a schematic diagram of a second variation of the structure of the clamping unit according to the present invention;

fig. 9 is a third variation of the structure of the clamping unit according to the present invention.

In the figure: 1. a frame; 2. a press roller; 3. a T-shaped hopper; 31. a transverse bin; 32. a vertical bin; 33. a first pulley; 34. a second pulley; 4. a conveyor belt; 41. an inclined region; 42. a horizontal zone; 5. a driving mechanism; 51. a clamping unit; 511. a first clamping block; 512. a housing; 513. a first through hole; 514. a slide bar; 515. a first movable lever; 516. a push rod; 517. an elastic telescopic rod; 518. a connecting rod; 519. a loop bar; 5110. a spring; 51111 second through holes; 52. a synchronous pulley; 521. a toothed belt; 522. latch teeth; 523. a rotating wheel; 524. a fixing ring; 525. a motor; 526. a rotating shaft; 53. a trigger unit; 531. a slide block; 532. a slide hole; 533. a threaded hole; 534. a pressure rod; 535. a threaded section; 536. a knob; 537. a baffle; 54. a guide plate; 55. a second clamping block; 56. a second movable rod; 6. a frame plate; 7. and (5) supporting frames.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 and 3, the embodiment provides a color bumping processing device for a rubber yoga mat, which comprises a frame 1, two press rolls 2 for extruding mixed rubber are installed on the frame 1, a plurality of T-shaped hoppers 3 are installed on the frame 1 and above the press rolls 2, one side of the frame 1 is provided with a plurality of conveying belts 4 for conveying the rubber into the T-shaped hoppers 3, each T-shaped hopper 3 is provided with a driving mechanism 5 for driving the T-shaped hoppers 3 to axially move along the press rolls 2, the driving mechanism 5 comprises a clamping unit 51 fixedly installed on one side of the T-shaped hoppers 3 and a synchronous pulley 52 which is horizontally arranged, the clamping unit 51 is positioned on the inner side of the synchronous pulley 52, two triggering units 53 are slidably arranged on the inner side of the synchronous pulley 52 and on two sides of the clamping unit 51 along the horizontal direction, the synchronous pulley 52 comprises a toothed belt 521, the inner side of the toothed belt is provided with a clamping tooth 522, one of the first clamping blocks 511 or the second clamping blocks 55 is clamped with the clamping tooth 522 in an initial state, the other clamping unit 522 is not clamped with the clamping tooth 522 on the toothed belt 522, and the other clamping unit 521 is driven by the other clamping unit 521 to rotate in a direction of the other clamping unit 53 to make the other clamping unit 521 be contacted with the other triggering unit 53, and the other clamping unit 53 is enabled to rotate in a current direction of the clamping unit 522.

When rubber with different colors is required to be mixed and manufactured into a color-striking yoga mat, firstly, according to the required area covered by each color in the color-striking yoga mat, then, the positions of two triggering units 53 on each T-shaped hopper 3 are regulated, then, rubber with different colors is respectively conveyed into each T-shaped hopper 3 through a conveying belt 4, so that the lower side of each T-shaped hopper 3 can convey rubber to a press roller 2, at the same time, an external driving source drives a synchronous belt pulley 52 to rotate, further, a tooth block and the clamping unit 51 are driven to axially move along the press roller 2, and the clamping unit 51 is fixedly connected with the T-shaped hoppers 3, so that the T-shaped hoppers 3 move along with the clamping unit 51, when the clamping unit 51 touches one triggering unit 53, one of a first clamping block 511 or a second clamping block 55 in the clamping unit 51 is separated from a current clamping tooth 522, and the other clamping block 522 is clamped with the other clamping tooth 522 on the other side 521, so that the synchronous belt pulley 52 drives the clamping unit 51 to move towards the other triggering unit 53 until the clamping unit 51 is driven to contact with the other triggering unit 53, and the first clamping block 511 or the other clamping block 55 is reciprocally moved to the other clamping block 522, so that the other clamping block 522 is reciprocally moves along with the T-shaped hopper 522, and the other clamping block is reciprocally moved to the other clamping block 522, and the T-shaped hopper is reciprocally kept to be equal to the speed;

because the two trigger units 53 on each T-shaped hopper 3 can move at will, the moving track of each T-shaped hopper 3 can be set along with manual adjustment, for example, the rubber flowing out from the lower side of each T-shaped hopper 3 can flow to the opposite side from one side of the press roller 2, and can reciprocate, or reciprocate from the middle part of the press roller 2 to one side of the press roller 2, or adjust the moving position of each T-shaped hopper 3 above the press roller 2 according to the color region of the color-hitting rubber, thereby achieving the effect of manufacturing different color-hitting yoga mats.

Referring to fig. 3, the synchronous pulley 52 includes two rotating wheels 523 that drive the toothed belt 521 to move, and are respectively located at two sides of the toothed belt, and two fixing rings 524 located at two sides of the toothed belt 521 are rotatably mounted on the circumferential side of each rotating wheel 523, and the fixing rings 524 are fixedly connected with the frame 1.

Referring to fig. 2 and 3, a motor 525 is fixedly mounted on the frame 1, a rotating shaft 526 is fixedly mounted at the axle center of a rotating wheel 523 on the same side of each synchronous pulley 52, and the rotating shaft 526 is fixedly connected with an output shaft of the motor 525.

The motor 525 rotates to drive the rotating shaft 526 to rotate, and the rotating wheels 523 on the same side of each synchronous pulley 52 are fixedly connected with the rotating shaft 526, so that the rotating wheels 523 on each synchronous pulley 52 synchronously rotate, the moving speeds of the toothed belts 521 on each synchronous pulley 52 are the same, and the moving speeds of each T-shaped hopper 3 are the same and uniform.

Referring to fig. 3, a guide plate 54 is fixedly mounted on the fixing ring 524, and the trigger unit 53 is slidably disposed on the guide plate 54.

Referring to fig. 3, 5 and 6, the trigger unit 53 includes a slider 531 slidably disposed on the guide plate 54, the slider 531 is provided with a sliding hole 532 for the guide plate 54 to pass through, a threaded hole 533 communicating with the sliding hole 532 is provided on a side of the slider 531 away from the T-shaped hopper 3, a pressure rod 534 is installed in the threaded hole 533, a threaded section 535 in threaded connection with the threaded hole 533 is provided on the pressure rod 534, a knob 536 is fixedly installed on a side of the pressure rod 534 away from the T-shaped hopper 3, a trigger is fixedly installed on a side of the slider 531 close to the T-shaped hopper 3, and when the slider 531 slides relatively to the guide plate 54, the pressure rod 534 is separated from the guide plate 54, and when the slider 531 and the guide plate 54 are relatively stationary, the pressure rod 534 abuts against the guide plate 54.

In the initial state, the slider 531 is in a stationary state with respect to the guide plate 54, the pressure lever 534 is grounded to the guide plate 54, and the movement of the slider 531 is restricted by friction between the pressure lever 534 and the guide plate 54. When the position of the slider 531 needs to be adjusted, that is, when the position of the trigger unit 53 needs to be adjusted, the knob 536 is manually turned to drive the pressure rod 534 to rotate, and the pressure rod 534 is gradually moved away from the guide plate 54 due to the threaded connection of the threaded section 535 and the threaded hole 533, so that the slider 531 is moved, and the slider 531 can be moved along the length direction of the guide plate 54 due to no friction force between the pressure rod 534 and the guide plate 54, and when the slider 531 is moved to a desired position, the knob 536 is reversely rotated again, so that the pressure rod 534 moves in the direction of the guide plate 54 and finally abuts against the guide plate 54, thereby limiting the movement of the slider 531.

Referring to fig. 3 and 7, the clamping unit 51 includes a housing 512 fixedly connected to the T-shaped hopper 3, the first clamping block 511 and the second clamping block 55 are respectively slidably disposed on the upper and lower sides of the housing 512, a first through hole 513 for passing through the first clamping block 511 and the second clamping block 55 is formed in the housing 512, a slide bar 514 moving along the horizontal direction is slidably disposed in the housing 512, a second through hole 51111 for passing through the slide bar is formed in the housing, a first movable rod 515 is hinged between the slide bar 514 and the first clamping block 511, a second movable rod 56 is hinged between the slide bar 514 and the second clamping block 55, a push rod 516 is hinged on the slide bar 514, one end of the push rod 516 away from the slide bar 514 is rotatably connected with an elastic telescopic rod 517, one end of the elastic telescopic rod 517 away from the slide bar 514 is fixedly connected with the inner wall of the housing 512, the elastic telescopic rod 517 stretches out in the vertical direction, in an initial state, one of the first clamping block 51 or the second clamping block 55 stretches out of the housing 512 and is clamped with the tooth 522, the other clamping block is located in the housing 512 and is not clamped with the tooth 522, the axial line of the push rod 516 is not perpendicular to the axial line of the slide bar 514, and the second movable rod 56 is hinged between the slide bar 514 and the second clamping block 55, and one end is hinged is further hinged with the push rod 516.

As shown in the figure, since the clamping block 511 located at the upper side of the housing 512 in the initial state is clamped with the clamping tooth 522, one end of the push rod 516, which is close to the sliding rod 514, is located at the right side of the elastic telescopic rod 517, and along with the movement of the toothed belt 521, the housing 512 is driven to move towards the right side of the triggering unit 53, at this time, the right side of the sliding rod 514 is located outside the housing 512, when the right side of the sliding rod 514 contacts with the baffle 537 in the triggering unit 53, the baffle 537 is stopped, so that along with the movement of the housing 512, the sliding rod 514 moves towards the left side relative to the housing 512, the clamping block 511 clamped with the clamping tooth 522 is driven by the movable rod 515 to gradually shrink inwards of the housing 512, and the clamping block 511 not clamped with the clamping tooth 522 is driven by the movable rod 515 to stretch outwards of the housing 512, and meanwhile, when the sliding rod 514 moves towards the left side, the end of the sliding rod 516, which is close to the sliding rod 514, moves towards the left side, so that the end of the sliding rod 516 is far away from the sliding rod 514, to push the elastic telescopic rod 517 to shrink.

When the push rod 516 moves to the position that the axis of the push rod 516 is perpendicular to the axis of the slide rod 514, the upper clamping block 511 is just separated from the latch 522, the lower clamping block 511 is to be clamped with the latch 522, the shell 512 still moves towards the right side under the action of inertia, so that the slide rod 514 continues to move leftwards relative to the shell 512, the upper clamping block 511 is driven to move inwards of the shell 512, the lower clamping block 511 is clamped with the latch 522, the slide rod 514 drives one end of the push rod 516 close to the slide rod 514 to move leftwards, at the moment, the elastic telescopic rod 517 starts to stretch, so that the slide rod 514 is pushed to move leftwards by the push rod 516 until the axis of the lower movable rod 515 is perpendicular to the axis of the slide rod 514, at the moment, the left side of the slide rod 514 is positioned outside the shell 512, and the shell 512 is driven to move leftwards along with the movement of the toothed belt 521 until the next trigger unit 53 is touched, and then moves rightwards, so that the effect of driving the T-shaped hopper 3 to reciprocate is achieved.

Referring to fig. 7, the elastic telescopic rod 517 includes a connecting rod 518 hinged to the push rod 516, a sleeve rod 519 is sleeved on a side of the connecting rod 518 away from the push rod 516, the sleeve rod 519 is fixedly connected with an inner wall of the housing 512, and a spring 5110 is fixedly installed between the inner wall of the sleeve rod 519 and the connecting rod 518.

When the rod 516 moves to a state where the rod 516 axis is perpendicular to the rod 514 axis, the rod 518 is retracted into the rod 519 while compressing the spring 5110, but the rod 518 moves to the outside of the rod 519 while expanding the spring 5110 beyond the state where the rod 516 axis of the rod 516 is perpendicular to the rod 514 axis.

Referring to fig. 3, in order to facilitate the sliding of the T-shaped hopper 3, the two sides of the T-shaped hopper 3 are fixedly provided with a frame plate 6, a supporting frame 7 is slidingly provided below the frame plate 6, and the supporting frame 7 is fixedly connected with the frame 1.

Through the support frame 7, thereby in the process of moving the T-shaped hopper 3 left and right, the frame plate 6 is driven to slide on the support frame 7, so that the sliding of the support is ensured.

Referring to fig. 4, the t-shaped hopper 3 includes a transverse bin 31 and a vertical bin 32, a first belt pulley 33 for driving rubber to move toward the vertical bin 32 is disposed in the transverse bin 31, and an electric motor for driving the belt pulley to rotate is mounted on the belt pulley. When the conveyer belt 4 conveys rubber into the T-shaped hopper 3, as one side of the conveyer belt 4 close to the T-shaped hopper 3 does not move, part of rubber falls into the transverse bin 31, so that the rubber in the transverse bin 31 falls onto the press roller 2 for convenience, and is conveyed into the vertical bin 32 through the belt pulley.

Referring to fig. 4, to reduce the adhesion of rubber to the inner wall of the vertical bin 32, the inner wall of the vertical bin 32 is provided with a second pulley 34 that conveys rubber downward. The rubber in the vertical bin 32 is conveyed by the second pulley 34.

Referring to fig. 1, the conveyor belt 4 conveys rubber to the respective T-shaped hoppers 3 for convenience. The conveyer belts 4 are multiple, and in turn, each conveyer belt 4 comprises an inclined area 41 and a horizontal area 42, the horizontal area 42 is located above the T-shaped hopper 3, and the terminal end of the horizontal area 42 of each conveyer belt 4 extends to the position right above each corresponding T-shaped hopper 3 from bottom to top.

Rubber with different colors is conveyed into different T-shaped hoppers 3 through different conveying belts 4, so that the rubber is conveyed conveniently.

The implementation principle is as follows: in the initial state, one clamping block 511 is clamped with the clamping teeth 522 on the toothed belt 521, the other clamping block 511 is not clamped with the clamping block 511 on the toothed belt 521, the triggering unit 53 and the guide plate 54 are relatively static,

s1, rotating a knob 536 to enable a sliding block 531 to be arranged in a sliding mode relative to a baffle 537, then driving the sliding block 531 and the baffle 537 to move relative to a guide plate 54, and determining the required position of the sliding block 531 according to color distribution of the color-striking yoga mat;

s2, reversely rotating the knob 536 to enable the sliding block 531 and the stop block to be static relative to the guide plate 54;

s3, driving the rotating shaft 526 to rotate by external driving, further driving all the rotating wheels 523 to rotate, and driving the toothed belt 521 to rotate by the rotating wheels 523, so that the T-shaped hopper 3 moves along the horizontal direction through the clamping unit 51;

s4, when the slide bar 514 on the clamping unit 51 contacts with the baffle 537 for the first time, the slide bar 514 drives the clamping block 511 clamped with the toothed belt 521 to shrink inwards of the shell 512, and simultaneously drives the other clamping block 511 to be clamped with the toothed belt 521, so that the clamping unit 51 moves reversely, and further drives the T-shaped hopper 3 to move reversely together, so that the T-shaped hopper 3 moves reciprocally in the horizontal direction;

s5, respectively placing rubber with different colors on different conveying belts 4, and conveying the rubber into corresponding T-shaped hoppers 3 through the conveying belts 4;

s6, conveying rubber in the transverse bin 31 to the vertical bin 32 by a first belt wheel 33 in the T-shaped hopper 3;

s7, paving the rubber back to the compression roller 2 along the horizontal direction by a plurality of T-shaped hoppers 3;

and S8, rotating the press roll 2 to mix the rubber with various colors to form the color-hitting rubber belt.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (10)

1. The utility model provides a rubber yoga mat hit look processing equipment, includes frame (1), its characterized in that, install compression roller (2) on frame (1), install a plurality of T shape hoppers (3) above compression roller (2), install on every T shape hopper (3) drive T shape hopper (3) along compression roller (2) axial reciprocating motion's actuating mechanism (5), actuating mechanism (5) including fixed mounting in the joint unit (51) of T shape hopper (3) one side and drive joint unit (51) along compression roller (2) axial motion's synchronous pulley (52), synchronous pulley (52) include tooth area (521) of level setting, joint unit (51) include two relative first fixture block (511) and second fixture block (55) that set up from top to bottom, only have one with tooth (522) joint on tooth area (521) first fixture block (511) and second fixture block (55), still include and be used for driving first fixture block (511) and second fixture block (55) along vertical movement's joint unit (514) axial movement's synchronous pulley (52), trigger unit (53) are used for both sides (53) are all set up under trigger unit (514) initial slide bar (53), one of the first clamping block (511) or the second clamping block (55) is clamped with a clamping tooth (522) on the toothed belt (521).

2. The color bumping processing device of the rubber yoga mat according to claim 1, wherein the synchronous pulley (52) comprises two rotating wheels (523) for driving the toothed belt (521) to move, and the rotating wheels are respectively positioned at two sides of the toothed belt (521).

3. The color-striking processing device of the rubber yoga mat according to claim 2, wherein each rotating wheel (523) is rotatably provided with two fixing rings (524) positioned at two sides of the toothed belt (521), and the fixing rings (524) are fixedly connected with the frame (1).

4. A color bumping processing device for rubber yoga mats according to claim 3, wherein the fixing ring (524) is fixedly provided with a guide plate (54), and the triggering unit (53) is mounted on the guide plate (54).

5. The color bumping processing device of the rubber yoga mat according to claim 4, wherein the triggering unit (53) comprises a sliding block (531) arranged on the guide plate (54) in a sliding manner, the sliding block (531) is provided with a sliding hole (532) for the guide plate (54) to pass through, one side of the sliding block (531) away from the T-shaped hopper (3) is provided with a threaded hole (533) communicated with the sliding hole (532), the threaded hole (533) is internally provided with a pressure rod (534), the pressure rod (534) is provided with a threaded section (535) in threaded connection with the threaded hole (533), one side of the pressure rod (534) away from the T-shaped hopper (3) is fixedly provided with a knob (536), when the sliding block (531) and the guide plate (54) slide relatively, the pressure rod (534) is separated from the guide plate (54), and when the sliding block (531) and the guide plate (54) are relatively stationary, the pressure rod (534) is abutted against the guide plate (54).

6. The device for processing the color of the rubber yoga mat according to claim 5, wherein the clamping unit (51) comprises a shell (512) fixedly connected with the T-shaped hopper (3), the first clamping block (511) and the second clamping block (55) are respectively arranged on the upper side and the lower side of the shell (512) in a sliding mode, a first through hole (513) for allowing the first clamping block (511) and the second clamping block (55) to pass through is formed in the shell (512), the sliding rod (514) is horizontally arranged in the shell, a second through hole (51111) for allowing the sliding rod (512) to pass through is formed in the shell, a first movable rod (515) is hinged between the sliding rod (514) and the first clamping block (511), a second movable rod (56) is hinged between the sliding rod (514) and the second clamping block (55), a push rod (516) is hinged on the sliding rod (514), one end, far away from the sliding rod (514), of the push rod (516) is rotationally connected with an elastic telescopic rod (517), the elastic rod (517) is far from the inner wall (512) of the shell (512) in a vertical direction, the elastic rod (512) is fixedly connected with one end (512) of the other end (512) along the direction of the first clamping block (512) in a vertical direction, the axial line of the push rod (516) is not perpendicular to the axial line of the slide rod (514) without being clamped with the clamping teeth (522), and one side of the slide rod (514) extends out of the shell (512).

7. The color-striking processing device of the rubber yoga mat according to claim 1, wherein the frame plates (6) are fixedly installed on two sides of the T-shaped hopper (3), the support frames (7) are arranged on the lower sides of the frame plates (6) in a sliding mode, and the support frames (7) are fixedly connected with the frame (1).

8. The color-striking processing device of the rubber yoga mat according to claim 1, wherein the T-shaped hopper (3) comprises a transverse bin (31) and a vertical bin (32), and a first belt wheel (33) for driving rubber to move towards the vertical bin (32) is arranged in the transverse bin (31).

9. The color-striking processing device of the rubber yoga mat according to claim 1, wherein a plurality of conveying belts (4) are arranged on one side of the T-shaped hopper (3), the conveying belts (4) are sequentially overlapped from bottom to top, each conveying belt (4) comprises an inclined area (41) and a horizontal area (42), the horizontal area (42) is located above the T-shaped hopper (3), and the terminal end of the horizontal area (42) of each conveying belt (4) extends to the position right above the corresponding T-shaped hopper (3) from bottom to top.

10. The process of the color bumping processing equipment of the rubber yoga mat according to one of claims 1 to 9, which is characterized in that: in the initial state, one of the first clamping block (511) or the second clamping block (55) is clamped with the clamping teeth (522) on the toothed belt (521), the other clamping block is not clamped with the clamping block (511) on the toothed belt (521), and the triggering unit (53) and the guide plate (54) are relatively static.

S1, rotating a knob (536) to drive a slider (531) and a baffle (537) to slide relative to a guide plate (54), and adjusting the required position of the slider (531) according to color distribution of the color-striking yoga mat;

s2, reversely rotating the knob (536) to enable the sliding block (531) and the baffle (537) to be static relative to the guide plate (54);

s3, driving the rotating shaft (526) to rotate by external driving, further driving all rotating wheels (523) to rotate, and driving the toothed belt (521) to rotate by rotating the rotating wheels (523), so that the T-shaped hopper (3) moves along the horizontal direction through the clamping unit (51);

s4, when the sliding rod (514) on the clamping unit (51) is contacted with the baffle (537) for the first time, the sliding rod (514) drives the first clamping block (511) or the second clamping block (55) which is clamped with the toothed belt (521) to shrink inwards towards the shell (512), and drives the other extending shell (512) to be clamped with the toothed belt (521) at the same time, so that the clamping unit (51) moves reversely, and further drives the T-shaped hopper (3) to move reversely together, so that the T-shaped hopper (3) moves reciprocally along the horizontal direction;

s5, respectively placing rubber with different colors on different conveying belts (4), and conveying the rubber into corresponding T-shaped hoppers (3) through the conveying belts (4);

s6, conveying rubber in a transverse bin (31) to a vertical bin (32) by a first belt wheel (33) in the T-shaped hopper (3);

s7, paving rubber back on the press roller (2) along the horizontal direction by a plurality of T-shaped hoppers (3);

and S8, rotating the press roller (2) to mix the rubber with multiple colors to form the color-hitting rubber belt.