CN109383013A - Segmented mold tire rubber tread manufacturing device - Google Patents

Abstract

The present invention provides a kind of segmented mold tire rubber tread manufacturing devices, including tire heating fixing mould, tire pressure die group and tire to grab mould group；The tire crawl mould group closes on the tire crawl mould group setting, for tire to be processed being grabbed and is put into the tire heating fixing mould, when the tire pressure die group carries out heating production lines to the tire for tire heating fixing mould, the upper surface of tire is compressed.

Description

Segmented mold tire rubber tread manufacturing device

Technical field

The present invention relates to tyre production field, in particular to a kind of segmented mold tire rubber tread manufacturing device.

Background technique

In the prior art, the lines for increasing frictional force is provided with for tire wall, still, in the prior art, It is high in the equipment manufacturing cost of tire wall production lines, and structure is complicated.

Therefore, the prior art is defective, needs to improve.

Summary of the invention

The object of the present invention is to provide a kind of segmented mold tire rubber tread manufacturing device, have structure simple, cost compared with Low beneficial effect.

The embodiment of the present invention provides a kind of segmented mold tire rubber tread manufacturing device, including tire heating fixing mould, Tire pressure die group and tire grab mould group；

The tire crawl mould group closes on the tire crawl mould group setting, described for grabbing and being put by tire to be processed Tire heats in fixing mould, and the tire pressure die group heats the tire for tire heating fixing mould When making lines, the upper surface of tire is compressed.

In segmented mold tire rubber tread manufacturing device of the present invention, the tire heating fixing mould includes: Pedestal, the fixed mechanism for fixing tire, multiple hot briquetting block assemblies and multiple cylinder driving assemblies；The fixed machine Structure is set to the pedestal upper surface, and the pedestal upper surface is provided with multiple sliding rails, and the multiple sliding rail surrounds the fixation Mechanism is uniformly arranged and radially extends outwardly, and a hot briquetting block assembly, institute are provided on each sliding rail It states cylinder driving assembly to be set on the pedestal, each cylinder driving assembly is for driving a hot briquetting block Component slides between the first position and the second position along the sliding rail；The multiple hot briquetting block assembly is respectively positioned on first When position, multiple hot briquetting block assembly is along the first default circumferential arrangement in the inner wall of multiple hot briquetting block assembly Face forms the groove body being adapted to tire outer profile, multiple to add when the multiple hot briquetting block assembly is respectively positioned on the second position When thermoforming block assembly is respectively positioned on the second position, multiple hot briquetting block assembly is along the second default circumferential arrangement, and described The diameter of one default circumference is less than the diameter of the described second default circumference.

In segmented mold tire rubber tread manufacturing device of the present invention, the hot briquetting block assembly includes mold Block and heating mechanism are provided on the inside of the mold block and are adapted to groove with the local outer profile of tire, the inner wall of the groove On be provided with for forming the pattern structure of lines by heating coining on the outer wall of tire, the heating mechanism is set to The outer side surface of the mold block is for heating the mold block.

In segmented mold tire rubber tread manufacturing device of the present invention, the top edge of the medial surface of the mold block And lower edge is respectively arranged with the first arc-shaped step and the second arc-shaped step, first arc-shaped step and the second arc platform Rank is for limiting the tire being caught in groove.

In segmented mold tire rubber tread manufacturing device of the present invention, the heating mechanism is thermal conductive container, institute It states thermal conductive container and is provided with hot oil inlet and hot oil outlet, which is used to access external high-temperature hot oil, the hot oil Export the hot oil for being discharged in the thermal conductive container.

In segmented mold tire rubber tread manufacturing device of the present invention, the tire crawl mould group includes: machinery Arm and the grabbing assembly for being set to the mechanical arm end；The grabbing assembly includes cylinder assembly, cylinder assembly, the first company Disk, the second terminal pad and at least three click-on mechanisms are connect, the cylinder assembly is set to inside the cylinder assembly, and described The push rod of cylinder assembly stretches out in the lower end of the cylinder assembly, and the first terminal pad fixing sleeve is set to the cylinder assembly Lower end, the second terminal pad fixing sleeve are set to the lower end of the push rod, and at least three click-on mechanism is around the cylinder The axis of component is arranged for protruding into tire the inner wall for blocking tire；

The click-on mechanism includes claw portion, the first linking arm, the second linking arm and third linking arm, first linking arm One end is rotatably attached with the claw portion, and the other end of first linking arm is rotatably attached with the cylinder assembly；This One end of two linking arms and one end of the third linking arm are rotatably attached with the first rotating shaft in the claw portion, this The other end of two linking arms is rotatably connected with first terminal pad, and the other end of the third linking arm and second terminal pad can Rotation connection；

The cylinder assembly is used to drive second terminal pad to move up and down along the axis by its push rod, to drive It states the second linking arm and third linking arm to open or shrink, so that the claw portion inside contracts or far towards the axis It is opened from the axis.

In segmented mold tire rubber tread manufacturing device of the present invention, the claw portion includes attachment base, clamping Arm and retaining mechanism, the attachment base are rotatable with first linking arm, the second linking arm and third linking arm respectively The connection that connection, the clamping arm and the attachment base can stretch along preset direction, the preset direction and the axis hang down Directly, the retaining mechanism is used to lock on the clamping arm and the attachment base.

In segmented mold tire rubber tread manufacturing device of the present invention, the attachment base includes the first vertical base Plate, first bearing, second bearing, the first connecting plate and the second connecting plate；The first bearing and second bearing are set respectively It is placed in the upper and lower ends of the one side towards the axis of the described first vertical substrate, first connecting plate and described second Connecting plate is respectively arranged at the upper and lower ends of the one side far from the axis of the described first vertical substrate；Second linking arm And third linking arm is rotatably connected by the first rotating shaft and the second bearing, first linking arm and described the One bearing is rotatably connected；

The clamping arm includes the second vertical substrate, third connecting plate, the 4th connecting plate and snap-gauge；The third connecting plate is set It is placed in the upper end of the one side towards the axis of the described second vertical substrate, the 4th connecting plate is set to described The lower end of the one side towards the axis of two vertical substrates, the snap-gauge are set to the separate of the second vertical substrate The lower end of the one side of the axis；

First connecting plate can telescopically be connect with the third connecting plate along the preset direction, second connecting plate It can telescopically be connect along the preset direction with the 4th connecting plate.

In segmented mold tire rubber tread manufacturing device of the present invention, the third connecting plate and the 4th connection The perforation extended along the preset direction is respectively arranged on plate, on first connecting plate and second connecting plate It is provided with through-hole；

The retaining mechanism includes the first bolt, the first nut, the second bolt and the second nut, the end of first bolt Through-hole on first connecting plate is simultaneously slideably arranged in the perforation on the third connecting plate, first spiral shell Cap is installed on the end for stating the first bolt for locking the third connecting plate；

The end of second bolt passes through the through-hole on second connecting plate and is slideably arranged in the 4th connection In perforation on plate, second nut is installed on second bolt end for locking the 4th connecting plate Extremely.

The present invention heats fixing mould, tire pressure die group and tire by setting tire and grabs mould group；The tire Crawl mould group closes on the tire crawl mould group setting, fixes for tire to be processed to be grabbed to and is put into the tire heating In mold, when the tire pressure die group carries out heating production lines to the tire for tire heating fixing mould, The upper surface of tire, which is compressed, has structure simple, lower-cost beneficial effect.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of the segmented mold tire rubber tread manufacturing device in the embodiment of the present invention.

Fig. 2 is the structural schematic diagram of the tire heating fixing mould in the embodiment of the present invention.

Fig. 3 is the structural schematic diagram of the tire crawl mould group in the embodiment of the present invention.

Fig. 4 is the structural schematic diagram of the tire pressure die group in the embodiment of the present invention.

Specific embodiment

Embodiments of the present invention are described below in detail, the example of the embodiment is shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining attached drawing description is exemplary, and for explaining only the invention, and is not considered as limiting the invention.

In the description of the present invention, it is to be understood that, term " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", " up time The orientation or positional relationship of the instructions such as needle ", " counterclockwise " is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of The description present invention and simplified description, rather than the device or element of indication or suggestion meaning must have a particular orientation, with spy Fixed orientation construction and operation, therefore be not considered as limiting the invention.In addition, term " first ", " second " are only used for Purpose is described, relative importance is not understood to indicate or imply or implicitly indicates the quantity of indicated technical characteristic. " first " is defined as a result, the feature of " second " can explicitly or implicitly include one or more feature.? In description of the invention, the meaning of " plurality " is two or more, unless otherwise specifically defined.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can To be mechanical connection, it is also possible to be electrically connected or can mutually communicate；It can be directly connected, it can also be by between intermediary It connects connected, can be the connection inside two elements or the interaction relationship of two elements.For the ordinary skill of this field For personnel, the specific meanings of the above terms in the present invention can be understood according to specific conditions.

In the present invention unless specifically defined or limited otherwise, fisrt feature second feature "upper" or "lower" It may include that the first and second features directly contact, also may include that the first and second features are not direct contacts but pass through it Between other characterisation contact.Moreover, fisrt feature includes the first spy above the second feature " above ", " above " and " above " Sign is right above second feature and oblique upper, or is merely representative of first feature horizontal height higher than second feature.Fisrt feature exists Second feature " under ", " lower section " and " following " include that fisrt feature is directly below and diagonally below the second feature, or is merely representative of First feature horizontal height is less than second feature.

Following disclosure provides many different embodiments or example is used to realize different structure of the invention.In order to Simplify disclosure of the invention, hereinafter the component of specific examples and setting are described.Certainly, they are merely examples, and And it is not intended to limit the present invention.In addition, the present invention can in different examples repeat reference numerals and/or reference letter, This repetition is for purposes of simplicity and clarity, itself not indicate between discussed various embodiments and/or setting Relationship.In addition, the present invention provides various specific techniques and material example, but those of ordinary skill in the art can be with Recognize the application of other techniques and/or the use of other materials.

Fig. 1 is please referred to, Fig. 1 is the knot of one of some embodiments of the invention segmented mold tire rubber tread manufacturing device Structure schematic diagram.The segmented mold tire rubber tread manufacturing device includes tire heating fixing mould 100, tire pressure die group 300 And tire grabs mould group 200；Tire crawl mould group 200 is closed on tire heating fixing mould 100 and is arranged, and being used for will be to be added The tire 400 of work is grabbed and is put into the tire heating fixing mould 100, and the tire pressure die group 300 in tire for adding When thermosetting fixed mold 100 carries out heating production lines to the tire 400, the upper surface of tire 400 is compressed.

Specifically, referring to figure 2., tire heating fixing mould 100 includes: pedestal 11, the fixation for fixing tire Mechanism 13, multiple hot briquetting block assemblies 14 and multiple cylinder driving assemblies 12；The fixed mechanism 13 is set to the base 11 upper surfaces of seat, 11 upper surface of pedestal are provided with multiple sliding rails 111, and the multiple sliding rail 111 surrounds the fixed mechanism 13 are uniformly arranged and radially extend outwardly, and a hot briquetting block assembly 14 is provided on each sliding rail 111, The cylinder driving assembly 12 is set on the pedestal 11, and each cylinder driving assembly 12 described in driving one for adding Thermoforming block assembly 14 slides between the first position and the second position along the sliding rail 111；The multiple hot briquetting block When component 14 is respectively positioned on first position, multiple hot briquetting block assembly 14 is along the first default circumferential arrangement to add multiple The inner wall of thermoforming block assembly 14 forms the groove body being adapted to tire outer profile, the equal position of the multiple hot briquetting block assembly 14 When the second position, when multiple hot briquetting block assembly 14 is respectively positioned on the second position, multiple 14 edge of hot briquetting block assembly The second default circumferential arrangement, the diameter of the first default circumference be less than the diameter of the described second default circumference.Hot briquetting It when block assembly 14 is located at the second position, is put into wherein for tire, when hot briquetting block assembly 14 is located at first position, can incite somebody to action Tire blocks.

Wherein, the hot briquetting block assembly 14 include mold block 142 and heating mechanism 141, the mold block 142 it is interior Side, which is provided with, is adapted to groove with the local outer profile of tire, is provided on the inner wall of the groove for leading on the outer wall of tire Cross heating coining and form the pattern structure of lines, the heating mechanism 141 be set to the outer side surface of the mold block 142 with It is heated in the mold block 142.The top edge of the medial surface of mold block 142 and lower edge are respectively arranged with the first arc 1422 rank of shape step 1421 and the second arc platform, first arc-shaped step 1421 and the second arc-shaped step 1422 are used for card The tire entered in groove is limited.Wherein, the heating mechanism 141 be thermal conductive container, the thermal conductive container be provided with hot oil into Mouth and hot oil outlet, the hot oil inlet are used to access external high-temperature hot oil, and the hot oil outlet is for being discharged the thermal conductive container Interior hot oil.

Referring to figure 3., tire crawl mould group 200 includes: mechanical arm 202 and is set to 202 end of mechanical arm Grabbing assembly 201.

The grabbing assembly 201 include cylinder assembly 21, cylinder assembly 22, the first terminal pad 24, the second terminal pad 25 and At least three click-on mechanisms 23, the cylinder assembly 22 be set to inside the cylinder assembly, and the cylinder assembly 22 pushes away Bar stretches out in the lower end of the cylinder assembly, and 24 fixing sleeve of the first terminal pad is set to the lower end of the cylinder assembly, described Second terminal pad, 25 fixing sleeve is set to the lower end of the push rod, and at least three click-on mechanism 23 is around the cylinder assembly 21 Axis be arranged for protruding into tire the inner wall for blocking tire.

Wherein, which includes that claw portion 231, the first linking arm 232, the second linking arm 233 and third connect Connect arm 234, one end of first linking arm 232 is rotatably attached with the claw portion 231, first linking arm 232 it is another End is rotatably attached with the cylinder assembly；One end of second linking arm 233 and one end of the third linking arm 234 with First rotating shaft in the claw portion 231 is rotatably attached, and the other end of second linking arm 233 and first terminal pad 24 can Rotation connection, the other end of the third linking arm 234 are rotatably connected with second terminal pad 25.

The cylinder assembly 22 is used to drive second terminal pad 25 to move down on the axis by its push rod 221 It is dynamic, to drive second linking arm 233 and third linking arm 234 to open or shrink, so that 231 court, claw portion It inside contracts to the axis or is opened far from the axis, the click-on mechanism 23 can be inserted into tire when inside contracting, then Opening can pick up tire.

Specifically, which includes attachment base 231b, clamping arm 231a and retaining mechanism 231c, the connection Seat 231b is rotatably connected with first linking arm 232, the second linking arm 233 and third linking arm 234 respectively, the card The connection that the tight arm 231a and attachment base 231b can stretch along preset direction, the preset direction is vertical with the axis, The retaining mechanism 231c is used to lock the clamping arm 231a and attachment base 231b.The application is by by attachment base 231b, clamping arm 231a are scalable to connect the tire for allowing to be adapted to more kinds of sizes.

Wherein, attachment base 231b includes the first vertical substrate 2321, first bearing 2323, the company of second bearing 2325, first Fishplate bar 2322 and the second connecting plate 2324；The first bearing 2323 and second bearing 2325 are respectively arranged at described first The upper and lower ends of the one side towards the axis of vertical substrate 2321, first connecting plate 2322 and second connection Plate 2324 is respectively arranged at the upper and lower ends of the one side far from the axis of the described first vertical substrate 2321；Described second connects It connects arm 233 and third linking arm 234 to be rotatably connected by the first rotating shaft and the second bearing 2325, described first Linking arm 232 is rotatably connected with the first bearing 2323；First rotating shaft is plugged in the second bearing 2325.

The clamping arm 231a include the second vertical substrate 2312, third connecting plate 2311, the 4th connecting plate 2313 and Snap-gauge 2314；The third connecting plate 2311 is set to the upper of the one side towards the axis of the described second vertical substrate 2312 End, the 4th connecting plate 2313 are set under the one side towards the axis of the described second vertical substrate 2312 End, the snap-gauge 2314 are set to the lower end of the one side far from the axis of the described second vertical substrate 2312；It is described First connecting plate 2322 can telescopically be connect with the third connecting plate 2311 along the preset direction, second connecting plate 2324 can telescopically connect with the 4th connecting plate 2313 along the preset direction.

Specifically, it is respectively arranged on the third connecting plate 2311 and the 4th connecting plate 2313 along the default side To the perforation 23111 of extension, through-hole is provided on first connecting plate 2322 and second connecting plate 2324；It is described Retaining mechanism 231c includes the first bolt, the first nut, the second bolt and the second nut, and the end of first bolt passes through In through-hole on first connecting plate 2322 and the perforation 23111 being slideably arranged on the third connecting plate 2311, First nut is installed on the end for stating the first bolt for locking the third connecting plate 2311；Second spiral shell The end of bolt passes through the through-hole on second connecting plate 2324 and is slideably arranged on the 4th connecting plate 2313 In perforation, second nut is installed on second bolt end for locking the 4th connecting plate 2313.

Wherein, which includes coaxially connected big cylinder 211 and small cylinder 212, and the small cylinder 212 is located at described Big 211 lower section of cylinder, first terminal pad are fixedly sheathed in the lower end of the small cylinder 211, and the cylinder assembly is installed on described In big cylinder, and the push rod 221 of the cylinder assembly 22 is extended downwardly in the small cylinder 212.First linking arm 232 is connected to The lower end of the lateral wall of the big cylinder that is to say and be provided in the lower end of the lateral wall of big cylinder for rotating connection first connection The bearing block of arm 232.

Certainly, first terminal pad 24, in the form of a circular plate in the second terminal pad 25, and be provided with each along itself circumference At least three bearing blocks, to realize that the rotation for the second linking arm and third linking arm connects.It will of course be understood that ground, Support frame or robot can also be arranged to install the mechanical arm in tire crawl mould group 200, which is the prior art In common mechanical arm.

Referring to figure 4., tire pressure die group 300 includes cabinet 31, elevating lever 32, the first driving mechanism 33, pushes against plate 34, the first limit plate 35, support column 36, the second limit plate 37 and the second driving mechanism 38.

Wherein, which is arranged through 31 upper and lower ends of cabinet, and first driving mechanism 33 is set to the case For driving the elevating lever 32 to slide up and down in body 31, the abutting plate 34 be set to 32 bottom end of elevating lever for by tire end Face pushes against, which is set to the top of the elevating lever 32, which is set to 31 top of cabinet, this Two limit plates 37 are rotatably mounted on the support column 36, and second driving mechanism 33 is connect with second limit plate 37 With for driving second limit plate 37 rotation to 35 top of the first limit plate, to limit on the elevating lever 32 continues It moves.

Wherein, which includes motor and the gear that is set in the rotation axis of the motor, the lifting The tooth-strip part extended vertically is provided on bar, the gear is engaged with the tooth-strip part.

Wherein, which is electronic control cylinder.It is additionally provided with four columns 39 on cabinet 31 and is stood positioned at this Protection cap 310 on column, the protection cap 310 are located at 37 top of the second limit plate.

In the description of this specification, reference term " embodiment ", " certain embodiments ", " schematically implementation What the description of mode ", " example ", " specific example " or " some examples " etc. meant to describe in conjunction with the embodiment or example Particular features, structures, materials, or characteristics are contained at least one embodiment or example of the invention.In this specification In, schematic expression of the above terms are not necessarily referring to identical embodiment or example.Moreover, the specific spy of description Sign, structure, material or feature can be combined in any suitable manner in any one or more embodiments or example.

In conclusion although the present invention has been disclosed above in the preferred embodiment, but above preferred embodiment is not to limit The system present invention, those skilled in the art can make various changes and profit without departing from the spirit and scope of the present invention Decorations, therefore protection scope of the present invention subjects to the scope of the claims.

Claims (9)

1. a kind of segmented mold tire rubber tread manufacturing device, which is characterized in that compressed including tire heating fixing mould, tire Mould group and tire grab mould group；

The tire crawl mould group closes on the tire crawl mould group setting, described for grabbing and being put by tire to be processed Tire heats in fixing mould, and the tire pressure die group heats the tire for tire heating fixing mould When making lines, the upper surface of tire is compressed.

2. segmented mold tire rubber tread manufacturing device according to claim 1, which is characterized in that the tire heating is solid Fixed mold includes: pedestal, the fixed mechanism for fixing tire, multiple hot briquetting block assemblies and multiple cylinder driving groups Part；The fixed mechanism is set to the pedestal upper surface, and the pedestal upper surface is provided with multiple sliding rails, the multiple sliding rail Be uniformly arranged around the fixed mechanism and radially extend outwardly, be provided with one on each sliding rail described in be heated into Type block assembly, the cylinder driving assembly are set on the pedestal, and each cylinder driving assembly is for driving an institute Hot briquetting block assembly is stated to slide between the first position and the second position along the sliding rail；The multiple hot briquetting block group When part is respectively positioned on first position, multiple hot briquetting block assembly is along the first default circumferential arrangement in multiple hot briquetting The inner wall of block assembly forms the groove body being adapted to tire outer profile, and the multiple hot briquetting block assembly is respectively positioned on the second position When, when multiple hot briquetting block assembly is respectively positioned on the second position, multiple hot briquetting block assembly is along the second default circumference Arrangement, the diameter of the first default circumference are less than the diameter of the described second default circumference.

3. segmented mold tire rubber tread manufacturing device according to claim 2, which is characterized in that the hot briquetting block Component includes mold block and heating mechanism, is provided on the inside of the mold block and is adapted to groove with the local outer profile of tire, The pattern structure for forming lines by heating coining on the outer wall of tire is provided on the inner wall of the groove, it is described to add Heat engine structure is set to the outer side surface of the mold block for heating to the mold block.

4. segmented mold tire rubber tread manufacturing device according to claim 3, which is characterized in that the mold block it is interior The top edge of side and lower edge are respectively arranged with the first arc-shaped step and the second arc-shaped step, first arc-shaped step with And second arc-shaped step for being limited to the tire being caught in groove.

5. tire according to claim 4 heats fixing mould, which is characterized in that the heating mechanism is thermal conductive container, The thermal conductive container is provided with hot oil inlet and hot oil outlet, which is used to access external high-temperature hot oil, the heat Oil export is used for the hot oil being discharged in the thermal conductive container.

6. segmented mold tire rubber tread manufacturing device according to claim 1, which is characterized in that the tire grabs mould Group includes: mechanical arm and the grabbing assembly for being set to the mechanical arm end；The grabbing assembly includes cylinder assembly, cylinder Component, the first terminal pad, the second terminal pad and at least three click-on mechanisms, the cylinder assembly are set to the cylinder assembly Inside, and the push rod of the cylinder assembly stretches out in the lower end of the cylinder assembly, the first terminal pad fixing sleeve is set to institute The lower end of cylinder assembly is stated, the second terminal pad fixing sleeve is set to the lower end of the push rod, at least three click-on mechanism Axis around the cylinder assembly is arranged for protruding into tire the inner wall for blocking tire；

The click-on mechanism includes claw portion, the first linking arm, the second linking arm and third linking arm, first linking arm One end is rotatably attached with the claw portion, and the other end of first linking arm is rotatably attached with the cylinder assembly；This One end of two linking arms and one end of the third linking arm are rotatably attached with the first rotating shaft in the claw portion, this The other end of two linking arms is rotatably connected with first terminal pad, and the other end of the third linking arm and second terminal pad can Rotation connection；

The cylinder assembly is used to drive second terminal pad to move up and down along the axis by its push rod, to drive It states the second linking arm and third linking arm to open or shrink, so that the claw portion inside contracts or far towards the axis It is opened from the axis.

7. segmented mold tire rubber tread manufacturing device according to claim 6, which is characterized in that the claw portion includes Attachment base, clamping arm and retaining mechanism, the attachment base connect with first linking arm, the second linking arm and third respectively Connect arm to be rotatably connected, the connection that the clamping arm and the attachment base can stretch along preset direction, the preset direction with The axis is vertical, and the retaining mechanism is used to lock on the clamping arm and the attachment base.

8. according to right to go 7 described in segmented mold tire rubber tread manufacturing device, which is characterized in that the attachment base includes First vertical substrate, first bearing, second bearing, the first connecting plate and the second connecting plate；The first bearing and second Bearing is respectively arranged at the upper and lower ends of the one side towards the axis of the described first vertical substrate, first connecting plate with And second connecting plate is respectively arranged at the upper and lower ends of the one side far from the axis of the described first vertical substrate；It is described Second linking arm and third linking arm are rotatably connected by the first rotating shaft and the second bearing, first connection Arm is rotatably connected with the first bearing；

The clamping arm includes the second vertical substrate, third connecting plate, the 4th connecting plate and snap-gauge；The third connecting plate is set It is placed in the upper end of the one side towards the axis of the described second vertical substrate, the 4th connecting plate is set to described The lower end of the one side towards the axis of two vertical substrates, the snap-gauge are set to the separate of the second vertical substrate The lower end of the one side of the axis；

First connecting plate can telescopically be connect with the third connecting plate along the preset direction, second connecting plate It can telescopically be connect along the preset direction with the 4th connecting plate.

9. according to right to go 8 described in segmented mold tire rubber tread manufacturing device, which is characterized in that the third connecting plate And the 4th be respectively arranged with the perforation extended along the preset direction on connecting plate, first connecting plate and described the Through-hole is provided on two connecting plates；

The retaining mechanism includes the first bolt, the first nut, the second bolt and the second nut, the end of first bolt Through-hole on first connecting plate is simultaneously slideably arranged in the perforation on the third connecting plate, first spiral shell Cap is installed on the end for stating the first bolt for locking the third connecting plate；

The end of second bolt passes through the through-hole on second connecting plate and is slideably arranged in the 4th connection In perforation on plate, second nut is installed on second bolt end for locking the 4th connecting plate Extremely.