CN203696729U - Glass lead-in device for double liner glass edge grinding machine - Google Patents

Abstract

The utility model discloses a glass lead-in device for a double liner glass edge grinding machine. The glass lead-in device for the double liner glass edge grinding machine comprises a fixed steering mechanism and a mobile steering mechanism, the fixed steering mechanism and the mobile steering mechanism are parallel to each other and are arranged at intervals, and an adjusting mechanism for adjusting space between the mobile steering mechanism and the fixed steering mechanism is arranged on the mobile steering mechanism; the fixed steering mechanism comprises a fixed side synchronous belt mechanism and a fixed lower synchronous belt mechanism; the mobile steering mechanism comprises a mobile side synchronous belt mechanism and a mobile lower synchronous belt mechanism; the fixed side synchronous belt mechanism, the fixed lower synchronous belt mechanism, the mobile side synchronous belt mechanism and the mobile lower synchronous belt mechanism are arranged in the same direction; a first synchronous belt guide rail plate and a second synchronous belt guide rail plate which are used for guiding the glass to move along a straight line are arranged on the mobile side synchronous belt mechanism and the fixed side synchronous belt mechanism respectively; a tensioning component which is used for tensioning a side synchronous belt is arranged on the mobile side synchronous belt mechanism. The glass lead-in device for the double liner glass edge grinding machine is capable of preventing the problem of loosening of the synchronous belts in the adjusting process of the mobile side synchronous belt mechanism.

Description

Bilinear glass edge-grinding machine glass gatherer

Technical field

The utility model relates to glass processing device field, especially, relates to a kind of bilinear glass edge-grinding machine glass gatherer.

Background technology

Glass introducing mechanism is one of most important mechanism of bilinear glass edge-grinding machine, and the structure function of glass introducing mechanism likely has influence on the problems such as working (machining) efficiency, machining accuracy, processing cost.At present, glass introducing mechanism often adopts roller or two kinds of modes of Timing Belt to import.

Wherein, roller lead-in mode requires very high for the linearity of arranging of roller, the required precision that makes to process roller hole on fixing roller plate is very high, difficulty of processing is large, and in use along with roller axle turns round in roller hole, between roller hole and roller axle, phase mutual friction can make the linearity of roller decline after causing wearing and tearing, the S-shaped curve of running orbit while easily causing glass to transmit, have influence on the even machining accuracy of transmission precision of glass, therefore need often to change fixing roller plate and roller axle, cause processing cost to increase.

Wherein, Timing Belt lead-in mode requires very high for the tensioning of Timing Belt, lax Timing Belt can have influence on glass and transmit precision or machining accuracy, and in transport process, glass can scratch lax Timing Belt simultaneously, and the cost of Timing Belt is very high, replacing can make cost increase frequently.When Timing Belt carries out when spacing regulates making Timing Belt lax, therefore the spacing that cannot carry out Timing Belt regulates, need the fixing Timing Belt of setting space to carry out the importing of glass, therefore cannot be applicable to the glass transmission of different size, the scope of application is limited to, the glass of different size need to be manufactured the Timing Belt introducing mechanism of different spacing, therefore makes manufacturing cost increase.

Utility model content

The utility model object is to provide a kind of bilinear glass edge-grinding machine glass gatherer, and the transmission that cannot keep high linearity to solve existing roller introducing mechanism transmits precision and machining accuracy and all cannot ensure; The adjusting of existing Timing Belt introducing mechanism spacing can make Timing Belt lax, makes to transmit precision and machining accuracy and all cannot ensure, the technical problem that Timing Belt is easily scratched by glass.

For achieving the above object, the technical solution adopted in the utility model is as follows:

A kind of bilinear glass edge-grinding machine glass gatherer, comprise fixed guide mechanism and moving guiding mechanism, fixed guide mechanism and interval parallel with moving guiding mechanism arranged, is equipped with to regulate the governor motion of spacing between moving guiding mechanism and fixed guide mechanism on moving guiding mechanism; Fixed guide mechanism comprise fixation side synchronous belt mechanism in order to glass is imported from glass sides and in order to from glass bottom, glass is imported fixing synchronous belt mechanism; Moving guiding mechanism comprises mobile side synchronous belt mechanism in order to glass is imported from glass sides and in order to synchronous belt mechanism movement glass being imported from glass bottom; Fixation side synchronous belt mechanism, fixing lower synchronous belt mechanism, mobile side synchronous belt mechanism and mobile lower synchronous belt mechanism are arranged in the same way; Mobile side synchronous belt mechanism is provided with the first Timing Belt guide-rail plate along rectilinear movement in order to glass-guiding, and fixation side synchronous belt mechanism is provided with the second Timing Belt guide-rail plate along rectilinear movement in order to glass-guiding; Mobile side synchronous belt mechanism is provided with the tension assembly in order to advancing side Timing Belt.

Further, mobile side synchronous belt mechanism comprises slide plate, the first side synchronizing wheel that rotating shaft is connected to the casing upper surface of bilinear glass edge-grinding machine and arranges along horizontal plane, rotating shaft be connected to slide plate upper surface and along horizontal plane arrange the first driven pulley and be connected to the first regulating wheel on slide plate by tension assembly, between the first side synchronizing wheel and the guide edge of mobile side synchronous belt mechanism, leave spacing, between the first side synchronizing wheel and the first driven pulley, link by the first side Timing Belt, the guide section of the first side Timing Belt is close on the guide edge of the first Timing Belt guide-rail plate, the first regulating wheel is located at the outside of the first side Timing Belt and is arranged near the first side synchronizing wheel.

Further, first time Timing Belt that mobile lower synchronous belt mechanism comprises first time synchronizing wheel and is used in conjunction with first time synchronizing wheel, first time synchronizing wheel and the first side synchronizing wheel by with so that the meshing gear of the consistent same number of teeth of first time synchronizing wheel and the first side synchronizing wheel linear velocity link.

Further, fixation side synchronous belt mechanism comprises the second side synchronizing wheel, the second driven pulley and the second regulating wheel that rotating shaft is connected to the casing upper surface of bilinear glass edge-grinding machine and arranges along horizontal plane, between the second side synchronizing wheel and the second driven pulley, link by the second side Timing Belt, the guide section of the second side Timing Belt is close on the guide edge of the second Timing Belt guide-rail plate, and the second regulating wheel is located at the outside of the second side Timing Belt and is arranged near the second side synchronizing wheel.

Further, second time Timing Belt that fixing lower synchronous belt mechanism comprises second time synchronizing wheel and is used in conjunction with second time synchronizing wheel, second time synchronizing wheel and the second side synchronizing wheel by with so that the meshing gear of the consistent same number of teeth of second time synchronizing wheel and the second side synchronizing wheel linear velocity link.

Further, the rotating shaft of first time synchronizing wheel and second time synchronizing wheel is located on same straight line; The first side synchronizing wheel is parallel with the rotation of the second side synchronizing wheel.

Further, tension assembly is elastic mechanism, gear mechanism, slide mechanism or runner mechanism.

Further, tension assembly comprises that tensioning wheel carrier, moving connecting mechanism, two ends in the rotating shaft that is connected to the first side synchronizing wheel are connected to the steel spring plate on tensioning wheel carrier and moving connecting mechanism and are located at steel spring plate middle part and carry out rotating connector in relative rotation in order to steel spring plate middle part with slide plate.

Further, moving connecting mechanism comprise the adjusting bolt of long stem that is movably connected in the perforate of steel spring plate end, be fixed on slide plate and the U-shaped baffle plate of opening down layout, in order to prevent regulating bolt of long stem to be subject to the ball pad of offset loading force and to be located at regulating bolt of long stem end in order to ball pad is limited in to the regulating nut regulating on bolt of long stem; Rotating connector comprises and is connected to the rotating shaft of bilinear glass edging box body upper surface and is fixed in the rotation swivel base on steel spring plate, rotating shaft with rotate swivel base coupling and be connected.

Further, governor motion is cylinder or the electric machine assembly that output is connected to slide plate plate side.

The utlity model has following beneficial effect:

This bilinear glass edge-grinding machine is realized the adjusting of spacing between fixed guide mechanism and moving guiding mechanism by governor motion with glass gatherer, so that its glass that is applicable to different size imports; By fixing lower synchronous belt mechanism and mobile lower synchronous belt mechanism realization, from bottom, the glass to different size imports; Realize and from side, the glass of different size being imported by the mobile side synchronous belt mechanism that is provided with the fixation side synchronous belt mechanism of the second Timing Belt guide-rail plate and is provided with the first Timing Belt guide-rail plate; By tension assembly, the side Timing Belt on mobile side synchronous belt mechanism is carried out to tensioning timely, to prevent the lax problem of mobile side synchronous belt mechanism Timing Belt in adjustment process, thereby improve the service life of Timing Belt, can ensure again linear precision when glass imports, improve the precision of following process simultaneously; Reduce the probability of shutting down maintenance and renewal part, thereby improve working (machining) efficiency.

Except object described above, feature and advantage, the utility model also has other object, feature and advantage.Below with reference to figure, the utility model is described in further detail.

Brief description of the drawings

The accompanying drawing that forms the application's a part is used to provide further understanding of the present utility model, and schematic description and description of the present utility model is used for explaining the utility model, does not form improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the structural representation of the bilinear glass edge-grinding machine glass gatherer of the utility model preferred embodiment;

Fig. 2 is the partial enlarged drawing of tension assembly in Fig. 1.

Marginal data:

1, fixed guide mechanism; 101, fixation side synchronous belt mechanism; 1011, the second side synchronizing wheel; 1012, the second driven pulley; 1013, the second regulating wheel; 1014, the second side Timing Belt; 102, fixing lower synchronous belt mechanism; 1021, second time synchronizing wheel; 1022, second time Timing Belt; 2, moving guiding mechanism; 201, mobile side synchronous belt mechanism; 2011, slide plate; 2012, the first side synchronizing wheel; 2013, the first driven pulley; 2014, the first regulating wheel; 2015, the first side Timing Belt; 202, mobile lower synchronous belt mechanism; 2021, first time synchronizing wheel; 2022, first time Timing Belt; 3, governor motion; 4, the first Timing Belt guide-rail plate; 5, the second Timing Belt guide-rail plate; 6, tension assembly; 601, tensioning wheel carrier; 602, moving connecting mechanism; 6021, regulate bolt of long stem; 6022, U-shaped baffle plate; 6023, ball pad; 6024, regulating nut; 603, steel spring plate; 604, rotating connector; 6041, rotating shaft; 6042, rotate swivel base.

Detailed description of the invention

Below in conjunction with accompanying drawing, embodiment of the present utility model is elaborated, but the multitude of different ways that the utility model can be defined by the claims and cover is implemented.

Fig. 1 is the structural representation of the bilinear glass edge-grinding machine glass gatherer of the utility model preferred embodiment; Fig. 2 is the partial enlarged drawing of tension assembly in Fig. 1.As depicted in figs. 1 and 2, the bilinear glass edge-grinding machine glass gatherer of the present embodiment, comprise fixed guide mechanism 1 and moving guiding mechanism 2, fixed guide mechanism 1 and interval parallel with moving guiding mechanism 2 arranged, is equipped with to regulate the governor motion 3 of spacing between moving guiding mechanism 2 and fixed guide mechanism 1 on moving guiding mechanism 2; Fixed guide mechanism 1 comprise fixation side synchronous belt mechanism 101 in order to glass is imported from glass sides and in order to from glass bottom, glass is imported fixing synchronous belt mechanism 102; Moving guiding mechanism 2 comprises mobile side synchronous belt mechanism 201 in order to glass is imported from glass sides and in order to synchronous belt mechanism 202 movement glass being imported from glass bottom; Fixation side synchronous belt mechanism 101, fixing lower synchronous belt mechanism 102, mobile side synchronous belt mechanism 201 and mobile lower synchronous belt mechanism 202 4 are arranged in the same way; Mobile side synchronous belt mechanism 201 is provided with the first Timing Belt guide-rail plate 4 along rectilinear movement in order to glass-guiding, and fixation side synchronous belt mechanism 101 is provided with the second Timing Belt guide-rail plate 5 along rectilinear movement in order to glass-guiding; Mobile side synchronous belt mechanism 201 is provided with the tension assembly 6 in order to advancing side Timing Belt.This bilinear glass edge-grinding machine is realized the adjusting of spacing between fixed guide mechanism 1 and moving guiding mechanism 2 by governor motion 3 with glass gatherer, so that its glass that is applicable to different size imports; Realizing the glass to different size from bottom by fixing lower synchronous belt mechanism 102 and mobile lower synchronous belt mechanism 202 imports; Realized from side the glass of different size is imported by the mobile side synchronous belt mechanism 201 that is provided with the fixation side synchronous belt mechanism 101 of the second Timing Belt guide-rail plate 5 and is provided with the first Timing Belt guide-rail plate 4, the straight line that utilizes the first Timing Belt guide-rail plate 4 and the second Timing Belt guide-rail plate 5 to realize glass imports; By tension assembly 6, the side Timing Belt on mobile side synchronous belt mechanism 201 is carried out to tensioning timely, to prevent the lax problem of mobile side synchronous belt mechanism 201 Timing Belt in adjustment process, thereby improve the service life of Timing Belt, can ensure again linear precision when glass imports, improve the precision of following process simultaneously; Reduce the probability of shutting down maintenance and renewal part, thereby improve working (machining) efficiency.

As depicted in figs. 1 and 2, in the present embodiment, mobile side synchronous belt mechanism 201 comprises slide plate 2011, the first side synchronizing wheel 2012 that rotating shaft is connected to the casing upper surface of bilinear glass edge-grinding machine and arranges along horizontal plane, rotating shaft be connected to slide plate 2011 upper surfaces and along horizontal plane arrange the first driven pulley 2013 and be connected to the first regulating wheel 2014 on slide plate 2011 by tension assembly 6, between the first side synchronizing wheel 2012 and the guide edge of mobile side synchronous belt mechanism 201, leave spacing, between the first side synchronizing wheel 2012 and the first driven pulley 2013, link by the first side Timing Belt 2015, the guide section of the first side Timing Belt 2015 is close on the guide edge of the first Timing Belt guide-rail plate 4, the first regulating wheel 2014 is located at the outside of the first side Timing Belt 2015 and is arranged near the first side synchronizing wheel 2012.By adjusting slider 2011 to regulate the spacing between fixed guide mechanism 1 and moving guiding mechanism 2; The straight line of glass is imported to realize by the first side Timing Belt 2015 being close on the guide edge of the first Timing Belt guide-rail plate 4; Between the first side synchronizing wheel 2012 and the guide edge of mobile side synchronous belt mechanism 201, leave spacing, the first regulating wheel 2014 is connected on slide plate 2011 by tension assembly 6, to ensure that slide plate 2011 is in adjustment process, the first side Timing Belt 2015 is close on the guide edge of the first Timing Belt guide-rail plate 4 all the time, ensures the linear precision of glass.

As shown in Figure 1, in the present embodiment, mobile lower synchronous belt mechanism 202 comprise first time synchronizing wheel 2021 and 2022, the first times synchronizing wheels 2021 of first time Timing Belt of being used in conjunction with first time synchronizing wheel 2021 and the first side synchronizing wheel 2012 by with so that the meshing gear of the consistent same number of teeth of first time synchronizing wheel 2021 and the first side synchronizing wheel 2012 linear velocities link.Ensure that transmit bottom and the uniformity of side direction transmission, thereby ensure the stability of whole conveyer.

As shown in Figure 1, in the present embodiment, fixation side synchronous belt mechanism 101 comprises the second side synchronizing wheel 1011, the second driven pulley 1012 and the second regulating wheel 1013 that rotating shaft is connected to the casing upper surface of bilinear glass edge-grinding machine and arranges along horizontal plane, between the second side synchronizing wheel 1011 and the second driven pulley 1012, link by the second side Timing Belt 1014, the guide section of the second side Timing Belt 1014 is close on the guide edge of the second Timing Belt guide-rail plate 5, and the second regulating wheel 1013 is located at the outside of the second side Timing Belt 1014 and is arranged near the second side synchronizing wheel 1011.By the second side synchronizing wheel 1011 and the second driven pulley 1012 that are fixedly installed, by the second regulating wheel 1013, the second side Timing Belt 1014 is carried out to tensioning, the synchronous importing with auxiliary moving side synchronous belt mechanism 201 to glass.

As shown in Figure 1, in the present embodiment, fixing lower synchronous belt mechanism 102 comprise second time synchronizing wheel 1021 and 1022, the second times synchronizing wheels 1021 of second time Timing Belt of being used in conjunction with second time synchronizing wheel 1021 and the second side synchronizing wheel 1011 by with so that the meshing gear of the consistent same number of teeth of second time synchronizing wheel 1021 and the second side synchronizing wheel 1011 linear velocities link.Ensure that transmit bottom and the uniformity of side direction transmission, thereby ensure the stability of whole conveyer.

As shown in Figure 1, in the present embodiment, the rotating shaft of first time synchronizing wheel 2021 and second time synchronizing wheel 1021 is located on same straight line; The first side synchronizing wheel 2012 is parallel with the rotation of the second side synchronizing wheel 1011.Form the structure correspondence of glass gatherer both sides, thereby ensure that overall structure imports the stability of glass.

As depicted in figs. 1 and 2, in the present embodiment, tension assembly 6 is elastic mechanism, gear mechanism, slide mechanism or runner mechanism.By different strainers, the first Timing Belt is carried out to tensioning, to ensure the timely regulating power of Timing Belt of different environments for use, select flexibly the version that cost performance is the highest, to reduce manufacturing cost; The flexible recovery capacity of utilizing elastic mechanism realizes the tensioning of Timing Belt, light may, tensioning timely and loosening automatically, the introducing mechanism that applicable active force is had relatively high expectations compared with the tight timeliness of Xiao Zhang; Gear mechanism is realized the tensioning of Timing Belt by the snap-in force of gear, the structure that applicable active force is larger, large-scale glass introducing mechanism; Slide mechanism or runner mechanism realize tensioning by the conversion of active force, use the moderate introducing mechanism of active force.

As depicted in figs. 1 and 2, in the present embodiment, tension assembly 6 comprises that tensioning wheel carrier 601, moving connecting mechanism 602, the two ends in the rotating shaft that is connected to the first side synchronizing wheel 2012 are connected to the steel spring plate 603 on tensioning wheel carrier 601 and moving connecting mechanism 602 and are located at steel spring plate 603 middle parts and carry out rotating connector 604 in relative rotation in order to steel spring plate 603 middle parts and slide plate 2011.Elasticity and recovery capacity by steel spring plate 603 realize the timely tensioning to the first side Timing Belt 2015 and loosen.

As depicted in figs. 1 and 2, in the present embodiment, moving connecting mechanism 602 comprises the adjusting bolt of long stem 6021 that is movably connected in steel spring plate 603 end perforates, be fixed on slide plate 2011 and the U-shaped baffle plate 6022 of opening down layout, in order to prevent regulating bolt of long stem 6021 to be subject to the ball pad 6023 of offset loading force and to be located at regulating bolt of long stem 6021 ends in order to ball pad 6023 is limited in to the regulating nut 6024 regulating on bolt of long stem 6021; Rotating connector 604 comprises and is connected to the rotating shaft 6041 of bilinear glass edging box body upper surface and is fixed in the rotation swivel base 6042 on steel spring plate 603, rotating shaft 6041 with rotate swivel base 6042 couplings and be connected.Facilitate the tensioning of steel spring plate 603 or loosen by the flexible connection that regulates bolt of long stem 6021 two ends; Regulate the scope of activities of bolt of long stem 6021 by 6022 restrictions of U-shaped baffle plate; Preventing from regulating bolt of long stem 6021 to be subject to offset loading force by ball pad 6023 destroys.

As shown in Figure 1, in the present embodiment, governor motion 3 is connected to cylinder or the electric machine assembly of slide plate 2011 plate sides for output.By different type of drive to realize being displaced sideways of slide plate 2011.

When enforcement, if there is no the cylinder of thruster, the gap between left and right sides Timing Belt will be adjusted just unanimously with glass, just can not accurately be put between left and right sides Timing Belt and transmit into grinding area if glass size slightly fluctuates.As shown in Figure 1, this glass gatherer adopts the mode of steel spring plate 603 pre-pressing the first side Timing Belts 2015, when cylinder dragging skateboard 2011 retreats, the first side Timing Belt 2015 has lax trend, now continue tensioning the first side Timing Belt 2015 by the distortion of steel spring plate 603, regulating bolt of long stem 6021 effects is tension adjustings, and the effect of ball pad is to prevent from regulating bolt of long stem 6021 to be subject to offset loading force.Transmission precision is high, and right side Timing Belt can move with cylinder, and side Timing Belt is tensioning all the time, good to the adaptability of glass size, and location is accurate.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (10)

1. a bilinear glass edge-grinding machine glass gatherer, is characterized in that,

Comprise fixed guide mechanism (1) and moving guiding mechanism (2),

Described fixed guide mechanism (1) and interval parallel with described moving guiding mechanism (2) arrange,

The governor motion (3) of spacing between described moving guiding mechanism (2) and described fixed guide mechanism (1) on described moving guiding mechanism (2), is equipped with to regulate;

Described fixed guide mechanism (1) comprise fixation side synchronous belt mechanism (101) in order to glass is imported from glass sides and in order to from glass bottom, glass is imported fixing synchronous belt mechanism (102);

Described moving guiding mechanism (2) comprises mobile side synchronous belt mechanism (201) in order to glass is imported from glass sides and in order to synchronous belt mechanism (202) movement glass being imported from glass bottom;

Under described fixation side synchronous belt mechanism (101), described fixing lower synchronous belt mechanism (102), described mobile side synchronous belt mechanism (201) and described movement, synchronous belt mechanism (202) four is arranged in the same way;

Described mobile side synchronous belt mechanism (201) is provided with the first Timing Belt guide-rail plate (4) along rectilinear movement in order to glass-guiding,

Described fixation side synchronous belt mechanism (101) is provided with the second Timing Belt guide-rail plate (5) along rectilinear movement in order to glass-guiding;

Described mobile side synchronous belt mechanism (201) is provided with the tension assembly (6) in order to advancing side Timing Belt.

2. bilinear glass edge-grinding machine glass gatherer according to claim 1, is characterized in that,

Described mobile side synchronous belt mechanism (201) comprise slide plate (2011), rotating shaft be connected to the casing upper surface of bilinear glass edge-grinding machine and along horizontal plane arrange the first side synchronizing wheel (2012), rotating shaft be connected to described slide plate (2011) upper surface and along horizontal plane arrange the first driven pulley (2013) and be connected to the first regulating wheel (2014) on described slide plate (2011) by described tension assembly (6)

Between described the first side synchronizing wheel (2012) and the guide edge of described mobile side synchronous belt mechanism (201), leave spacing,

Between described the first side synchronizing wheel (2012) and described the first driven pulley (2013), link by the first side Timing Belt (2015),

The guide section of described the first side Timing Belt (2015) is close on the guide edge of described the first Timing Belt guide-rail plate (4),

Described the first regulating wheel (2014) is located at the outside of described the first side Timing Belt (2015) and is arranged near described the first side synchronizing wheel (2012).

3. bilinear glass edge-grinding machine glass gatherer according to claim 2, is characterized in that,

First time Timing Belt (2022) that synchronous belt mechanism under described movement (202) comprises first time synchronizing wheel (2021) and is used in conjunction with described first time synchronizing wheel (2021),

Described first time synchronizing wheel (2021) and described the first side synchronizing wheel (2012) by with so that the meshing gear of the consistent same number of teeth of described first time synchronizing wheel (2021) and described the first side synchronizing wheel (2012) linear velocity link.

4. bilinear glass edge-grinding machine glass gatherer according to claim 3, is characterized in that,

Described fixation side synchronous belt mechanism (101) comprises the second side synchronizing wheel (1011), the second driven pulley (1012) and the second regulating wheel (1013) that rotating shaft is connected to the casing upper surface of bilinear glass edge-grinding machine and arranges along horizontal plane

Between described the second side synchronizing wheel (1011) and described the second driven pulley (1012), link by the second side Timing Belt (1014),

The guide section of described the second side Timing Belt (1014) is close on the guide edge of described the second Timing Belt guide-rail plate (5),

Described the second regulating wheel (1013) is located at the outside of described the second side Timing Belt (1014) and is arranged near described the second side synchronizing wheel (1011).

5. bilinear glass edge-grinding machine glass gatherer according to claim 4, is characterized in that,

Second time Timing Belt (1022) that described fixing lower synchronous belt mechanism (102) comprises second time synchronizing wheel (1021) and is used in conjunction with second time synchronizing wheel (1021),

Described second time synchronizing wheel (1021) and described the second side synchronizing wheel (1011) by with so that the meshing gear of the consistent same number of teeth of described second time synchronizing wheel (1021) and the second side synchronizing wheel (1011) linear velocity link.

6. bilinear glass edge-grinding machine glass gatherer according to claim 5, is characterized in that,

Described first time synchronizing wheel (2021) is located on same straight line with the rotating shaft of described second time synchronizing wheel (1021);

Described the first side synchronizing wheel (2012) is parallel with the rotation of described the second side synchronizing wheel (1011).

7. according to the bilinear glass edge-grinding machine glass gatherer described in any one in claim 1 to 6, it is characterized in that, described tension assembly (6) is elastic mechanism, gear mechanism, slide mechanism or runner mechanism.

8. according to the bilinear glass edge-grinding machine glass gatherer described in any one in claim 2 to 6, it is characterized in that, described tension assembly (6) comprises moving connecting mechanism (602), be connected to the tensioning wheel carrier (601) in the rotating shaft of described the first side synchronizing wheel (2012), two ends are connected to the steel spring plate (603) on described tensioning wheel carrier (601) and described moving connecting mechanism (602) and are located at described steel spring plate (603) middle part and carry out rotating connector (604) in relative rotation in order to described steel spring plate (603) middle part with described slide plate (2011).

9. bilinear glass edge-grinding machine glass gatherer according to claim 8, is characterized in that,

Described moving connecting mechanism (602) comprises the adjusting bolt of long stem (6021) being movably connected in described steel spring plate (603) end perforate, be fixed on described slide plate (2011) and the U-shaped baffle plate (6022) of opening down layout, in order to prevent that described adjusting bolt of long stem (6021) is subject to the ball pad (6023) of offset loading force and is located at described adjusting bolt of long stem (6021) end in order to described ball pad (6023) is limited in to the regulating nut (6024) on described adjusting bolt of long stem (6021),

Described rotating connector (604) comprises the rotating shaft (6041) that is connected to bilinear glass edging box body upper surface

And be fixed in the rotation swivel base (6042) on described steel spring plate (603),

Described rotating shaft (6041) is connected with described rotation swivel base (6042) coupling.

10. according to the bilinear glass edge-grinding machine glass gatherer described in any one in claim 2 to 6, it is characterized in that cylinder or the electric machine assembly of described governor motion (3) described slide plate (2011) plate side for output is connected to.