CN206751652U - Chopping block feed arrangement, chopping block equipment and glass-cutting system - Google Patents

Abstract

It the utility model is related to glass manufacturing area, disclose a kind of chopping block feed arrangement, chopping block equipment and glass-cutting system, the chopping block feed arrangement (100) includes drive mechanism (10) and transmission mechanism (20), the drive mechanism (10) includes output shaft, the transmission mechanism (20) includes the connector for connecting chopping block (200) and the rotary motion at the uniform velocity of the output shaft can be changed into the non-linear movement at the uniform velocity of the connector, the transmission mechanism (20) is arranged to that the connector will be passed to around component velocity of the linear velocity of the rotary motion of the axis of the output shaft along the linear moving direction.The rotary motion at the uniform velocity of output shaft can be changed into the non-linear movement at the uniform velocity of connector by chopping block feed arrangement of the present utility model, optimize the feeding strategy of chopping block.

Description

Chopping block feed arrangement, chopping block equipment and glass-cutting system

Technical field

Glass manufacturing area is the utility model is related to, more particularly to a kind of chopping block feed arrangement, chopping block equipment and glass Diced system.

Background technology

In plate glass press over system production process, glass tape after annealing need to pass through cutting (crosscutting) into certain length Monolithic glass, then by follow-up cutting processing be certain size plate glass.When being cut into monolithic glass, anvil need to be passed through Board device feeds its chopping block and is bonded the one side of glass tape, so as to provide line for line break bar and robot and support and break disconnected branch Support.Had no progeny breaking, chopping block equipment also needs to retreat chopping block, away from ribbon surfaces.Therefore, chopping block equipment needs linearly reciprocal Mobile chopping block.

In the prior art, chopping block equipment generally provides at the uniform velocity feeding (the i.e. linear reciprocal shifting of chopping block in a manner of cylinder etc. It is dynamic), if feed speed is too fast to easily cause the disconnected plate of glass tape, and cause the driving member of chopping block equipment to bear larger inertia Impulsive force and be easily damaged and (including too fast during Acceleration of starting cause the dynamical element such as motor, cylinder excess load so as to shorten its longevity Life)；It is long and cause unnecessary production capacity to waste that productive temp is easily caused if feed speed is excessively slow.But it is existing at the uniform velocity Feeding is all to make chopping block at the uniform velocity be moved to target location directly to stop, and can not avoid above mentioned problem, can not also solve to feed it is too fast, Cross slow contradiction.

Therefore, there is the problem of being not easy to control the feed speed of chopping block in prior art.

Utility model content

The problem of the purpose of this utility model is to overcome prior art to exist, there is provided a kind of chopping block feed arrangement, with Obtain appropriate feed speed.

Studied and found according to inventor of the present utility model, the speed of chopping block meets Acceleration of starting by gradually accelerating slowly, entering To speed it is fast, stop by slowing down gradually soon being optimal feeding in place.Therefore, it can utilize revolving part that there is same angular velocity And there is the characteristics of different horizontal component velocities in diverse location to optimize the feeding strategy of chopping block.

To achieve these goals, on the one hand the utility model provides a kind of chopping block feed arrangement, wherein, the chopping block enters Include drive mechanism and transmission mechanism to device, the drive mechanism includes output shaft, and the transmission mechanism includes being used to connect The connector of chopping block and non-at the uniform velocity linear that the rotary motion at the uniform velocity of the output shaft can be changed into the connector It is mobile, the transmission mechanism be arranged to by around the linear velocity of the rotary motion of the axis of the output shaft along the linear side of movement To component velocity pass to the connector.

Preferably, the transmission mechanism includes the cam bit for being installed on the output shaft and the axis for deviateing the output shaft It is arranged at the rotation section of the cam bit, the connector includes the auxiliary section that coordinates with the rotation section with by the rotation section The linear movement for being changed into the auxiliary section.

Preferably, the cam bit includes the main body of strip, and one end of the length direction of the main body is installed on described defeated Shaft, the rotation section are the rotary shaft of the other end for the length direction that can be rotatably set in the main body.

Preferably, the connector includes plate-like portion, the auxiliary section be arranged on the plate-like portion with described turn The chute for the straight type that moving axis is slidably matched.

Preferably, the chute is set along perpendicular to the linearly moving direction；And/or the chute and institute State and rotate shaft clearance cooperation.

Preferably, the connector includes the slide section being fixedly connected with the plate-like portion, the chopping block feed arrangement bag Include the guide for being oriented to the slide section.

Preferably, the output shaft is configured to so that main body reciprocating rotary between initial position to final position Dynamic 180 °, in the initial position and final position, the length direction of the main body is parallel to the linear moving direction.

Preferably, the main body includes detachably connected Part I and Part II, the Part I and Two parts in connection can split form the mounting hole with keyway, described in the output shaft is connected to through the mounting hole Main body.

Preferably, the outer sheath of the rotary shaft is provided with axle sleeve.

The utility model also provides a kind of chopping block equipment, wherein, the chopping block equipment is entered including chopping block of the present utility model To device and chopping block, the chopping block is connected to the connector.

The utility model also provides a kind of glass-cutting system, wherein, the glass-cutting system includes being used to support glass The chopping block equipment of glass, the chopping block equipment are chopping block equipment of the present utility model.

Pass through above-mentioned technical proposal, the rotary motion at the uniform velocity of output shaft can be changed into non-at the uniform velocity linear of connector It is mobile, optimize the feeding strategy of chopping block.

Brief description of the drawings

Fig. 1 is a kind of stereogram of embodiment of chopping block equipment of the present utility model；

Fig. 2 is the stereogram of Fig. 1 cam blocks；

Fig. 3 is the stereogram of connector in Fig. 1.

Description of reference numerals

10- drive mechanisms, 20- transmission mechanisms, 21- cam bits, 211- Part I, 212- Part II, 213- installations Hole, 22- rotary shafts, 23- plate-like portions, 231- chutes, 24- slide sections, 25- axle sleeves, 30- guides, 40- frames, 100- chopping blocks Feed arrangement, 200- chopping blocks.

Embodiment

In the utility model, in the case where not making opposite explanation, the noun of locality such as " upper and lower, top, bottom " used is generally It is each part mutual alignment either on vertical, vertical or gravity direction for direction shown in the drawings Relationship description word.

According to one side of the present utility model, there is provided a kind of chopping block feed arrangement, its this, the chopping block feed arrangement 100 include drive mechanism 10 and transmission mechanism 20, and the drive mechanism 10 includes output shaft, and the transmission mechanism 20 includes being used for Connect chopping block 200 connector and the rotary motion at the uniform velocity of the output shaft can be changed into the connector it is non-at the uniform velocity Linear movement, the transmission mechanism 20 be arranged to by around the linear velocity of the rotary motion of the axis of the output shaft along the line The component velocity of property moving direction passes to the connector.

, can be by the rotary motion at the uniform velocity of output shaft by transmission mechanism in chopping block feed arrangement of the present utility model It is changed into the non-linear movement at the uniform velocity of connector, optimizes the feeding strategy of chopping block.

Specifically, the rotary motion around the rotation axis of output shaft has identical angular speed and linear velocity (i.e. along revolution The speed of the tangential direction of the circular trace of formation), but when rotation is to diverse location, linear velocity along linear moving direction Component velocity is different, it is thus possible to obtains non-feeding at the uniform velocity.By the Segmentation of fault movement of the rotary motion of Rational choice output shaft, i.e., Can obtain required Acceleration of starting by gradually accelerating slowly, feed speed is fast, stops feeding effect by slowing down gradually soon in place.

In the utility model, using various appropriate transmission mechanisms 20 rotary motion can be realized to linearly moving turn Change, as long as will can be passed around component velocity of the linear velocity of the rotary motion of the axis of the output shaft along the linear moving direction Pass the connector.According to a kind of preferred embodiment of the present utility model, the transmission mechanism 20 can include peace The axis of cam bit 21 and the deviation output shaft loaded on the output shaft is arranged at the rotation section of the cam bit 21, described Connector is included with the auxiliary section of rotation section cooperation so that the rotation section is changed into the linear of the auxiliary section It is mobile.

Wherein, cam bit 21 can be various appropriate formats, and it act as the rotation for transmitting output shaft.As needed, may be used So that cam bit 21 is arranged into position that is variously-shaped and accordingly selecting rotation section, to amplify rotation (that is, the driver of output shaft What structure 20 transmitted is the linear velocity of the rotary motion of rotation section, and the linear speed is linear relative to the distance of output shaft according to rotation section Ratio).To simplify structure, reducing unnecessary energy loss, the cam bit 21 includes the main body of strip, the length of the main body The one end in degree direction is installed on the output shaft.In addition, for ease of transmission, the contact between rotation section and auxiliary section can be set Be set to rolling friction type contact, therefore, the rotation section can be can be rotatably set in the main body length direction it is another The rotary shaft 22 of one end.

Wherein, auxiliary section can be various appropriate formats, as long as the rotation of rotation section can be changed into linear movement i.e. Can, such as auxiliary section can be formed as with the arc groove coordinated with the periphery of rotary shaft 22.To obtain steady transmission, preferably Ground, as shown in figure 3, the connector includes plate-like portion 23, the auxiliary section be arranged on the plate-like portion 23 with it is described The chute 231 for the straight type that rotary shaft 22 is slidably matched.Thus, when rotary shaft 22 rotates, on the one hand slided along chute 231, separately On the one hand the power along the linear moving direction is applied to chute 231, to drive plate-like portion 23 together along linear by chute 231 Moving direction moves.

It should shorten the length of chute 231 as far as possible to simplify structure, and the intensity of plate-like portion 23 can be strengthened, therefore, The chute 231 is set along perpendicular to the linearly moving direction.In addition, to ensure to be driven smooth, the chute 231 and institute State the cooperation of the gap of rotary shaft 22.

In addition, to ensure linearly moving accuracy, as depicted in figs. 1 and 2, the connector can include and the plate The slide section 24 that shape portion 23 is fixedly connected, the chopping block feed arrangement 100 include being used for the guide for being oriented to the slide section 24 30.Wherein, guide 30 can be various appropriate formats, such as guide rail etc..In the illustrated embodiment, guide 30 is to lead Bar simultaneously be may be mounted in frame 40, and drive mechanism 10 can also be arranged in frame 40.

For Acceleration of starting needed for obtaining when by gradually accelerating slowly, feed speed is fast, stops in place by slowing down gradually soon Effect is fed, can be with the Segmentation of fault movement of Rational choice output shaft, so that its component velocity along linear moving direction transmitted is at this Undergone in Segmentation of fault movement and accelerate fast, slow process of slowing down when stopping when starting.To increase feeding distance, the output shaft as far as possible It is configured to so that the main body 180 ° of reciprocating rotation between initial position to final position, at the initial position and end Stop bit is put, and the length direction of the main body is parallel to the linear moving direction.Specifically, with reference to figure 1 and Fig. 2, initial bit Put with final position be cause main body length direction parallel to moving direction (i.e. perpendicular to the direction of chute 231), initially The positional symmetry with exporting axis connection of position and final position on main body.In the single fortune from initial position to final position During dynamic, rotary shaft 22 rotates 180 ° around the axis of output shaft, and its component velocity along linear moving direction experienced from minimum Increase to it is maximum (when body rotation is to perpendicular to linear moving direction, the component velocity along linear moving direction of rotary shaft 22 It is maximum) process that minimizes again, it is gradual by block when slowing down when accelerating when just adapting to above-mentioned startup by gradually accelerating slowly, stopping The needs slowed down.The past renaturation feature fed according to chopping block, output shaft causes main body from initial position to final position during advance Rotate, output shaft causes main body to be rotated from final position to initial position during retrogressing.

For ease of mounting body and output shaft, as shown in Fig. 2 the main body can include detachably connected first Points 211 and Part II 212, the Part I 211 and Part II 212 in connection can split formed with keyway Mounting hole 213, the output shaft are connected to the main body through the mounting hole 213.

In addition, for protection rotary shaft 22, the outside of the rotary shaft 22 can be arranged with axle sleeve 25.Further, it is true The smooth of transmission is protected, bearing can be set between rotary shaft 22 and axle sleeve 25.

According to another aspect of the present utility model, there is provided a kind of chopping block equipment, its this, the chopping block equipment includes this practicality New chopping block feed arrangement 100 and chopping block 200, the chopping block 200 are connected to the connector.

According to further aspect of the present utility model, there is provided a kind of glass-cutting system, its this, the glass-cutting system bag The chopping block equipment for supporting glass is included, the chopping block equipment is chopping block equipment of the present utility model.Wherein, the glass-cutting System can be used for the cutting of glass product, as long as needing chopping block equipment to carry out reciprocating feeding, such as can be used for putting down The crosscutting or rip cutting of glass sheet.

As shown in figure 1, by the way that chopping block 200 is connected into connector, can be provided by chopping block feed arrangement 100 required Non- feeding effect at the uniform velocity.Be advantageous to improve transmission stability, delivery precision and the production of chopping block equipment and glass-cutting system Efficiency.

Preferred embodiment of the present utility model, still, the utility model and unlimited is described in detail above in association with accompanying drawing In this.In range of the technology design of the present utility model, a variety of simple variants can be carried out to the technical solution of the utility model. It is combined in any suitable manner including each particular technique feature.In order to avoid unnecessary repetition, the utility model Various combinations of possible ways are no longer separately illustrated.But these simple variants and combination should equally be considered as the utility model institute Disclosure, belong to the scope of protection of the utility model.

Claims (11)

1. a kind of chopping block feed arrangement, it is characterised in that the chopping block feed arrangement (100) includes drive mechanism (10) and transmission Mechanism (20), the drive mechanism (10) include output shaft, and the transmission mechanism (20) includes being used for the company for connecting chopping block (200) Fitting and the non-linear movement at the uniform velocity that the rotary motion at the uniform velocity of the output shaft can be changed into the connector, it is described Transmission mechanism (20) be arranged to by around the linear velocity of the rotary motion of the axis of the output shaft along the linear moving direction Component velocity passes to the connector.

2. chopping block feed arrangement according to claim 1, it is characterised in that the transmission mechanism (20) includes being installed on institute The cam bit (21) for stating output shaft and the axis for deviateing the output shaft are arranged at the rotation section of the cam bit (21), the company The auxiliary section that fitting includes coordinating with the rotation section is with by the linear shifting for being changed into the auxiliary section of the rotation section It is dynamic.

3. chopping block feed arrangement according to claim 2, it is characterised in that the cam bit (21) includes the master of strip Body, one end of the length direction of the main body are installed on the output shaft, and the rotation section is that can be rotatably set in the master The rotary shaft (22) of the other end of the length direction of body.

4. chopping block feed arrangement according to claim 3, it is characterised in that the connector includes plate-like portion (23), institute State the chute (231) that auxiliary section is the straight type being slidably matched with the rotary shaft (22) being arranged on the plate-like portion (23).

5. chopping block feed arrangement according to claim 4, it is characterised in that the chute (231) is along perpendicular to the line Property movement direction set；And/or the chute (231) coordinates with the rotary shaft (22) gap.

6. chopping block feed arrangement according to claim 4, it is characterised in that the connector includes and the plate-like portion (23) slide section (24) being fixedly connected, the chopping block feed arrangement (100) include being used to be oriented to leading for the slide section (24) To part (30).

7. chopping block feed arrangement according to claim 3, it is characterised in that the output shaft is configured to so that described Main body 180 ° of reciprocating rotation between initial position to final position, in the initial position and final position, the main body Length direction is parallel to the linear moving direction.

8. the chopping block feed arrangement according to any one in claim 3-7, it is characterised in that the main body includes removable The Part I (211) and Part II (212) connected with unloading, the Part I (211) and Part II (212) are connecting When can split form the mounting hole (213) with keyway, the output shaft is connected to the master through the mounting hole (213) Body.

9. the chopping block feed arrangement according to any one in claim 3-7, it is characterised in that the rotary shaft (22) Outer sheath is provided with axle sleeve (25).

10. a kind of chopping block equipment, it is characterised in that the chopping block equipment is included according to any one in claim 1-9 Chopping block feed arrangement (100) and chopping block (200), the chopping block (200) is connected to the connector.

11. a kind of glass-cutting system, it is characterised in that the glass-cutting system includes being used to support the chopping block of glass to set Standby, the chopping block equipment is the chopping block equipment described in claim 10.