CN106625232A - Overflow brick processing clamp - Google Patents
Overflow brick processing clamp Download PDFInfo
- Publication number
- CN106625232A CN106625232A CN201710037817.XA CN201710037817A CN106625232A CN 106625232 A CN106625232 A CN 106625232A CN 201710037817 A CN201710037817 A CN 201710037817A CN 106625232 A CN106625232 A CN 106625232A
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- China
- Prior art keywords
- overflow brick
- plate
- screw
- termination
- overflow
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24B—MACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
- B24B41/00—Component parts such as frames, beds, carriages, headstocks
- B24B41/06—Work supports, e.g. adjustable steadies
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Moulds, Cores, Or Mandrels (AREA)
Abstract
The invention relates to the field of overflow brick processing and fixing and discloses an overflow brick processing clamp. The overflow brick processing clamp comprises a horizontal first bottom plate, a horizontal second bottom plate and a replaceable plate detachably connected between the first bottom plate and the second bottom plate. The first bottom plate and the second bottom plate are both provided with a step supporting column assembly, the step supporting column assemblies are used for clamping and fixing the two end faces of an overflow brick and loading and positioning the overflow brick. Lateral side clamping column assemblies used for clamping and fixing the upper portions and the lower portions of the two side faces of the overflow brick in the length direction are arranged between the step supporting column assembly of the first bottom plate and the step supporting column assembly of the second bottom plate. The overflow brick processing clamp can meet the clamping and fixing requirements in the processing process of overflow bricks of different generations, and improves stability of clamping and fixing of the overflow bricks.
Description
Technical field
The present invention relates to overflow brick processing fixed network, in particular it relates to a kind of be applied to the processing of many generation overflow bricks admittedly
Fixed fixture.
Background technology
The overflow brick that the core component of display base plate glass is manufactured as overflow fusion method is typically long and narrow groove
Type structure, is made using high temperature resistant compact zircon, and its material is harder, more crisp;The processing of overflow brick is mainly by Digit Control Machine Tool
Grinding is carried out using diamond cutter.Processing of the long and narrow trench structure of overflow brick to Digit Control Machine Tool is caused greatly not
Just, accordingly, it would be desirable to the clamp for machining of design specialized is so that overflow brick to be processed is fixed on lathe table top.
In order to meet the fixation of the overflow brick of different model, prior art is usually to process strip on base plate to install
Hole, the holder assembly that supports of base plate both sides is fixed by the bolt of the location hole and the strip installing hole that run through support holder assembly
On base plate, by position of the regulating bolt on strip installing hole, the distance between supported on both sides holder assembly can be adjusted,
So as to the overflow brick for meeting different model is gripped, the regulated quantity of the clamp for machining of this design form is limited, and in reality
The length difference of the overflow brick of different generations obviously can not in more than 500mm using clamp for machining of the prior art in the application of border
The overflow brick for meeting different generations is gripped.
In addition, clamp for machining of the prior art is typically lifted to overflow brick by resilient support assemblies and positioned,
, there is operating difficulties in the complex structural designs of resilient support assemblies, and support unstable in the actually process of being installed of overflow brick
Phenomenon.
The content of the invention
It is an object of the invention to provide a kind of overflow brick clamp for machining, to meet the overflow brick of different generations in process
In grip demand, and improve the stability gripped to overflow brick.
To achieve these goals, the present invention provides a kind of overflow brick clamp for machining, and the overflow brick clamp for machining includes
Horizontally disposed first base plate, the second base plate and be detachably connected between first base plate and second base plate can
Plate is changed, is separately provided for clamping the both ends of the surface of the overflow brick on first base plate and second base plate
Step support column assembly that is fixed and being carried to the overflow brick and positioned, the step of first base plate supports column assembly
Support with the step of second base plate and be provided with for upper and lower to the two sides of the length direction of the overflow brick between column assembly
The side clamping column assembly that portion is gripped.
Preferably, the step supports column assembly to include for carrying the base of the overflow brick, located at the base
Enter for the keeper that positioned to the overflow brick and the end face for the overflow brick on the base
The fastening assembly that row is gripped.
Preferably, the base is I shape, including horizontally disposed top panel and bottom panel, and is vertically connected on institute
State the liner plate between top panel and the bottom panel;The bottom panel is fixed with first base plate or second base plate and connected
Connect;The keeper and the fastening assembly are respectively arranged on the top panel.
Preferably, the keeper is alignment pin, and the alignment pin is vertically fixed on the top surface edge of the top panel
Position;The fastening assembly is fixed on the upper surface middle part of the top panel.
Preferably, the fastening assembly includes being vertically fixed on location-plate and the installation of the top panel upper surface middle part
Can be gripped on the location-plate and with the end face to the overflow brick relative to the end face movement of the overflow brick
Moving member.
Preferably, the moving member includes screw rod and screw-in being used in the screw rod end perpendicular to the location-plate
Fit the termination gripped with the end face to the overflow brick with the end face of the overflow brick, opens on the location-plate
Screw is provided with, the screw rod is arranged on the location-plate through the screw.
Preferably, the termination is made using engineering plastics;Screw portion between the termination and the location-plate is also
It is provided with for being limited the screw-in amount of the termination to prevent the screw rod from extending out to the nut outside the termination.
Preferably, the side clamping column assembly includes level board and the vertical plate being fixed on the level board, described
Being provided with vertical plate can be relative to the side movement of the length direction of the overflow brick with the length direction to the overflow brick
The upper side holder that gripped respectively of side top and the bottom and downside holder.
Preferably, the upper side holder include perpendicular to the vertical plate the first screw rod and screw in described first
Screw rod end for fitting with the length direction to the overflow brick with the side surface upper part of the length direction of the overflow brick
The first termination for being gripped of side surface upper part, the first screw is offered on the vertical plate, first screw rod runs through
First screw and be arranged on the vertical plate.
Preferably, first termination is made using engineering plastics;Between first termination and the vertical plate
One screw portion is also equipped with for being limited the screw-in amount of first termination to prevent first screw rod from extending out to
The first nut outside first termination.
Preferably, it is also equipped between the level board and the vertical plate perpendicular to the level board and the vertical plate
Triangular reinforcing plate;The downside holder include perpendicular to the vertical plate the second screw rod and screw in described second
Screw rod end for fitting with the length direction to the overflow brick with the side lower of the length direction of the overflow brick
The inclined-plane termination that gripped of side lower, the second screw, the triangular reinforcing plate are offered on the vertical plate
On offer the 3rd screw being connected with second screw, second screw rod runs through second screw and the described 3rd
Screw and be arranged on the vertical plate and the triangular reinforcing plate.
Preferably, the inclined-plane termination is made using engineering plastics;Between the inclined-plane termination and the vertical plate
Two screw portions are also equipped with for being limited the screw-in amount of the inclined-plane termination to prevent second screw rod from extending out to
The second nut outside the inclined-plane termination.
The technical scheme that the present invention is provided has the advantages that:
The base plate of the overflow brick clamp for machining that the present invention is provided adopts segmented back-plane design, specifically, the segmented bottom
Plate includes the first base plate, the second base plate and the replaceable plate being detachably connected between the first base plate and the second base plate, and this can
The dimensions length for changing plate matches from the length of the overflow brick of different generations, therefore, the overflow brick of different generations can be directed to
The various sizes of replaceable plate of Design of length, so as to when the overflow brick of different generations is gripped, can be in the first base plate and
Connect various sizes of replaceable plate between two base plates, thus, the overflow brick clamp for machining that the present invention is provided can meet different generations
The processing fixed demand of secondary overflow brick.
Further, since the overflow brick clamp for machining that the present invention is provided is carried out to the two sides top of overflow brick length direction
Grip, but the two sides bottom to overflow brick length direction is fixed, and the mode that top and the bottom bilateral is fixed can be effective
Prevent overflow brick from creep occurring in process, improve the stability gripped to overflow brick.
Other features and advantages of the present invention will be described in detail in subsequent specific embodiment part.
Description of the drawings
Accompanying drawing is, for providing a further understanding of the present invention, and to constitute the part of specification, with following tool
Body embodiment is used to explain the present invention together, but is not construed as limiting the invention.In the accompanying drawings:
Fig. 1 is the front view of overflow brick clamp for machining provided in an embodiment of the present invention;
Fig. 2 is the front view that step provided in an embodiment of the present invention supports column assembly;
Fig. 3 is the side view that side provided in an embodiment of the present invention clamps column assembly;
Fig. 4 is the front view of moving member provided in an embodiment of the present invention or upper side holder;
Fig. 5 is the front view of downside holder provided in an embodiment of the present invention.
Description of reference numerals
The base plates of 1- first;2- replaceable plates;The base plates of 3- second;4- steps support column assembly;5- sides clamp column assembly;6-
Overflow brick;7- screw rods;8- nuts;9- terminations;The screw rods of 10- second;The nuts of 11- second;12- inclined-planes termination;401- bottom panels;
402- liner plates;403- top panels;404- moving members;405- location-plates;406- alignment pins;501- vertical plates;502- downsides press from both sides
Gripping member;503- upper side holders;504- triangular reinforcing plates;505- level boards.
Specific embodiment
The specific embodiment of the present invention is described in detail below in conjunction with accompanying drawing.It should be appreciated that this place is retouched
The specific embodiment stated is merely to illustrate and explains the present invention, is not limited to the present invention.
In the present invention, in the case where contrary explanation is not made, the noun of locality for using such as " upper and lower, left and right " is typically referred to
Upper and lower, left and right shown in refer to the attached drawing.
Fig. 1 is referred to, the embodiment of the present invention provides a kind of overflow brick clamp for machining, and the overflow brick clamp for machining includes water
Flat the first base plate 1 for arranging, the second base plate 3 and it is detachably connected between first base plate 1 and second base plate 3
It is separately provided for entering the both ends of the surface of the overflow brick 6 on replaceable plate 2, first base plate 1 and second base plate 3
The step support column assembly 4 that row grips and carried to the overflow brick 6 and positioned, the step of first base plate 1
It is provided with for the length side to the overflow brick 6 between the step support column assembly 4 for supporting column assembly 4 and second base plate 3
To two sides top and the bottom gripped side clamping column assembly 5.
Because the replaceable plate 2 is detachably connected between first base plate 1 and second base plate 3, therefore
Can be according to the various sizes of replaceable plate 2 of the Design of length of the overflow brick 6 of different generations, so as to overflowing in the different generations of processing
During stream brick 6, can connect replaceable with what the size of overflow brick to be processed 6 was adapted between the first base plate 1 and the second base plate 3
Plate 2, to meet the processing fixed demand of the overflow brick 6 of different generations.
Refer to Fig. 1, the replaceable plate 2 can in the following way with first base plate 1 and second base plate 3
It is detachably connected:Hierarchic structure, the replaceable plate 2 are processed into in the connection end of first base plate 1 and second base plate 3
Two ends are processed into and are matched hierarchic structure with the hierarchic structure of first base plate 1 and the connection end of the second base plate 3, so that
When the replaceable plate 2 is connected with first base plate 1 and second base plate 3, the rank of the hierarchic structure of the replaceable plate 2
Tread fits with the cascaded surface of the hierarchic structure of the base plate 3 of first base plate 1 and second, the ladder knot of the replaceable plate 2
Offer in the hierarchic structure that the first through hole of vertical direction, first base plate 1 and second base plate 3 are offered on structure perpendicular
Nogata to the second through hole, the first through hole it is corresponding with second through hole connection so that the replaceable plate 2 can lead to
Cross connector such as bolt or screw through the first through hole and second through hole and with first base plate 1 and described
Second base plate 3 is detachably connected.
It should be noted that, overflow brick 6 before processing, needs to be fixed on lathe table top, in order to meet overflow
Brick 6 plus the position in man-hour put requirement, need the length direction of overflow brick 6 is concordant with the reference axis on lathe table top, on
The positioning for stating overflow brick 6 refers to the operation for making the length direction of overflow brick 6 parallel with the reference axis on lathe table top.The present invention
The positioning of overflow brick 6 is that the step on the base plate 3 of column assembly 4 and second is supported by the step on the first base plate 1 in embodiment
Dagger component 4 is completing, and gripping for the two sides top and the bottom of the length direction of overflow brick 6 is by side clamp column group
Part 5 is completing;Specifically, side clamping column assembly 5 is respectively arranged with the length direction both sides of overflow brick 6, is grown using overflow brick 6
Gap between the side clamping column assembly 5 of degree direction both sides grips to overflow brick 6, as shown in figure 1, showing in Fig. 1
The side clamping column assembly 5 of the wherein side of the length direction of overflow brick 6 is gone out, the quantity of the side clamping column assembly 5 per side is
3, certainly, the quantity of side clamping column assembly 5 can specifically set according to the length of overflow brick 6, can also be other quantity, lead to
The side clamping column assembly 5 for crossing both sides is clamped respectively to the two sides of the length direction of overflow brick 6, especially to overflow brick 6
The top and the bottom of the two sides of length direction are clamped, and because overflow brick 6 is when fixed, the side surface upper part of its length direction is in perpendicular
Straight plane, and bottom is the inclined-plane with the inclined angle of vertical direction, the embodiment of the present invention is in the length direction to overflow brick 6
While the top of two sides carries out bilateral clamping, also bilateral folder is carried out to the bottom of the two sides of the length direction of overflow brick 6
Hold, when being positioned to overflow brick using resilient support assemblies in this and prior art, can only be to the length direction of overflow brick 6
Wherein one side carries out the mode of unilateral support and compares, and can significantly improve the stability that overflow brick 6 is gripped.
The step supports the concrete structure of column assembly 4 to have various, and a kind of structure therein is given below, certainly,
The step supports the structure of column assembly 4 to be not limited to this.
Fig. 1 and Fig. 2 is referred to, the step supports column assembly 4 to include for holding to the step surface of the overflow brick 6
The base of load, on the base for the keeper that positioned to the overflow brick 6 and located at the base
The fastening assembly gripped for the end face of the overflow brick 6.Specifically, the step on first base plate 1
Dagger component 4 supports the structure of column assembly 4 identical with the step on second base plate 3, the step support column on the first base plate 1
Step on the fastening assembly of component 4 and the second base plate 3 supports the interval between the fastening assembly of column assembly 4 to be formed for overflowing
The grasping part that stream brick 6 is gripped.Wherein, the end face of the overflow brick 6 refers to the end of the width of overflow brick 6
Face;Step on first base plate 1 supports the base of column assembly 4 to be fixed on the first base plate 1, specifically, for example, can pass through bolt
It is fixed on the first base plate 1, similarly, the step on the second base plate 3 supports the base of column assembly 4 to be bolted
On the second base plate 3.Two step surface of overflow brick 6 respectively with base contacts, by base carry overflow brick 6 weight, when overflow
Stream brick 6 be placed on base after, overflow brick 6 is positioned by keeper, specifically, keeper adjusted in advance to machine-tool platform
The parallel position of reference axis on terrace, when carrying out overflow brick 6 and positioning, it is only necessary to which the same side of overflow brick 6 is adjusted
To the position fitted with keeper;Then the two ends of overflow brick 6 are clamped by adjusting fastening assembly so that overflow
Stream brick 6 can not be moved left and right along its length direction.
Fig. 1 is referred to, is from top to bottom to lift overflow brick 6 to step usually when overflow brick 6 is installed
Support on column assembly 4, after machining, need that overflow brick 6 is sling from the bottom to top, can there is 6 liang of overflow brick in hoisting process
The upper shifting of the fixed lifting rope in end causes overflow brick 6 that flop phenomenon occurs apart from unbalanced situation, as a result, so that
The bottom of overflow brick 6 easily collides damage with base;In order to solve such technical problem, in the embodiment of the present invention, step
The base for supporting column assembly 4 is designed using I shape, and specifically, the I shape base includes the He of horizontally disposed top panel 403
Bottom panel 401 and the liner plate 402 being vertically connected between top panel 403 and bottom panel 401;Wherein, on the first base plate 1
Step supports the lower surface of the bottom panel 401 of column assembly 4 to fit with the upper surface of the first base plate 1 fixation, specifically, can pass through to pass through
The connector such as bolt for wearing the first base plate 1 and bottom panel 401 is fitted fixation with the upper surface of the first base plate 1, and the second base plate 3
On step support the lower surface of the bottom panel 401 of column assembly 4 to fit with the upper surface of the second base plate 3 fixation, fixed form can
With identical with the fixed form of the bottom panel 401 on the first base plate 1.Due to adopting I shape design using base, therefore,
Interval between the bottom of overflow brick 6 and base becomes big, more specifically, between the bottom of overflow brick 6 and base liner plate 402
It is big every becoming, so as to when run-off the straight overturns overflow brick 6 in hoisting process, being not susceptible to overflow brick 6 and ask with the collision of base
Topic, and then, overflow brick 6 can be preferably protected, improve the reliability and security of the processing of overflow brick 6.
Further, in order to strengthen the structural strength of the base, its bearing capacity, the top surface of the liner plate both sides are improved
The reinforcing plate perpendicular to the liner plate is also associated between plate and bottom panel.
Keeper and fastening assembly are respectively arranged on top panel 403, with after overflow brick 6 is placed on base, respectively to overflowing
Stream brick 6 is positioned and gripped, and specifically, makes overflow brick 6 parallel with the reference axis on lathe table top, and to overflow brick 6
Two ends gripped.
The structure of the keeper can have various, in the present embodiment, the keeper be alignment pin 406, the alignment pin
The 406 top surface edge positions for being vertically fixed on top panel 403, in order to enable the reliable contacts alignment pin of overflow brick 6
406, so as to realize precise positioning, specifically, alignment pin 406 can with using threaded connection by the way of be fixed on top panel 403,
Fastening assembly is fixed on the upper surface middle part of top panel 403, and certainly, the fastening assembly can also be arranged on top panel 403
Other positions, as long as the distance between both sides fastening assembly is more than the maximum length of overflow brick 6, and adjust space with suitable
.
The structure of the fastening assembly can have various, and the one of which structure of described fastening assembly is given below, when
So, the structure of the fastening assembly is not limited to this.
Fig. 2 is referred to, the fastening assembly includes being vertically fixed on the location-plate of the upper surface middle part of the top panel 403
405 and on the location-plate 405 and can be relative to the end face movement of the overflow brick 6 with to the overflow brick 6
The moving member 404 that end face is gripped.Specifically, the location-plate 405 can be bolted on top panel 403
On, more specifically, the correspondence position in location-plate 405 and top panel 403 opens up the through hole that is interconnected, by through through hole
Bolt and the nut being tightened on bolt are fixed on location-plate 405 on top panel 403, and certainly, location-plate 405 can also pass through
Other modes are fixed with top panel 403, and location-plate 405 is used to install moving member 404, and the moving member 404 can be with respect to overflow brick 6
Width end face movement, so as to when overflow brick 6 is lifted from top to bottom, the moving member 404 can be adjusted to away from
The position of overflow brick 6, with the descending action as overflow brick 6 enough droping spaces are provided, and are lifted in place and had in overflow brick 6
After effect positioning, the moving member 404 can be adjusted to the position fitted with the end face of the width of overflow brick 6, Jin Ertong
The step crossed on the first base plate 1 supports the moving member 404 of the step support column on the base plate 3 of moving member 404 and second of column assembly 4
Realization is gripped from the left and right two ends of overflow brick 6 to overflow brick 6.
Fig. 1, Fig. 2 and Fig. 4 are referred to, the structure of the moving member 404 can have various, such as described moving member 404 can
Think the electric expansion bar of belt end, or can be the screw rod 7 of belt end 9, when the moving member 404 is using belt end 9
During screw rod 7, the moving member 404 is arranged on the location-plate 405 in the following way, specifically, refers to Fig. 2, described
Screw is offered on location-plate 405, the axis of the screw is parallel with the length direction of the overflow brick 6, the screw rod 7 runs through institute
State screw and be arranged on the location-plate 405, refer to Fig. 1 and Fig. 4, one end of the direction overflow brick 6 of the screw rod 7
Termination 9 is installed with, the one side towards overflow brick 6 of the termination 9 is the plane matched with the end face of overflow brick 6, such that it is able to
Fit to realize the effect for preferably gripping to overflow brick 6 with the end face of overflow brick 6.
The appearance surface damage of overflow brick 6 is caused in order to prevent termination 9 and the surface of overflow brick 6 from contacting firmly, the table of overflow brick 6 is affected
Face quality, the termination 9 is made using engineering plastics, and for example, polyamide (PA), polyurethane (PU) etc. make.
Further, after rotary screw 7 causes termination 9 to fit with the end face of overflow brick 6, need suitably to continue rotation
Turn screw rod 7, with the pretightning force for being supplied to overflow brick 6 to be gripped, now, because termination 9 is also adopted by the side of threaded connection
Formula is screwed in screw rod end, and when termination 9 fits with the end face of overflow brick 6, continuation rotary screw 7 is easily caused screw rod 7 and stretches out
To termination 9, so that screw rod 7 is directly contacted firmly with the surface of overflow brick 6 or the end of screw rod 7 is not smooth enough and then make
Obtain when screw rod 7 is contacted with overflow brick 6 and damage overflow brick 6, for this purpose, threaded shank of the present embodiment between termination 9 and location-plate 405
Divide the position that the nut 8 being provided with for being limited the screw-in amount of termination 9, i.e. nut 8 are installed that termination 9 all the time can not
Screw in screw rod 7 and stretch out the position of termination 9, and then effective protection is carried out to overflow brick 6, prevent overflow brick 6 from colliding with damage.
Fig. 3 is referred to, the side clamping column assembly 5 includes level board 505 and is fixed on perpendicular on the level board 505
Straight panel 501, being provided with the vertical plate 501 can be relative to the side movement of the length direction of the overflow brick 6 with to described
Upper side holder 503 and downside holder that the side top and the bottom of the length direction of overflow brick 6 are gripped respectively
502.Specifically, due to the overflow brick 6 length direction side upper and lower shape it is different, top is vertically side
Plane upwards, and bottom is the inclined-plane with the inclined angle of vertical direction, is clamped by upper side holder 503 and downside
Part 502 carries out gripping to top both sides and bottom both sides respectively can effectively improve what overflow brick 6 was gripped
Stability, and then prevent overflow brick 6 from creep occurring in process.
The structure of the upper side holder 503 can have various, refer to Fig. 3 and Fig. 4, in the present embodiment, it is described on
The structure of side holder 503 supports the structure of the moving member 404 in column assembly 4 identical with step, including perpendicular to described perpendicular
First screw rod 7 of straight panel 501 and screw-in are in the end of the first screw rod 7 for the side of the length direction of the overflow brick 6
Face top fits the first termination 9 gripped with the side surface upper part to the length direction of the overflow brick 6, described perpendicular
The first screw 7 is offered in straight panel 501, first screw rod 7 is arranged on the vertical plate 501 through first screw
On.Specifically, because the overflow brick 6 is when fixed position is processed, the side surface upper part of its length direction is the flat of vertical direction
Face, therefore, the end face of the direction overflow brick 6 of the first termination 9 in the upper side holder 503 is and the overflow brick
The perpendicular of the side surface upper part mating shapes of 6 length direction, so that first termination 9 can be with the overflow brick
6 are brought into close contact the reliability so as to strengthen clamping the overflow brick 6.
The first termination in order to prevent upper side holder 503 contacts and causes the appearance of overflow brick 6 firmly with the surface of overflow brick 6
Surface damage, affects the surface quality of overflow brick 6, and the first termination 9 in the upper side holder 503 adopts engineering plastics system
Make, for example, polyamide (PA), polyurethane (PU) etc. make.
Similarly, in order to prevent the upper side holder 503 in the first termination 9 screw in first screw rod 7
Screw-in amount it is excessive, and cause first screw rod 7 to extend out to outside first termination 9 so that first screw rod 7 is direct
Contact firmly with the side of the length direction of the overflow brick 6 and cause overflow brick surface damage, or the end of first screw rod 7
It is not smooth enough and then cause the first screw rod damage overflow brick 6 when contacting with overflow brick 6, the present embodiment the first termination 9 with it is vertical
The first screw portion between plate 501 is also equipped with the first nut for being limited the screw-in amount of first termination 9
8, to carry out effective protection to overflow brick 6, prevent overflow brick 6 from colliding with damage.
Fig. 3 is referred to, in a preferred embodiment, in order to strengthen the self-strength that the side clamps column assembly 5, to carry
The reliability that the high side clamping column assembly 5 is gripped to overflow brick 6, the level board 505 and the vertical plate
The triangular reinforcing plate 504 perpendicular to the level board 505 and the vertical plate 501 is also equipped between 501;Specifically, three
Angular strengthening version can be right angled triangle reinforcing plate, and the vertical plane of the right angled triangle reinforcing plate is fitted admittedly with vertical plate 501
It is fixed, and horizontal plane is fitted fixation with level board 505, by the supporting role of triangular reinforcing plate 504, can effectively strengthen vertical
The force stability of plate 501.
Usually, the side lower of the length direction of the overflow brick 6 is the inclined plane with the inclined angle of vertical direction,
In the embodiment of the present invention, the downside holder 502 is used for the side lower of the length direction to the overflow brick 6 and presss from both sides
Fixation is held, and then the stability gripped to overflow brick 6 can be effectively improved, in preventing process, overflow brick 6
Raw creep.
Fig. 5 is referred to, specifically, the downside holder 502 includes the second screw rod perpendicular to the vertical plate 501
10 and screw in the end of the second screw rod 10 for fitting with right with the side lower of the length direction of the overflow brick 6
The inclined-plane termination 12 that the side lower of the length direction of the overflow brick 6 is gripped, offers on the vertical plate 501
Second screw, offers the 3rd screw being connected with second screw, second spiral shell on the triangular reinforcing plate 504
Bar 10 is arranged on the vertical plate 501 and the triangular reinforcing plate 504 through second screw and the 3rd screw
On.Wherein, the end face of the side of the direction overflow brick 6 of the inclined-plane termination 12 that the inclined-plane termination 12 refers to be with vertically
The inclined-plane of the inclined angle in direction, the inclined-plane and the angle of inclination of vertical direction and the side lower of the length direction of overflow brick 6
It is identical with the angle of inclination of vertical direction, so as to, the inclined-plane termination 12 to overflow brick 6 when gripping, its inclined-plane
Can be brought into close contact with the side lower of the length direction of the overflow brick 6, be pressed from both sides by the side of the length direction both sides of overflow brick 6
The collective effect of the inclined-plane termination 12 in column assembly 5 is held, the both sides of overflow brick 6 can effectively be clamped and be lifted, entered
And prevent overflow brick 6 from producing creep in process.The effect of lifting of downside holder 502 determines downside holder
502 need to carry bigger weight, therefore, in order to improve the stability of downside holder 502, in the present embodiment, downside
The screw rod of holder 502 is installed through triangular reinforcing plate 504 and vertical plate 501, so as to its mounting structure is more consolidated.
The appearance surface damage of overflow brick 6 is caused in order to prevent inclined-plane termination 12 and the surface of overflow brick 6 from contacting firmly, overflow brick is affected
6 surface quality, the inclined-plane termination 12 is made using engineering plastics, and for example, polyamide (PA), polyurethane (PU) etc. make.
Similarly, in order to prevent, the screw-in amount of the inclined-plane termination 12 is excessive to cause the second screw rod 10 to extend out to inclined-plane termination
Directly contact firmly with the surface of overflow brick 6 outside 12, cause the surface damage of overflow brick 6, the inclined-plane termination 12 is vertical with described
The part of the second screw rod 10 between plate 501 is also equipped with the second spiral shell for being limited the screw-in amount of the inclined-plane termination 12
Female 11.By the position-limiting action of second nut 11, effective protection can be carried out to the overflow brick 6.
The using method of overflow brick clamp for machining provided in an embodiment of the present invention is as follows:
Step 1:The assembling of overflow brick clamp for machining;
The replaceable plate 2 of correspondingly-sized, thing on the replaceable plate 2 are selected according to the dimensions of overflow brick 6 to be processed
First clamp column assembly 5 already installed with side, by replaceable plate 2 be fastened by bolts on the first base plate 1 and the second base plate 3 from
And the assembling of overflow brick clamp for machining is completed, already installed with step support column assembly in advance on the first base plate 1 and the second base plate 3
4 and side clamping column assembly 5.
Step 2:The positioning of overflow brick clamp for machining;
The overflow brick clamp for machining for assembling is lifted on lathe table top, using lever indicator by the first base plate 1
Step support column assembly 4 the base plate 3 of alignment pin 406 and second on step support column assembly 4 alignment pin 406 find accurately same
On one straight line, i.e. so that the straight line of connection above-mentioned two alignment pin 406 is parallel with the reference axis on lathe table top, specifically, machine
Bed is three-dimensional system of coordinate, including the X-axis and the Y-axis perpendicular to X-axis of lathe table top, and perpendicular to X-axis, the Z axis of Y-axis, connection
The straight line of above-mentioned two alignment pin 406 can be parallel with the Y-axis of lathe coordinate system.
Step 3:The positioning of overflow brick 6;
Overflow brick 6 is from top to bottom lifted to two ends step with hanging device is supported between column assembly 4 so that overflow brick 6
Two step surface respectively with two ends step support column assembly 4 base upper surface contact, so as to pass through two ends step support column
Component 4 carries the weight of overflow brick 6;Now, overflow brick 6 is located at the side of the straight line of connection two ends alignment pin 406, by rotation
The first screw rod 7 in the upper side clamping column assembly 5 of the side clamping column assembly 5 of the opposite side of two ends alignment pin 406 so that the
The termination 9 of the end of one screw rod 7 promotes overflow brick 6 to be moved to the position of alignment pin 406, i.e. make the side of the length direction of overflow brick 6
Fit with alignment pin 406, so as to complete the positioning of overflow brick 6;
Step 4:Overflow brick is gripped;
Turn two ends step supports the straight line opposite side of the screw rod 7 in column assembly 4 and above-mentioned connection two ends alignment pin 406
Side clamping column assembly 5 in the first screw rod 7, with from two upper lateral parts of overflow brick 6 and the two ends of overflow brick 6 to overflow brick 6
Gripped, specifically, step supports the termination 9 of the screw rod 7 in column assembly 4 to fit with the end face of overflow brick 6, and side
Fit with the side surface upper part of the length direction of overflow brick 6 termination 9 of the first screw rod 7 in clamping column assembly 5;
Step 5:The clamping of overflow brick 6 is lifted;
The second screw rod 10 in the side clamping column assembly 5 of the length direction both sides of turn overflow brick 6 so that the second screw rod 10
Inclined-plane termination 12 fit with the two sides bottom of the length direction of overflow brick 6, so as to realize the length direction to overflow brick 6
Two sides bottom lifted and clamped, to prevent in process, overflow brick 6 occur creep.
The preferred embodiment of the present invention is described in detail above in association with accompanying drawing, but, the present invention is not limited to above-mentioned reality
The detail in mode is applied, in the range of the technology design of the present invention, various letters can be carried out to technical scheme
Monotropic type, these simple variants belong to protection scope of the present invention.
It is further to note that each particular technique feature described in above-mentioned specific embodiment, in not lance
In the case of shield, can be combined by any suitable means.In order to avoid unnecessary repetition, the present invention to it is various can
The combination of energy is no longer separately illustrated.
Additionally, can also be combined between a variety of embodiments of the present invention, as long as it is without prejudice to this
The thought of invention, it should equally be considered as content disclosed in this invention.
Claims (12)
1. a kind of overflow brick clamp for machining, it is characterised in that the overflow brick clamp for machining include horizontally disposed first base plate,
Second base plate and the replaceable plate being detachably connected between first base plate and second base plate, first base plate
Be separately provided for gripping and to the overflow brick both ends of the surface of the overflow brick on second base plate
The step for being carried and being positioned supports column assembly, the step of first base plate to support the platform of column assembly and second base plate
Rank supports the side being provided between column assembly for being gripped to the two sides top and the bottom of the length direction of the overflow brick
Face clamps column assembly.
2. overflow brick clamp for machining according to claim 1, it is characterised in that the step support column assembly to include for
Carry the overflow brick base, on the base for the keeper, the Yi Jishe that are positioned to the overflow brick
The fastening assembly gripped for the end face of the overflow brick on the base.
3. overflow brick clamp for machining according to claim 2, it is characterised in that the base is I shape, including level
The top panel and bottom panel of setting, and the liner plate being vertically connected between the top panel and the bottom panel;The bottom surface
Plate is fixedly connected with first base plate or second base plate;The keeper and the fastening assembly are respectively arranged on the top
On panel.
4. overflow brick clamp for machining according to claim 3, it is characterised in that the keeper is alignment pin, described fixed
Position pin is vertically fixed on the top surface edge position of the top panel;The fastening assembly is fixed on the upper surface of the top panel
Middle part.
5. overflow brick clamp for machining according to claim 4, it is characterised in that the fastening assembly includes being vertically fixed on
The location-plate of the top panel upper surface middle part and on the location-plate and it is capable of the end face of relatively described overflow brick
The moving member that movement is gripped with the end face to the overflow brick.
6. overflow brick clamp for machining according to claim 5, it is characterised in that the moving member is included perpendicular to described fixed
The screw rod of position plate and screw in the screw rod end for fitting with to the overflow brick with the end face of the overflow brick
The termination that end face is gripped, offers screw on the location-plate, the screw rod is arranged on institute through the screw
State on location-plate.
7. overflow brick clamp for machining according to claim 6, it is characterised in that the termination is made using engineering plastics;
Screw portion between the termination and the location-plate be also equipped with for being limited the screw-in amount of the termination in case
Only the screw rod extend out to the nut outside the termination.
8. overflow brick clamp for machining according to claim 1, it is characterised in that the side clamping column assembly includes level
Plate and the vertical plate being fixed on the level board, are provided with the length direction for being capable of relatively described overflow brick on the vertical plate
The upper side holder that gripped respectively with the side top and the bottom to the length direction of the overflow brick of side movement
With downside holder.
9. overflow brick clamp for machining according to claim 8, it is characterised in that the upper side holder include perpendicular to
First screw rod and screw-in of the vertical plate is in the first screw rod end for the side of the length direction of the overflow brick
Face top fits the first termination gripped with the side surface upper part to the length direction of the overflow brick, it is described vertically
The first screw is offered on plate, first screw rod is arranged on the vertical plate through first screw.
10. overflow brick clamp for machining according to claim 9, it is characterised in that first termination adopts engineering plastics
Make;The first screw portion between first termination and the vertical plate is also equipped with for the rotation to first termination
Enter amount to be limited to prevent first screw rod from extending out to the first nut outside first termination.
The 11. overflow brick clamp for machining according to claim 9 or 10, it is characterised in that the level board and it is described vertically
The triangular reinforcing plate perpendicular to the level board and the vertical plate is also equipped between plate;The downside holder includes
Perpendicular to the vertical plate the second screw rod and screw in the second screw rod end for the length side of the overflow brick
To side lower fit the inclined-plane termination that gripped with the side lower to the length direction of the overflow brick, institute
State and offer on vertical plate the second screw, the 3rd spiral shell being connected with second screw is offered on the triangular reinforcing plate
Hole, second screw rod is arranged on the vertical plate through second screw and the 3rd screw and the triangle adds
On strong plate.
12. overflow brick clamp for machining according to claim 11, it is characterised in that the inclined-plane termination adopts engineering plastics
Make;The second screw portion between the inclined-plane termination and the vertical plate is also equipped with for the rotation to the inclined-plane termination
Enter amount to be limited to prevent second screw rod from extending out to the second nut outside the inclined-plane termination.
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CN201710037817.XA CN106625232A (en) | 2017-01-18 | 2017-01-18 | Overflow brick processing clamp |
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CN201710037817.XA CN106625232A (en) | 2017-01-18 | 2017-01-18 | Overflow brick processing clamp |
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CN108439771A (en) * | 2018-05-11 | 2018-08-24 | 彩虹集团有限公司 | It is applicable in the vertical clamp and method for adjusting height of more specification overflow bricks in short transverse |
CN113415977A (en) * | 2021-05-19 | 2021-09-21 | 河南旭阳光电科技有限公司 | Protection device, heating furnace and deformation prevention method |
CN114634293A (en) * | 2022-02-21 | 2022-06-17 | 河北光兴半导体技术有限公司 | Overflow brick mounting device and using method thereof |
CN115446988A (en) * | 2022-07-28 | 2022-12-09 | 陕西彩虹工业智能科技有限公司 | Processing method of flexible glass overflow brick |
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CN201720704U (en) * | 2010-01-12 | 2011-01-26 | 深圳市旺鑫精密工业有限公司 | Adjustable planar slow wire cutting processing fixture |
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CN108439771A (en) * | 2018-05-11 | 2018-08-24 | 彩虹集团有限公司 | It is applicable in the vertical clamp and method for adjusting height of more specification overflow bricks in short transverse |
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CN114634293A (en) * | 2022-02-21 | 2022-06-17 | 河北光兴半导体技术有限公司 | Overflow brick mounting device and using method thereof |
CN115446988A (en) * | 2022-07-28 | 2022-12-09 | 陕西彩虹工业智能科技有限公司 | Processing method of flexible glass overflow brick |
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