CN202964762U - Cutting die positioning device suitable for computerized numerical control (CNC) cutting machine - Google Patents

Cutting die positioning device suitable for computerized numerical control (CNC) cutting machine Download PDF

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Publication number
CN202964762U
CN202964762U CN 201220682881 CN201220682881U CN202964762U CN 202964762 U CN202964762 U CN 202964762U CN 201220682881 CN201220682881 CN 201220682881 CN 201220682881 U CN201220682881 U CN 201220682881U CN 202964762 U CN202964762 U CN 202964762U
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CN
China
Prior art keywords
guide
chuck
axis
positive
cutting die
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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.)
Expired - Fee Related
Application number
CN 201220682881
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Chinese (zh)
Inventor
杨小青
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杨小青
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Priority to CN 201220682881 priority Critical patent/CN202964762U/en
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Publication of CN202964762U publication Critical patent/CN202964762U/en
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Abstract

The utility model discloses a cutting die positioning device suitable for a computerized numerical control (CNC) cutting machine. The cutting die positioning device comprises a frame body, a working bench, at least two clamps and a control device. The working bench is arranged at the upper end of the frame body. Each clamp comprises a first clamp head and a second clamp head, the first clamp heads can be movably arranged at one end of the working bench, the second clamp heads can be movably arranged at the other end of the working bench, and corresponding clamping routes between the clamps are arranged in a mutually-cross mode. The control device comprises at least two control units which are arranged to be in one-to-one correspondence with the two clamps. The control units comprise transmission mechanisms and controlling pieces. The transmission mechanisms are respectively connected with the first clamp heads, the second clamp heads and the controlling pieces. The controlling pieces control the first clamp heads and the second clamp heads to be clamped in close distance or separated in departing distance. Due to the fact that the two clamps are arranged, and the corresponding clamping routes are arranged in the mutually-cross mode, the controlling pieces are used, the first clamp heads and the second clamp heads can be enabled to tightly clamp cutting dies quickly and firmly, and meanwhile the first clamp heads and the second clamp heads can be separated quickly.

Description

A kind of cutting die positioner that is suitable for the numerical control cutting machine
Technical field
The utility model relates to the cutting machine technical field, particularly relates to a kind of cutting die positioner that is suitable for the numerical control cutting machine.
Background technology
In the cutting machine field, the cutting die positioner of its configuration, for being used for fixedly cutting die, but current cutting die positioner, or in order to guarantee the fixing of cutting die, need complicated structure, the replacing that the causes cutting die trouble that becomes is bothersome, in order to guarantee the location of cutting die, need to expend the more time to operate, so that affect production efficiency.
Therefore, be necessary to provide a kind of technological means to address the aforementioned drawbacks.
The utility model content
The purpose of this utility model is to address the above problem, and a kind of cutting die positioner that is suitable for the numerical control cutting machine is provided, to solve the problem that prior art knife mold clip tightness is not enough, the cutting die location is consuming time.
For reaching this purpose, the utility model by the following technical solutions:
A kind of cutting die positioner that is suitable for the numerical control cutting machine comprises support body, workbench, some clamps and control device, and described workbench is located at the upper end of described support body; Described clamp comprises the first chuck and the second chuck, and described the first chuck is located at an end of described workbench movably, and described the second chuck is located at the other end of described workbench movably; Described control device comprises and some described clamps control module of corresponding configuration one by one, and described control module comprises transmission mechanism and controls part, described transmission mechanism is connected with described the first chuck, described the second chuck, the described part of controlling respectively, and the described part of controlling is controlled described the first chuck with the close gripping of described the second chuck or separates out mutually by described transmission mechanism.
As further preferred version, described transmission mechanism comprises positive and negative tooth screw rod, described positive and negative tooth screw rod is arranged in described workbench, described the first chuck is sheathed on an end of described positive and negative tooth screw rod by being provided with the first connecting portion, and be provided with in this first connecting portion with described positive and negative tooth screw rod on positive tooth or the first engaging piece of anti-tooth engagement, described the second chuck is sheathed on the other end of described positive and negative tooth screw rod by being provided with the second connecting portion, and be provided with in this second connecting portion with described positive and negative tooth screw rod on anti-tooth or the second engaging piece of positive tooth engagement;
Preferably, described transmission mechanism also comprises guiding mechanism, this guiding mechanism comprises the first guide part, the second guide part and the axis of guide, described the first guide part is located at the lower end of described the first chuck, described the second guide part is located at the lower end of described the second chuck, the described axis of guide is arranged in respectively described the first guide part, described workbench, described the second guide part, and described the first guide part and described the second guide part all are configuration slidably with the described axis of guide;
Preferably, be provided with clutch shaft bearing in described the first guide part, the described axis of guide is configuration slidably by described clutch shaft bearing and described the first guide part, is provided with the second bearing in described the second guide part, and the described axis of guide is configuration slidably by described the second bearing and described the second guide part;
Preferably, the described axis of guide comprises first axis of guide and second axis of guide, described first axis of guide is arranged in respectively an end of described the first guide part, described workbench, described the second guide part, and described second axis of guide is arranged in respectively the other end of described the first guide part, described workbench, described the second guide part.
As further preferred version, the described part of controlling is rocking handle, and this rocking handle is connected in an end of described positive and negative tooth screw rod.
As further preferred version, described clamp is two, and the mobile route vertical setting intersected with each other that forms of the first chuck corresponding to these two clamps and the second chuck;
Preferably, described workbench is rectangular table, and these two clamps are located at respectively on two center lines on limit of described rectangular table.
The beneficial effects of the utility model are: owing to being provided with at least two clamps and its corresponding clamping path is mutually arranged in a crossed manner, as long as by controlling part, just can firmly make fast the first chuck and the second chuck clamp cutting die, simultaneously both are separated out fast mutually, effectively guarantee the operation of cutting die location.
Description of drawings
Fig. 1 is the stereogram that is suitable for the cutting die positioner of numerical control cutting machine of the present utility model;
Fig. 2 is the schematic diagram that is suitable for the cutting die positioner of numerical control cutting machine of the present utility model, with the concrete structure of the transmission mechanism that shows the cutting die positioner.
In figure:
10, cutting die positioner; 20, support body; 30, workbench; 40, clamp; 41, the first chuck; 410, the first connecting portion; 42, the second chuck; 420, the second connecting portion; 50, control device; 51, control module; 52, transmission mechanism; 520, positive and negative tooth screw rod; 521, guiding mechanism; 522, the first guide part; 5221, clutch shaft bearing; 523, the second guide part; 5231, the second bearing; 524, the axis of guide; 5241, first axis of guide; 5242, second axis of guide; 53, control part.
The specific embodiment
Further illustrate the technical solution of the utility model below in conjunction with accompanying drawing and by the specific embodiment.
See also Figure 1 and Figure 2, the utility model provides a kind of cutting die positioner 10 that is suitable for the numerical control cutting machine, comprises support body 20, workbench 30, at least two clamps 40 and control device 50, and workbench 30 is located at the upper end of support body 20; Each clamp 40 comprises the first chuck 41 and the second chuck 42, the first chuck 41 is located at an end of workbench 30 movably, and the second chuck 42 is located at the other end of workbench 30 movably, and the clamping path of corresponding the first chuck 41 and the second chuck 42 formation between clamp 40 is mutually arranged in a crossed manner; Control device 50 comprises and two clamps 40 control module 51 of corresponding configuration one by one at least, and control module 51 comprises transmission mechanism 52 and controls part 53, transmission mechanism 53 respectively with the first chuck 41, the second chuck 42, control part 53 and be connected, control part 53 by transmission mechanism 52 control the first chuck 41 with the second chuck 42 near gripping or separate out mutually.Owing to being provided with at least two clamps 40 and its corresponding clamping path is mutually arranged in a crossed manner, as long as by controlling part 53, just can firmly make fast the first chuck 41 and the second chuck 42 clamp cutting die, simultaneously both are separated out fast mutually, effectively guarantee the operation of cutting machine.
Particularly, transmission mechanism 52 comprises positive and negative tooth screw rod 520, positive and negative tooth screw rod 520 is arranged in workbench 30, the first chuck 41 is sheathed on an end of positive and negative tooth screw rod 520 by being provided with the first connecting portion 410, and be provided with in this first connecting portion 410 with positive and negative tooth screw rod 520 on positive tooth or the first engaging piece of anti-tooth engagement, the second chuck 42 is sheathed on the other end of positive and negative tooth screw rod 520 by being provided with the second connecting portion 420, and be provided with in this second connecting portion 520 with positive and negative tooth screw rod 520 on anti-tooth or the second engaging piece of positive tooth engagement.Wherein, by being provided with positive and negative tooth screw rod 520, realized simply and effectively synchronizeing between the first chuck 41 and the second chuck 42 near gripping or separating out mutually, guaranteed the quick gripping of cutting die and unclamped fast.Preferably, transmission mechanism 52 also comprises guiding mechanism 521, this guiding mechanism 521 comprises the first guide part 522, the second guide part 523 and the axis of guide 524, the first guide part 522 is located at the lower end of the first chuck 41, the second guide part 523 is located at the lower end of the second chuck 42, the axis of guide 524 is arranged in respectively the first guide part 522, workbench 30, the second guide part 523, and the first guide part 522 and the second guide part 523 all are configuration slidably with the axis of guide 524, by being provided with guiding mechanism 521, guaranteed the stable movement of the first chuck 41 and the second chuck 42.Preferably, be provided with clutch shaft bearing 5221 in the first guide part 522, the axis of guide 524 is configuration slidably by clutch shaft bearing 5221 and the first guide part 522, is provided with the second bearing 5231 in the second guide part 523, and the axis of guide 524 is configuration slidably by the second bearing 5231 and the second guide part 523.Preferably, the axis of guide 524 comprises first axis of guide 5241 and second axis of guide 5242, first axis of guide 5241 is arranged in respectively an end of the first guide part 522, workbench 30, the second guide part 523, second axis of guide 5242 is arranged in respectively the other end of the first guide part 522, workbench 30, the second guide part 523, wherein, adopt two axis of guides 5241,5242, further guaranteed the steady movement of the first chuck 41 and the second chuck 42.
In addition, control part 53 and be rocking handle 53, and this rocking handle 53 is connected in an end of positive and negative tooth screw rod 520, wherein; the setting of rocking handle 53; the handled easily personnel shake positive and negative tooth screw rod 520 fast, and by positive and negative tooth screw rod 520 impel the first chuck 41 synchronize near gripping with the second chuck 42 or separate out mutually.
Preferred embodiment as this case, the clamp 40 of this case is two, and the mobile route vertical setting intersected with each other that forms of the first chuck 41 of these two clamp 40 correspondences and the second chuck 42, wherein, for intersecting vertical the setting, more be conducive to the optimization gripping of cutting die due to it.Preferably, workbench 30 is rectangular table 30, and these two clamps 40 are located at respectively on two center lines on limit of rectangular table 30.
Below in conjunction with diagram, the operation principle that is suitable for the cutting die positioner 10 of numerical control cutting machine of the present utility model is further described.
as shown in Figures 1 and 2, at first, cutting die positioner 10 is arranged on cutting machine, after complete, just can place relevant cutting die on the workbench 30 of cutting die positioner 10, then just can be along the rocking handle 53 of the hand clamp 40 of positive direction, by positive and negative tooth screw rod 520, power is reached respectively the first chuck 41 and the second chuck 42, so that both are synchronously close, be specially, mesh by the first engaging piece of the first connecting portion 410 on the first chuck 41 and the positive tooth of positive and negative tooth screw rod 520, the anti-tooth engagement of the second engaging piece of the first connecting portion 420 on the second chuck 42 and positive and negative tooth screw rod 520, thereby impel the first chuck 41 to move along first axis of guide 5241 and second axis of guide 5242 by the first guide part 522, the second chuck 42 moves by the relative direction of the second guide part 523 along first axis of guide 5241 and the second axis of guide 5242 towards first chucks 41, then make between the first chuck 41 and the second chuck 42 synchronously close, certainly, if midway along the hand rocking handle 53 of opposite direction, separated in synchronization between the first chuck 41 and the second chuck 42.Until after these clamp 40 clamping cutting dies, just can continue to operate another clamp 40 clamping cutting dies with said method, final, impel the cutting die fast positioning clamping, at this moment, just can utilize cutting die to carry out the severing operation.As for the operation that separates cutting die, as long as the rocking handle 53 of the hand clamp 40 of opposite direction, just can make the first chuck 41 and the second chuck 42 unclamp cutting die and be separated, then, continue again the oppositely rocking handle 53 of hand another clamp 40, make its first chuck 41 and the second chuck 42 unclamp cutting die and be separated, thereby finally reach the purpose of quick separation cutting die.
Know-why of the present utility model has below been described in conjunction with specific embodiments.These are described just in order to explain principle of the present utility model, and can not be interpreted as by any way the restriction to the utility model protection domain.Based on explanation herein, those skilled in the art does not need to pay performing creative labour can associate other specific embodiment of the present utility model, within these modes all will fall into protection domain of the present utility model.

Claims (8)

1. a cutting die positioner that is suitable for the numerical control cutting machine, is characterized in that, comprising:
Support body;
Workbench, described workbench is located at the upper end of described support body;
At least two clamps, each described clamp comprises the first chuck and the second chuck, described the first chuck is located at an end of described workbench movably, and described the second chuck is located at the other end of described workbench movably, and the clamping path of corresponding described the first chuck and described the second chuck formation between described clamp is mutually arranged in a crossed manner; And control device, described control device comprises and two described clamps control module of corresponding configuration one by one at least, and described control module comprises transmission mechanism and controls part, described transmission mechanism is connected with described the first chuck, described the second chuck, the described part of controlling respectively, and the described part of controlling is controlled described the first chuck with the close gripping of described the second chuck or separates out mutually by described transmission mechanism.
2. the cutting die positioner that is suitable for the numerical control cutting machine according to claim 1, it is characterized in that, described transmission mechanism comprises positive and negative tooth screw rod, described positive and negative tooth screw rod is arranged in described workbench, described the first chuck is sheathed on an end of described positive and negative tooth screw rod by being provided with the first connecting portion, and be provided with in this first connecting portion with described positive and negative tooth screw rod on positive tooth or the first engaging piece of anti-tooth engagement, described the second chuck is sheathed on the other end of described positive and negative tooth screw rod by being provided with the second connecting portion, and be provided with in this second connecting portion with described positive and negative tooth screw rod on anti-tooth or the second engaging piece of positive tooth engagement.
3. the cutting die positioner that is suitable for the numerical control cutting machine according to claim 2, it is characterized in that, described transmission mechanism also comprises guiding mechanism, this guiding mechanism comprises the first guide part, the second guide part and the axis of guide, described the first guide part is located at the lower end of described the first chuck, described the second guide part is located at the lower end of described the second chuck, the described axis of guide is arranged in respectively described the first guide part, described workbench, described the second guide part, and described the first guide part and described the second guide part all are configuration slidably with the described axis of guide.
4. the cutting die positioner that is suitable for the numerical control cutting machine according to claim 3, it is characterized in that, be provided with clutch shaft bearing in described the first guide part, the described axis of guide is configuration slidably by described clutch shaft bearing and described the first guide part, be provided with the second bearing in described the second guide part, the described axis of guide is configuration slidably by described the second bearing and described the second guide part.
5. the cutting die positioner that is suitable for the numerical control cutting machine according to claim 3, it is characterized in that, the described axis of guide comprises first axis of guide and second axis of guide, described first axis of guide is arranged in respectively an end of described the first guide part, described workbench, described the second guide part, and described second axis of guide is arranged in respectively the other end of described the first guide part, described workbench, described the second guide part.
6. the cutting die positioner that is suitable for the numerical control cutting machine according to claim 2, is characterized in that, the described part of controlling is rocking handle, and this rocking handle is connected in an end of described positive and negative tooth screw rod.
7. the described cutting die positioner that is suitable for the numerical control cutting machine of according to claim 1~6 any one, is characterized in that, described clamp is two, and the clamping path vertical setting intersected with each other that forms of the first chuck corresponding to these two clamps and the second chuck.
8. the cutting die positioner that is suitable for the numerical control cutting machine according to claim 7, is characterized in that, described workbench is rectangular table, and these two clamps are located at respectively on two center lines on limit of described rectangular table.
CN 201220682881 2012-12-12 2012-12-12 Cutting die positioning device suitable for computerized numerical control (CNC) cutting machine Expired - Fee Related CN202964762U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201220682881 CN202964762U (en) 2012-12-12 2012-12-12 Cutting die positioning device suitable for computerized numerical control (CNC) cutting machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 201220682881 CN202964762U (en) 2012-12-12 2012-12-12 Cutting die positioning device suitable for computerized numerical control (CNC) cutting machine

Publications (1)

Publication Number Publication Date
CN202964762U true CN202964762U (en) 2013-06-05

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103692480A (en) * 2013-12-18 2014-04-02 周佩龙 Template quick clamp of die-cutting machine
CN106514332A (en) * 2016-11-28 2017-03-22 衢州学院 Connecting rod drive type clamp

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103692480A (en) * 2013-12-18 2014-04-02 周佩龙 Template quick clamp of die-cutting machine
CN106514332A (en) * 2016-11-28 2017-03-22 衢州学院 Connecting rod drive type clamp
CN106514332B (en) * 2016-11-28 2019-01-04 衢州学院 A kind of connecting rod drive-type fixture

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C14 Grant of patent or utility model
GR01 Patent grant
EXPY Termination of patent right or utility model
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20130605

Termination date: 20141212