CN208304684U - A kind of novel numerical control carving machine - Google Patents

Abstract

The utility model discloses a kind of novel numerical control carving machines, are related to mechanical equipment technical field；Including lathe base, the first Y-axis mould group, the second Y-axis mould group, the first workbench, the second workbench, the first X-axis mould group, the second X-axis mould group, the first Z axis mould group and the second Z axis mould group；First Y-axis mould group and the second Y-axis mould group are disposed side by side on lathe base, and the two sides of the first Y-axis mould group and the second Y-axis mould group are provided with dust cover；First workbench is mounted in the first Y-axis mould group, and the second workbench is mounted in the second Y-axis mould group；First Z axis mould group is mounted in the first X-axis mould group, and the second Z axis mould group is mounted in the second X-axis mould group, and the first Z axis mould group and the second Z axis mould group lower end are provided with spindle assemblies；The two sides of first Z axis mould group and the second Z axis mould group are provided with organ cover；The beneficial effects of the utility model are: can process simultaneously to multiple glass pieces, the processing efficiency of glass pieces is improved.

Description

A kind of novel numerical control carving machine

Technical field

The utility model relates to mechanical equipment technical fields, more specifically, the utility model relates to a kind of novel numerical controls Carving machine.

Background technique

Demand continuous rise to carving machine currently on the market, for the carving machine of the processing such as tablet computer, hand-set lid It is mostly using traditional mono- CCD design of the mono- Z of single Y, processing efficiency is low for the design, time-consuming and positioning accuracy is low, and processing efficiency is low In manual operation, it is unable to satisfy the demand of existing market.

Utility model content

For overcome the deficiencies in the prior art, the utility model provides a kind of novel numerical control carving machine, novel numerical control essence Processing while carving machine can be realized multiple glass pieces improves the processing efficiency of glass pieces.

The technical scheme adopted by the utility model to solve the technical problem is as follows: a kind of novel numerical control carving machine, is improved Place is: including lathe base, the first Y-axis mould group, the second Y-axis mould group, the first workbench, the second workbench, the first X-axis mould Group, the second X-axis mould group, the first Z axis mould group and the second Z axis mould group；

The first Y-axis mould group and the second Y-axis mould group is disposed side by side on lathe base, and the first Y-axis mould group and The two sides of two Y-axis mould groups are provided with dust cover；First workbench is mounted in the first Y-axis mould group, and described Two workbench are mounted in the second Y-axis mould group, and are provided on the first workbench and the second workbench to be processed for placing The localization tool of glass pieces；

The first X-axis mould group and the second X-axis mould group is fixedly mounted on lathe base side by side, and the first X-axis mould group Positioned at the top of the first workbench, the second X-axis mould group is located at the top of the second workbench；

The first Z axis mould group is mounted in the first X-axis mould group, and the second Z axis mould group is mounted on the second X-axis mould In group, the first Z axis mould group and the second Z axis mould group lower end are provided with the spindle assemblies for being processed to glass pieces；Institute The two sides of the first Z axis mould group and the second Z axis mould group stated are provided with organ cover.

In such a configuration, there are two support frames for setting on the lathe base, and the top of two support frames is solid Dingan County is equipped with crossbeam, and the first X-axis mould group and the second X-axis mould group are fixed on crossbeam side by side.

In such a configuration, the spindle assemblies include machining spindle, and the bottom end of machining spindle is equipped with bistrique.

In such a configuration, there is cavity inside the localization tool, be provided on localization tool and be connected with cavity Logical connector, and the upper surface of localization tool is provided with the adsorption hole being connected with cavity.

In such a configuration, the first Y-axis mould group is identical as the structure of the second Y-axis mould group；First Y-axis mould group packet Include Y-axis apron plate, Y-axis fixed plate and stainless steel shield；

The Y-axis fixed plate is arranged in parallel with stainless steel shield, and it is solid that the Y-axis apron plate is fixedly mounted on Y-axis The top of fixed board and the top of stainless steel shield.

In such a configuration, the first Y-axis mould group further includes Y-axis dust cover plate, dust cover support frame, work Make platform pedestal and Y-axis side guard plate；

The first Y-axis mould group further includes Y-axis sliding block, and the table base is fixedly connected with Y-axis sliding block, and institute The first workbench stated is fixedly mounted on above table base, and the Y-axis side guard plate is fixedly mounted on table base Side；

The Y-axis dust cover plate have perpendicular first end and second end, the first of Y-axis dust cover plate End is fixed on Y-axis apron plate, and the second end of Y-axis dust cover plate is fixedly connected with dust cover,.

The beneficial effects of the utility model are: the novel numerical control carving machine of the utility model, it can be simultaneously to multiple glass Workpiece is processed, and the processing efficiency of glass pieces is improved, and is solved machining low efficiency in the prior art, time-consuming is asked Topic；When different types of bistrique is installed in the bottom end of machining spindle, automatic edging, punching, the processing of chamfering may be implemented, apply Range is wide, and applicability is more preferable.

Detailed description of the invention

Fig. 1 is a kind of schematic perspective view of novel numerical control carving machine of the utility model.

Fig. 2 is a kind of positive structure schematic of novel numerical control carving machine of the utility model.

Fig. 3 is that a kind of first Y-axis mould group of novel numerical control carving machine of the utility model and the structure of the second Y-axis mould group are shown It is intended to.

Fig. 4 is the partial enlarged view in Fig. 3 at A.

Specific embodiment

The present invention will be further described with reference to the accompanying drawings and examples.

It is carried out below with reference to technical effect of the embodiment and attached drawing to the design of the utility model, specific structure and generation It clearly and completely describes, to be completely understood by the purpose of this utility model, feature and effect.Obviously, described embodiment It is a part of the embodiment of the utility model, rather than whole embodiments, it is based on the embodiments of the present invention, the skill of this field Art personnel other embodiments obtained without creative efforts belong to the model of the utility model protection It encloses.In addition, all connection/connection relationships being related in patent, not singly refer to that component directly connects, and referring to can be according to specific Performance, by adding or reducing couple auxiliary, to form more preferably coupling structure.Each skill in the utility model creation Art feature, can be with combination of interactions under the premise of not conflicting conflict.

Shown in reference picture 1, Fig. 2, the utility model discloses a kind of novel numerical control carving machine, specifically, in the present embodiment In, which includes lathe base 101, the first Y-axis mould group 102, the second Y-axis mould group 103, the first workbench 104, the second workbench 105, the first X-axis mould group 106, the second X-axis mould group 107, the first Z axis mould group 108 and the second Z axis mould group 109；Wherein, the first Y-axis mould group 102 and the second Y-axis mould group 103 are disposed side by side on lathe base 101, and the first Y The two sides of Axle mould group 102 and the second Y-axis mould group 103 are provided with dust cover 110；First workbench 104 is mounted on In first Y-axis mould group 102, second workbench 105 is mounted in the second Y-axis mould group 103, and 104 He of the first workbench The localization tool 111 for placing glass pieces to be processed is provided on second workbench 105；The first X-axis mould group 106 and second X-axis mould group 107 be fixedly mounted on lathe base 101 side by side, and the first X-axis mould group 106 is located at the first workbench 104 top, the second X-axis mould group 107 are located at the top of the second workbench 105；The first Z axis mould group 108 is mounted on In one X-axis mould group 106, the second Z axis mould group 109 is mounted in the second X-axis mould group 107, the first Z axis mould group 108 and Two Z axis mould groups, 109 lower end is provided with the spindle assemblies 112 for being processed to glass pieces, described in the present embodiment Spindle assemblies 112 include machining spindle, and the bottom end of machining spindle is equipped with bistrique；The first Z axis mould group 108 and second The two sides of Z axis mould group 109 are provided with organ cover 113.

In the above-described embodiment, the first Y-axis mould group 102, the second Y-axis mould group 103, the first X-axis mould group 106, Second X-axis mould group 107, the first Z axis mould group 108 and the second Z axis mould group 109 are that screw rod rotation is driven by servo motor, The movement for being converted into feed screw nut of screw rod, and then corresponding component is driven to realize translation, this structure is in the prior art In it is highly developed, be then no longer described in detail in the present embodiment.

As preferred embodiment, support frame 114 there are two settings on the lathe base 101, and two support frames 114 top is fixedly installed with crossbeam, and the first X-axis mould group 106 and the second X-axis mould group 107 are fixed on crossbeam side by side； In addition, having cavity inside the localization tool 111, the connector being connected with cavity is provided on localization tool 111, and fixed The upper surface of position jig 111 is provided with the adsorption hole being connected with cavity, and connector passes through pipeline and external vaccum-pumping equipment phase Even, the vacuuming action to localization tool 111 is realized.

As shown in Figure 3, Figure 4, for the specific structure of the first Y-axis mould group 102 and the second Y-axis mould group 103, this reality A specific embodiment is provided with novel, although hereinbefore pointing out, the tool of the first Y-axis mould group 102 and the second Y-axis mould group 103 Body structure is highly developed in the prior art, but the first Y-axis mould group 102 of the utility model and the second Y-axis mould group 103 are anti- Protection structure from it is different in the prior art.First Y-axis mould group 102 is identical with the structure of the second Y-axis mould group 103, in the present embodiment, with The structure of first Y-axis mould group 102 is described in detail, as shown in figure 4, the first Y-axis mould group 102 includes Y-axis apron plate 1021, Y Axis fixing plate 1022 and stainless steel shield 1023；The Y-axis fixed plate 1022 is parallel with stainless steel shield 1023 to be set It sets, the Y-axis apron plate 1021 is fixedly mounted on the top of Y-axis fixed plate 1022 and the top of stainless steel shield 1023, Y The space formed between axis fixing plate 1022 and stainless steel shield 1023 is then used to install the components such as servo motor, screw rod；Separately Outside, the first Y-axis mould group 102 further includes Y-axis dust cover plate 1024, dust cover support frame 1025, table base 1026 and Y-axis side guard plate 1027；In general, the first Y-axis mould group further includes Y-axis sliding block (invisible in figure), the work Platform pedestal 1026 is fixedly connected with Y-axis sliding block, and first workbench is fixedly mounted on 1026 top of table base, institute The Y-axis side guard plate 1027 stated is fixedly mounted on the side of table base 1026；The Y-axis dust cover plate 1024 has Perpendicular first end and second end, the first end of Y-axis dust cover plate 1024 are fixed on Y-axis apron plate 1021, and Y-axis is anti- The second end of dust hood fixed plate 1024 is fixedly connected with dust cover 110.By this structure, 102 He of the first Y-axis mould group is realized The sealing of second Y-axis mould group 103 avoids the sundries such as dust, clast from entering the first Y-axis mould group 102 and the second Y-axis mould group 103, keeps away Exempt to influence the first Y-axis mould group 102 and the second Y-axis mould group 103 due to the entrance of the sundries such as dust, clast during the work time On the other hand precision then improves the service life of the first Y-axis mould group 102 and the second Y-axis mould group 103.

By above-mentioned structure, we carry out specifically the course of work of the novel numerical control carving machine of the utility model It is bright, glass pieces to be processed are put into first on the localization tool 111 of the first workbench 104 and the second workbench 105, pass through pumping After vacuum, glass pieces are adsorbed on localization tool 111；Hereafter the first Y-axis mould group 102 drives the first workbench 104 to move back Dynamic, the second Y-axis mould group 103 drives the second workbench 105 to move backward, so that the localization tool 111 of the first workbench 104 and the The localization tool 111 of two workbench 105 is located at the lower position of the first Z axis mould group 108 and the second Z axis mould group 109, then The spindle assemblies 112 on spindle assemblies 112 and the second Z axis mould group 109 in first Z axis mould group 108, respectively control two positioning Glass pieces on tool 111 are processed；The first Z axis mould group 108 and the second Z axis mould group 109 move up after processing is completed, When the first Y-axis mould group 102 drive the first workbench 104 move forward, the second Y-axis mould group 103 drive the second workbench 105 forward It is mobile, return to original state, such repetitive operation.It should be noted that when fixing multiple localization tools on the first workbench 104 It, then can be real by the common cooperation of the first X-axis mould group 106, the first Y-axis mould group 102 and the first Z axis mould group 108 when 111 The successively processing of existing multiple glass pieces, when fixing multiple localization tools 111 on the second workbench 105, principle is same as above.Cause This, the novel numerical control carving machine of the utility model can simultaneously process multiple glass pieces, improve glass pieces Processing efficiency solves the problems, such as machining low efficiency, time-consuming in the prior art；Inhomogeneity is installed in the bottom end of machining spindle When the bistrique of type, automatic edging, punching, the processing of chamfering may be implemented, have a wide range of application, applicability is more preferable.

In addition, when the first Y-axis mould group 102 and the second Y-axis mould group 103 move forward and backward, by the effect of dust cover 110, The sundries such as dust, clast are avoided to enter inside it；Likewise, in the first Z axis mould group 108 and the second Z axis mould group 109 in X-axis side To when movement, due to the presence of organ cover 113, the sundries such as dust, clast is avoided to enter the first X-axis mould group 106 and the second X-axis mould Inside group 107, the service life of the novel numerical control carving machine is improved.

It is to be illustrated to the preferable implementation of the utility model, but the utility model creation is not limited to institute above Embodiment is stated, those skilled in the art can also make various be equal without departing from the spirit of the present invention Deformation or replacement, these equivalent deformations or replacement are all included in the scope defined by the claims of the present application.

Claims (6)

1. a kind of novel numerical control carving machine, it is characterised in that: including lathe base, the first Y-axis mould group, the second Y-axis mould group, first Workbench, the second workbench, the first X-axis mould group, the second X-axis mould group, the first Z axis mould group and the second Z axis mould group；

The first Y-axis mould group and the second Y-axis mould group is disposed side by side on lathe base, and the first Y-axis mould group and the second Y-axis The two sides of mould group are provided with dust cover；First workbench is mounted in the first Y-axis mould group, second work Platform is mounted in the second Y-axis mould group, and is provided on the first workbench and the second workbench for placing glazier to be processed The localization tool of part；

The first X-axis mould group and the second X-axis mould group is fixedly mounted on lathe base side by side, and the first X-axis mould group is located at The top of first workbench, the second X-axis mould group are located at the top of the second workbench；

The first Z axis mould group is mounted in the first X-axis mould group, and the second Z axis mould group is mounted on the second X-axis mould group On, the first Z axis mould group and the second Z axis mould group lower end are provided with the spindle assemblies for being processed to glass pieces；It is described The first Z axis mould group and the two sides of the second Z axis mould group be provided with organ cover.

2. a kind of novel numerical control carving machine according to claim 1, it is characterised in that: be provided on the lathe base Two support frames, and crossbeam is fixedly installed at the top of two support frames, the first X-axis mould group and the second X-axis mould group are simultaneously Row is fixed on crossbeam.

3. a kind of novel numerical control carving machine according to claim 1, it is characterised in that: the spindle assemblies include processing Main shaft, and the bottom end of machining spindle is equipped with bistrique.

4. a kind of novel numerical control carving machine according to claim 1, it is characterised in that: have inside the localization tool Cavity is provided with the connector being connected with cavity on localization tool, and the upper surface of localization tool is provided with and is connected with cavity Adsorption hole.

5. a kind of novel numerical control carving machine according to claim 1, it is characterised in that: the first Y-axis mould group and the The structure of two Y-axis mould groups is identical；First Y-axis mould group includes Y-axis apron plate, Y-axis fixed plate and stainless steel shield；

The Y-axis fixed plate is arranged in parallel with stainless steel shield, and the Y-axis apron plate is fixedly mounted on Y-axis fixed plate Top and stainless steel shield top.

6. a kind of novel numerical control carving machine according to claim 5, it is characterised in that: the first Y-axis mould group is also wrapped Include Y-axis dust cover plate, dust cover support frame, table base and Y-axis side guard plate；

The first Y-axis mould group further includes Y-axis sliding block, and the table base is fixedly connected with Y-axis sliding block, and described First workbench is fixedly mounted on above table base, and the Y-axis side guard plate is fixedly mounted on the side of table base；

The dust cover support frame is located at the two sides below stainless steel shield, and the dust cover setting is supported in dust cover On frame；The Y-axis dust cover plate has perpendicular first end and second end, the first end of Y-axis dust cover plate It is fixed on Y-axis apron plate, the second end of Y-axis dust cover plate is fixedly connected with dust cover.