CN209717856U - A kind of laboratory honeycomb type denitrification catalyst cutter device - Google Patents

Abstract

It includes sawing machine ontology, workbench and saw band that the utility model, which discloses a kind of laboratory honeycomb type denitrification catalyst cutter device, and the workbench is horizontally set on sawing machine ontology, and kerf is provided with away on workbench；The saw band is vertically installed on sawing machine ontology, and corresponds to kerf position.Supply unit is additionally provided on workbench, which includes quiet Kato, dynamic Kato and translation mechanism, and the graduated scale of measurement catalyst length is respectively set on the quiet Kato and dynamic Kato；Quiet Kato and dynamic Kato are arranged along straight line and are arranged perpendicular to saw band working face；Wherein, quiet Kato is installed in away kerf side, and dynamic Kato is located at away the kerf other side and is sequentially connected with translation mechanism；Workbench also passes through guiding mechanism and is mounted on sawing machine ontology, and workbench is translated along sawing machine ontology when for cutting.The utility model acquisition cost is low, and structure is simple, easy to operate, and failure rate is low, is suitable for laboratory small lot cellular catalyst monomer and cuts.

Description

A kind of laboratory honeycomb type denitrification catalyst cutter device

Technical field:

The utility model relates to a kind of laboratory honeycomb type denitrification catalyst cutter devices, belong to SCR denitration inspection A kind of survey field, and in particular to catalyst test module cutting equipment field.

Background technique:

Currently, being needed when laboratory carries out compression test and miniature technological property test to honeycomb type denitrification catalyst Catalyst is cut into using sawing machine the cube test block met the size requirements.Involved by license notification number CN203156833U And positioning-cutting device to use displacement sensing and message handler, manufacturing cost is high.License notification number Honeycomb type denitrification catalyst cutter device involved in CN206913233U is needed using Pneumatic extension bar, and failure rate is higher.

Laboratory is smaller to honeycomb type denitrification catalyst sample demand, and dedicated Cutting platform needs to meet operation letter Single, failure rate is small, the lower requirement of acquisition cost.

Summary of the invention:

In order to solve the above technical problems, the utility model provides a kind of laboratory honeycomb type denitrification catalyst cutter device, Its technical solution is as follows:

A kind of laboratory honeycomb type denitrification catalyst cutter device, including sawing machine ontology, workbench and saw band, the work It is horizontally set on sawing machine ontology as platform, kerf is provided with away on workbench；The saw band is vertically installed on sawing machine ontology, and Correspond to kerf position；

It is additionally provided with supply unit on the workbench, which includes quiet Kato, moves Kato and translation mechanism, described The graduated scale of measurement catalyst length is respectively set on quiet Kato and dynamic Kato；Quiet Kato and dynamic Kato arrange and hang down along straight line Directly it is arranged in saw band working face；Wherein, quiet Kato is installed in away kerf side, dynamic Kato be located at away the kerf other side and with it is flat The transmission connection of telephone-moving structure；Workbench also passes through guiding mechanism and is mounted on sawing machine ontology, and workbench is along sawing machine sheet when for cutting Body translation.

Preferably, the quiet Kato and dynamic Kato are V-type Kato, and opening angle is in 90 degree, for placing honeycomb fashion Denitrating catalyst.

Preferably, quiet Kato and dynamic Kato outer rim is respectively set in the graduated scale.

Preferably, the adjustable side for being mounted on away kerf of the quiet Kato.

It preferably, further include support plate, buckle and fastening bolt；Quiet Kato lower part and dynamic Kato lower part are supported with one respectively Plate is fixedly connected, and quiet Kato and dynamic Kato and support plate angle are in 30~60 degree, and support plate is fixed on by buckle and fastening bolt On workbench.

It preferably, further include first laser source and second laser source, first laser source is fixedly arranged on sawing machine body upper part, throws Shadow laser is perpendicular to workbench and passes through away kerf；Second laser source is set to workbench upper surface by magnetic bases, and projection swashs Light is parallel to workbench；Magnetic bases lower part is additionally provided with height adjustment device.

Preferably, the translation mechanism includes the support portion for being fixedly arranged on work edge of table, screw rod and rotation hand wheel；The spiral shell Bar one end connects the support plate of dynamic Kato lower part, and the other end passes through support portion and connect with rotation hand wheel.

Preferably, the guiding mechanism includes two closed slides and the position limiting structure set on workbench two sides；

Preferably, the position limiting structure further includes caging bolt or limit spring.

Preferably, workbench side is equipped with driving mechanism, and the driving mechanism includes that slowspeed machine main body and motor export The gear of axis connection, the rack gear and limiter for engaging with gear and being fixedly connected with workbench lower end surface.

The utility model has the following beneficial effects: compared with the prior art

The utility model is suitable for the cutting of laboratory small lot cellular catalyst, and acquisition cost is low, easy to operate, In It is high to solve cut quality when the practical cutting problem in laboratory.

Detailed description of the invention

Fig. 1 is cutter device structural schematic diagram in embodiment；

Fig. 2 is Cutting platform supply unit structural schematic diagram in embodiment；

Fig. 3 is Cutting platform position limiting structure schematic diagram in embodiment；

Fig. 4 is Kato and support plate connection schematic diagram in embodiment.

Wherein, 1- sawing machine ontology；2- first laser linear light source；3- saw band；4- guide rail；5- graduated scale；6- buckle；7- Second laser source；8- Kato；The quiet Kato of 81-；82- moves Kato；9- handle；10- postive stop baffle；11- translation mechanism；111- support Portion；112- screw rod；113- rotation hand wheel；12- workbench；13- limited block；14- support plate.

Specific embodiment

The utility model will be further described below with reference to the accompanying drawings.

Embodiment one:

A kind of laboratory honeycomb type denitrification catalyst cutter device of the present embodiment, as depicted in figs. 1 and 2, including sawing machine Ontology 1, workbench 12 and saw band 3, workbench 12 are horizontally set on sawing machine ontology 1, are provided with away kerf on workbench 12, are walked Kerf width is compatible with 3 thickness of saw band, and 1 top of sawing machine ontology is equipped with saw blade mounting rack, and lower part is equipped with saw blade driving dress It sets, saw band 3 connects saw blade mounting rack and saw blade driving device, is vertically installed on sawing machine ontology 1, and correspond to kerf position It sets.12 side of workbench is equipped with driving handle 9.

It is additionally provided with supply unit on workbench 12, which includes two Katos 8 and translation mechanism 11；This two cards Support 8 is respectively quiet Kato 81 and dynamic Kato 82；The scale of measurement catalyst length is respectively set on quiet Kato 81 and dynamic Kato 82 Scale 5；Quiet Kato 81 and dynamic Kato 82 are arranged along straight line and are arranged perpendicular to 3 working face of saw band；Wherein, quiet Kato 81 is fixed Kerf side is being walked, dynamic Kato 82 is located at away the kerf other side and is sequentially connected with translation mechanism 11.When advance and retreat material, Kato 82 is moved It is translated along workbench 12；Workbench 12 is also mounted on sawing machine ontology 1 by guiding mechanism, and workbench 12 is along saw when for cutting Bed ontology 1 translates.

Embodiment two:

The further design of the present embodiment is: as shown in Fig. 2, quiet Kato 81 and dynamic Kato 82 are V-type Kato, opening Bicker degree is in 90 degree, for placing honeycomb type denitrification catalyst.In cutting process, the design is so that cellular denitration catalyst Agent is not likely to produce displacement, and cutting process is more stable, improves cut quality.82 adjustable in length of quiet Kato 81 and dynamic Kato, with Meet different cutting demands.

Graduated scale 5 is respectively set in quiet Kato 81 and 82 outer rim of dynamic Kato, for catalyst to be marked.

It is highly preferred that graduated scale 5 is arranged horizontal by 30 °~60 °, specific angle regard cutting operation personnel height and It is fixed.

Embodiment three:

The further design of the present embodiment is: as shown in Figure 1, further include first laser source 2 and second laser source 7, the One laser source 2 is fixedly arranged on 1 top of sawing machine ontology, and projection laser is perpendicular to workbench 12 and passes through away kerf；Second laser source 7 It is movably arranged at 12 upper surface of workbench by magnetic bases, projection laser is parallel to workbench 12；Magnetic bases lower part is also set There is height adjustment device.Above-mentioned design can both horizontally and vertically adjust 7 projection laser of second laser source.

Should be designed for subscale mark scale 5 to cellular catalyst scale, while there is cutting alignment effect.

Example IV:

The further design of the present embodiment is: quiet Kato is located at away saw by the adjustable installation of buckle and fastening bolt Slot side.

When axially cutting catalyst, the corresponding fastening bolt of quiet Kato buckle is unclamped first, will be moved using translation mechanism Cellular catalyst in a rectangular parallelepiped shape, far from kerf is walked, is put position between two Katos on the table along straight line by Kato, After visible laser scale cut lengths, quiet Kato is fixed first with fastening bolt and buckle, recycles translation mechanism will Dynamic Kato is moved along a straight line to catalyst is close to, and then fixed dynamic Kato, the handle then to push the work forward on platform utilize saw band By the axially cutting catalyst of scale；It is after the completion of cutting, the test block number of well cutting is spare, it is finally mobile using translation mechanism Dynamic Kato, the catalyst after waste material and cutting is taken out.

Embodiment five:

The further design of the present embodiment is: as shown in figure 4, further including support plate 14, buckle 6 and fastening bolt；It is quiet 81 lower part of Kato and 82 lower part of dynamic Kato are fixedly connected with one piece of support plate 14 respectively, and Kato and 14 junction of support plate set reinforcement Muscle, 14 length of support plate are adapted with corresponding Kato length, and quiet Kato 81 and dynamic Kato 82 and 14 angle of support plate are in 30~60 Degree, support plate 14 are fixed on workbench 12 by buckle 6 and fastening bolt, and specific fixed form is 6 one end of buckle and support plate 14 are fixedly connected, and 6 other ends of buckle are fixed on workbench 12 by fastening bolt activity.

Translation mechanism 11 includes the support portion 111 for being fixedly arranged on 12 edge of workbench, screw rod 12 and rotation hand wheel 113；Screw rod 12 one end connect the support plate 14 of dynamic 82 lower part of Kato, and the other end passes through support portion 111 and connect with rotation hand wheel 113.

By unclamping fastening bolt, it is rotated further by 113 linkage screw 12 of rotation hand wheel and support plate 14, realizes dynamic Kato 82 Linear movement.Again by tightening fastening bolt, the fixation of dynamic Kato 82 is realized.

It is highly preferred that 12 upper surface of workbench support plate contact position corresponding with dynamic Kato sets cut-in type idler wheel, by work Platform and the force of sliding friction of support plate switch to force of rolling friction

Embodiment six:

The further design of the present embodiment is: guide frame is including two closed slides 4 and is set to 12 two sides of workbench Position limiting structure；Two guide rails 4 are set between sawing machine ontology 1 and workbench 12 along kerf direction is parallel to away；As shown in figure 3, Position limiting structure includes postive stop baffle 10 and limited block 13；12 edge of workbench is equipped with postive stop baffle 10, workbench 12 and sawing machine sheet The limited block 13 being adapted to postive stop baffle 10 is equipped between body 1.

Caging bolt, corresponding two caging bolts of every piece of postive stop baffle, for further limiting are additionally provided on postive stop baffle 10 Position.By adjusting screw-in depth of the caging bolt on postive stop baffle, the front and back maximum displacement of workbench is limited.

It is highly preferred that replacing caging bolt with limit spring, caging bolt is switched into soft connect with contacting firmly for postive stop baffle Touching reduces abrasion.

Embodiment seven:

The further design of the present embodiment is: 12 side of workbench is equipped with driving mechanism, and driving mechanism includes low speed electricity Owner's body, the gear connecting with motor output shaft engage and the rack gear being fixedly connected with workbench lower end surface and limit with gear Device, for driving the movement of workbench.Manual work platform is converted electric table by the design.

Application Example one:

This application embodiment carries out catalyst using laboratory honeycomb type denitrification catalyst cutter device in embodiment six Cutting, the cutter device use the S-360 hilted broadsword headband sawing machine of certain factory production, including sawing machine ontology 1, workbench 12 and saw band 3, workbench 12 is horizontally set on band sawing machine ontology 1, kerf is provided with away on workbench 12, workbench 12 is towards cutting operation people The one side edge of member is set there are two driving handle 9；Saw band 3 is vertically installed on sawing machine ontology 1, and corresponds to kerf position.

It is additionally provided with supply unit on workbench 12, which includes quiet Kato 81, moves Kato 82 and translation mechanism 11, Quiet Kato 81 and dynamic Kato 82 are V-type Kato, and opening angle is in 90 degree, for placing honeycomb type denitrification catalyst.

The graduated scale 5 of measurement catalyst length is respectively set on quiet Kato 81 and dynamic Kato 82, graduated scale 5 is set respectively It is placed in 82 outer rim of quiet Kato 81 and dynamic Kato.Quiet Kato 81 and dynamic Kato 82 are arranged along straight line and perpendicular to 3 working face of saw band Setting；

It further include support plate 14, buckle 6 and fastening bolt；Quiet 81 lower part of Kato and 82 lower part of dynamic Kato respectively with one piece of branch Fagging 14 is fixedly connected, and quiet Kato 81 and dynamic Kato 82 and 14 angle of support plate are in 30~60 degree, and support plate 14 is by buckling 6 Hes Fastening bolt is fixed on workbench 12.Quiet Kato 81 and dynamic Kato 82 are set up separately by support plate 14, buckle 6 and fastening bolt Walk kerf two sides；Dynamic 82 lower support plate 14 of Kato is sequentially connected with translation mechanism 11；Translation mechanism 11 includes being fixedly arranged on work The support portion 111 at 12 edge of platform, screw rod 12 and rotation hand wheel 113；12 one end of screw rod connects the support plate 14 of dynamic 82 lower part of Kato, The other end passes through support portion 111 and connect with rotation hand wheel 113.

It further include first laser source 2 and second laser source 7, first laser source 2 is fixedly arranged on 1 top of sawing machine ontology, projection Visible laser perpendicular to workbench 12 and pass through away kerf；Second laser source 7 is set to 12 upper surface of workbench by magnetic bases, It projects visible laser and is parallel to workbench 12；Magnetic bases lower part is additionally provided with height adjustment device.

Workbench 12 is also mounted on sawing machine ontology 1 by guiding mechanism, and workbench 12 is along sawing machine ontology 1 when for cutting Translation.Guide frame includes two closed slides 4 and the position limiting structure set on 12 two sides of workbench；Two guide rails 4 are along being parallel to Kerf direction is walked to be set between sawing machine ontology 1 and workbench 12；Position limiting structure includes postive stop baffle 10 and limited block 13；Workbench 12 edges are equipped with one piece of postive stop baffle 10, and the limited block being adapted to postive stop baffle 10 is equipped between workbench 12 and sawing machine ontology 1 13.Every piece of postive stop baffle 10 is equipped with two caging bolts or limit spring, for further limiting.

12 side of workbench is equipped with driving mechanism, and driving mechanism includes slowspeed machine main body, connect with motor output shaft Gear, the rack gear and limiter for engaging with gear and being fixedly connected with 12 lower end surface of workbench.

When radial cuts catalyst, the dynamic corresponding fastening bolt of 82 lower support plate of Kato 14, rotation hand wheel are unclamped first 113 make the distance between quiet Kato 81 and dynamic Kato 82 be equal to walk the width of kerf；Honeycomb fashion in a rectangular parallelepiped shape is urged again Agent is placed into quiet Kato 81 and dynamic Kato 82, is required after fixed fastening bolt according to cut lengths, is utilized quiet 81 He of Kato The 5 scale cut lengths of graduated scale of dynamic 82 outer rim of Kato setting.Wherein, what first laser source 2 and second laser source 7 projected can See that laser can assist scale cut lengths.Then the handle 9 to push the work forward on platform 12 presses scale radial cuts using saw band 3 Catalyst；It is after the completion of cutting, the test block number of well cutting is spare, unclamp fastening bolt, then the mobile dynamic card of rotation hand wheel 113 Support 82 finally takes out the catalyst after waste material and cutting.

When axially cutting catalyst, quiet Kato 81 and the corresponding fastening spiral shell of 82 lower support plate of dynamic Kato 14 are unclamped first Bolt, rotation hand wheel 113 by dynamic Kato 82 along straight line far from walk kerf, cellular catalyst in a rectangular parallelepiped shape is placed on workbench Position between two Katos is on 12.After visible laser scale cut lengths, first with fastening bolt by quiet Kato 81 It fixes, then rotation hand wheel 113 moves along a straight line dynamic Kato 82 to catalyst is close to, and then fixes fastening bolt, then pushes Handle 9 on workbench 12 presses the axially cutting catalyst of scale using saw band 3；After the completion of cutting, by the test block of well cutting Spare, release fastening bolt is numbered, the mobile dynamic Kato 82 of last rotation hand wheel 113 takes out the catalyst after waste material and cutting.

Claims (10)

1. a kind of laboratory honeycomb type denitrification catalyst cutter device, including sawing machine ontology, workbench and saw band, the work Platform is horizontally set on sawing machine ontology, and kerf is provided with away on workbench；The saw band is vertically installed on sawing machine ontology, and right Kerf position should be walked, it is characterised in that:

It is additionally provided with supply unit on the workbench, which includes quiet Kato, dynamic Kato and translation mechanism, the quiet card The graduated scale of measurement catalyst length is respectively set in support and dynamic Kato；Quiet Kato and dynamic Kato arrange along straight line and perpendicular to The setting of saw band working face；Wherein, quiet Kato is installed in away kerf side, dynamic Kato be located at away the kerf other side and with translation machine Structure transmission connection；Workbench also passes through guiding mechanism and is mounted on sawing machine ontology, and workbench is flat along sawing machine ontology when for cutting It moves.

2. laboratory honeycomb type denitrification catalyst cutter device according to claim 1, it is characterised in that: the quiet Kato and Dynamic Kato is V-type Kato, and opening angle is in 90 degree, for placing honeycomb type denitrification catalyst.

3. laboratory honeycomb type denitrification catalyst cutter device according to claim 2, it is characterised in that: the graduated scale Quiet Kato and dynamic Kato outer rim is respectively set.

4. laboratory honeycomb type denitrification catalyst cutter device according to claim 3, it is characterised in that: the quiet Kato can Adjustable type is mounted on away the side of kerf.

5. laboratory honeycomb type denitrification catalyst cutter device according to claim 3, it is characterised in that: further include support Plate, buckle and fastening bolt；Quiet Kato lower part and dynamic Kato lower part are fixedly connected with a support plate respectively, quiet Kato and dynamic Kato It is in 30~60 degree with support plate angle, support plate is fixed on the worktable by buckle and fastening bolt.

6. -5 any laboratory honeycomb type denitrification catalyst cutter device according to claim 1, it is characterised in that: further include First laser source and second laser source, first laser source are fixedly arranged on sawing machine body upper part, projection laser perpendicular to workbench simultaneously Pass through away kerf；Second laser source is set to workbench upper surface by magnetic bases, and projection laser is parallel to workbench；Magnetic bottom Seat lower part is additionally provided with height adjustment device.

7. laboratory honeycomb type denitrification catalyst cutter device according to claim 6, it is characterised in that: the translation mechanism Support portion including being fixedly arranged on work edge of table, screw rod and rotation hand wheel；Described screw rod one end connects the support of dynamic Kato lower part Plate, the other end pass through support portion and connect with rotation hand wheel.

8. laboratory honeycomb type denitrification catalyst cutter device according to claim 7, it is characterised in that: the guiding mechanism Position limiting structure including two closed slides and set on workbench two sides.

9. laboratory honeycomb type denitrification catalyst cutter device according to claim 8, it is characterised in that: the position limiting structure It further include caging bolt or limit spring.

10. laboratory honeycomb type denitrification catalyst cutter device according to claim 9, it is characterised in that: workbench is also set There is driving mechanism.