CN203173505U

CN203173505U - Numerical control blank stacking machine

Info

Publication number: CN203173505U
Application number: CN 201320126391
Authority: CN
Inventors: 林群; 宫焕; 王海涛; 马瑞庆
Original assignee: CHANGLE HAIHUI MINHANG MACHINERY Co Ltd
Current assignee: CHANGLE HAIHUI MINHANG MACHINERY Co Ltd
Priority date: 2013-03-19
Filing date: 2013-03-19
Publication date: 2013-09-04
Anticipated expiration: 2023-03-19

Abstract

The utility model provides a numerical control stacking machine. The numerical control stacking machine comprises a machine frame, a moving beam assembly, a lifting assembly and a chuck assembly, wherein the moving beam assembly can be horizontally and movably fixed on the machine frame in a front-back mode, the lifting assembly is fastened on the moving beam assembly, the chuck assembly can be perpendicularly and movably fixed on the moving beam assembly in an up-down mode, the machine frame is provided with two parallel and corresponding beam frames, two opposite inner lateral surfaces of the two beam frames are respectively provided with racks, the moving beam assembly comprises two parallel and corresponding moving portions and a movable supporting frame fastened between the two moving portions, the two moving portions are respectively arranged on the two corresponding beam frames, each moving portion comprises a plurality of wheels and a first servo motor, each wheel can be movably connected with the beam frames, and a gear is sleeved on a driving rotating disc of each first servo motor, and the gears are meshed with the racks. The numerical control stacking machine has the advantages of being small in size, being high in accuracy, and meeting the requirement for blank stacking on kiln cars of various sizes.

Description

A kind of numerical control setting machine

[technical field]

The utility model relates to a kind of tile machinery field, refers in particular to a kind of numerical control setting machine.

[background technology]

Automatic setting machine is a kind ofly to pile up on kiln car (being piling) at the brick field base that replaces manually will wetting, and advances then and burns till common brick in the kiln.Can reduce labor strength, reduce brick making cost.The most structure of existing automatic setting machine is huge, must control the chuck walking by drive motor and chain, by jacking system the adobe on the chuck is put to kiln car after chuck runs to fixed point again; Its shortcoming is:

1. structure is huge, and the precision that is moved horizontally to fixed point by motor and chain control chuck is low.

2. it is low that Heavy Weight, jacking system drive the vertical mobile precision of chuck.

3. the guidepost that is used for positioning and guiding when lifting is single structure, easily consume, and need higher activity space, cause lower factory building to be suitable for.

4. applicability is low, and the kiln car that does not meet various sizes is piled up demand.

[summary of the invention]

The technical problems to be solved in the utility model is to provide a kind of numerical control setting machine, and volume is little, and is accurately mobile, and the applicability height.

The utility model is achieved in that a kind of numerical control setting machine, and this numerical control setting machine comprises frame, moving beam assembly, lift assembly and chuck assembly; Described moving beam assembly can be fixed on the described frame on forward and backward horizontal anomalous movement ground; Described lift assembly is anchored on the described moving beam assembly; Described chuck assembly can upper and lowerly vertically be fixed on the described moving beam assembly by described lift assembly versatilely; Described frame is provided with the two parallel corresponding roof beams structure that arrange; Two medial surfaces that two described roof beams structure are relative are equipped with tooth bar; Described moving beam assembly comprises two parallel corresponding movable part and fastening travel(l)ing rests that are arranged between the two described movable parts that arrange; Two described movable parts arrange in corresponding two described roof beam structure tops respectively; Every described movable part comprises a plurality of wheels and one first servomotor; Every described wheel is connected with described roof beam structure is movable; A sheathed gear on the driving rotating disk of described first servomotor, and this gear is meshed with described tooth bar.

Preferable, described lift assembly comprises a permanent seat, a bearing, a ball nut, a ball screw, a synchronizing wheel and one second servomotor; Described permanent seat is anchored on the described travel(l)ing rest; Described bearing is fastening setting in described permanent seat; Described ball nut rotatably is arranged in the described permanent seat by this bearing, and this ball nut is socketed on the described ball screw; Described ball screw rotatably is connected with described ball nut, and the lower end of this ball screw and described chuck assembly are fastenedly connected; Described synchronizing wheel adapter sleeve is connected on the described ball nut; The driving rotating disk of described second servomotor is with described synchronizing wheel interlock synchronously by one and is joined.

Preferable, described lift assembly also comprises at least one flexible guidepost; Described flexible guidepost comprises a wheel frame, an outer guiding post and an inner guiding post; Described wheel frame is anchored on the travel(l)ing rest, and this wheel frame is sheathed on the described outer guiding post; Described external guide pole sleeve is located on the described inner guiding post, and the lower end of this inner guiding post and described chuck assembly are fastenedly connected; The inwall of the forward and backward both sides of described wheel frame is equipped with a plurality of first rollers; The outer wall of the forward and backward both sides of described outer guiding post is equipped with first chute that matches with every described first roller, and described outer guiding post is joined with described wheel frame cunning and is connected by two described first chutes, every described first roller; The and arranged on left and right sides wall of described outer guiding post is equipped with a plurality of second rollers; The outer wall of the and arranged on left and right sides of described inner guiding post is equipped with second chute that matches with every described second roller, and described inner guiding post is joined with described outer guiding post cunning and is connected by two described second chutes, every described second roller.

Preferable, described chuck assembly comprises a main support, a plurality of chuck group and stretching device; Described main support is fastenedly connected with the lower end of described ball screw, the lower end of inner guiding post respectively, and described main support is provided with guide rail; A plurality of described chuck groups are set up in parallel from left to right on this main support; Have at least a chuck group can left and rightly be connected in movably on the described main support by described stretching device and guide rail in a plurality of described chuck groups; Be equipped with rotary cylinder on every described chuck group.

Preferable, every described chuck group comprises a disk body and a plurality of clamping group that arranges in described disk body below; A plurality of described clamping groups are set up in parallel from left to right; Every described clamping group comprises one and fixedly grabs plate and the two corresponding pneumatic plate groups of grabbing that arrange; The described plate of fixedly grabbing arranges in two described pneumatic grabbing between the plate group, and this is fixedly grabbed plate and is anchored on the described disk body; Every described pneumatic grab the plate group can a left side, be fixed on the described disk body movably; Every described pneumatic plate group of grabbing comprises a upper cylinder, a lower cylinder, outer grabbing and grabs plate, a sliding rail rack in the plate; Every described outer grab plate, in grab plate, fixedly grab the plate three and arrange setting by the described disk body outside is corresponding successively to this disk body inboard; The two vertically vertically is set up in parallel described upper and lower cylinder, and described upper and lower cylinder all is anchored on the described disk body; One end of the expansion link of described upper cylinder and describedly outer grab plate and be fastenedly connected, the other end of the expansion link of this upper cylinder and described in grab plate and be fastenedly connected; One end of the expansion link of described lower cylinder and describedly outer grab plate and be fastenedly connected; Grabbing plate in described can forward and backwardly be fixed on the described sliding rail rack movably; Described sliding rail rack is anchored on the described disk body.

Preferable, every described sliding rail rack is all sheathed a plurality of for the elastic component of grabbing sheet reset in auxiliary.

Preferable, a plurality of described chuck groups are specially three the left chuck groups that are set up in parallel successively from left to right, middle chuck group and right chuck groups; Described stretching device comprises one first cylinder, one second cylinder, one the 3rd cylinder and a four-cylinder; Described first cylinder, second cylinder all are anchored on the described middle chuck; Described the 3rd cylinder is anchored on the described right chuck; Described four-cylinder is anchored on the described left chuck; The expansion link of the expansion link of described first cylinder and described the 3rd cylinder is fastenedly connected; The expansion link of described second cylinder and the expansion link of described four-cylinder are fastenedly connected.

Advantage of the present utility model is: by the tooth bar walking of the first servomotor driven gear on roof beam structure, the walking of beam assembly is moved accurately; Lift assembly by installing ball screw, guidepost makes the lifting control of chuck assembly more accurate; And realize all high applicabilities applicatory of multiple size kiln car by a plurality of chuck groups and stretching device.

[description of drawings]

In conjunction with the embodiments the utility model is further described with reference to the accompanying drawings.

Fig. 1 is the front view of a kind of numerical control setting machine of the utility model.

Fig. 2 is the lateral plan of a kind of numerical control setting machine of the utility model.

Fig. 3 is a kind of numerical control setting machine of the utility model birds-eye view.

Fig. 4 is the structural representation of lift assembly in a kind of numerical control setting machine of the utility model.

Fig. 5 is the front view of flexible guidepost in a kind of numerical control setting machine of the utility model.

Fig. 6 is the lateral plan of flexible guidepost in a kind of numerical control setting machine of the utility model.

Fig. 7 is the front view of chuck assembly in a kind of numerical control setting machine of the utility model.

Fig. 8 is the lateral plan of chuck assembly in a kind of numerical control setting machine of the utility model.

[specific embodiment]

See also Fig. 1 to shown in Figure 3, a kind of numerical control setting machine 100, this numerical control setting machine 100 comprise frame 1, moving beam assembly 2, lift assembly 3 and chuck assembly 4; Described moving beam assembly 2 can be fixed on the described frame 1 on forward and backward horizontal anomalous movement ground; Described lift assembly 3 is anchored on the described moving beam assembly 2; Described chuck assembly 4 can upper and lowerly vertically be fixed on the described moving beam assembly 2 by described lift assembly 3 versatilely; Described frame 1 is provided with the two parallel corresponding roof beams structure 11 that arrange; Two described roof beam structure 11 two relative medial surfaces are equipped with tooth bar 12; Described moving beam assembly 2 comprises two parallel corresponding movable part 21 and fastening travel(l)ing rests 22 that are arranged between the two described movable parts 21 that arrange; Two described movable parts 21 arrange respectively at corresponding two described roof beams structure 11 tops; Every described movable part 21 comprises a plurality of wheels 211 and one first servomotor 212; Every described wheel 211 and described 11 movable connections of roof beam structure; A sheathed gear 2121 on the driving rotating disk of described first servomotor 212, and this gear 2121 is meshed with described tooth bar 12.First servomotor 212 is by the walking of gear 2121 with tooth bar 12 control brake beam assemblies 2, and is more accurate.

See also Fig. 1 and shown in Figure 4, described lift assembly 3 comprises a permanent seat 31, a bearing 32, a ball nut 33, a ball screw 34, a synchronizing wheel 35 and one second servomotor 36; Described permanent seat 31 is anchored on the described travel(l)ing rest 22; The fastening setting in described permanent seat 31 of described bearing 32; Described ball nut 33 rotatably is arranged in the described permanent seat 31 by this bearing 32, and this ball nut 33 is socketed on the described ball screw 34; Described ball screw 34 rotatably is connected with described ball nut 33, and the lower end of this ball screw 34 and described chuck assembly 4 are fastenedly connected; Described synchronizing wheel 35 adapter sleeves are connected on the described ball nut 33; The driving rotating disk 361 of described second servomotor 36 is with 37 to join with described synchronizing wheel 35 interlocks by one synchronously.Second servomotor 36 drives ball nut 33 to be changeed to left and right choosing, thereby drives ball screw 34, chuck assembly 4 lifting up and down, improves the accuracy rate when moving; Simultaneously the driving rotating disk 361 of two servomotors 36 is by being with 37 to drive synchronizing wheels 35, ball nut 33 rotations synchronously, and is under the structure of using chain or gear driven, quieter and be difficult for getting loose.

See also Fig. 1, Fig. 5 and shown in Figure 6, described lift assembly 3 also comprises at least one flexible guidepost 38; Described flexible guidepost 38 comprises a wheel frame 381, an outer guiding post 382 and an inner guiding post 383; Described wheel frame 381 is anchored on the travel(l)ing rest 22, and this wheel frame 381 is sheathed on the described outer guiding post 382; Described outer guiding post 382 is sheathed on the described inner guiding post 383, and the lower end of this inner guiding post 383 and described chuck assembly 4 are fastenedly connected; The inwall of the forward and backward both sides of described wheel frame 381 is equipped with a plurality of first rollers 3811; The outer wall of the forward and backward both sides of described outer guiding post 3 is equipped with first chute 3821 that matches with every described first roller 3811, and described outer guiding post 382 is connected with described 381 sliding joining of wheel frame by two described first chutes 3821, every described first roller 3811; The and arranged on left and right sides wall of described outer guiding post 382 is equipped with a plurality of second rollers 3822; The outer wall of the and arranged on left and right sides of described inner guiding post 383 is equipped with second chute 3831 that matches with every described second roller 3822, and described inner guiding post 383 is connected with described 382 sliding joining of outer guiding post by two described second chutes 3831, every described second roller 3822.The wheel frame 381 of socket successively from outside to inside, outer guiding post 382 and an inner guiding post 383 play a part flexible by first roller 3811, second roller 3822, when chuck assembly 4 moves up and down, can guarantee the perpendicular movement non-migration by flexible guidepost 38, not only reduce the demand in factory building height space, and more single guidepost is good on the structural rigidity.

See also Fig. 1, Fig. 7 and shown in Figure 8, described chuck assembly 4 comprises a main support 41, a plurality of chuck group 42 and stretching device 43; Described main support 41 is fastenedly connected with the lower end of described ball screw 34, the lower end of inner guiding post 383 respectively, and described main support 41 is provided with guide rail 411; A plurality of described chuck groups 42 are set up in parallel from left to right on this main support 41; Have at least a chuck group 42 can left and rightly be connected on the described main support 41 movably by described stretching device 43 and guide rail 411 in a plurality of described chuck groups 42; Be equipped with rotary cylinder 44 on every described chuck group 42.After making chuck group 42 horizontal stretch of a plurality of straight-though arrangement successively setting and rotation adjust adobe 5 to pile up the position by stretching device 43 and rotary cylinder 44, put to kiln car, satisfy the demand of piling up of expanded letter, rectangle kiln car.

See also Fig. 1, Fig. 7 and shown in Figure 8 again, every described chuck group 42 comprises a disk body 421 and a plurality of clamping group 422 that arranges in disk body 421 belows; A plurality of described clamping groups 422 are set up in parallel from left to right; Every described clamping group 422 comprises one and fixedly grabs plate 4221 and the two corresponding pneumatic plate groups 4222 of grabbing that arrange; The described plate 4221 of fixedly grabbing is in two described pneumatic 4222 settings of plate group of grabbing, and this is fixedly grabbed plate 4221 and is anchored on the described disk body 421; Every described pneumatic grab plate group 4222 can a left side, be fixed on the described disk body 421 movably; Every described pneumatic plate group 4222 of grabbing comprises a upper cylinder 4223, a lower cylinder 4224, outer grabbing and grabs plate 4226, a sliding rail rack 4227 in the plate 4225; Every described outer grab plate 4225, in grab plate 4226, fixedly grab plate 4221 threes and arrange setting by described disk body 421 outsides to these disk body 421 inboards are corresponding successively; The two vertically vertically is set up in parallel described upper cylinder 4223, lower cylinder 4224, and described upper cylinder 4223, lower cylinder 4224 all are anchored on the described disk body 421; One end P of the expansion link of described upper cylinder 4223 ₁Outer grab plate 4225 and be fastenedly connected the other end P of the expansion link of this upper cylinder 4223 with described ₂With described in grab plate 4226 and be fastenedly connected; One end P of the expansion link of described lower cylinder 4224 ₃Outer grab plate 4225 and be fastenedly connected with described; Grabbing plate 4226 in described can forward and backwardly be fixed on the described sliding rail rack 4227 movably; Described sliding rail rack 4227 is anchored on the described disk body 421.Drive the outer plate 4225 of grabbing by upper cylinder 4223, lower cylinder 4224, again by interiorly grabbing plate 4226, fixedly grabbing plate 4221 adobe 5 is once picked up, simple in structure, processing ease, and by upper cylinder 4223, lower cylinder 4224 the two vertically vertically be set up in parallel strengthen outer grab plate 4225, in grab plate 4226, fixedly grab grip and the stability of plate 4221.

As shown in Figure 8, every described sliding rail rack 4227 is all sheathed a plurality ofly grabs the elastic component 6 that plate 4226 resets in auxiliary.It is rapider laborsaving when this design goal is grabbed plate 4226 resetting after moving by upper cylinder 4223 in making.

See also Fig. 1 and shown in Figure 7, a plurality of described chuck groups 42 are specially three the left chuck groups 423 that set gradually from left to right, middle chuck group 424 and right chuck groups 425; Described stretching device 43 comprises one first cylinder 431, one second cylinder (not shown), one the 3rd cylinder 432 and a four-cylinder (not shown); Described first cylinder 431, second cylinder all are anchored on the described middle chuck 424; Described the 3rd cylinder 432 is anchored on the described right chuck 425; Described four-cylinder is anchored on the described left chuck 423; The expansion link of the expansion link of described first cylinder 4 and described the 3rd cylinder is fastenedly connected; The expansion link of described second cylinder and the expansion link of described four-cylinder are fastenedly connected.By three left chucks 423 that set gradually from left to right, middle chuck 424 and right chuck 425 are arranged in rectangle, can meet the demand of multiple kiln car (as: by left chuck group 423, middle chuck group 424 and right chuck group 425 are placed three times from front to back successively, namely finishing one deck 3 takes advantage of 3 adobe 5 to pile up), simultaneously, work as a left side, when right chuck group need be rotated (purpose will pile up in the following one deck adobe 5 on the kiln car and adobe 5 on the kiln car be staggeredly placed), by first cylinder 431, second cylinder, the 3rd cylinder 432 and four-cylinder are with a left side, right chuck group stretches to both sides, revolving cylinder on three rotating disk groups drives its rotation, again by the 3rd cylinder 32 and four-cylinder with a left side, right chuck group retracts (purpose is in the requirement of satisfying the piling spacing).

The utility model is when using, the chuck group of varying number can be set in response to the kiln car size requirements, be example with three chuck groups, when the work beginning, the chuck assembly is in the origin position when not driving, when belt conveyor transports four mud bars to the brick folding position (below of chuck assembly), the chuck assembly descends by lift assembly, finishes brick folding, rises, is moved horizontally to first station by moving beam assembly by lift assembly by the chuck group successively again; Get back to origin position then, repeat brick folding, rise, be moved horizontally to second station; Repeat above action to the 3rd station.So just, finish ground floor and pile up layout.Increase by one when piling up the second layer and revolved the action that turn 90 degrees, piled up three stations successively.By that analogy until reaching certain kiln car height.

Though more than described the specific embodiment of the present utility model; but being familiar with those skilled in the art is to be understood that; our described specific embodiment is illustrative; rather than for the restriction to scope of the present utility model; those of ordinary skill in the art are in modification and the variation of the equivalence of doing according to spirit of the present utility model, all should be encompassed in the scope that claim of the present utility model protects.

Claims

1. numerical control setting machine, this numerical control setting machine comprise frame, moving beam assembly, lift assembly and chuck assembly; Described moving beam assembly can be fixed on the described frame on forward and backward horizontal anomalous movement ground; Described lift assembly is anchored on the described moving beam assembly; Described chuck assembly can upper and lowerly vertically be fixed on the described moving beam assembly versatilely by described lift assembly, it is characterized in that: described frame is provided with the two parallel corresponding roof beams structure that arrange; Two medial surfaces that two described roof beams structure are relative are equipped with tooth bar; Described moving beam assembly comprises two parallel corresponding movable part and fastening travel(l)ing rests that are arranged between the two described movable parts that arrange; Two described movable parts arrange in corresponding two described roof beam structure tops respectively; Every described movable part comprises a plurality of wheels and one first servomotor; Every described wheel is connected with described roof beam structure is movable; A sheathed gear on the driving rotating disk of described first servomotor, and this gear is meshed with described tooth bar.

2. a kind of numerical control setting machine as claimed in claim 1, it is characterized in that: described lift assembly comprises a permanent seat, a bearing, a ball nut, a ball screw, a synchronizing wheel and one second servomotor; Described permanent seat is anchored on the described travel(l)ing rest; Described bearing is fastening setting in described permanent seat; Described ball nut rotatably is arranged in the described permanent seat by this bearing, and this ball nut is socketed on the described ball screw; Described ball screw rotatably is connected with described ball nut, and the lower end of this ball screw and described chuck assembly are fastenedly connected; Described synchronizing wheel adapter sleeve is connected on the described ball nut; The driving rotating disk of described second servomotor is with described synchronizing wheel interlock synchronously by one and is joined.

3. a kind of numerical control setting machine as claimed in claim 2, it is characterized in that: described lift assembly also comprises at least one flexible guidepost; Described flexible guidepost comprises a wheel frame, an outer guiding post and an inner guiding post; Described wheel frame is anchored on the travel(l)ing rest, and this wheel frame is sheathed on the described outer guiding post; Described external guide pole sleeve is located on the described inner guiding post, and the lower end of this inner guiding post and described chuck assembly are fastenedly connected; The inwall of the forward and backward both sides of described wheel frame is equipped with a plurality of first rollers; The outer wall of the forward and backward both sides of described outer guiding post is equipped with first chute that matches with every described first roller, and described outer guiding post is joined with described wheel frame cunning and is connected by two described first chutes, every described first roller; The and arranged on left and right sides wall of described outer guiding post is equipped with a plurality of second rollers; The outer wall of the and arranged on left and right sides of described inner guiding post is equipped with second chute that matches with every described second roller, and described inner guiding post is joined with described outer guiding post cunning and is connected by two described second chutes, every described second roller.

4. a kind of numerical control setting machine as claimed in claim 3, it is characterized in that: described chuck assembly comprises a main support, a plurality of chuck group and stretching device; Described main support is fastenedly connected with the lower end of described ball screw, the lower end of inner guiding post respectively, and described main support is provided with guide rail; A plurality of described chuck groups are set up in parallel from left to right on this main support; Have at least a chuck group can left and rightly be connected in movably on the described main support by described stretching device and guide rail in a plurality of described chuck groups; Be equipped with rotary cylinder on every described chuck group.

5. a kind of numerical control setting machine as claimed in claim 4 is characterized in that: every described chuck group comprises a disk body and a plurality of clamping group that arranges in described disk body below; A plurality of described clamping groups are set up in parallel from left to right; Every described clamping group comprises one and fixedly grabs plate and the two corresponding pneumatic plate groups of grabbing that arrange; The described plate of fixedly grabbing arranges in two described pneumatic grabbing between the plate group, and this is fixedly grabbed plate and is anchored on the described disk body; Every described pneumatic grab the plate group can a left side, be fixed on the described disk body movably; Every described pneumatic plate group of grabbing comprises a upper cylinder, a lower cylinder, outer grabbing and grabs plate, a sliding rail rack in the plate; Every described outer grab plate, in grab plate, fixedly grab the plate three and arrange setting by the described disk body outside is corresponding successively to this disk body inboard; The two vertically vertically is set up in parallel described upper and lower cylinder, and described upper and lower cylinder all is anchored on the described disk body; One end of the expansion link of described upper cylinder and describedly outer grab plate and be fastenedly connected, the other end of the expansion link of this upper cylinder and described in grab plate and be fastenedly connected; One end of the expansion link of described lower cylinder and describedly outer grab plate and be fastenedly connected; Grabbing plate in described can forward and backwardly be fixed on the described sliding rail rack movably; Described sliding rail rack is anchored on the described disk body.

6. a kind of numerical control setting machine as claimed in claim 5 is characterized in that: every described sliding rail rack is all sheathed a plurality of for the elastic component of grabbing sheet reset in auxiliary.

7. as claim 4 or 5 or 6 arbitrary described a kind of numerical control setting machines, it is characterized in that: a plurality of described chuck groups are specially three the left chuck groups that are set up in parallel successively from left to right, middle chuck group and right chuck groups; Described stretching device comprises one first cylinder, one second cylinder, one the 3rd cylinder and a four-cylinder; Described first cylinder, second cylinder all are anchored on the described middle chuck; Described the 3rd cylinder is anchored on the described right chuck; Described four-cylinder is anchored on the described left chuck; The expansion link of the expansion link of described first cylinder and described the 3rd cylinder is fastenedly connected; The expansion link of described second cylinder and the expansion link of described four-cylinder are fastenedly connected.