CN208410200U - Numerical control cuts machine-cut cutting mill structure - Google Patents

Abstract

The utility model discloses a kind of numerical controls to cut machine-cut cutting mill structure, is related to brick equipment technical field.The numerical control cuts machine-cut cutting mill structure, including the door frame being set between the first conveyer belt and the second conveyer belt, door frame is across rack and is slidably connected on the rack, door frame is controlled by servo motor and moves back and forth between the first conveyer belt and the second conveyer belt, door frame is equipped with tangent line, and tangent line moves back and forth on door frame and cuts inswept mud item.This programme is moved synchronously by control tangent line with mud item, and during the motion cuts off mud item, to reduce the generation of useless brick.

Description

Numerical control cuts machine-cut cutting mill structure

Technical field

The utility model relates to brick equipment technical fields, cut machine-cut cutting mill structure more particularly to a kind of numerical control.

Background technique

In the production process of brick, need first to mix raw material according to the proportion, being then extruded into section by mold is The mud item of rectangle.Mud item is divided into several uniform by cutting machine.

Cutting machine is followed successively by the first conveyer belt and the second conveyer belt along the direction of motion of mud item, and the first conveyer belt and second pass It send between band as the cutting mechanism of cutting mud item.

First conveyer belt stretches to extruder and accepts the mud item of extrusion molding, and the second conveyer belt will cut uniform mud item fortune Next station is arrived out.

Mud item is aqueous more when being cut, therefore by the way of the inswept mud item of metal wire, mud item is truncated.But it is cutting During cutting, mud item persistently travels forward, therefore when the inswept mud of metal wire, and the section of mud item is inclined-plane, and section is coarse.Cause This, the transform where inclined-plane is useless brick.

Utility model content

The shortcomings that technical problem to be solved in the utility model is, overcomes the prior art provides a kind of numerical control cutting machine Cutting mechanism is moved synchronously with mud item by control tangent line, and during the motion cuts off mud item, to reduce the production of useless brick It is raw.

In order to solve the above technical problems, the utility model provides a kind of numerical control slitting machine-cut cutting mill structure, including it is set to the Door frame between one conveyer belt and the second conveyer belt, door frame is across rack and is slidably connected on the rack, and door frame is controlled by servo Motor moves back and forth between the first conveyer belt and the second conveyer belt, and door frame is equipped with tangent line, and tangent line moves back and forth on door frame And cut inswept mud item.

Technical effect: when mud item is by the first conveyer belt, during moving to the second conveyer belt, door frame is controlled by servo Motor is moved synchronously with mud item, opposing stationary between mud item and door frame at this time.The tangent line on door frame, inswept mud item are completed simultaneously Cutting.And obtain more smooth cutting section.

The technical solution that the utility model further limits is: door frame is equipped with the supporting plate of support mud item, and supporting plate is with door frame It moves and intermittence connects with the first conveyer belt or the second conveyer belt, supporting plate is equipped with the cutting gap inswept for tangent line.

The utility model is further arranged to, and baffle is detachably equipped on supporting plate, and baffle is located at mud two sides.

The utility model is further arranged to, and supporting plate is respectively equipped with close to the both ends of the first conveyer belt and the second conveyer belt and leads To inclined-plane.

The utility model is further arranged to, supporting plate direction the second conveyer belt stretching guide pad, where the second conveyer belt Rack is equipped with the slot of cooperation guide pad.

The utility model is further arranged to, and door frame is equipped with guide rail, and guide rail is arranged in parallel in the two sides up and down of supporting plate, leads The sliding block for fixing tangent line is slidably connected on rail, sliding block is controlled by cutting cylinder, and cutting cylinder is set on door frame.

The utility model is further arranged to, and sliding block is equipped with fastening cylinder and tensioning wheel, and one end of tangent line is around tensioning Wheel is fixed on fastening cylinder.

The utility model is further arranged to, and door frame two sides are equipped with synchronizing shaft, is symmetrically arranged with synchromesh gear on two synchronizing shafts, Synchronous belt is arranged on synchromesh gear, sliding block is detachably connected on the same side of synchronous belt.

The beneficial effects of the utility model are:

(1) the utility model is pacified on door frame by moving back and forth the door frame between the first conveyer belt and the second conveyer belt Tangent line is filled, to reach in the direction of motion of mud item, mud item and tangent line are opposing stationary.At this point, mistake of the tangent line in cutting mud item Cheng Zhong, inswept section are just more smooth section；

(2) supporting plate is used to support mud item in the utility model, prevents mud item from occurring due to gravity in by cutting process It collapses bad, the baffle mud item on supporting plate prevents mud stress in cutting process to be offset to both sides；

(3) the utility model tangent line is controlled by fastening cylinder, itself adjustable tensioning degree.And sliding block detachably connects It connects in the same side of synchronous belt, the installation site of adjusting slider, the tilt angle of adjustable tangent line, so that it is different to adapt to cutting The mud item of size.

Detailed description of the invention

Fig. 1 is numerical control cutting machine overall structure diagram；

Fig. 2 is the schematic diagram for indicating portal-framed structure；

Fig. 3 is the schematic diagram for indicating door frame position；

Fig. 4 is the schematic diagram for indicating the first conveyer structure；

Fig. 5 is the schematic diagram for indicating line cutting structure.

Wherein: 1, rack；11, positive sliding slot；12, side chute；13, mud item is kept off；14, mud cover；15, flange；2, it first passes Send band；21, adapting table；22, support plate；23, idler roller；24, support roller；25, cleaning shoe；26, support rod；27, hinge segment；3, Second conveyer belt；4, supporting plate；41, baffle；42, guiding surface；43, guide pad；44, cutting gap；5, door frame；51, bottom plate； 511, positive pulley；52, side lever；521, side roller；522, protective cover；53, synchronizing shaft；54, synchronous belt；55, guide rail；56, sliding block； 6, tangent line；61, cylinder is cut；62, cylinder is fastened；63, tensioning wheel.

Specific embodiment

Wherein identical components are presented with like reference characters.It should be noted that word used in the following description Language "front", "rear", "left", "right", "up" and "down" refer to the direction in attached drawing, word " bottom surface " and " top surface ", "inner" and "outside" refers respectively to the direction towards or away from geometric center of specific component.

Embodiment 1:

As shown in Figure 1, a kind of numerical control cutting machine for facilitating maintenance, including rack 1, in rack 1 along mud carriage direction according to Secondary is adapting table 21, the first conveyer belt 2, door frame 5 and the second conveyer belt 3.

As shown in Fig. 2, door frame 5 includes the side lever 52 positioned at 1 two sides of rack, side roller 521 is equipped with below side lever 52.Rack 1 is equipped with the side chute 12 slided for side roller 521.

It is slided in rack 1 as shown in figure 3, door frame 5 is controlled by servo motor, sliding section is the first conveyer belt 2 and the Between two conveyer belts 3.

As shown in figure 4, the first conveyer belt 2 includes conveyer belt, the idler roller 23 for being tensioned conveyer belt and installation idler roller 23 Frame.The face horizontal plane for making the first conveyer belt 2 support mud item there are two support roller 24 is set between two idler rollers 23.

Wherein, the frame of 2 lower section of the first conveyer belt is equipped with cleaning shoe 25, and cleaning shoe 25 is removably mounted at by bolt On frame, the installation site and setting angle of cleaning shoe 25 are adjusted, thus it is possible to vary cleaning shoe 25 is adjacent to dynamics and the angle of conveyer belt Degree.

The frame articulation of first conveyer belt 2 supports in the horizontal plane in rack 1, and through support rod 26.Support rod 26 One end connects rack 1, and the other end connects the base of frame of the first conveyer belt 2.26 both ends of support rod are hinged by being threadedly engaged Section 27, hinge segment 27 be respectively hinged on the frame of the first conveyer belt 2 and rack 1 on.

Adapting table 21 is wherein extended on the left of the first conveyer belt 2, adapting table 21 is hinged on the first conveyer belt 2.First passes The support plate 22 for being extended with triangle on band 2 is sent to support adapting table 21.

As shown in Fig. 2, slidably connecting tangent line 6 on door frame 5, tangent line 6 is controlled by cutting cylinder 61 and back and forth transports on door frame 5 It moves between two side levers 52.

As shown in figure 5, symmetrical above and below in door frame 5 be equipped with two guide rails 55, sliding block 56, tangent line are slidably connected on guide rail 55 6 both ends are separately fixed on two sliding blocks 56.52 liang of side levers of door frame are externally provided with synchronizing shaft 53, and synchronizing shaft 53 is equipped with synchronous gear It takes turns, is arranged with synchronous belt 54 on synchromesh gear.Two sliding blocks 56 are detachably secured to the same side of synchronous belt respectively.

When cutting cylinder 61 controls the movement of one of sliding block 56, due to 54 passive movement of synchronous belt, synchronizing shaft is driven 53 rotations, make another synchronous belt 54 while moving.Finally drive another sliding block 56 mobile in the same direction, to realize tangent line 6 according to solid The angle translation cutting mud item set.

Fastening cylinder 62 is bolted on one of sliding block 56, one end of tangent line is fixed on fastening cylinder 62 On output end.It is additionally provided with the tensioning wheel bypassed for tangent line 6 on the sliding block 56, to control of tangent line 6 by fastening cylinder 62 Tight degree.

As shown in figure 5, the bottom plate 51 of door frame 5 is placed through the rack 1 of 12 lower section of side chute.And it is extended with just on bottom plate 51 Pulley 511, rack 1 are equipped with the positive sliding slot 11 for the sliding of positive pulley 511.The positive side of sliding slot 11 upward passes through arc-shaped gear Mud cover 14 covers.

As shown in Fig. 2, side chute 12 is equipped with gear mud item 13, the side that gear mud item 13 stretches to 1 outside of rack is bent into flange 15.Cleaning slot is constituted between flange 15 and rack 1.

Wherein, the supporting plate 4 for being used to support mud item is set on door frame 5, and supporting plate is equipped with the cutting gap inswept for tangent line 6 44.Baffle 41 is symmetrically arranged on supporting plate 4, baffle 41 is detachably fixed by bolt.Between adjusting between two side baffles 41 Away to adapt to various sizes of mud item.

The both ends of the corresponding mud motion path of baffle 41 are equipped with guiding surface 42.Supporting plate 4 is towards one end of the second conveyer belt 3 It is extended with guide pad 43.Guide pad 43 is two guide rods in the present embodiment, and second conveyer belt 3 is equipped with and is inserted into for guide rod Guide groove.

In addition to the implementation, the utility model can also have other embodiments；It is all to use equivalent replacement or equivalent change The technical solution to be formed is changed, the protection scope of the requires of the utility model is all fallen within.

Claims (8)

1. a kind of numerical control cuts machine-cut cutting mill structure, it is characterised in that: including being set to the first conveyer belt (2) and the second conveyer belt (3) Between door frame (5), the door frame (5) is across rack (1) and is slidably connected on the rack (1), and the door frame (5) is controlled It moves back and forth between first conveyer belt (2) and second conveyer belt (3) in servo motor, is set on the door frame (5) Have tangent line (6), the tangent line (6) moves back and forth on the door frame (5) and cuts inswept mud item.

2. numerical control according to claim 1 cuts machine-cut cutting mill structure, it is characterised in that: the door frame (5) is equipped with support The supporting plate (4) of the mud item, the supporting plate (4) is with the door frame (5) movement and intermittent with first conveyer belt (2) or the Two conveyer belts (3) connect, and the supporting plate (4) is equipped with the cutting gap (44) inswept for the tangent line (6).

3. numerical control according to claim 2 cuts machine-cut cutting mill structure, it is characterised in that: detachably set on the supporting plate (4) Have baffle (41), the baffle (41) is located at the mud two sides.

4. numerical control according to claim 3 cuts machine-cut cutting mill structure, it is characterised in that: the supporting plate (4) is close to described the The both ends of one conveyer belt (2) and second conveyer belt (3) are respectively equipped with guiding surface (42).

5. numerical control according to claim 4 cuts machine-cut cutting mill structure, it is characterised in that: the supporting plate (4) is towards described the Two conveyer belts (3) stretch out guide pad (43), and the rack (1) where second conveyer belt (3), which is equipped with, cooperates the guide pad (43) slot.

6. numerical control according to claim 2 cuts machine-cut cutting mill structure, it is characterised in that: the door frame (5) is equipped with guide rail (55), the guide rail (55) is arranged in parallel in the two sides up and down of the supporting plate (4), slidably connects and is used on the guide rail (55) The sliding block (56) of the fixed tangent line (6), the sliding block (56) are controlled by cutting cylinder (61), and the cutting cylinder (61) is set to On the door frame (5).

7. numerical control according to claim 6 cuts machine-cut cutting mill structure, it is characterised in that: the sliding block (56) is equipped with fastening One end of cylinder (62) and tensioning wheel (63), the tangent line (6) is fixed on the fastening cylinder around the tensioning wheel (63) (62) on.

8. numerical control according to claim 7 cuts machine-cut cutting mill structure, it is characterised in that: door frame (5) two sides are equipped with same It walks axis (53), is symmetrically arranged with synchromesh gear on two synchronizing shafts (53), synchronous belt (54), institute are arranged on the synchromesh gear State the same side that sliding block (56) is detachably connected on the synchronous belt (54).