CN212419831U - Machining device capable of being used for adjusting steel frame cutting space - Google Patents

Abstract

A processing device for adjusting the cutting distance of a steel frame comprises a feeding conveyor belt, a discharging conveyor belt and a cutting unit, wherein the cutting unit is positioned between the feeding conveyor belt and the discharging conveyor belt and comprises a supporting side plate, a supporting plate, a sliding plate and a cylinder A, cylinder B, connecting rod A, connecting rod B, connecting rod C, cross ferryboat and protection shield, it sets up in material direction of transfer's both sides to support the curb plate symmetry, two support curb plates prop up the backup pad, be equipped with cylinder A in the middle of the backup pad top, cylinder A drives the sliding plate downwards, bilateral symmetry is equipped with cylinder B around the sliding plate, cylinder B's actuating lever end links has vertical decurrent connecting rod B, connecting rod B's end links has the motor, motor drive cutting tool, it has the protection shield to support between the curb plate at the sliding plate, it is equipped with connecting rod C to support between the curb plate to be equipped with the protection shield below, sliding swing joint has the. The utility model discloses can carry out high-efficient stable continuous cutting work to the steel sheet, application scope is wide.

Description

Machining device capable of being used for adjusting steel frame cutting space

Technical Field

The utility model relates to a steelframe processingequipment technical field, concretely relates to processingequipment who can be used to adjust steelframe cutting interval.

Background

The steel has the characteristics of high strength, light dead weight, good integral rigidity and strong deformability, so the steel is particularly suitable for building large-span, ultrahigh and overweight buildings; the material has good homogeneity and isotropy, belongs to an ideal elastomer and most conforms to the basic assumption of general engineering mechanics. In order to meet various construction requirements, the steel frame raw materials need to be cut, and because the traditional cutting device cannot continuously cut, the cutting process needs to be repeated for many times, the energy loss of operators is increased, the production efficiency is reduced, and therefore the processing device needs to be improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a processingequipment that can be used to adjust steelframe cutting interval that machining efficiency is high, adaptability is good.

The technical scheme of the utility model as follows:

the utility model provides a processingequipment that can be used to adjust steelframe cutting interval which characterized in that: the cutting device comprises a feeding conveyor belt, a discharging conveyor belt and a cutting unit, wherein the cutting unit is positioned between the feeding conveyor belt and the discharging conveyor belt; the cutting unit comprises a supporting side plate, a supporting plate, a sliding plate, a cylinder A, a cylinder B, a connecting rod A, a connecting rod B, a connecting rod C, a transition wheel and a protecting plate; the support side plates are symmetrically arranged on two sides of the material conveying direction, two ends of the support plate are respectively connected with the tops of the two support side plates, the air cylinder A is arranged in the middle of the top of the support plate, a drive rod of the air cylinder A is connected with the connecting rod A, the connecting rod A penetrates through the support plate to be downwards connected with the middle of the top of the sliding plate, the sliding plate is arranged between the support side plates, two ends of the sliding plate are provided with sliding sleeves A which are movably connected with the support side plates in a sliding mode, the air cylinders B are symmetrically arranged on the front side and the rear side of the sliding plate along the conveying direction, the drive rod of the air cylinder B faces the connecting rod A, the tail end of the drive rod of the air cylinder B is connected with the connecting rod B which vertically faces downwards, a channel A for the drive, the driving rod of the motor faces the connecting rod A, and a cutting tool is arranged on the driving rod of the motor; a protective plate is arranged below the sliding plate between the supporting side plates, the protective plate is formed by combining a vertical main plate parallel to the supporting side plates and a horizontal support plate perpendicular to the supporting side plates, the horizontal support plate is connected with the inward side wall of the vertical main plate, the outward side wall of the vertical main plate is connected with an adjusting rod penetrating out of the supporting side plates, a channel B for the adjusting rod to penetrate through is arranged on the supporting side plates along the height direction, sliding sleeves B are arranged at the corresponding positions of the adjusting rods on the supporting side plates, the sliding sleeves B respectively consist of inner sliding sleeves sleeved on the supporting side plates and outer sleeves connected with the adjusting rods, the inner sliding sleeves are movably connected with the supporting side plates in a sliding mode, through holes for the adjusting rods to penetrate through are reserved on the inner side and the outer side of the inner sliding sleeves, and one end of each outer sleeve is, the hollow part of the outer sleeve is aligned with the adjusting rod; the inner sliding cylinder is provided with a fixing screw A for fixing with the supporting side plate, the outer sleeve is provided with a fixing screw B for fixing with the adjusting rod, the connecting rod C is arranged between the supporting side plates below the protecting plate, two ends of the connecting rod C are connected with the inner wall of the supporting side plate, the connecting rod C is movably connected with the transition wheel in a sliding mode, the transition wheel is used for supporting materials to pass through smoothly, and the transition wheel is arranged between planes where the cutting tools are located; the bottom of the supporting side plate is provided with a base.

The connecting rod C is provided with 3 transition wheels, the two sides of each transition wheel of the connecting rod are movably connected with limit blocks in a sliding mode, and the limit blocks are provided with fixing screws C fixed with the connecting rod C.

The downward side wall of the motor is close to the cutting tool, and a laser transmitter is arranged at the position of the cutting tool and facilitates operators to know the position of the cutting tool.

And a pair of fixing screws B is symmetrically arranged on the same outer sleeve up and down.

And a graduated scale is arranged at the top end of the sliding plate along the channel A.

And a blocking block is arranged between the sliding sleeve A and the sliding sleeve B on the supporting side plate and used for preventing the cutting prop from descending too much to damage equipment below.

The utility model discloses the beneficial technological effect who has: the utility model is provided with a pair of symmetrical cutting tools, and the space between the cutting tools can be freely adjusted, thus realizing that the secondary cutting work can be completed by one-time tool drop; the protection plate capable of being adjusted according to the width of the steel frame to be processed and the transition wheel used for supporting the steel frame to move are arranged, so that the processing stability and the cutting working quality are improved.

Drawings

The technical solution of the present invention will be further explained with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of the middle cutting unit of the present invention.

Fig. 2 is a top view of the present invention.

Fig. 3 is a schematic structural diagram of the middle sliding sleeve B of the present invention.

In the figure: 1-feed conveyor, 2-discharge conveyor, 3-cutting unit, 4-support side plate, 5-support plate, 6-slide plate, 7-cylinder a, 8-cylinder B, 9-connecting rod a, 10-connecting rod B, 11-connecting rod C, 12-transition wheel, 13-protection plate, 14-slide sleeve a, 15-slide sleeve B, 16-channel a, 17-channel B, 18-motor, 19-cutting tool, 20-vertical main plate, 21-horizontal support plate, 22-adjusting rod, 23-internal slide sleeve, 24-external sleeve, 25-fixing screw a, 26-fixing screw B, 27-fixing screw C, 28-base, 29-stopper, 30-laser emitter, 31-scale, 32-stop block.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 3, the utility model relates to a processing device that can be used to adjust steelframe cutting interval, its characterized in that: the cutting device comprises a feeding conveyor belt 1, a discharging conveyor belt 2 and a cutting unit 3, wherein the cutting unit 3 is positioned between the feeding conveyor belt 1 and the discharging conveyor belt 2; the cutting unit 3 includes a support side plate 4, a support plate 5, a sliding plate 6, a cylinder a7, a cylinder B8, a connecting rod a9, a connecting rod B10, a connecting rod C11, a transition wheel 12, and a protection plate 13; the support side plates 4 are symmetrically arranged on two sides of the material conveying direction, two ends of the support plate 5 are respectively connected with the tops of the two support side plates 4, an air cylinder A7 is arranged in the middle of the top of the support plate 5, a drive rod of the air cylinder A7 is connected with a connecting rod A9, the connecting rod A9 penetrates through the support plate 5 to be downwards connected with the middle of the top of the sliding plate 6, a sliding plate 6 is arranged between the support side plates 4, two ends of the sliding plate 6 are provided with sliding sleeves A14 which are movably connected with the support side plates 4 in a sliding mode, the sliding plate 6 is symmetrically provided with air cylinders B8 along the front side and the rear side of the conveying direction, the drive rod of the air cylinder B8 faces towards the connecting rod A9, the tail end of the drive rod of the air cylinder B8 is connected with a vertically downward connecting rod B10, a channel A16 for the drive rod of the air cylinder; a protective plate 13 is arranged below the sliding plate 6 between the supporting side plates 4, the protective plate 13 is formed by combining a vertical main plate 20 parallel to the supporting side plates 4 and a horizontal support plate 21 perpendicular to the supporting side plates 4, the horizontal support plate 21 is connected with the inward side wall of the vertical main plate 20, an adjusting rod 22 penetrating out of the supporting side plates 4 is connected to the outward side wall of the vertical main plate 20, a channel B17 for the adjusting rod 22 to penetrate through is arranged on the supporting side plates 4 along the height direction, a sliding sleeve B15 is arranged at the corresponding position of the adjusting rod 22 on the supporting side plates 4, the sliding sleeve B15 is respectively composed of an inner sliding sleeve 23 sleeved on the supporting side plates 4 and an outer sleeve 24 connected with the adjusting rod 22, the inner sliding sleeve 23 is movably connected with the supporting side plates 4 in a sliding mode, through holes for the adjusting rod 22 to penetrate through are reserved on the inner side and the outer side of the inner sliding sleeve; a fixing screw A25 for fixing with the supporting side plate 4 is arranged on the inner sliding cylinder, a fixing screw B26 for fixing with the adjusting rod 22 is arranged on the outer sleeve 24, a connecting rod C11 is arranged between the supporting side plates 4 below the protecting plate 13, two ends of the connecting rod C11 are connected with the inner wall of the supporting side plate 4, a transition wheel 12 is movably connected on the connecting rod C11 in a sliding mode, the transition wheel 12 is used for supporting materials to pass through smoothly, and the transition wheel 12 is located between planes where the cutting tools 19 are located; the bottom of the support side plate 4 is provided with a base 28.

The connecting rod C11 is provided with 3 transition wheels 12, the connecting rod is movably connected with a limit block 29 at two sides of each transition wheel 12 in a sliding way, and the limit block 29 is provided with a fixing screw C27 fixed with the connecting rod C11.

The downward side wall of the motor 18 is provided with a laser emitter 30 near the cutting tool 19, and the laser emitter 30 is convenient for an operator to know the position of the cutting tool 19.

The same outer sleeve 24 is provided with a pair of fixing screws B26 in up-down symmetry.

The top end of the slide plate 6 is provided with a graduated scale 31 along the passage a 16.

A stop block 32 is arranged on the supporting side plate 4 between the sliding sleeve A14 and the sliding sleeve B15, and the stop block 32 is used for preventing the cutting prop from descending too much to damage equipment below.

The basic principle is as follows:

the feeding and discharging are respectively controlled by the feeding conveyor belt 1 and the discharging conveyor belt 2, the positions of the sliding sleeve B15 and the adjusting rod 22 are adjusted according to the width of the steel frame to be processed, so that the horizontal support plate 21 can be attached to the top of the steel frame, the vertical main plate 20 is attached to the side wall of the steel frame, the limiting and stabilizing effects are achieved, the position of the transition wheel 12 is controlled by adjusting the limit block 29, the supporting function to the steel frame is completed, the air cylinder A7 controls the sliding plate 6 to move downwards, thereby lowering the cutter 19, the motor 18 provides the operating power to the cutter 19, during the operation of the slide plate 6 by the cylinder a7, and the feeding conveyor belt 1 and the discharging conveyor belt 2 stop running, the sliding plate resets after the machining is finished, the feeding conveyor belt 1 and the discharging conveyor belt 2 run again, the cut steel frame is conveyed away, and meanwhile, a new steel frame is pushed to enter the cutting unit 3 to perform the next cutting operation.

The laser emitter 30 enables an operator to know the cutting position of the cutting tool 19 more intuitively, the distances between the feeding conveyor belt 1 and the discharging conveyor belt 2 and the transition wheel 12 are convenient to adjust, the situation that cut materials cannot be sent out due to lack of support is avoided, and at least it is guaranteed that the cut materials are supported by the discharging conveyor belt 2 or one of the feeding conveyor belts 1 besides the transition wheel 12. The stop 32 serves to avoid that the slide plate 6 is lowered too far so that the cutting tools 19 damage the underlying equipment.

The above is only a specific application example of the present invention, and does not constitute any limitation to the protection scope of the present invention. All the technical solutions formed by equivalent transformation or equivalent replacement fall within the protection scope of the present invention.

Claims (6)

1. The utility model provides a processingequipment that can be used to adjust steelframe cutting interval which characterized in that: the cutting device comprises a feeding conveyor belt, a discharging conveyor belt and a cutting unit, wherein the cutting unit is positioned between the feeding conveyor belt and the discharging conveyor belt; the cutting unit comprises a supporting side plate, a supporting plate, a sliding plate, a cylinder A, a cylinder B, a connecting rod A, a connecting rod B, a connecting rod C, a transition wheel and a protecting plate; the support side plates are symmetrically arranged on two sides of the material conveying direction, two ends of the support plate are respectively connected with the tops of the two support side plates, the air cylinder A is arranged in the middle of the top of the support plate, a drive rod of the air cylinder A is connected with the connecting rod A, the connecting rod A penetrates through the support plate to be downwards connected with the middle of the top of the sliding plate, the sliding plate is arranged between the support side plates, two ends of the sliding plate are provided with sliding sleeves A which are movably connected with the support side plates in a sliding mode, the air cylinders B are symmetrically arranged on the front side and the rear side of the sliding plate along the conveying direction, the drive rod of the air cylinder B faces the connecting rod A, the tail end of the drive rod of the air cylinder B is connected with the connecting rod B which vertically faces downwards, a channel A for the drive, the driving rod of the motor faces the connecting rod A, and a cutting tool is arranged on the driving rod of the motor; a protective plate is arranged below the sliding plate between the supporting side plates, the protective plate is formed by combining a vertical main plate parallel to the supporting side plates and a horizontal support plate perpendicular to the supporting side plates, the horizontal support plate is connected with the inward side wall of the vertical main plate, the outward side wall of the vertical main plate is connected with an adjusting rod penetrating out of the supporting side plates, a channel B for the adjusting rod to penetrate through is arranged on the supporting side plates along the height direction, sliding sleeves B are arranged at the corresponding positions of the adjusting rods on the supporting side plates, the sliding sleeves B respectively consist of inner sliding sleeves sleeved on the supporting side plates and outer sleeves connected with the adjusting rods, the inner sliding sleeves are movably connected with the supporting side plates in a sliding mode, through holes for the adjusting rods to penetrate through are reserved on the inner side and the outer side of the inner sliding sleeves, and one end of each outer sleeve is, the hollow part of the outer sleeve is aligned with the adjusting rod; the inner sliding cylinder is provided with a fixing screw A for fixing with the supporting side plate, the outer sleeve is provided with a fixing screw B for fixing with the adjusting rod, the connecting rod C is arranged between the supporting side plates below the protecting plate, two ends of the connecting rod C are connected with the inner wall of the supporting side plate, the connecting rod C is movably connected with the transition wheel in a sliding mode, the transition wheel is used for supporting materials to pass through smoothly, and the transition wheel is arranged between planes where the cutting tools are located; the bottom of the supporting side plate is provided with a base.

2. The machining device for adjusting the cutting distance of the steel frame according to claim 1, wherein the machining device comprises: the connecting rod C is provided with 3 transition wheels, the two sides of each transition wheel of the connecting rod are movably connected with limit blocks in a sliding mode, and the limit blocks are provided with fixing screws C fixed with the connecting rod C.

3. The machining device for adjusting the cutting distance of the steel frame according to claim 2, wherein: the downward side wall of the motor is close to the cutting tool, and a laser transmitter is arranged at the position of the cutting tool and facilitates operators to know the position of the cutting tool.

4. The machining device for adjusting the cutting distance of the steel frame according to claim 2, wherein: and a pair of fixing screws B is symmetrically arranged on the same outer sleeve up and down.

5. The machining device for adjusting the cutting distance of the steel frame according to claim 2, wherein: and a graduated scale is arranged at the top end of the sliding plate along the channel A.

6. The machining device for adjusting the cutting distance of the steel frame according to claim 2, wherein: and a blocking block is arranged between the sliding sleeve A and the sliding sleeve B on the supporting side plate and used for preventing the cutting prop from descending too much to damage equipment below.

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