CN216096245U - Novel cylinder slider for embedded thrust tile embedding riveting machine - Google Patents

Abstract

The utility model discloses a novel cylinder slide block for an embedded thrust tile embedding riveting machine, which comprises a machine body, a cylinder and a slide block, wherein a pressing oil cylinder is arranged at the top of the machine body, a first tire membrane is fixed on the end head of the pressing oil cylinder, a base is arranged on the machine body, the cylinder is composed of a left riveting oil cylinder and a right riveting oil cylinder, the left riveting oil cylinder and the right riveting oil cylinder are respectively fixed at two ends of the base, the slide block is respectively connected with the end heads of the left riveting oil cylinder and the right riveting oil cylinder, the slide block is respectively locked and fixed with the end heads of the left riveting oil cylinder and the right riveting oil cylinder through screws, a connecting assembly is connected onto the slide block, and the connecting assembly comprises an equipment connecting end, a disk seat and a second tire membrane. The mode that the fetal membrane was switched to the cylinder slider on this riveter adoption rotation type, this mode, the fetal membrane is changed fastly, efficient, has simplified the loaded down with trivial details flow that the tradition changed the fetal membrane, has avoided the artifical condition that causes wasting time and energy of changing.

Description

Novel cylinder slider for embedded thrust tile embedding riveting machine

Technical Field

The utility model relates to the technical field of riveting machines, in particular to a novel cylinder sliding block for an embedded thrust shoe embedding riveting machine.

Background

The riveting machine (also called as a riveting machine, a spin riveting machine, a rolling riveting machine and the like) is a novel riveting device developed according to a cold rolling principle, namely a mechanical device which can rivet objects by using rivets, and is mainly applied to occasions needing rivets (hollow rivets, solid rivets and the like), and the riveting machine is usually in specifications and models such as pneumatic, oil pressure and electric, single-end and double-end and the like.

The cylinder slider on present riveter all is fixed with the fetal membrane on all, drives the slider through the cylinder for part on the slider fetal membrane links up with the part on the oil pressure cylinder fetal membrane, reaches riveted effect, and when riveting different parts, needs the manual work to carry out the dismouting change to the fetal membrane on the slider, and the flow is comparatively loaded down with trivial details, wastes time and energy. For this reason, a corresponding technical scheme needs to be designed for solution.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Aiming at the defects of the prior art, the utility model provides a novel air cylinder slider for an embedded riveting machine for an embedded thrust shoe, which solves the problems that the fetal membranes need to be replaced manually during riveting of different types, the process is complicated, and time and labor are wasted.

(II) technical scheme

In order to achieve the purpose, the utility model is realized by the following technical scheme: the embodiment of the utility model provides a novel cylinder slider for an embedded thrust tile embedding riveting machine, and the technical scheme is as follows: a novel cylinder slide block for an embedded thrust tile embedding riveting machine comprises a machine body, a cylinder and a slide block, wherein a pressing oil cylinder is arranged at the top of the machine body, a first moulding bed is fixed on an oil cylinder end of the pressing oil cylinder, a base is arranged on the machine body, the cylinder is composed of a left riveting oil cylinder and a right riveting oil cylinder, the left riveting oil cylinder and the right riveting oil cylinder are respectively fixed at two ends of the base, the slide block is connected on the oil cylinder ends of the left riveting oil cylinder and the right riveting oil cylinder, the slide block is respectively locked and fixed with the oil cylinder ends of the left riveting oil cylinder and the right riveting oil cylinder through screws, a connecting assembly is connected on the slide block and comprises an equipment connecting end, a disc seat and a second moulding bed, the equipment connecting end is fixed at the top of the slide block, the second moulding bed is welded on one end disc surface of the disc seat, and a locking sleeve and a connecting sleeve are welded on the other end disc surface of the disc seat, be equipped with first through-hole and second through-hole on the link of slider and disk seat, be equipped with first equipment groove and second equipment groove in the slider, be equipped with the baffle between first equipment groove and the second equipment groove, first equipment inslot is fixed with the motor, second equipment inslot is fixed with the hydraulic pressure catch bar, the transmission end of motor runs through first through-hole and lock sleeve locking is fixed, the catch end of hydraulic pressure catch bar runs through the second through-hole and is connected with the adapter sleeve gomphosis.

Preferably, the second membranes are distributed at the four ends of the disc seat, and membrane bodies with different sizes are arranged between the second membranes.

Preferably, the connecting sleeves are distributed on four ends of the connecting surface of the disc seat, and the connecting sleeves are matched with the pushing ends of the hydraulic pushing rods in size.

Preferably, the hydraulic push rods are transversely distributed in the second equipment groove, the number of the hydraulic push rods is the same as that of the second through holes and the number of the connecting sleeves, and the push ends of the hydraulic push rods correspond to the positions of the second through holes and the positions of the connecting sleeves.

Preferably, the transmission end of the motor is connected with a connecting end, the connecting end corresponds to the position of the locking sleeve, the embedded structure is matched consistently, the connecting end is provided with a first fixing hole, and the locking sleeve is provided with a second fixing hole.

(III) advantageous effects

The disk seats of a plurality of groups of different types of tire membranes are linked on the air cylinder sliding block on the riveting machine, when parts of different types are riveted, only a motor in the sliding block needs to be started, the disk seats are driven to rotate through the motor, the riveted tire membranes are moved to a riveting position, the tire membranes are limited and fixed through the hydraulic pushing rod, and finally the sliding block is driven through the air cylinder to realize riveting.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a slider connection structure according to the present invention;

FIG. 3 is a schematic view of the internal structure of the slider according to the present invention;

FIG. 4 is a partial structural view of the disk seat of the present invention.

In the figure, 1-lathe bed, 2-pressing oil cylinder, 3-left riveting oil cylinder, 4-right riveting oil cylinder, 5-base, 6-first moulding bed, 7-slide block, 8-connecting component, 9-equipment connecting end, 10-disc seat, 11-second moulding bed, 12-first through hole, 13-connecting end, 14-second through hole, 15-motor, 16-hydraulic push rod, 17-locking sleeve and 18-connecting sleeve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, an embodiment of the present invention provides a technical solution: a novel cylinder slider for an embedded thrust tile embedding riveting machine comprises a machine body 1, a cylinder and a slider 7, wherein a pressing oil cylinder 2 is arranged at the top of the machine body 1, a first tire membrane 6 is fixed on an oil cylinder end of the pressing oil cylinder 2, a base 5 is arranged on the machine body 1, the cylinder is composed of a left riveting oil cylinder 3 and a right riveting oil cylinder 4, the left riveting oil cylinder 3 and the right riveting oil cylinder 4 are respectively fixed at two ends of the base 5, the oil cylinder ends of the left riveting oil cylinder 3 and the right riveting oil cylinder 4 are respectively connected with the slider 7, the slider 7 is respectively locked and fixed with the oil cylinder ends of the left riveting oil cylinder 3 and the right riveting oil cylinder 4 through screws, a connecting assembly 8 is connected on the slider 7, the connecting assembly 8 comprises an equipment connecting end 9, a disk seat 10 and a second tire membrane 11, the equipment connecting end 9 is fixed at the top of the slider 7, the disk seat 10 of the second tire membrane 11 is welded on one disk surface, the welding has lock sleeve 17 and adapter sleeve 18 on the other end quotation of disk seat 10, be equipped with first through-hole 12 and second through-hole 14 on the link of slider 7 and disk seat 10, be equipped with first equipment groove and second equipment groove in the slider 7, be equipped with the baffle between first equipment groove and the second equipment groove, first equipment inslot is fixed with motor 15, second equipment inslot is fixed with hydraulic catch bar 16, it is fixed with lock sleeve 17 locking that first through-hole 12 is run through to motor 15's transmission end, the catch end of hydraulic catch bar 16 runs through second through-hole 14 and is connected with the 18 gomphosis of adapter sleeve.

Second fetal membrane 11 distributes in four ends of dish seat 10, be the membrane body of equidimension not between the second fetal membrane 11, second fetal membrane 11 mainly bears the weight of riveted part, and the second fetal membrane 11 of equidimension not can provide corresponding gomphosis to the riveting part of equidimension not, realizes the corresponding installation of structure, has ensured riveted accuracy nature, and transmission through motor 15 can realize the position exchange between the different fetal membranes 11, and motor 15 adopts the three-phase asynchronous machine of model YS 6314.

The connecting sleeve 18 is distributed on four ends of the connecting surface of the disc seat 10, the connecting sleeve 18 corresponds to the position of the second fetal membrane 11, the connecting sleeve 18 is matched with the pushing end of the hydraulic pushing rod 16 in a consistent mode, the connecting sleeve 18 corresponds to the position of the second fetal membrane 11, the corresponding of the membrane and the sleeve structure is guaranteed, the connecting sleeve 18 corresponding to the embedded structure and the pushing end of the hydraulic pushing rod 16 ensure the compactness and firmness of the embedded structure, the situation of connecting gaps is avoided, the hydraulic pushing rod 16 is electronic hydraulic equipment, and the hydraulic pushing rod 16 is DYT (B) in model number.

The hydraulic push rods 16 are transversely distributed in the grooves of the second equipment, the hydraulic push rods 16 are the same as the second through holes 14 and the connecting sleeves 18 in number, the push ends of the hydraulic push rods 16 correspond to the positions of the second through holes 14 and the connecting sleeves 18, the multiple groups of hydraulic push rods 16 can provide limiting support for different positions of the second tire membranes 11, and when the riveting oil cylinder drives the sliding block to rivet, the stress uniformity and the overall stability of the second membrane blocks 11 are ensured.

The transmission of motor 15 is served and is linked up connection end 13, connection end 13 corresponds and the gomphosis structure matches unanimously with lock sleeve 17 position, be equipped with first fixed orifices on the connection end 13, be equipped with the second fixed orifices on the lock sleeve 17, first fixed orifices is the screw, the second fixed orifices is the through hole, and screw locking structure's connection end 13 and lock sleeve 17 have realized motor 15 to the transmission of dish seat 10, also provide convenient for the dismouting between motor 15's transmission end and the dish seat 10 simultaneously.

The working principle is as follows: the equipment connecting end 9 on the sliding block 7 mainly plays a role of circuit connection and plays a role of branching connection for a motor 15 and a hydraulic push rod 16, the equipment connecting end 9 is connected with a main control end of a machine body, when different types of parts are riveted, a main part is placed on a first tire membrane 6 of a pressing oil cylinder 2, corresponding second tire membranes 11 are found on a disk seat 10 of the sliding block 7 connected with a left riveting oil cylinder 3 and a right riveting oil cylinder 4 respectively according to the types of riveting parts, the motor 15 in a first equipment groove of the sliding block 7 is started through the main control end of the machine body, the motor 15 drives the disk seat 10 to rotate, so that the corresponding second tire membranes 11 on the disk seat 10 move to the riveting end, then the hydraulic push rod 16 in a second equipment groove of the sliding block 7 is started through the main control end of the machine body, the push end of the hydraulic push rod 16 passes through a second through hole 14 and moves to a corresponding connecting sleeve 18 on the disk seat 10, and (3) realizing embedding, limiting and fixing the position of the disc seat 10 after embedding, finally, starting the left riveting oil cylinder 3 and the right riveting oil cylinder 4, and enabling the riveting oil cylinders to respectively drive the sliding blocks 7 to move, so that the riveting parts on the second tire membranes 11 on the sliding blocks 7 at the two ends of the lathe bed 1 are respectively embedded and clamped with the interfaces at the two ends of the main part on the first tire membranes 6 on the pressing oil cylinder 2, and riveting of the parts is realized.

The utility model relates to a riveting machine, which comprises a machine body 1, a pressing oil cylinder 2, a left riveting oil cylinder 3, a right riveting oil cylinder 4, a base 5, a first moulding bed 6, a sliding block 7, a connecting assembly 8, an equipment connecting end 9, a disc seat 10, a second moulding bed 11, a first through hole 12, a connecting end 13, a second through hole 14, a motor 15, a hydraulic push rod 16, a locking sleeve 17 and a connecting sleeve 18, wherein the parts are all universal standard parts or parts known by technicians in the field, and the structure and the principle of the parts can be known by technical manuals or conventional experimental methods. Make riveted fetal membrane remove to the riveting position, rethread hydraulic pressure pushing rod carries out spacing fixed to the fetal membrane, drives the slider through the cylinder at last and realizes riveting, and the cylinder slider of this structure when riveting the part of different grade type, but the different fetal membranes of fast switch-over, the fetal membrane is changed fastly, efficient, has simplified the loaded down with trivial details flow of traditional change fetal membrane, has avoided the artifical change to cause the condition that wastes time and energy.

While there have been shown and described what are at present considered the fundamental principles and essential features of the utility model and its advantages, it will be apparent to those skilled in the art that the utility model is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. The utility model provides a novel cylinder slider that riveting machine was inlayed to mosaic thrust tile which characterized in that: the riveting device comprises a lathe bed (1), an air cylinder and a sliding block (7), wherein a pressing oil cylinder (2) is arranged at the top of the lathe bed (1), a first moulding bed (6) is fixed on an oil cylinder end of the pressing oil cylinder (2), a base (5) is arranged on the lathe bed (1), the air cylinder is composed of a left riveting oil cylinder (3) and a right riveting oil cylinder (4), the left riveting oil cylinder (3) and the right riveting oil cylinder (4) are respectively fixed at two ends of the base (5), the sliding block (7) is respectively connected to the oil cylinder ends of the left riveting oil cylinder (3) and the right riveting oil cylinder (4), and the sliding block (7) is respectively locked and fixed with the oil cylinder ends of the left riveting oil cylinder (3) and the right riveting oil cylinder (4) through screws;

the connecting component (8) is connected to the sliding block (7), the connecting component (8) comprises an equipment connecting end (9), a disc seat (10) and a second tire membrane (11), the equipment connecting end (9) is fixed at the top of the sliding block (7), the second tire membrane (11) is welded to the disc surface at one end of the disc seat (10), a locking sleeve (17) and a connecting sleeve (18) are welded to the disc surface at the other end of the disc seat (10), a first through hole (12) and a second through hole (14) are formed in the connecting end of the sliding block (7) and the disc seat (10), a first equipment groove and a second equipment groove are formed in the sliding block (7), a partition plate is arranged between the first equipment groove and the second equipment groove, a motor (15) is fixed in the first equipment groove, a hydraulic push rod (16) is fixed in the second equipment groove, and a transmission end of the motor (15) penetrates through the first through hole (12) and is locked and fixed with the locking sleeve (17), the pushing end of the hydraulic pushing rod (16) penetrates through the second through hole (14) and is connected with the connecting sleeve (18) in an embedded mode.

2. The novel cylinder slider for the mosaic riveting machine of the mosaic thrust shoe as claimed in claim 1, wherein: the second tire membranes (11) are distributed at four ends of the disc seat (10), and membrane bodies with different sizes are arranged between the second tire membranes (11).

3. The novel cylinder slider for the mosaic riveting machine of the mosaic thrust shoe as claimed in claim 1, wherein: the connecting sleeves (18) are distributed on the four ends of the connecting surface of the disc seat (10), and the connecting sleeves (18) are matched with the pushing ends of the hydraulic pushing rods (16) in size.

4. The novel cylinder slider for the mosaic riveting machine of the mosaic thrust shoe as claimed in claim 1, wherein: the hydraulic pushing rods (16) are transversely distributed in the second equipment groove, the number of the hydraulic pushing rods (16) is the same as that of the second through holes (14) and the connecting sleeves (18), and the pushing ends of the hydraulic pushing rods (16) correspond to the positions of the second through holes (14) and the connecting sleeves (18).

5. The novel cylinder slider for the mosaic riveting machine of the mosaic thrust shoe as claimed in claim 1, wherein: the motor is characterized in that a connecting end (13) is connected to the transmission end of the motor (15), the connecting end (13) corresponds to the position of the locking sleeve (17) and is matched with the embedded structure in a consistent mode, a first fixing hole is formed in the connecting end (13), and a second fixing hole is formed in the locking sleeve (17).

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