CN215879668U

CN215879668U - Double-cutter computer pressure spring machine

Info

Publication number: CN215879668U
Application number: CN202120911966.6U
Authority: CN
Inventors: 邹永春
Original assignee: Dongguan Jinyiding Machinery Co ltd
Current assignee: Dongguan Jinyiding Machinery Co ltd
Priority date: 2021-04-29
Filing date: 2021-04-29
Publication date: 2022-02-22
Anticipated expiration: 2031-04-29

Abstract

The utility model relates to the technical field of a pressure spring machine, in particular to a double-cutter computer pressure spring machine, which comprises a forming mechanism, wherein the forming mechanism comprises a wire feeding mechanism and a guide mechanism, a steel wire passes through the wire feeding mechanism and then forms a plurality of circles of spiral coils, the forming mechanism also comprises a cutter mechanism, the cutter mechanism comprises a cutter block and a push cutter block which are oppositely arranged, the cutter mechanism also comprises a transmission mechanism, the transmission mechanism comprises a swing structure which drives the cutter block and the push cutter block to respectively slide in a reciprocating manner, the transmission mechanism respectively drives the push cutter block and the cutter block to be sequentially matched with a formed spring, when the push cutter block is contacted and attached with the formed spring, the cutter block is far away from the spring, the contact surface of the push cutter block guides the spiral coils of the spring to be formed, after the spring is formed, the push cutter block drives the push cutter block to be far away from the spring through the transmission mechanism, the cutter block is slowly close to the spring to cut the formed spring, the cutting knife is circularly reciprocated, and the mounting sizes of the cutting knife block and the push knife block are the same, so that the mounting positions of the cutting knife block and the push knife block can be replaced mutually to meet different cutting directions of the spring.

Description

Double-cutter computer pressure spring machine

Technical Field

The utility model relates to the technical field of pressure spring machines, in particular to a double-cutter computer pressure spring machine.

Background

The pressure spring machine leads to the mechanical equipment who indicates production pressure spring, divide into automatic type and numerical control type, divide into according to functional characteristics: pressure spring machine, extension spring machine, computer spring machine, disc machine and special spring machine, for example: serpentine spring machines, torsion spring machines; the driving method is divided into: semi-automatic, numerical control and full-computerized control.

The existing pressure spring machine is usually fixed on a working plate to cut a spring in one direction when cutting the formed spring, and the cutting mode cannot be suitable for cutting requirements of other sizes and has limitation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a double-cutter computer pressure spring machine aiming at the defects of the prior art.

In order to achieve the purpose, the technical scheme of the utility model is as follows:

two cutters computer pressure spring machine, including the frame that has the front panel, forming mechanism is installed to the front panel, and forming mechanism is including sending line mechanism and guiding mechanism, forming mechanism still includes cutter mechanism, and cutter mechanism is including the cutter piece and the broach piece that set up mutually opposedly, and cutter mechanism still includes drive mechanism, and drive mechanism is including the swing structure that drives cutter piece and broach piece reciprocating sliding respectively.

Further: the cutter mechanism further comprises sliding cutter seats used for mounting the cutter block and the cutter pushing block respectively, and the transmission mechanism is connected with the two sliding cutter seats and drives the sliding cutter seats to do cutting movement in the vertical direction through the transmission mechanism.

Further: the transmission mechanism comprises a transmission shaft which is arranged on the front panel and matched with the sliding cutter seat, the swinging structure comprises a rocker piece which is arranged at the tail end of the transmission shaft, and the rocker piece is connected to the end part of the sliding cutter seat through a shaft rod.

Further: and a connecting rod mechanism is arranged between the transmission shaft and the transmission shaft, the connecting rod mechanism comprises rocker seats which are respectively installed on the transmission shaft in a bonding manner, and the two rocker seats are connected through a guide rod.

Further: the front panel is provided with a base in sliding fit with the sliding cutter seat, and the transmission mechanism drives the base to vertically slide on the sliding cutter seat.

Further: the sliding knife seat is formed with a knife groove, and a limiting block is horizontally arranged in the knife groove.

Further: the end part of the push broach block is a sharp bottom cutter, and the end part of the push broach block is a flat bottom cutter.

The utility model has the beneficial effects that: according to the double-cutter computer pressure spring machine, after the spring is formed, the push cutter block is driven to be far away from the spring through the transmission mechanism, the cutter block slowly approaches the spring to cut the formed spring, the operation is repeated in such a circulating way, and the installation sizes of the cutter block and the push cutter block are the same, so that the installation positions of the cutter block and the push cutter block can be replaced mutually to meet different cutting directions of the spring, the sliding distances of the two slide cutter seats are the same through the transmission mechanism, perfect matching can be achieved, and the matching degree of the push cutter block and the cutter block is improved.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of another structure according to the present invention.

Fig. 3 is a schematic structural diagram of the transmission mechanism of the present invention.

The reference numerals include:

1-front panel 10-forming mechanism 11-wire feeding mechanism 12-guiding mechanism 13-push rod

2-cutter mechanism 21-cutter block 22-cutter pushing block 23-sliding tool holder 24-base 25-tool groove

26-stop block

3-transmission mechanism 31-transmission shaft 32-rocker seat 33-link mechanism 34-rocker 35-shaft lever.

Detailed Description

The present invention is described in detail below with reference to the attached drawings.

As shown in fig. 1-3, a double-cutter computer compression spring machine includes a frame with a front panel 1, the front panel 1 is provided with a forming mechanism 10, the forming mechanism 10 includes a wire feeding mechanism 11 and a guiding mechanism 12, a steel wire passes through the wire feeding mechanism 11 and the guiding mechanism 12 to form a multi-turn spiral ring, the forming mechanism 10 further includes a cutter mechanism 2, the cutter mechanism 2 includes a cutter block 21 and a push cutter block 22 which are oppositely arranged, the cutter mechanism 2 further includes a transmission mechanism 3 for driving the cutter block 21 and the push cutter block 22 to circularly slide, the transmission mechanism 3 includes a swing structure for driving the cutter block 21 and the push cutter block 22 to respectively slide reciprocally, the transmission mechanism 3 respectively drives the push cutter block 22 and the cutter block 21 to sequentially cooperate with a formed spring, when the push cutter block 22 contacts and fits with the formed spring, the cutter block 21 is far away from the spring, a contact surface of the push cutter block 22 guides the spiral ring of the spring to be formed, after the spring is formed, the push broach block 22 is driven to be far away from the spring through the transmission mechanism 3, the cutter block 21 is slowly close to the spring to cut the formed spring, the operation is repeated in such a circulating way, and the installation sizes of the cutter block 21 and the push broach block 22 are the same, so that the installation positions of the cutter block 21 and the push broach block 22 can be replaced mutually to meet the requirement of different cutting directions of the spring.

Further: the cutter mechanism 2 further comprises sliding cutter seats 23 used for mounting the cutter block 21 and the push cutter block 22 respectively, the transmission mechanism 3 is connected with the two sliding cutter seats 23 and drives the sliding cutter seats 23 to do cutting movement in the vertical direction through the transmission mechanism 3, and when the transmission mechanism 3 drives the sliding cutter seats 23 on the cutter block 21 to descend, the sliding cutter seats 23 on the push cutter block 22 ascend, so that cutting and guiding movement is performed circularly.

Further: front panel 1 is provided with the base 24 with smooth blade holder 23 sliding fit, and drive mechanism 3 drive base 24 is vertical to slide on smooth blade holder 23, drive mechanism 3 including install in front panel 1 and with smooth blade holder 23 complex transmission shaft 31, swing structure is including installing rocking bar piece 34 at transmission shaft 31 end, rocking bar piece 34 passes through axostylus axostyle 35 and connects in smooth blade holder 23 tip, be provided with link mechanism 33 between two transmission shafts 31, link mechanism 33 includes that the bonding is respectively installed at the rocking bar seat 32 on transmission shaft 31.

One embodiment is as follows: the rocker seat 32 of one of the transmission shafts 31 is arranged at the left end, the rocker seat 32 of the other transmission shaft 31 is arranged at the right end, the two rocker seats 32 are connected through the guide rod, one of the transmission shafts 31 rotates around the shaft repeatedly at the left and right sides, when one of the transmission shafts 31 rotates at 45 degrees to the left, the rocker seat 32 is connected with the rocker seat 32 of the other transmission shaft 31 through the rocker seat 32 and the link mechanism 33, and the transmission shaft 31 is driven to rotate at 45 degrees to the right, so that the rotating angles of the two transmission shafts 31 are the same, the swinging amplitude of the rocker members 34 connected with the two slider seats 23 is the same, the telescopic stroke of the shaft lever 35 on the rocker member 34 is the same, the sliding distances of the two slider seats 23 are the same, perfect matching can be realized, and the matching degree of the push broach block 22 and the cutter block 21 is improved.

Further: the sliding knife seat 23 is formed with a knife groove 25, the push knife block 22 or the cutting knife block 21 is fixedly installed in the knife groove 25 through a bolt, a limiting block 26 is horizontally installed in the knife groove 25, the limiting block 26 is arranged at the bottom of the knife groove 25 and supports the push knife block 22 or the cutting knife block 21, the push knife block 22 or the cutting knife block 21 is installed behind the knife groove 25 of the sliding knife seat 23, and when a spring is cut, the vertical displacement phenomenon of the push knife block 22 or the cutting knife block 21 in the knife groove 25 can be reduced, and the installation stability of the cutter mechanism 2 is improved.

Further: the end part of the push broach block 22 is a sharp bottom cutter, the end part of the push broach block 22 is a flat bottom cutter, the contact surface of the push broach block 22 guides the formation of the spiral ring of the spring and is matched with the push rod 13 which is arranged at one end in a telescopic mode to guide the number of the formed circles, after the guide is completed, the push broach block 22 retracts, the cutter block 21 cuts the formed spring, and the formation of the spring is completed.

In conclusion, the present invention has the above-mentioned excellent characteristics, so that it can be used to enhance the performance of the prior art and has practicability, and becomes a product with practical value.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description of the present invention, which should be interpreted as a limitation.

Claims

1. Double-cutter computer pressure spring machine, including the frame that has the front panel, forming mechanism is installed to the front panel, and forming mechanism is including sending line mechanism and guiding mechanism, its characterized in that: the forming mechanism further comprises a cutter mechanism, the cutter mechanism comprises a cutter block and a push-type cutter block which are oppositely arranged, the cutter mechanism further comprises a transmission mechanism, and the transmission mechanism comprises a swing structure which drives the cutter block and the push-type cutter block to respectively slide in a reciprocating mode.

2. The double-cutter computer compression spring machine according to claim 1, wherein: the cutter mechanism further comprises sliding cutter seats used for mounting the cutter block and the cutter pushing block respectively, and the transmission mechanism is connected with the two sliding cutter seats and drives the sliding cutter seats to do cutting movement in the vertical direction through the transmission mechanism.

3. The double-cutter computer compression spring machine according to claim 2, wherein: the transmission mechanism comprises a transmission shaft which is arranged on the front panel and matched with the sliding cutter seat, the swinging structure comprises a rocker piece which is arranged at the tail end of the transmission shaft, and the rocker piece is connected to the end part of the sliding cutter seat through a shaft rod.

4. The double-cutter computer compression spring machine according to claim 3, wherein: and a connecting rod mechanism is arranged between the transmission shaft and the transmission shaft, the connecting rod mechanism comprises rocker seats which are respectively installed on the transmission shaft in a bonding manner, and the two rocker seats are connected through a guide rod.

5. The double-cutter computer compression spring machine according to claim 2, wherein: the front panel is provided with a base in sliding fit with the sliding cutter seat, and the transmission mechanism drives the base to vertically slide on the sliding cutter seat.

6. The double-cutter computer compression spring machine according to claim 5, wherein: the sliding knife seat is formed with a knife groove, and a limiting block is horizontally arranged in the knife groove.

7. The double-cutter computer compression spring machine according to claim 1, wherein: the end part of the push broach block is a sharp bottom cutter, and the end part of the push broach block is a flat bottom cutter.