CN216658993U - Servo coining press - Google Patents

Servo coining press Download PDF

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Publication number
CN216658993U
CN216658993U CN202122865731.0U CN202122865731U CN216658993U CN 216658993 U CN216658993 U CN 216658993U CN 202122865731 U CN202122865731 U CN 202122865731U CN 216658993 U CN216658993 U CN 216658993U
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pressing
pressing block
driving
servo
guide
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CN202122865731.0U
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Chinese (zh)
Inventor
何彦忠
刘晓炎
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Suzhou Best Intelligent Technology Co ltd
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Suzhou Best Intelligent Technology Co ltd
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Abstract

The utility model discloses a servo coining press, which comprises a machine body part, a transmission part, a pressing block part and a driving part, wherein the machine body part is provided with a pressing block; the machine body part is provided with a pressing platform and a guide pillar; the pressing block component is internally provided with a pressing plate and a die adjusting mechanism for driving the pressing plate to reciprocate relative to the pressing table; the transmission component is rotationally connected to the machine body component; the pressing block part is connected to the guide pillar in a sliding manner; the driving part is fixedly connected to the machine body part and used for driving the transmission part to rotate, and the transmission part is used for driving the pressing block part to reciprocate relative to the pressing table. The servo coining press has a simple structure, can greatly shorten the height of the press body, improve the rigidity of the press body and the precision of the press machine, and save the assembly space; the four-element guide post structure is high in guiding precision and can be applied to a high-speed press. The transmission part in the utility model can construct a slider motion curve more suitable for pressure maintaining, and effectively reduces the working pressure under the working conditions of acceleration and deceleration, locked-rotor pressure maintaining and the like of the servo motor.

Description

Servo coining press
Technical Field
The utility model relates to the technical field of mechanical presses, in particular to a servo coining press.
Background
An important factor in the accuracy of presses is the stiffness of the press frame, which is inversely related to the frame height, in particular of open presses. The traditional press machine has the defects that the height of the machine body is higher, the transmission clearance is larger, and the machine tool precision is not favorably improved due to the existence of a crank connecting rod, a die adjusting mechanism and the like.
SUMMERY OF THE UTILITY MODEL
The utility model provides a servo coining press with a simple structure, aiming at the problems that the rigidity of a press body is lower and the precision of the press is not easy to improve due to the higher height of the press body in the traditional press.
The utility model is realized by the following technical scheme:
a servo coining press is characterized in that the coining press comprises a machine body part, a transmission part, a pressing block part and a driving part; the machine body component is provided with a pressing platform and a plurality of guide pillars; the pressing block component is internally provided with a pressing plate and a die adjusting mechanism for driving the pressing plate to reciprocate relative to the pressing table; the transmission component is rotationally connected to the machine body component; the pressing block part is connected to the guide pillar in a sliding manner; the driving part is fixedly connected to the machine body part and used for driving the transmission part to rotate, and the transmission part is used for driving the pressing block part to reciprocate relative to the pressing table.
In particular, according to the servo coining press, the die adjusting mechanism is arranged in the pressing block component, so that the position of the pressing plate can be finely adjusted, and the die adjusting function is realized. Preferably, the guide posts are four, and the pressing block part of the guide posts adopts a guide post structure, so that the precision of the press machine is improved.
Further, in the servo coining press: the driving part comprises a servo motor and a gear shaft; the servo motor is fixedly connected to the machine body component and used for driving the gear shaft to rotate. The servo motor drives the transmission part to rotate through the gear shaft, then the rotating part is used for driving the pressing block part to move, and the pressing function is achieved through the pressing block part.
Further, in the servo coining press: the transmission part comprises a crankshaft and a bull gear; the crankshaft is rotationally connected to the machine body component, and the bull gear is fixedly connected to the crankshaft; the gear shaft is meshed with the large gear and is used for driving the large gear to rotate. Specifically, a servo motor drives a large gear to rotate through a gear shaft, the large gear drives a crankshaft to rotate, and the crankshaft which rotates eccentrically can drive the pressing block component to reciprocate up and down in the machine body component, so that the precision pressing is realized.
Further, in the servo coining press: the pressing block component comprises a pressing block main body and a guide sleeve; the guide sleeve is fixedly arranged on the pressing block main body and is in sliding fit with the guide pillar; a large round hole is formed in the pressing block main body, and one end of the crankshaft extends into the large round hole; the pressing plate is connected to the pressing block main body in a sliding mode, and the die adjusting mechanism is fixedly connected to the inside of the pressing block main body; the die adjusting mechanism is used for driving the pressing plate to slide. Specifically, the crankshaft rotates in the large circular hole and drives the pressing block main body to reciprocate up and down, so that the movement of the whole pressing block part is completed in a cycle, and the coining function is realized. According to the utility model, the guide pillar and the guide sleeve are arranged on the machine body component, and the guide sleeve is arranged on the pressing block main body, so that the machine body component is structurally connected with the guide pillar and the guide sleeve of the pressing block component.
Further, in the servo coining press: the transmission part also comprises an eccentric sleeve; the eccentric sleeve is sleeved outside the crankshaft and can rotate; the eccentric sleeve is positioned in the big round hole. Preferably, the eccentric sleeve is arranged to replace a traditional connecting rod, the length of the connecting rod is long, and the connecting rod cannot be conveniently installed when the height of the press machine body is low, so that the height of the press machine body is high.
Further, in the servo coining press: a plurality of guide rods are fixedly arranged on the pressing plate; the pressing block main body is provided with a guide hole matched with the guide rod; the guide rod is inserted in the guide hole. Preferably, the number of the guide rods is four, and the guide rods are respectively distributed at four corners of the pressure plate. The guide rod and the guide hole are arranged for preventing the pressure plate from deflecting in the process of driving the pressure plate to slide by the die adjusting mechanism, so that the precision of the press machine can be improved.
Further, in the servo coining press: the die adjusting mechanism comprises a die adjusting motor, a lead screw nut, a telescopic device, an upper wedge block and a lower wedge block; the die adjusting motor is fixedly connected inside the pressing block main body; the lead screw is rotationally connected in the briquetting main body; the screw nut is connected to the screw; two ends of the telescopic device are respectively connected to the pressing block main body and the pressing plate; the screw rod nut is fixedly connected with the upper wedge block; the lower wedge block is connected to the pressure plate; the upper wedge block and the lower wedge block form inclined surface matching; the mold adjusting motor is used for driving the lead screw to rotate. Specifically, the lead screw nut is connected to the lead screw to form a lead screw nut mechanism, so that rotation can be converted into linear motion, namely, the purpose of enabling the upper wedge block to move linearly is achieved by driving the lead screw to rotate. Specifically, a matched guide groove is formed between the upper wedge block and the pressing block main body, so that the upper wedge block can be driven by the screw nut to move along the axial direction of the screw. When the die adjusting motor drives the screw rod to rotate, the upper wedge block starts to move, the upper wedge block extrudes the lower wedge block at the moment, and the pressing plate is driven to move downwards, so that the die adjusting function (namely the relative position of the pressing plate) is realized. When the upper wedge block is driven to move reversely, the upper wedge block and the lower wedge block tend to separate, and the compression plate is driven by the telescopic device to move upwards, so that the upper wedge block is attached to the lower wedge block. Preferably, the lower wedge block and the pressure plate can be made into an integral structure, and the design can increase a collapse type structure to be used as an overload protection device. Specifically, the telescopic device may be a hydraulic cylinder.
Further, in the servo coining press: the crankshaft is rotatably connected to the body component through a bearing.
Further, in the servo coining press: the number of the guide posts is at least two. Preferably, the number of the guide pillars is four, so that a quaternary guide pillar structure is formed.
The utility model has the beneficial effects that:
(1) the servo coining press provided by the utility model has a simple structure; the servo coining press achieves the purpose of greatly shortening the height of the press body by arranging the eccentric sleeve, the guide pillar and the guide sleeve structure, so that the rigidity of the press body and the precision of the press are effectively improved, and the assembly space is effectively saved.
(2) The servo coining press provided by the utility model has high guiding precision by adopting a quaternary guide pillar structure, and can be applied to a high-speed press. The transmission part designed in the utility model can construct a slider motion curve more suitable for pressure maintaining, and effectively reduces the working pressure under the working conditions of acceleration and deceleration, locked-rotor pressure maintaining and the like of the servo motor.
(3) The die adjusting mechanism in the servo coining press provided by the utility model adopts double wedge blocks for adjustment, the sum of pressure angles of the wedge blocks is smaller than a friction angle, a self-locking effect can be achieved, and a telescopic device (a hydraulic cylinder) is used for tensioning, so that a die adjusting gap is eliminated.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.
FIG. 1 is a schematic view of a servo coining press according to the present invention;
FIG. 2 is a schematic view of the construction of a shoe component of the servo-press of the present invention;
FIG. 3 is a cross-sectional view of FIG. 1;
fig. 4 is a partially enlarged view of a portion a in fig. 3.
In the figure: the device comprises a machine body component 1, a transmission component 2, a pressing block component 3, a driving component 4, a pressing table 11, a guide post 12, a crankshaft 21, a gearwheel 22, an eccentric sleeve 23, a pressing plate 31, a pressing block body 32, a guide sleeve 33, a mould adjusting motor 34, a lead screw 35, a lead screw nut 36, a telescopic device 37, an upper wedge block 38, a lower wedge block 39, a servo motor 41, a gear shaft 42, a guide rod 311 and a large round hole 321.
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. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the utility model, its application, or uses. 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.
In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", "top", "bottom", and the like, indicate orientations or positional relationships for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. Moreover, the terms "first," "second," and the like are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the utility model described herein are capable of operation in sequences other than those illustrated or described herein.
Example 1
As shown in fig. 1 to 4, a servo coining press includes a body part 1, a transmission part 2, a pressing block part 3, and a driving part 4; the machine body component 1 is provided with a pressing platform 11 and four guide posts 12; the pressing block component 3 is provided with a pressing plate 31 and a die adjusting mechanism for driving the pressing plate 31 to reciprocate relative to the pressing table 11;
the driving part 4 comprises a servo motor 41 and a gear shaft 42; the servo motor 41 is fixedly connected to the machine body component 1 and is used for driving the gear shaft 42 to rotate;
the transmission part 2 comprises a crankshaft 21, a large gear 22 and an eccentric sleeve 23; the crankshaft 21 is rotatably connected to the machine body component 1 through a bearing, and the bull gear 22 is fixedly connected to the crankshaft 21; the eccentric sleeve 23 is sleeved outside the crankshaft 21 and can rotate; the gear shaft 42 is meshed with the bull gear 22 and is used for driving the bull gear 22 to rotate; the big gear 22 drives the crankshaft 21 to rotate;
the pressing block component 3 comprises a pressing block main body 32 and a guide sleeve 33; the guide sleeve 33 is arranged on the pressing block main body 32, and the guide sleeve 33 is in sliding fit with the guide pillar 12 to form a guide pillar and guide sleeve structure connection; the pressing block main body 32 is provided with a large round hole 321, one end of the crankshaft 21 extends into the large round hole 321, and the eccentric sleeve 23 is positioned in the large round hole 321; four guide rods 311 are fixedly arranged on the pressing plate 31, and guide holes (not shown in the figure) matched with the guide rods 311 are arranged on the pressing block main body 32; the guide rod 311 is inserted in the guide hole and can slide up and down; the die adjusting mechanism is fixedly connected inside the pressing block main body 32; the die adjusting mechanism is used for driving the pressing plate 31 to slide up and down along the length direction of the guide rod 311;
the die adjusting mechanism comprises a die adjusting motor 34, a lead screw 35, a lead screw nut 36, a telescopic device 37, an upper wedge block 38 and a lower wedge block 39; the mould adjusting motor 34 is fixedly connected inside the pressing block main body 32; the lead screw 35 is rotatably connected in the briquetting main body 32; the lead screw nut 36 is connected to the lead screw 35; two ends of the telescopic device 37 are respectively connected to the pressing block main body 32 and the pressing plate 31; the lead screw nut 36 is fixedly connected with the upper wedge block 38; the lower wedge 39 is fixedly connected to the pressure plate 31 (preferably, the lower wedge 39 and the pressure plate 31 can be made into an integral structure to be used as an overload protection device); the upper wedge 38 forms a beveled fit with the lower wedge 39; the mold adjusting motor 34 is used for driving the lead screw 35 to rotate (specifically, the lead screw 35 and the mold adjusting motor 34 can be driven by a chain wheel).
The working principle of the servo coining press is as follows: firstly, a gear shaft 42 is driven by a servo motor 41 to rotate, the gear shaft 42 transmits power to a crankshaft 21 after the torque is amplified by a large gear 22, the crankshaft 21 and an eccentric sleeve 23 rotate in a large round hole 321, and the crankshaft 21 and the eccentric sleeve 23 rotate and simultaneously drive a pressing block component 3 (a pressure plate 31) to reciprocate up and down to realize a pressing process; the mold adjusting motor 34 drives the lead screw 35 to rotate, a lead screw mechanism consisting of the lead screw 35 and the lead screw nut 36 can convert the rotation of the lead screw 35 into the linear motion of the lead screw nut 36, and then the lead screw nut 36 drives the upper wedge block 38 to move linearly; when the upper wedge block 38 moves, the pressing plate 31 can be driven to move up and down, so that the mold adjusting function is realized; the downward movement of the pressure plate 31 can be realized by the upper wedge block 38 moving to the right, and the upward movement of the pressure plate 31 can be realized by the upper wedge block 38 moving to the left and through a telescopic device (hydraulic cylinder) 37. The servo coining press achieves the purpose of greatly shortening the height of the press body by arranging the eccentric sleeve 23, the guide pillar 12, the guide sleeve 33 and other structures, so that the rigidity of the press body and the precision of the press are effectively improved, and the assembly space is effectively saved.
The above-mentioned preferred embodiments of the present invention are provided for illustration only and not for the purpose of limiting the utility model. Obvious variations or modifications of the present invention are within the scope of the present invention.

Claims (9)

1. A servo coining press is characterized in that the coining press comprises a machine body component (1), a transmission component (2), a pressing block component (3) and a driving component (4); the machine body component (1) is provided with a pressing platform (11) and a plurality of guide pillars (12); the pressing block component (3) is internally provided with a pressing plate (31) and a die adjusting mechanism for driving the pressing plate (31) to reciprocate relative to the pressing table (11); the transmission component (2) is rotationally connected to the machine body component (1); the pressing block component (3) is connected to the guide post (12) in a sliding manner; the pressing table is characterized in that the driving part (4) is fixedly connected to the machine body part (1), the driving part (4) is used for driving the transmission part (2) to rotate, and the transmission part (2) is used for driving the pressing block part (3) to reciprocate relative to the pressing table (11).
2. A servo press according to claim 1, characterised in that the drive member (4) comprises a servo motor (41) and a gear shaft (42); the servo motor (41) is fixedly connected to the machine body component (1) and is used for driving the gear shaft (42) to rotate.
3. A servo press according to claim 2, characterised in that the transmission part (2) comprises a crankshaft (21) and a gearwheel (22); the crankshaft (21) is rotationally connected to the machine body component (1), and the bull gear (22) is fixedly connected to the crankshaft (21); the gear shaft (42) is meshed with the large gear (22) and is used for driving the large gear (22) to rotate.
4. A servo press according to claim 3, wherein said pressing block part (3) comprises a pressing block main body (32) and a guide bush (33); the guide sleeve (33) is fixedly arranged on the pressing block main body (32), and the guide sleeve (33) is in sliding fit with the guide pillar (12); a large round hole (321) is formed in the pressing block main body (32), and one end of the crankshaft (21) extends into the large round hole (321); the pressing plate (31) is connected to the pressing block main body (32) in a sliding manner, and the die adjusting mechanism is fixedly connected to the inside of the pressing block main body (32); the die adjusting mechanism is used for driving the pressing plate (31) to slide.
5. A servo press according to claim 4, characterised in that the transmission element (2) further comprises an eccentric sleeve (23); the eccentric sleeve (23) is sleeved outside the crankshaft (21) and can rotate; the eccentric sleeve (23) is positioned in the large round hole (321).
6. A servo-press according to claim 4, wherein the pressure plate (31) is fixedly provided with a plurality of guide rods (311); the pressing block main body (32) is provided with a guide hole matched with the guide rod (311); the guide rod (311) is inserted in the guide hole.
7. A servo coining press according to claim 6, characterized in that the die adjusting mechanism comprises a die adjusting motor (34), a lead screw (35), a lead screw nut (36), a telescopic device (37), an upper wedge block (38) and a lower wedge block (39); the die adjusting motor (34) is fixedly connected inside the pressing block main body (32); the lead screw (35) is rotationally connected in the briquetting main body (32); the lead screw nut (36) is connected to the lead screw (35); two ends of the telescopic device (37) are respectively connected to the pressing block main body (32) and the pressing plate (31); the screw rod nut (36) is fixedly connected with the upper wedge block (38); the lower wedge block (39) is connected to the pressure plate (31); the upper wedge block (38) and the lower wedge block (39) form an inclined surface fit; the mould adjusting motor (34) is used for driving the lead screw (35) to rotate.
8. A servo press according to claim 3, characterised in that the crankshaft (21) is rotatably connected to the body part (1) by means of bearings.
9. A servo press according to claim 1, characterised in that said guide posts (12) are provided in at least two.
CN202122865731.0U 2021-11-22 2021-11-22 Servo coining press Active CN216658993U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202122865731.0U CN216658993U (en) 2021-11-22 2021-11-22 Servo coining press

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202122865731.0U CN216658993U (en) 2021-11-22 2021-11-22 Servo coining press

Publications (1)

Publication Number Publication Date
CN216658993U true CN216658993U (en) 2022-06-03

Family

ID=81785392

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202122865731.0U Active CN216658993U (en) 2021-11-22 2021-11-22 Servo coining press

Country Status (1)

Country Link
CN (1) CN216658993U (en)

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