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CN-224211760-U - Feeding device

CN224211760UCN 224211760 UCN224211760 UCN 224211760UCN-224211760-U

Abstract

The application relates to the technical field of part processing, in particular to a feeding device which comprises a feeding base, a double-head driving element, a movable connector, a feeding arm and a pushing assembly, wherein the double-head driving element is arranged on the feeding base, the movable connector is arranged at one telescopic end of the double-head driving element and has telescopic and force-accumulating functions, the feeding arm is slidably arranged on the feeding base in a preset stroke, one end of the feeding arm is connected with the movable connector, the pushing assembly is arranged on the feeding arm and can be pushed by the double-head driving element away from one telescopic end of the movable connector to push the material, and the pushing direction is perpendicular to the sliding direction of the feeding arm.

Inventors

  • FAN HANPING
  • SHI GUOFENG
  • DING YU

Assignees

  • 浙江旭能智能装备有限公司

Dates

Publication Date
20260508
Application Date
20250620

Claims (8)

  1. 1. Feeding device, its characterized in that includes: a loading base (100); The double-head driving element (200) is arranged on the feeding base (100); The movable connector (300) is arranged at one telescopic end of the double-head driving element (200) and has telescopic and force-accumulating functions; The feeding arm (400) is slidably arranged on the feeding base (100), and one end of the feeding arm (400) is connected with the movable connector (300); The pushing assembly (500) is arranged on the feeding arm (400) and can be pushed by the double-head driving element (200) away from one telescopic end of the movable connector (300), and the pushing direction is perpendicular to the sliding direction of the feeding arm (400).
  2. 2. The feeding device of claim 1, wherein the movable connector (300) comprises a connecting block (310) fixed at one telescopic end of the double-head driving element (200), a movable sliding sleeve (320) slidably mounted at the telescopic end, and a feeding spring (330) sleeved at the telescopic end, the feeding spring (330) is positioned between the connecting block (310) and the movable sliding sleeve (320), and the feeding arm (400) is connected with the movable sliding sleeve (320).
  3. 3. The feeding device according to claim 2, wherein the flexible end of the double-ended driving element (200) is provided with a movable connecting rod (210), the diameter of the movable connecting rod (210) is smaller than that of the flexible end of the double-ended driving element, the connecting block (310) is arranged on the movable connecting rod (210), the feeding spring (330) is sleeved on the movable connecting rod (210), the movable sliding sleeve (320) is slidably arranged on the movable connecting rod (210) and can be propped against the flexible end of the double-ended driving element (200), and the feeding spring (330) is in a compressed state initially.
  4. 4. A feeding device according to claim 3, wherein the connecting block (310) is connected to the movable connecting rod (210) by means of a connecting clip structure.
  5. 5. A loading attachment as defined in claim 3 or 4, wherein the loading arm (400) is coupled to the movable slide (320) via a coupling clip arrangement.
  6. 6. The feeding device of claim 1, wherein the pushing assembly (500) comprises a feeding swing head (510) rotatably connected to the feeding arm (400), and a feeding return spring (520) with two ends respectively abutted against the feeding swing head (510) and the feeding arm (400).
  7. 7. A feeding device as claimed in claim 1, wherein the double-headed driving member (200) is a double-headed cylinder or a double-headed hydraulic cylinder.
  8. 8. The feeding device according to claim 1, wherein a sliding channel is formed between the feeding base (100) and the double-head driving element (200), and the feeding arm (400) is inserted into the sliding channel.

Description

Feeding device Technical Field The application relates to the technical field of part processing, in particular to a feeding device. Background In the field of lathe processing in modern manufacturing industry, realizing automatic production has become a key trend of improving production efficiency and ensuring product quality stability. In order to achieve the aim, the arrangement of a high-efficiency and accurate feeding device is an indispensable link in the lathe machining process. The feeding device has the function of accurately conveying the part to be machined to the lathe fixture so as to start the machining flow. However, in an actual lathe processing scene, due to the comprehensive influence of various factors such as lathe structural design, processing technology requirements, operation space limitation and the like, materials cannot be directly fed from the right front of a lathe fixture in many cases. But rather requires that the material be transported from a lateral position to the front of the clamp and then fed into the clamp by a pushing action. The complexity of this feeding mode leads to the fact that the existing feeding device generally needs to be equipped with two sets of driving structures. One set of driving structure is responsible for laterally conveying materials from a material storage place to a designated position in front of a lathe fixture, and the other set of driving structure is specially used for pushing the materials towards the fixture after the materials reach the designated position, so that final feeding actions are completed. The arrangement of the double driving structure can meet the requirement of feeding from the side, but brings about a series of non-neglectable problems. First, the provision of two sets of drive structures adds significant equipment costs. More funds are needed to be invested in hardware purchase, and more manpower and material resources are needed to be consumed in the aspects of equipment installation, debugging and subsequent maintenance. Secondly, since the two sets of driving structures are independently operated, there are inevitably a certain time interval and a problem of movement engagement between them. In the process of converting the lateral conveying of the material into forward pushing, the interval can cause short stagnation of the feeding process, so that the overall feeding efficiency is affected to a certain extent. In particular, in modern processing environments where high-speed and continuous production is sought, the cumulative effect of such efficiency losses becomes more pronounced, limiting the overall throughput of the lathe. Disclosure of utility model In order to reduce equipment cost and improve production efficiency, the application provides a feeding device. The application provides a feeding device, which adopts the following technical scheme: A feeding device comprises a feeding base; The double-head driving element is arranged on the feeding base; The movable connector is arranged at one telescopic end of the double-head driving element and has telescopic and force-accumulating functions; The feeding arm is slidably arranged on the feeding base with a preset stroke, and one end of the feeding arm is connected with the movable connector; And the pushing assembly is arranged on the feeding arm and can be pushed by the double-head driving element to push the material away from one telescopic end of the movable connector, and the pushing direction is perpendicular to the sliding direction of the feeding arm. Through adopting above-mentioned technical scheme, drive the swing joint through double-end driving element and remove, and then drive the material loading arm and slide, wherein, wait to process the material and be located the material loading arm, after the material loading arm will wait to process the material and send the material loading position, the material loading arm reaches the unable continuous removal of furthest stroke. At this time, the double-end driving element continues to work to enable the movable connector to be compressed, and the other telescopic end of the double-end driving element drives the pushing assembly to feed. Thus, the purpose of reducing the equipment cost is realized by controlling two actions by one driving source, and the effect of improving the production efficiency can be realized by realizing seamless butt joint between the two actions. In one embodiment, the movable connector comprises a connecting block fixed at one telescopic end of the double-head driving element, a movable sliding sleeve slidably mounted at the telescopic end, and a feeding spring sleeved at the telescopic end, wherein the feeding spring is positioned between the connecting block and the movable sliding sleeve, and the feeding arm is connected with the movable sliding sleeve. Through adopting above-mentioned technical scheme, during operation of double-end driving element, drive the connecting b