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CN-224199723-U - Pulp molding station linkage device

CN224199723UCN 224199723 UCN224199723 UCN 224199723UCN-224199723-U

Abstract

The utility model relates to the technical field of pulp molding, and discloses a pulp molding station linkage device which comprises a frame body, a lifting assembly and a translation assembly, wherein the frame body comprises a base, the lifting assembly is arranged above the base and comprises lifting units, a transmission coupling and a first driving motor, the number of the lifting units is at least two, the two lifting units are arranged at intervals along the horizontal direction, the transmission coupling is arranged between the two lifting units, a first connecting plate for connecting the translation assembly is arranged on each lifting unit, one end of the transmission coupling is connected with the first driving motor, the first driving motor drives the first connecting plate to reciprocate along the vertical direction through driving the transmission coupling, the translation assembly comprises a translation gear, a translation rack and a second driving motor, one end of the translation assembly is connected with a material taking disc group, and the rotation of the translation gear drives the translation rack to reciprocate along the horizontal direction so as to drive the material taking disc group to reciprocate along the horizontal direction.

Inventors

  • WU JIAOPING
  • Zhi Zhongxin

Assignees

  • 广东华工环源智能科技有限公司

Dates

Publication Date
20260505
Application Date
20250529

Claims (10)

  1. 1. A pulp molding station linkage device is characterized by comprising a frame body (10), a lifting assembly (20) and a translation assembly (30); the frame body (10) comprises a base (11); The lifting assembly (20) is arranged above the base (11), the lifting assembly (20) comprises lifting units (21), transmission couplings (23) and first driving motors (24), the number of the lifting units (21) is two, the two lifting units (21) are arranged at intervals along the horizontal direction, the transmission couplings (23) are arranged between the two lifting units (21), a first connecting plate (22) for connecting the translation assembly (30) is arranged on each lifting unit (21), one end of each transmission coupling (23) is connected with each first driving motor (24), and the first driving motors (24) drive the transmission couplings (23) to drive the two first connecting plates (22) to reciprocate along the vertical direction; The translation subassembly (30) is including translation gear (31), translation rack (32) and second driving motor (34), translation rack (32) set up in two along the horizontal direction between first connecting plate (22), the one end of translation subassembly (30) is connected with and gets material dish group (40), second driving motor (34) with translation gear (31) are connected, the rotary drive of translation gear (31) translation rack (32) are along the horizontal direction removal, and then drive get material dish group (40) are along horizontal direction reciprocating motion.
  2. 2. The pulp molding station linkage according to claim 1, wherein each lifting unit (21) comprises a fixing frame (211), lifting guide rails (222) and lifting screw rods (223), the fixing frame (211) is arranged above the base (11), the lifting guide rails (222) and the lifting screw rods (223) are arranged on one side surface of the fixing frame (211), the number of the lifting guide rails (222) is two, and the lifting screw rods (223) are respectively arranged on two sides of the lifting guide rails (222).
  3. 3. The pulp molding station linkage according to claim 2, wherein a top end of the lifting screw (223) is connected with the fixing frame (211), a bottom end of the lifting screw (223) is fixed on the base (11) and is connected with the transmission coupling (23), and the lifting screw (223) is used for converting a rotation motion of the transmission coupling (23) into a linear motion so as to drive the connecting part on the lifting guide rail (222) to reciprocate along a vertical direction.
  4. 4. Pulp moulding station linkage according to claim 1, characterized in that the translation assembly (30) further comprises two second connection plates (35), the second connection plates (35) are fixedly connected with the first connection plates (22), one end of one of the second connection plates (35) is connected with a second drive motor (34), the other end is connected with a translation gear (31), the second drive motor (34) is connected with the translation gear (31) through the second connection plates (35), and the translation gear (31) is intermeshed with the translation rack (32).
  5. 5. Pulp moulding station linkage according to claim 4, characterized in that the translation rack (32) is of a linear guide structure, the surface is provided with continuous tooth form, the translation gear (31) is driven by rotation to move the translation rack (32) in the horizontal direction, and the second driving motor (34) is in transmission connection with the translation gear (31) for providing rotation power.
  6. 6. The pulp molding station linkage according to claim 5, wherein the translation assembly (30) further comprises a support frame (36), the support frame (36) is disposed between the two lifting units (21), the support frame (36) extends in a horizontal direction, the translation rack (32) is disposed above the support frame (36) and is connected with the support frame (36), and the support frame (36) is used for fixing the translation rack (32) and guiding the translation rack (32) to move in the horizontal direction.
  7. 7. The pulp moulding station linkage according to claim 6, wherein the number of take-off disc groups (40) is the same as the number of translating gears (31), each take-off disc group (40) comprising a third connecting plate (41) and a plurality of suction disc members (42), one end of the third connecting plate (41) being fixedly connected with the support frame (36).
  8. 8. The pulp molding station linkage of claim 7, wherein a plurality of said suction cup members (42) are disposed at intervals at the bottom of the third connecting plate (41), said suction cup members (42) being for sucking the pulp molded product.
  9. 9. Pulp moulding station linkage according to claim 1, characterized in that the number of the bases (11) is two, the bottom of each base (11) is provided with a plurality of fasteners (12), the fasteners (12) are respectively arranged at four corners of the base (11), and the fasteners (12) are used for fixing the frame body (10).
  10. 10. Pulp moulding station linkage according to claim 9, characterized in that the frame body (10) further comprises adjusting bolts (13), the number of the adjusting bolts (13) is the same as the number of the fasteners (12), the adjusting bolts (13) are respectively arranged at four corners of the base (11), the adjusting bolts (13) are positioned at one end of the fasteners (12), and the adjusting bolts (13) are detachably connected with the base (11).

Description

Pulp molding station linkage device Technical Field The utility model relates to the technical field of pulp molding, in particular to a pulp molding station linkage device. Background Pulp molding refers to an environment-friendly manufacturing technology for manufacturing various three-dimensional products by taking plant fibers or waste paper as raw materials through processes of pulping, molding, drying and the like, and a pulp molding station refers to a specific position or a functional unit for completing specific production tasks on a pulp molding production line. These stations cooperate to complete the overall process from pulp stock to finished pulp molded articles. At present, in the production flow of the traditional pulping mould product, the product translation among different stations is mostly moved by a separated power transfer mode, and the traditional design thought of separated power transfer can barely meet basic production requirements under specific scenes and maintain continuous operation of a production line, but various disadvantages to be solved are seen from the aspects of overall production efficiency and cost control. In particular, in a split power transfer mode, this movement means that each link involving both lifting and translation operations requires the provision of a separate set of power systems. Taking the pulp molding transfer from the forming station to the drying station and the subsequent flow from the drying station to the shaping station as an example, two sets of lifting and translation power devices are required to be respectively arranged between the two key processes. The two groups of power devices not only respectively comprise complex components such as a motor, a transmission part, a control system and the like, but also need to be customized and developed aiming at specific station requirements in the design and manufacturing process, which clearly greatly increases the complexity and cost investment of equipment manufacturing. Disclosure of utility model The utility model aims to solve the technical problems that in the production flow of the traditional pulping mould product, different stations adopt a separated power transfer mode, and an independent power device is required to be equipped for each lifting and translation link, so that the equipment has a complex structure and high manufacturing cost. The utility model provides a pulp molding station linkage device, which comprises a frame body, a lifting assembly and a translation assembly, wherein the frame body comprises a base, the lifting assembly is arranged above the base and comprises lifting units, a transmission coupling and a first driving motor, the number of the lifting units is at least two, the two lifting units are arranged at intervals along the horizontal direction, the transmission coupling is arranged between the two lifting units, a first connecting plate for connecting the translation assembly is arranged on each lifting unit, one end of the transmission coupling is connected with the first driving motor, the first driving motor drives the two first connecting plates to reciprocate along the vertical direction through driving the transmission coupling, the translation assembly comprises a translation gear, a translation rack and a second driving motor, the translation rack is arranged between the two first connecting plates along the horizontal direction, one end of the translation assembly is connected with a material taking disc group, the second driving motor is connected with the translation gear, and the rotation of the translation gear drives the translation rack to move along the horizontal direction, and further drives the material taking disc group to reciprocate along the horizontal direction. In one embodiment, each lifting unit comprises a fixing frame, lifting guide rails and lifting screw rods, the fixing frame is arranged above the base, the lifting guide rails and the lifting screw rods are arranged on one side face of the fixing frame, the number of the lifting guide rails is two, and the lifting screw rods are respectively arranged on two sides of the lifting guide rails. In one embodiment, the top end of the lifting screw rod is connected with the fixing frame, the bottom end of the lifting screw rod is fixed on the base and connected with the transmission coupling, and the lifting screw rod is used for converting the rotation motion of the transmission coupling into linear motion and further driving the connecting part on the lifting guide rail to reciprocate along the vertical direction. In one embodiment, the translation assembly further comprises two second connecting plates fixedly connected with the first connecting plates, one end of one of the second connecting plates is connected with a second driving motor, the other end of the second connecting plate is connected with a translation gear, the second driving motor penetrates through the second connec