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CN-224221851-U - Coating transfer printing tool with improved use effect

CN224221851UCN 224221851 UCN224221851 UCN 224221851UCN-224221851-U

Abstract

The application relates to a film coating transfer printing tool for improving a using effect, which comprises a shell, a transmission assembly, a rotating body and a transfer printing head, wherein the shell comprises a first shell and a second shell which are mutually clamped up and down to form an integral body with an opening at the front ends of the two shells, a clamping groove is formed at the opening at the front end of the shell, the transmission assembly comprises a belt core seat, a waste core seat and a transfer printing belt and is fixedly arranged at the rear end in the shell, the rotating body is rotationally arranged in the shell, the rotating body is in rolling connection with the transmission assembly, the relative friction force between the transfer printing belt and the rotating body is reduced in a rolling friction mode, and further loss of the transfer printing belt in the using process is reduced.

Inventors

  • WU HANG
  • CHEN SI

Assignees

  • 泉州市一扬文化用品有限公司

Dates

Publication Date
20260512
Application Date
20250528

Claims (8)

  1. 1. A coating film transfer tool for improving use effect is characterized by comprising: The shell (1), the shell (1) comprises a first shell (11) and a second shell (12), the first shell (11) and the second shell (12) are mutually clamped up and down to form a whole body with an opening at the front ends of the first shell and the second shell, and a clamping groove (15) is arranged at the opening at the front end of the shell (1); The transmission assembly (2), the transmission assembly (2) comprises a belt core seat (21), a waste core seat (22) and a transfer belt (23) and is fixedly arranged at the rear end inside the shell (1), the belt core seat (21) is used for installing an unused transfer belt (23), and the waste core seat (22) is used for recycling the used transfer belt (23); The rotating body (3) is rotationally arranged inside the shell (1), the rotating body (3) is in rolling connection with the transmission assembly (2), and the relative friction between the transfer printing belt (23) and the rotating body (3) is reduced in a rolling friction mode, so that the loss of the transfer printing belt (23) in the use process is reduced; the transfer printing head (4) is clamped at a notch at the front end of the shell (1) and used for transferring the coating (232) of the transfer printing belt (23) to a target surface; Wherein the rotating body (3) is one of single or multiple settings to cooperate with different transmission components (2) to realize the transmission of the transfer belt (23).
  2. 2. The coating film transfer tool for improving a use effect according to claim 1, wherein the transmission assembly (2) is one of a coaxial transmission, a gear transmission and a pulley transmission.
  3. 3. The coating film transfer tool for improving the use effect according to claim 1, wherein a first fixing seat (13) and a second fixing seat (14) are fixedly arranged in the second shell (12) at intervals side by side, the first fixing seat (13) is used for fixing the transmission assembly (2), and the second fixing seat (14) is used for fixing the rotating body (3).
  4. 4. The coating film transfer tool for improving use effect according to claim 1, wherein a belt core (231) is arranged inside the transfer belt (23) and sleeved on a belt core seat (21) of the transmission assembly (2) through the belt core (231), and a coating layer (232) is arranged on the outer surface of the transfer belt (23).
  5. 5. The coating film transfer tool for improving the use effect according to claim 1, wherein a plurality of clamping blocks (41) are arranged on the transfer head (4), and the coating film transfer tool is fixedly connected to a clamping groove (15) at the front end groove opening of the shell (1) through the clamping blocks (41).
  6. 6. A coating film transfer tool for improving a use effect according to claim 1, wherein the rotating body (3) is extended outwardly along a central axis to have a first contact surface (31) with which the transfer belt (23) is in contact, and when the transfer belt (23) slides around the rotating body (3), an inner surface of the transfer belt (23) is in rolling frictional contact with the first contact surface (31) for providing a first sliding force; The inside of the rotating body (3) is provided with a second contact surface (32) which is in contact with the second fixing seat (14), and when the rotating body (3) rotates circumferentially relative to the second fixing seat (14), the inside of the rotating body (3) is in rolling friction contact with the second contact surface (32) for providing a second sliding force.
  7. 7. A coating film transfer tool for improving a use effect according to claim 6, wherein when in transfer, an unused transfer belt (23) and a waste belt are moved in a staggered manner along a first contact surface (31) of the rotating body (3) to drive the rotating body (3) to respectively perform rolling friction relative to the second fixing seat (14) and the transfer belt (23) so as to provide a rolling advancing force with lower resistance.
  8. 8. The coating film transfer tool for improving a use effect according to claim 1, wherein the rotary body (3) is capable of rotating, and the rotary body (3) is one or more of a shaft hole shape, a rotary shaft shape, an arc shape and a sphere shape.

Description

Coating transfer printing tool with improved use effect Technical Field The utility model relates to a coating transfer tool for improving use effect, and belongs to the field of coating transfer. Background In the field of film transfer technology, film transfer tools are widely used in a variety of situations for transferring a film or coating from one substrate to another, and conventional film transfer tools generally consist of a housing, a transmission assembly, a transfer belt, a transfer head, and the like. However, the coating transfer tool in the prior art has some problems in the use process, the sliding friction between the transfer belt and the winding belt characteristic is large in the movement process, so that a user needs to apply large force during operation to influence the comfort of use, the sliding friction easily causes abrasion of the transfer belt and the winding belt characteristic, the service life of a product is shortened, the maintenance and replacement cost is increased, colloid or scraps are easily accumulated on the winding belt characteristic in the use process due to the viscosity of the transfer belt, the movement of the transfer belt is blocked, even the waste belt cannot be normally recovered, and the transfer effect is influenced. Disclosure of utility model Aiming at the defects existing in the prior art, the utility model aims to provide a coating transfer tool with improved use effect, so as to solve the problems that the existing sliding friction is easy to cause abrasion of a transfer belt and a belt winding characteristic, colloid and scraps are easy to accumulate on the belt winding characteristic, and further the movement of the transfer belt is influenced. In order to achieve the above object, the present utility model is achieved by a coating film transfer tool for improving a use effect, comprising: The shell comprises a first shell and a second shell, the first shell and the second shell are mutually clamped up and down to form a whole body with an opening at the front ends of the first shell and the second shell, and a clamping groove is formed at the opening at the front end of the shell; The transmission assembly comprises a belt core seat, a waste core seat and a transfer printing belt, and is fixedly arranged at the rear end of the inside of the shell, wherein the belt core seat is used for installing an unused transfer printing belt, and the waste core seat is used for recycling the transfer printing belt after use; the rotating body is rotationally arranged in the shell, is in rolling connection with the transmission assembly, reduces the relative friction force between the transfer printing belt and the rotating body in a rolling friction mode, and further reduces the loss of the transfer printing belt in the use process; The transfer printing head is clamped at the notch at the front end of the shell and used for transferring the coating of the transfer printing belt to the target surface; The rotating body is one of single or multiple settings to cooperate with different transmission components to realize the transmission of the transfer belt. Further, the transmission assembly is one of coaxial transmission, gear transmission and pulley transmission. Further, a first fixing seat and a second fixing seat are fixedly arranged in the second shell at intervals side by side, the first fixing seat is used for fixing the transmission assembly, and the second fixing seat is used for fixing the rotating body. Further, a belt core is arranged in the transfer printing belt, the transfer printing belt is sleeved on a belt core seat of the transmission assembly through the belt core, and a coating is arranged on the outer surface of the transfer printing belt. Further, the transfer printing head is provided with a plurality of clamping blocks which are fixedly connected to the clamping grooves at the notch of the front end of the shell. Further, the belt core seat and the waste core seat are coaxially arranged on the transmission assembly, and the diameter of the belt core seat is smaller than that of the waste core seat. Further, the rotating body extends outwards along the central axis and is provided with a first contact surface which is in contact with the transfer belt, and when the transfer belt slides around the rotating body, the inner surface of the transfer belt is in rolling friction contact with the first contact surface for providing a first sliding force; The inside of the rotating body is provided with a second contact surface which is in contact with the second fixing seat, and when the rotating body rotates circumferentially relative to the second fixing seat, the inside of the rotating body is in rolling friction contact with the second contact surface for providing a second sliding force. Further, during transfer, the unused transfer belt and the waste belt move left and right along the first contact surface of the rotating body in a stagge