阅读说明：本技术 一种全自动组装端子设备 (Full-automatic equipment terminal equipment ) 是由 崔来发 于 2019-09-20 设计创作，主要内容包括：本发明提供一种全自动组装端子设备,其结构包括防护机构、控制按钮、散热槽孔、支撑脚、箱门、端子组装机体、显示屏、自动组装器、组装平台,防护机构安装于端子组装机体左侧,通过设置减震机构,在受到向下的驱动力时,防护罩上方的钢板将会对缓冲弹簧进行压缩,通过缓冲弹簧对部分的撞击力进行分解,从而能够对部分的撞击力进行分解,通过设置支撑辅助架,支架将会对第二弧形架进行挤压,使得第二弧形架的弧度逐渐变小,同时绕着转动轴进行旋转,推动滑块在第二滑槽内进行滑动,通过多次的缓冲分解,将自动组装器受产生的撞击力分解掉,从而能够有效的防止撞击力对机体造成影响,致使电器件在撞击力的作用下发生松动,从而脱离设备的现象。(The invention provides full-automatic assembly terminal equipment, which structurally comprises a protection mechanism, a control button, a heat dissipation slotted hole, supporting legs, a box door, a terminal assembly machine body, a display screen, an automatic assembler and an assembly platform, wherein the protection mechanism is arranged on the left side of the terminal assembly machine body, a steel plate above a protective cover compresses a buffer spring when receiving a downward driving force through a damping mechanism, partial impact force is decomposed through the buffer spring, and therefore partial impact force can be decomposed, a support auxiliary frame is arranged, a support can extrude a second arc-shaped frame, so that the radian of the second arc-shaped frame is gradually reduced, the second arc-shaped frame rotates around a rotating shaft at the same time, a sliding block is pushed to slide in a second sliding groove, and the generated impact force of the automatic assembler is decomposed through multiple times of buffer decomposition, so that the impact force can be effectively prevented from influencing the machine body, so that the electric device is loosened under the action of the impact force and separated from the equipment.)

1. A full-automatic assembly terminal device structurally comprises a protection mechanism (1), a control button (2), heat dissipation slotted holes (3), supporting legs (4), a box door (5), a terminal assembly machine body (6), a display screen (7), an automatic assembler (8) and an assembly platform (9), wherein the protection mechanism (1) is installed on the left side of the terminal assembly machine body (6), the control button (2) is embedded in the front end of the terminal assembly machine body (6) and is electrically connected with the terminal assembly machine body, the heat dissipation slotted holes (3) are located on the left side of the terminal assembly machine body (6), the supporting legs (4) are provided with four supporting legs which are respectively welded at the lower four corners of the terminal assembly machine body (6), the box door (5) is hinged with the terminal assembly machine body (6), the display screen (7) is embedded in the front end of the terminal assembly machine body (6), and the automatic assembler (8) is located above the protection mechanism (, terminal equipment organism (6) and equipment platform (9) are integrated structure, its characterized in that:

protection machanism (1) includes damper (11), arc protection guide frame (12), support shell (13), support auxiliary frame (14), damper (11) are equipped with four altogether, and install respectively in the inside four corners of support shell (13), arc protection guide frame (12) are installed inside support shell (13), arc protection guide frame (12) and support auxiliary frame (14) mechanical connection, support auxiliary frame (14) and be located support shell (13) bottom.

2. The fully automatic assembly terminal device of claim 1, wherein: damper (11) are including protection casing (111), buffer spring (112), hinge frame (113), welded plate (114), length adjustment ware (115), stabilizing frame (116), inside buffer spring (112) installed in protection casing (111), hinge frame (113) upper end four corners and protection casing (111) lower extreme mechanical connection, hinge frame (113) lower extreme is installed in length adjustment ware (115) side, stabilizing frame (116) below is installed in length adjustment ware (115) top, length adjustment ware (115) below and welded plate (114) top are welded mutually.

3. The fully automatic assembly terminal device of claim 1, wherein: the arc-shaped protection guide frame (12) comprises an outer support shell (121), an I-shaped rod (122), a first arc-shaped frame (123), a connecting plate (124), a return spring (125) and an inner gear frame (126), wherein the return spring (125) is wound on the I-shaped rod (122), the I-shaped rod (122) is installed inside the outer support shell (121), one end of the first arc-shaped frame (123) is welded to the upper portion of the I-shaped rod (122), the other end of the first arc-shaped frame (123) is welded to the side end of the connecting plate (124), and the lower end of the connecting plate (124) is fixedly connected with the upper end of the inner gear frame (126).

4. The fully automatic assembly terminal device of claim 1, wherein: the support shell (13) comprises a stress support plate (131), a first sliding groove (132), a fixed seat (133), a second sliding groove (134), sliding groove blocks (135) and a shell (136), wherein the stress support plate (131) is installed on the first sliding groove (132), the sliding groove blocks (135) are uniformly distributed on two sides of the stress support plate (131), the first sliding groove (132) and the shell (136) are of an integrated structure, the second sliding groove (134) is installed inside the shell (136), and the fixed seat (133) is located inside the shell (136).

5. The fully automatic assembly terminal device of claim 1, wherein: the supporting auxiliary frame (14) comprises a sliding block (141), a connecting seat (142), a gear (143), a support (144), a second arc-shaped frame (145) and a rotating shaft (146), the second arc-shaped frame (145) is hinged to the sliding block (141) through the rotating shaft (146), the gear (143) is installed at the front end of the connecting seat (142) and is mechanically connected with the front end of the connecting seat (142), the lower end of the connecting seat (142) is welded to the upper end of the support (144), and the support (144) is fixedly installed in the middle of the second arc-shaped frame (145).

Technical Field

The invention relates to the technical field of terminal assembly, in particular to full-automatic terminal assembly equipment.

Background

The terminal is the part that battery and external conductor are connected, so the terminal plays crucial effect in the electric power field, and when the end terminal is assembled, because be equipped with a plurality of conducting blocks on the terminal, cause very loaded down with trivial details when assembling it, it is big to consume the labour, along with the development of science and technology, also successive introduction automatic equipment terminal equipment, replace current manual assembly through automatic equipment terminal equipment, thereby great improvement the speed of equipment, but prior art has following defect:

when assembling the terminal through the automatic assembly terminal equipment, because the automatic assembler is when assembling the conducting block to the terminal grinding apparatus, generally need extrude the conducting block to the terminal grinding apparatus conducting block guide slot with the help of some impact, and when knocking it, will produce certain vibrations power, the vibrations power will be passed on the organism through the platform, cause the inside electrical part of organism under long-term vibrations, will take place to become flexible and break away from fixed position, cause the power cord of connecting above to fall rather than separating, will cause the unable normal operating of equipment.

Summary of the invention

Technical problem to be solved

The invention provides full-automatic terminal assembling equipment, which solves the problem that when terminals are assembled through the automatic terminal assembling equipment, the automatic assembler generally needs to extrude a conducting block into a conducting block guide groove of a terminal grinding tool by means of some impact force when the conducting block is assembled on the terminal grinding tool, and when the automatic assembler knocks the conducting block, certain vibration force is generated and is transmitted to a machine body through a platform, so that electric parts in the machine body are loosened to be separated from fixed positions under long-term vibration, a power line connected above the machine body is separated from the power line, and the equipment cannot normally run.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a full-automatic assembly terminal device comprises a protection mechanism, a control button, a heat dissipation groove hole, a supporting leg, a box door, a terminal assembly machine body, a display screen, an automatic assembler and an assembly platform, wherein the protection mechanism is arranged on the left side of the terminal assembly machine body, the control button is embedded and arranged at the front end of the terminal assembly machine body and is electrically connected with the control button, the heat dissipation groove hole is positioned on the left side of the terminal assembly machine body, the number of the supporting leg is four, the supporting leg is respectively welded at the lower four corners of the terminal assembly machine body, the box door is hinged with the terminal assembly machine body, the display screen is embedded and arranged at the front end of the terminal assembly machine body, the automatic assembler is positioned above the protection mechanism, the terminal assembly machine body and the assembly platform are of an integrated structure, the protection mechanism comprises a damping mechanism, an arc, and the arc-shaped protection guide frame is arranged in the support shell and is mechanically connected with the support auxiliary frame, and the support auxiliary frame is positioned at the bottom in the support shell.

Preferably, damping mechanism includes protection casing, buffer spring, hinge frame, welded plate, length adjustment ware, steady rest, buffer spring is equipped with two altogether and installs respectively inside the protection casing, hinge frame upper end four corners and protection casing lower extreme mechanical connection, hinge frame lower extreme is installed in length adjustment ware side, install in the length adjustment ware top below the steady rest, length adjustment ware below and welded plate top are welded mutually, the lower extreme is circular steel sheet on the protection casing, and the side adopts the rubber sleeve to constitute.

Preferably, the arc-shaped protection guide frame comprises an outer support shell, an I-shaped rod, a first arc-shaped frame, a connecting plate, a return spring and an inner gear frame, wherein the return spring is wound on the I-shaped rod, the lower end of the return spring is welded with the upper end of the lower portion of the I-shaped rod, the I-shaped rod is mounted inside the outer support shell, one end of the first arc-shaped frame is welded above the I-shaped rod, the other end of the first arc-shaped frame is welded with the side end of the connecting plate, the lower end of the connecting plate is fixedly connected with the upper end of the inner gear frame, and the connecting.

Preferably, the support shell comprises a stress support plate, a first sliding groove, a fixed seat, a second sliding groove, sliding groove blocks and a shell, wherein the stress support plate is installed on the first sliding groove, the sliding groove blocks are totally provided with six blocks, have the same size and are of cuboid structures, and are uniformly distributed on two sides of the stress support plate, the first sliding groove and the shell are of an integrated structure, the second sliding groove is installed inside the shell, and the fixed seat is located inside the shell and is connected with the shell through electric welding.

Preferably, the supporting auxiliary frame comprises a sliding block, a connecting seat, a gear, a support, a second arc-shaped frame and a rotating shaft, the second arc-shaped frame is hinged to the sliding block through the rotating shaft, the gear is installed at the front end of the connecting seat and is mechanically connected with the front end of the connecting seat, the lower end of the connecting seat is welded to the upper end of the support, and the support is fixedly installed in the middle of the second arc-shaped frame.

(III) advantageous effects

The invention provides a full-automatic terminal assembling device. The method has the following beneficial effects:

1. according to the invention, by arranging the damping mechanism, when a downward driving force is applied, the steel plate above the protective cover compresses the buffer spring, and partial impact force is decomposed by the buffer spring, so that partial impact force can be decomposed.

2. According to the invention, by arranging the supporting auxiliary frame, when the gear rotates to the top point of the inner gear frame, impact force is transmitted to the support through the connecting seat, the support extrudes the second arc-shaped frame, the radian of the second arc-shaped frame is gradually reduced, and meanwhile, the support rotates around the rotating shaft to push the sliding block to slide in the second sliding groove, and the automatic assembling device is decomposed by the generated impact force through repeated buffer decomposition, so that the impact force can be effectively prevented from affecting the machine body, an electric device is loosened under the action of the impact force, and the phenomenon that the electric device is separated from the equipment is avoided.

Drawings

FIG. 1 is a schematic structural diagram of a fully automatic terminal assembling apparatus according to the present invention;

FIG. 2 is a front view of the protection mechanism of the present invention;

FIG. 3 is a front view of the shock absorbing mechanism of the present invention;

FIG. 4 is a schematic front view of the arc-shaped protective guide of the present invention;

FIG. 5 is a front view of the stent shell of the present invention;

FIG. 6 is a three-dimensional structural view of the stressed support plate of the present invention;

fig. 7 is a front view of the auxiliary support frame according to the present invention.

In the figure: the protective mechanism-1, the control button-2, the heat dissipation slot-3, the supporting foot-4, the box door-5, the terminal assembling machine body-6, the display screen-7, the automatic assembler-8, the assembling platform-9, the shock absorption mechanism-11, the arc-shaped protective guide frame-12, the bracket shell-13, the supporting auxiliary frame-14, the protective cover-111, the buffer spring-112, the hinge frame-113, the welding plate-114, the length adjuster-115, the stabilizing frame-116, the outer bracket-121, the I-shaped rod-122, the first arc-shaped frame-123, the connecting plate-124, the return spring-125, the inner gear frame-126, the stressed support plate-131, the first chute-132, the fixed seat-133, the second chute-134, the chute block-135, the second chute block-134, the first arc-shaped frame, A shell-136, a slide block-141, a connecting seat-142, a gear-143, a bracket-144, a second arc-shaped bracket-145 and a rotating shaft-146.

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. 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.

Referring to fig. 1-7, an embodiment of the present invention provides a full-automatic terminal assembling apparatus, which includes a protection mechanism 1, a control button 2, a heat dissipation slot 3, support legs 4, a box door 5, a terminal assembling machine body 6, a display screen 7, an automatic assembler 8, and an assembling platform 9, wherein the protection mechanism 1 is installed on the left side of the terminal assembling machine body 6, the control button 2 is embedded in the front end of the terminal assembling machine body 6 and electrically connected, the heat dissipation slot 3 is located on the left side of the terminal assembling machine body 6, the support legs 4 are four in number and respectively welded to the lower four corners of the terminal assembling machine body 6, the box door 5 is hinged to the terminal assembling machine body 6, the display screen 7 is embedded in the front end of the terminal assembling machine body 6, the automatic assembler 8 is located above the protection mechanism 1, the terminal assembling machine body 6 and the assembling platform 9 are an integrated, protection machanism 1 includes damper 11, arc protection guide 12, support shell 13, support auxiliary frame 14, damper 11 is equipped with four altogether, and installs respectively in the inside four corners of support shell 13, arc protection guide 12 installs inside support shell 13, arc protection guide 12 and support auxiliary frame 14 mechanical connection, support auxiliary frame 14 is located support shell 13 bottom.

Wherein, the damping mechanism 11 includes a protective cover 111, two buffer springs 112, a hinge mount 113, a welding plate 114, a length adjuster 115, and a stabilizing mount 116, the two buffer springs 112 are respectively installed inside the protective cover 111, four corners of the upper end of the hinge mount 113 are mechanically connected with the lower end of the protective cover 111, the lower end of the hinge mount 113 is installed at the side end of the length adjuster 115, the lower end of the stabilizing mount 116 is installed above the length adjuster 115, the lower end of the length adjuster 115 is welded with the upper end of the welding plate 114, the upper end and the lower end of the protective cover 111 are circular steel plates, and the side end is formed by a rubber sleeve, when the upper end of the protective cover 111 is pressed, the circular steel plate at the upper end will generate a downward pressure to the buffer springs 112, so that the buffer springs 112 are compressed, and when the pressure at the right side is too high, the protective cover 111 will tilt the hinge mount 113, so as, and causes a bending phenomenon of the length adjuster 115.

Wherein the arc-shaped protection guide frame 12 comprises an outer support shell 121, a H-shaped rod 122, a first arc-shaped frame 123, a connecting plate 124, a return spring 125 and an inner gear frame 126, the return spring 125 is wound on the H-shaped rod 122, and the lower end of the return spring 125 is welded with the upper end of the lower part of the i-shaped rod 122, the i-shaped rod 122 is installed inside the outer branch casing 121, the upper part of the I-shaped rod 122 is welded with one end of a first arc-shaped frame 123, the other end of the first arc-shaped frame 123 is welded with the side end of a connecting plate 124, the lower end of the connecting plate 124 is fixedly connected with the upper end of the inner gear frame 126, the connecting plate 124 is in a rectangular parallelepiped structure, when the middle portion of the bracket shell 13 is pressed, the connecting plate 124 is driven to press downwards, so that the connecting plate 124 drives the first arc-shaped frame 123 to move downwards, so that the profile rod 122 is driven to move downwards, at the same time, the return spring 125 will be extended, thereby decomposing the force to which the holder case 13 is subjected.

The bracket shell 13 includes a stressed support plate 131, a first sliding groove 132, a fixing seat 133, a second sliding groove 134, sliding groove blocks 135 and a housing 136, the stressed support plate 131 is mounted on the first sliding groove 132, the sliding groove blocks 135 are six in number, have the same size, are of rectangular parallelepiped structures, and are uniformly distributed on two sides of the stressed support plate 131, the first sliding groove 132 and the housing 136 are of an integrated structure, the second sliding groove 134 is mounted inside the housing 136, the fixing seat 133 is located inside the housing 136 and is connected through electric welding, when the stressed support plate 131 receives downward pressure, the stressed support plate 131 slides downward along the first sliding groove 132, and the first sliding groove 132 can limit the stressed support plate 131, so that the phenomena of inclination, deviation and the like of the stressed support plate 131 during sliding can be avoided.

The supporting auxiliary frame 14 includes a slider 141, a connecting seat 142, a gear 143, a bracket 144, a second arc frame 145, and a rotating shaft 146, the second arc frame 145 is hinged to the slider 141 through the rotating shaft 146, the gear 143 is installed at the front end of the connecting seat 142 and is mechanically connected, the lower end of the connecting seat 142 is welded to the upper end of the bracket 144, the bracket 144 is fixedly installed in the middle of the second arc frame 145, when the connecting seat 142 is under external pressure, the applied pressure is transmitted to the bracket 144, the second arc frame 145 is extruded through the bracket 144, so that the radian of the second arc frame 145 is gradually reduced, and when the second arc frame 145 is extruded, the sliders 141 at two sides are driven to slide in the second sliding grooves 134, thereby decomposing the applied pressure.

The specific working process is as follows:

when the terminals are processed and assembled, the terminals are firstly fixed on the automatic assembler 8, then the control button 2 is started, so that the control button 2 starts the automatic assembler 8 to operate, the assembling manipulator on the automatic assembler 8 operates to assemble the terminals, and in the process of assembling the terminals, as the pressing knocker on the automatic assembler 8 knocks the terminals, the equipment vibrates, the stressed support plate 131 moves downwards along the first chute 132 under the action of the knocking force, so that the damping mechanisms 11 at the two side ends and the arc-shaped protection guide frame 12 in the middle are driven to move downwards, when the damping mechanisms 11 are driven downwards, the steel plate above the protective cover 111 compresses the buffer spring 112, and part of the impact force is decomposed through the buffer spring 112, meanwhile, the connecting plate 124 will move downwards, and the impact force will be transmitted to the first arc-shaped frame 123, then, after being transferred to the tooling bar 122 through the first arc frame 123, the tooling bar 122 is caused to stretch the return spring 125, thereby enabling a portion of the force to be dissipated, while the return spring 125 is being extended, the striking plate 124 drives the inner gear rack 126 to move downward, so that the striking plate 124 moves downward, the gear 143 is pushed to rotate, when the gear 143 rotates to the uppermost point of the inner gear frame 126, the impact force is transmitted to the bracket 144 through the coupling seat 142, the bracket 144 presses the second arc frame 145, so that the arc degree of the second arc frame 145 is gradually reduced, and at the same time, the automatic assembling device 8 rotates around the rotating shaft 146, pushes the sliding block 141 to slide in the second sliding chute 134, and decomposes the automatic assembling device by multiple times of buffering and decomposition, and is decomposed by the generated impact force.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.