阅读说明：本技术 一种节能灯自动装配流水线 (Automatic assembly line for energy-saving lamp ) 是由 刘月阳 于 2021-01-04 设计创作，主要内容包括：本发明公开了一种节能灯自动装配流水线,其结构包括支架、配电箱、下压机构,配电箱设置在支架右侧前端,下压机构安装在支架顶部,下压机构设有输送带、下压杆、限位机构,由于输送带末端受到灯座的推力呈倾斜角度,而灯座和保护套快速滑动通过,通过限位机构的摆动块随着输送带的高度上升和下降上下移动,且与物件活动配合摆动,将物件反弹经过下压杆下压装配,有利于下压杆对每个物件进行下压装配,减小出现灯座和保护套漏压的现象,由于摆动块与输送带紧密接触,导致输送带的转动速度减慢,通过转动块与输送带活动配合,有利于减小摆动块与输送带的摩擦力,加快输送带的转动速度,加快物件下压装配的速度。(The invention discloses an automatic energy-saving lamp assembly line, which structurally comprises a support, a distribution box and a pressing mechanism, wherein the distribution box is arranged at the front end of the right side of the support, the pressing mechanism is arranged at the top of the support, the pressing mechanism is provided with a conveying belt, a pressing rod and a limiting mechanism, the tail end of the conveying belt is inclined under the thrust of a lamp holder, the lamp holder and a protective sleeve slide through the conveying belt rapidly, a swinging block of the limiting mechanism moves up and down along with the height of the conveying belt and swings in a movable fit with an object, the object rebounds to pass through the pressing rod for pressing assembly, the pressing assembly of each object by the pressing rod is facilitated, the phenomenon of pressure leakage of the lamp holder and the protective sleeve is reduced, the rotating speed of the conveying belt is reduced due to the tight contact of the swinging block and the conveying belt, the friction force between the swinging block and, the rotating speed of the conveying belt is increased, and the downward pressing assembly speed of the object is increased.)

1. The utility model provides an electricity-saving lamp automatic assembly line, its structure includes support (1), block terminal (2), pushes down mechanism (3), block terminal (2) set up at support (1) right side front end, it installs at support (1) top, its characterized in that to push down mechanism (3):

the pressing mechanism (3) is provided with a conveying belt (31), a pressing rod (32) and a limiting mechanism (33), the conveying belt (31) is installed at the middle and lower positions inside the pressing mechanism (3), the pressing rod (32) is arranged at the top of the pressing mechanism (3), the limiting mechanism (33) is fixed on the inner wall of the pressing mechanism (3), and the limiting mechanism (33) is located above the conveying belt (31) and in front of the pressing rod (32).

2. The automatic assembly line of energy-saving lamps as claimed in claim 1, wherein: limiting mechanism (33) is equipped with frame (a1), connecting rod (a2), stopper (a3), pushes away strip (a4), spring strip (a5), swing piece (a6), frame (a1) are located the outside of limiting mechanism (33) top, connecting rod (a2) link up and install top in frame (a1), stopper (a3) hinged joint is in frame (a1) bottom, it connects between stopper (a3) and frame (a1) to push away strip (a4), swing piece (a6) hang in connecting rod (a2) bottom surface through spring strip (a 5).

3. The automatic assembly line of energy-saving lamps as claimed in claim 2, wherein: the swing block (a6) is provided with a supporting block (s1), a push plate (s2), an elastic block (s3) and a rotating block (s4), the supporting block (s1) is located in the middle of the swing block (a6), the push plate (s2) is installed on two sides of the supporting block (s1) through the elastic block (s3), and the rotating block (s4) is installed on the bottom surface of the supporting block (s1) in a connected mode.

4. The automatic assembly line of energy-saving lamps as claimed in claim 3, wherein: push pedal (s2) are equipped with backup pad (d1), buffer block (d2), recess (d3), backup pad (d1) are located push pedal (s2) left side, buffer block (d2) are fixed in backup pad (d1) right side, recess (d3) are sunken in buffer block (d2) right flank.

5. The automatic assembly line of energy-saving lamps as claimed in claim 3, wherein: the rotating block (s4) is provided with a support ring (r1), a contact block (r2), a push block (r3) and a clamping block (r4), the support ring (r1) is located in the middle of the rotating block (s4), the contact block (r2) is installed on the outer wall of the support ring (r1) through the push block (r3), and the clamping block (r4) and the outer wall of the support ring (r1) are of an integrated structure and located between the contact blocks (r 2).

6. The automatic assembly line of energy-saving lamps as claimed in claim 5, wherein: contact piece (r2) is equipped with block (t1), elastic block (t2), card tooth (t3), connecting block (t4), overhead board (t5), clears away piece (t6), block (t1) are located contact piece (r2) below, card tooth (t3) are installed at block (t1) both sides middle part through elastic block (t2), block (t1) top is equipped with connecting block (t4), overhead board (t5) and connecting block (t4) upper surface activity fit, it inlays at overhead board (t5) surface to clear away piece (t 6).

Technical Field

The invention belongs to the field of assembly lines, and particularly relates to an automatic assembly line for energy-saving lamps.

Background

The energy-saving lamp is formed by combining a plurality of parts, in order to slow down the aging speed of the lamp holder, the lamp holder is sleeved in the protective cover, the protective cover protects the lamp holder, the sleeved lamp holder and the protective cover are conveyed to the bottom of the pressing mechanism by adopting a conveying belt of an automatic assembly line, and the lamp holder is pressed and sleeved in the protective cover by the pressing rod; adopt automatic assembly line to push down the lamp stand and the protective sheath of electricity-saving lamp among the prior art, because the conveyer belt is carried lamp stand and protective sheath at the uniform velocity, when the depression bar of pushing down the mechanism pushed down the lamp stand, the thrust that leads to the conveyer belt end to receive the lamp stand was inclination, and lamp stand and protective sheath slip fast and pass through, appear the phenomenon that lamp stand and protective sheath leak and press.

Disclosure of Invention

The invention provides an automatic assembly line for an energy-saving lamp, which aims to solve the problem that when a lamp holder and a protective sleeve of the energy-saving lamp are pressed down by adopting the automatic assembly line in the prior art, the lamp holder and the protective sleeve are conveyed by a conveying belt at a constant speed, and when a pressing rod of a pressing mechanism presses down the lamp holder, the tail end of the conveying belt is inclined under the thrust of the lamp holder, and the lamp holder and the protective sleeve slide through quickly, so that the phenomenon of pressure leakage of the lamp holder and the protective sleeve occurs.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an electricity-saving lamp automatic assembly line, its structure includes support, block terminal, pushes down the mechanism, the block terminal sets up at support right side front end, it installs at the support top to push down the mechanism.

The pressing mechanism is provided with a conveying belt, a pressing rod and a limiting mechanism, the conveying belt is arranged at the middle lower position inside the pressing mechanism, the pressing rod is arranged at the top inside the pressing mechanism, the limiting mechanism is fixed on the inner wall of the pressing mechanism, and the limiting mechanism is located above the conveying belt and in front of the pressing rod.

As a further improvement of the invention, the limiting mechanism is provided with a frame, a connecting rod, a limiting block, two spring strips, and a swinging block, wherein the frame is positioned outside the top of the limiting mechanism, the connecting rod is connected and installed at the top in the frame, the limiting block is hinged at the bottom end of the frame, the pushing strip is connected between the limiting block and the frame, the swinging block is hung on the bottom surface of the connecting rod through the spring strips, and the two spring strips are made of spring materials.

As a further improvement of the invention, the swing block is provided with a supporting block, push plates, elastic blocks and three rotating blocks, the supporting block is positioned in the middle of the swing block, the push plates are arranged on two sides of the supporting block through the elastic blocks, the rotating blocks are connected and arranged on the bottom surface of the supporting block, two push plates are symmetrically distributed, and three rotating blocks are arranged.

As a further improvement of the invention, the push plate is provided with a supporting plate, a buffer block and a groove, the supporting plate is positioned on the left side of the push plate, the buffer block is fixed on the right side of the supporting plate, the groove is sunken on the right side of the buffer block, and the buffer block is made of rubber.

As a further improvement of the invention, the rotating block is provided with a support ring, contact blocks, a push block and a fixture block, the support ring is positioned in the middle of the rotating block, the contact blocks are arranged on the outer wall of the support ring through the push block, the fixture block and the outer wall of the support ring are of an integrated structure and are positioned between the contact blocks, and the middle parts of two sides of the fixture block are provided with a concave triangular shape.

As a further improvement of the invention, the contact block is provided with a block body, an elastic block, clamping teeth, a connecting block, a top plate and a clearing block, the block body is positioned below the contact block, the clamping teeth are arranged in the middle of two sides of the block body through the elastic block, the top of the block body is provided with the connecting block, the top plate is movably matched with the upper surface of the connecting block, the clearing block is embedded and fixed on the surface of the top plate, and the surface of the clearing block is in an uneven convex block shape.

Advantageous effects

Compared with the prior art, the invention has the following beneficial effects:

1. because the terminal thrust that receives the lamp stand of conveyer belt is inclination, and lamp stand and protective sheath slip fast pass through, the swing piece through stop gear reciprocates along with the high rising and the decline of conveyer belt, and swings with article clearance fit, pushes down the assembly with the article bounce-back through pushing down the depression bar, is favorable to pushing down the depression bar and pushes down the assembly to every article, reduces the phenomenon that lamp stand and protective sheath leak voltage appear.

2. The swinging block is in close contact with the conveying belt, so that the rotating speed of the conveying belt is reduced, and the rotating block is in movable fit with the conveying belt, so that the friction force between the swinging block and the conveying belt is reduced, the rotating speed of the conveying belt is increased, and the downward pressing assembly speed of articles is increased.

Drawings

Fig. 1 is a schematic structural diagram of an automatic assembly line of an energy-saving lamp according to the present invention.

Fig. 2 is a schematic structural diagram of an interior front view of a pressing mechanism according to the present invention.

Fig. 3 is a schematic structural diagram of the side view of the inside of a limiting mechanism of the present invention.

FIG. 4 is a side view of a swing block of the present invention.

FIG. 5 is a side view of a push plate according to the present invention.

FIG. 6 is a schematic side view of a rotating block according to the present invention.

Fig. 7 is a schematic structural diagram of a side view section of a contact block according to the present invention.

In the figure: the device comprises a bracket-1, a distribution box-2, a downward pressing mechanism-3, a conveying belt-31, a downward pressing rod-32, a limiting mechanism-33, a frame-a 1, a connecting rod-a 2, a limiting block-a 3, a pushing strip-a 4, a spring strip-a 5, a swinging block-a 6, a supporting block-s 1, a pushing plate-s 2, an elastic block-s 3, a rotating block-s 4, a supporting plate-d 1, a buffering block-d 2, a groove-d 3, a supporting ring-r 1, a contact block-r 2, a pushing block-r 3, a clamping block-r 4, a block-t 1, an elastic block-t 2, a clamping tooth-t 3, a connecting block-t 4, an overhead plate-t 5 and a clearing block-t 6.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 5:

the invention provides an automatic energy-saving lamp assembly line which structurally comprises a support 1, a distribution box 2 and a pressing mechanism 3, wherein the distribution box 2 is arranged at the front end of the right side of the support 1, and the pressing mechanism 3 is arranged at the top of the support 1.

The pressing mechanism 3 is provided with a conveying belt 31, a pressing rod 32 and a limiting mechanism 33, the conveying belt 31 is arranged at the middle and lower position inside the pressing mechanism 3, the pressing rod 32 is arranged at the top inside the pressing mechanism 3, the limiting mechanism 33 is fixed on the inner wall of the pressing mechanism 3, and the limiting mechanism 33 is located above the conveying belt 31 and in front of the pressing rod 32.

The limiting mechanism 33 is provided with a frame a1, a connecting rod a2, a limiting block a3, a pushing strip a4, a spring strip a5 and a swinging block a6, the frame a1 is located on the outer side of the top of the limiting mechanism 33, the connecting rod a2 is connected and installed at the top of the frame a1, the limiting block a3 is hinged to the bottom end of the frame a1, the pushing strip a4 is connected between the limiting block a3 and the frame a1, the swinging block a6 is hung on the bottom surface of the connecting rod a2 through the spring strip a5, and the two spring strips a5 are made of spring materials and have elasticity, so that the force of the swinging block a6 is uniform, and the swinging block a6 can move up and down and swing left and right.

The swinging block a6 is provided with a support block s1, a push plate s2, a spring block s3 and a rotating block s4, the support block s1 is located in the middle of the swinging block a6, the push plate s2 is installed on two sides of a support block s1 through the spring block s3, the rotating block s4 is connected and installed on the bottom surface of the support block s1, the push plate s2 is provided with two symmetrical distribution, so that the push plate s2 can expand towards two sides of the swinging block a6, assembled and unassembled substances can be pushed, the moving speed of objects can be increased, the number of the rotating blocks s4 is three, the rotating blocks s4 can be matched with the conveying belt 31 in a movable mode, and the friction force between the swinging block a6 and the conveying belt 31 can.

Wherein, push pedal s2 is equipped with backup pad d1, buffer block d2, recess d3, backup pad d1 is located push pedal s2 left side, buffer block d2 fixes on backup pad d1 right side, recess d3 is sunken in buffer block d2 right flank, buffer block d2 is the rubber material, has elasticity, is favorable to receiving the impact deformation of article, is favorable to buffering the article.

The specific use mode and function of the embodiment are as follows:

in the invention, an object is placed on the top of a conveying belt 31 of a pressing mechanism 3, the conveying belt 31 rotates to drive the object to advance, the object is pressed down and assembled through a pressing rod 32, when the height of the conveying belt 31 is reduced, a swinging block a6 of a limiting mechanism 33 is pulled to expand a spring strip a5 by the downward gravity, a pushing strip a4 pushes a limiting block a3 to contact with a swinging block a6 to limit a swinging block a6, the swinging block a6 swings with a connecting rod a2 as a fulcrum after being impacted by the object, an elastic block s3 on the side surface of the swinging block a6 pushes and expands a pushing plate s2 to rebound and press down the object through the pressing rod 32, the object buffers the object through a d2 when the object impacts the pushing plate s2, the displacement of the object after being impacted is reduced, the swinging block a6 of the limiting mechanism 33 moves up and down along with the height of the conveying belt 31 and swings in a matching with the buffering mechanism 33, and presses down the object through the pressing rod 32, the pressing-down rod 32 can be used for pressing down and assembling each object, and the phenomenon of pressure leakage of the lamp holder and the protective sleeve is reduced.

Example 2:

as shown in fig. 6 to 7:

the rotating block s4 is provided with a support ring r1, a contact block r2, a push block r3 and a clamping block r4, the support ring r1 is located in the middle of the rotating block s4, the contact block r2 is mounted on the outer wall of the support ring r1 through the push block r3, the clamping block r4 and the outer wall of the support ring r1 are of an integrated structure and located between the contact blocks r2, the middle portions of two sides of the clamping block r4 are provided with a concave triangular shape, and the clamping block r4 is movably matched with the contact block r2 to limit the contact block r 2.

Contact piece r2 is equipped with block t1, elastic block t2, card tooth t3, connecting block t4, overhead board t5, clears away piece t6, block t1 is located contact piece r2 below, card tooth t3 passes through elastic block t2 and installs in block t1 both sides middle part, block t1 top is equipped with connecting block t4, overhead board t5 and connecting block t4 upper surface activity fit, it inlays the solid at overhead board t5 surface to clear away piece t6, it is unevenness's protruding block shape to clear away piece t6 surface, is favorable to evenly clearing away the impurity that the conveyer belt 31 surface is detained, keeps conveyer belt 31 surface clean and tidy.

The specific use mode and function of the embodiment are as follows:

in the invention, when the swinging block a6 moves downwards, the rotating block s4 is movably matched with the conveying belt 31 to rotate, so that the friction force between the swinging block a6 and the conveying belt 31 is reduced, the pushing block r3 pushes the contact block r2 by taking the support ring r1 as a pivot, the elastic blocks t2 on two sides of the contact block r2 push the clamping tooth t3 to two sides of the block body t1, so that the clamping tooth t3 is movably matched with the clamping block r4 for limiting, the cleaning block t6 cleans impurities remained and solidified on the surface of the conveying belt 31, the connecting block t4 drives the cleaning block t6 to vibrate through the top plate t5, the impurities on the outer wall of the cleaning block t6 fall along the conveying belt 31 to be conveyed and fall, the rotating block s4 is movably matched with the conveying belt 31, so that the friction force between the swinging block a6 and the conveying belt 31 is reduced, the rotating speed of the conveying belt 31 is.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.