阅读说明：本技术 一种链条装配流水线 (Chain assembly line ) 是由 刘月阳 于 2021-01-06 设计创作，主要内容包括：本发明公开了一种链条装配流水线,其结构设有脚座、整板、驱动辊、链条、承载座,由滑块体在升降动力盘的作用下进行升降滑动,上升时,弧滑体下端无外物相抵,其透过外框底端的开口滑出,弧兜簧对其起到兜接及限位作用,触压块对其产生下压抵力,防止其在摩擦柱状板腔边壁过程中向内腔中滑进,整撑段为其整体维持住弧状形态,中软段的弹性韧度对柱状板腔边壁进行触接,侧接径便于漂浮的尘埃落进将其收集,铲块整体向通板侧端口伸凸,其底部顶压着半囊抵块,实块呈现一定的倾斜度,便于铲块整体在位移过程中对柱状板腔边壁上的附着物铲除,由通板的通透孔结构,而便于铲下的物质排出,从而避免柱状板腔边壁有尘埃附着物而影响滑块体的位移活动。(The invention discloses a chain assembly line, which is structurally provided with a foot seat, a whole plate, a driving roller, a chain and a bearing seat, wherein a sliding block body is used for lifting and sliding under the action of a lifting power disc, when the sliding block body rises, no foreign object is abutted at the lower end of an arc sliding body, the arc sliding body slides out through an opening at the bottom end of an outer frame, an arc pocket spring plays roles of pocket connection and limitation on the sliding block body, a contact pressing block generates downward abutting force on the sliding block body to prevent the sliding block body from sliding into an inner cavity in the process of rubbing the side wall of a cylindrical plate cavity, the whole supporting section integrally maintains an arc shape, the elastic toughness of a middle soft section contacts the side wall of the cylindrical plate cavity, the side diameter is convenient for floating dust to fall into and be collected, the whole shoveling block extends to the side port of the through plate, the bottom of the shoveling block is abutted against a half bag, the solid block has a certain inclination, the shoveling block integrally shovels attachments on the side wall of the cylindrical plate cavity in the displacement, and the shoveled substances are convenient to discharge, thereby avoiding the influence of dust attachment on the side wall of the cylindrical plate cavity on the displacement movement of the sliding block body.)

1. The utility model provides a chain assembly line, its structure is equipped with foot seat (1), whole board (2), drive roller (3), chain (4), bears seat (5), foot seat (1) are embedded solid and are connected in the below of whole board (2), drive roller (3) link up and install a side end position at whole board (2), chain (4) activity is in whole board (2) top end, bear seat (5) and install on chain (4) and clearance fit, its characterized in that:

bear seat (5) and be equipped with well carrier plate (51), holder (52), adjust depression bar (53), lead to and carry chamber (54), prop body (55) down, holder (52) are located the top of well carrier plate (51), adjust depression bar (53) and holder (52) clearance fit, lead to carry chamber (54) and well carrier plate (51) structure as an organic whole and link up each other, install carrier plate (51) below in down supporter (55), prop body (55) and lead to and carry chamber (54) to link up and clearance fit mutually.

2. A chain assembly line according to claim 1, characterized in that: the lower supporting body (55) is provided with a side supporting block (551), a lifting power disc (552), a slider body (553) and a columnar plate cavity (554), the lifting power disc (552) is embedded in the side supporting block (551), two ends of the slider body (553) are embedded in the side supporting block (551) and movably clamped, the slider body (553) is matched with the lifting power disc (552), and the slider body (553) moves in the columnar plate cavity (554).

3. A chain assembly line according to claim 2, characterized in that: the slider body (553) is equipped with detains smooth end (a1), connects supporter (a2), touches top body (a3), detain smooth end (a1) embedded solid and connect in connecting supporter (a2) both sides end, touch top body (a3) and connect the top of connecting supporter (a 2).

4. A chain assembly line according to claim 3, characterized in that: the connection support body (a2) is provided with an outer frame (b1), an inner cavity (b2), an arc pocket spring (b3), a penetration shaft (b4), a contact pressure block (b5) and an arc sliding body (b6), the inner cavity (b2) is located on the inner side of the outer frame (b1), the arc pocket spring (b3) is connected to the middle position of the top end of the inner cavity (b2), the penetration shaft (b4) and the arc pocket spring (b3) are mutually communicated and movably matched, the contact pressure block (b5) is connected to the top of the inner cavity (b2), the inner cavity (b2) is located on two sides of the arc pocket spring (b3), the arc sliding body (b6) is embedded into the inner cavity (b2), the contact pressure block (b5) is movably clamped with the bottom of the outer frame (b1), the contact pressure block (b5) is connected to the arc sliding body (b6) in a clearance fit mode, and the arc sliding body (b 368747) is movably matched with the penetration shaft (b4) and is connected with the movable shaft.

5. A chain assembly line according to claim 4, characterized in that: the arc sliding body (b6) is provided with a whole supporting section (t1), a hard abutting end (t2), a middle soft section (t3) and a side abutting diameter (t4), the middle soft section (t3) is connected to the lower end of the whole supporting section (t1), the middle soft section (t3) is located at the tail end of the arc sliding body (b6), the side abutting diameter (t4) and the middle soft section (t3) are of an integrated structure, and the hard abutting end (t2) and the arc sliding body (b6) are of an integrated structure and are arranged at the tail end of the arc sliding body.

6. A chain assembly line according to claim 3, characterized in that: the contact top body (a3) is provided with a through plate (q1), an inner groove (q2), a half bag abutting block (q3) and a shovel block (q4), the inner groove (q2) and the through plate (q1) are of an integrated structure and are arranged on the inner side of the inner groove, the half bag abutting block (q3) is movably matched below the shovel block (q4), and the shovel block (q4) is embedded into the inner groove (q2) and is movably clamped with the shovel block.

7. The chain assembly line of claim 6, wherein: the shovel block (q4) is provided with a hinged pulley (w1), a solid block (w2), a falling interface (w3) and a through flow path (w4), the hinged pulley (w1) is connected to the tail end of the solid block (w2), the falling interface (w3) is communicated with the middle upper end of the solid block (w2), the through flow path (w4) is embedded into the solid block (w2), and the lower end of the falling interface (w3) is communicated with the through flow path (w 4).

Technical Field

The invention belongs to the field of assembly lines, and particularly relates to a chain assembly line.

Background

The chain assembly line utilizes a chain as a traction conveying accessory, carries out flowing water type conveying on bearing objects through transmission activity of the chain, takes the chain as a main conveying operation workpiece, has diversified types of bearing discs, and can be assembled with different bearing seats according to different conveyed objects.

Based on the discovery of the inventor, the existing chain assembly line has the following defects:

bear the seat and connect on the chain, along with its transmission and the displacement, when bearing cylindrical motor housing, generally through the cooperation between the jacking slider, slack and press from both sides tight product, carry out getting of product and trade, and carry the operation, because dust particulate matter is more and the volume is great usually in the workshop, cause to float into between slider and the board chamber limit wall easily, make slider lift in-process carry granule dust and limit wall friction, cause the damage in board chamber, make the slider go up and down and produce the obstacle.

It is therefore desirable to provide a chain assembly line.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a chain assembly line to solve the problems in the prior art.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a chain assembly line, its structure is equipped with foot seat, whole board, drive roller, chain, bears the seat, the foot seat inlays the below of solid connection at whole board, the drive roller link up and installs a side end position at whole board, the chain activity is in whole board top end, bear the seat and install on the chain and clearance fit.

Bear seat and be equipped with well carrier plate, holder, regulation depression bar, logical year chamber, lower supporter, the holder is located the top of well carrier plate, regulation depression bar and holder clearance fit, logical year chamber and well carrier plate structure as an organic whole and link up each other, the supporter is installed in well carrier plate below down, the supporter link up mutually and clearance fit with logical year chamber.

As a further improvement of the invention, the lower support body is provided with a side support block, a lifting power disc, a slider body and a columnar plate cavity, the lifting power disc is embedded and installed inside the side support block, two ends of the slider body are embedded into the side support block and movably clamped, the slider body is matched with the lifting power disc, the slider body moves in the columnar plate cavity, the side support block is in a cylindrical shape, and the slider body is in a columnar shape.

As a further improvement of the invention, the sliding block body is provided with a buckle sliding end, a connecting support body and a touch top body, the buckle sliding end is embedded and fixedly connected with two side ends of the connecting support body, the touch top body is connected with the top end of the connecting support body, the diameter width of the touch top body is slightly smaller than that of the connecting support body, and the buckle sliding end and the touch top body are driven by the buckle sliding end to synchronously lift.

As a further improvement of the invention, the connecting support body is provided with an outer frame, an inner cavity, an arc pocket spring, a penetration shaft, a contact pressure block and an arc sliding body, the inner cavity is positioned at the inner side of the outer frame, the arc pocket spring is connected at the middle position of the top end of the inner cavity, the penetration shaft and the arc pocket spring are mutually penetrated and movably matched, the contact pressure block is connected at the top of the inner cavity, the inner cavity is positioned at two sides of the arc pocket spring, the arc sliding body is embedded in the inner cavity, the contact pressure block is movably clamped with the bottom of the outer frame, the contact pressure block is connected with the arc sliding body in a clearance fit manner and movably matched, the arc sliding body is penetrated and movably matched with the penetration shaft, the outer frame is a plate body with two through holes at the bottom, the arc pocket spring is of an arc-shaped structure and has certain elasticity, the contact pressure block is made of silica gel and has certain toughness, the arc sliding body is provided with, and move in an arc shape.

As a further improvement of the invention, the arc sliding body is provided with an integral supporting section, a hard supporting end, a middle soft section and side connecting diameters, the middle soft section is connected with the lower end of the integral supporting section, the middle soft section is positioned at the tail end of the arc sliding body, the side connecting diameters and the middle soft section are of an integrated structure, the hard supporting end and the arc sliding body are of an integrated structure and are arranged at the tail end of the arc sliding body, the integral supporting section is made of hard silica gel and poor in flexibility, the middle soft section is made of butadiene and has good flexibility and traction performance, and the hard supporting end is made of resin and has certain hardness.

As a further improvement of the invention, the contact top body is provided with a through plate, an inner groove, a half bag abutting block and a shovel block, wherein the inner groove and the through plate are of an integrated structure and are arranged on the inner side of the inner groove, the half bag abutting block is movably matched below the shovel block, the shovel block is embedded in the inner groove and is movably clamped, the through hole is formed in the top surface end of the through plate, the half bag abutting blocks are provided with two through holes, are distributed at the positions of the ports on the two sides of the through plate and are in a hemispherical shape, are made of plastic elastic bodies and have excellent elastic force, and the shovel block is clamped at the port on the side of the through plate under the elastic abutting force of the half bag abutting block and is in an inclined angle.

As a further improvement of the shovel block, the shovel block is provided with an articulated pulley, a solid block, a falling port and a through flow path, the articulated pulley is connected to the tail end of the solid block, the falling port is arranged at the middle upper end of the solid block in a penetrating manner, the through flow path is embedded in the solid block, the lower end of the falling port is communicated with the through flow path, the diameter opening at the upper end of the falling port is larger than that at the lower end, and the falling port is provided with five positions.

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

1. the sliding block body is lifted and slid under the action of the lifting power disc, when the sliding block body rises, the lower end of the arc sliding body does not have foreign objects to abut against, the sliding block body penetrates through an opening at the bottom end of the outer frame to slide out, an arc pocket spring plays roles of pocket connection and limiting, the contact pressing block generates downward pressing force on the arc sliding block body, the sliding block body is prevented from sliding into an inner cavity in the process of rubbing the side wall of the columnar plate cavity, the integral support section integrally maintains an arc shape, the elastic toughness of the middle soft section contacts the side wall of the columnar plate cavity, the side contact section is convenient for floating dust to fall into and collect the dust, and meanwhile, the dust is prevented from being attached to the side wall of the columnar plate cavity.

2. Through hinge pulley inside the inside slip of inside groove for the shovel piece is whole to lead to board side port and stretch out protrudingly, half bag of its bottom roof pressure is supporting the piece, half bag is supporting the piece and has must be the recoil to it, make the real piece present certain gradient, be convenient for the shovel piece is whole to the attachment on the side wall of columnar slab cavity in the displacement process and is removed, the attachment falls in the interface that falls, through leading to the flow path and arrange into the inside groove, by the penetrating hole structure that leads to the board, and be convenient for shovel down the material discharge, thereby avoid the displacement activity that columnar slab cavity side wall has the dust attachment and influences the slider body.

Drawings

Fig. 1 is a schematic structural view of a chain assembly line of the present invention.

Fig. 2 is a schematic view of an internal cross-sectional structure of a load-bearing seat according to the present invention.

Fig. 3 is a schematic view of the internal cross-sectional structure of a lower support according to the present invention.

Fig. 4 is a schematic view of the internal cross-sectional structure of a slider body according to the present invention.

FIG. 5 is a schematic view of the internal cross-sectional structure of a connecting support according to the present invention.

Fig. 6 is a schematic view of the internal cross-sectional structure of an arc sliding body according to the present invention.

Fig. 7 is a schematic view of the internal cross-sectional structure of a contact body according to the present invention.

FIG. 8 is a schematic view of the internal cross-sectional structure of a shovel block of the present invention.

In the figure: the device comprises a footstand-1, a whole plate-2, a driving roller-3, a chain-4, a bearing seat-5, a middle bearing plate-51, a clamping seat-52, an adjusting compression rod-53, a loading through cavity-54, a lower support body-55, a side support block-551, a lifting power disc-552, a slider body-553, a columnar plate cavity-554, a buckling sliding end-a 1, a connecting support body-a 2, a contact top body-a 3, an outer frame-b 1, an inner cavity-b 2, an arc pocket spring-b 3, a penetrating shaft-b 4, a contact pressure block-b 5, an arc sliding body-b 6, a whole support section-t 1, a hard abutting end-t 2, a middle soft section-t 3, a side diameter-t 4, a through plate-q 1, an inner groove-q 2, a half capsule abutting block-q 3, a shovel block-q 4, a pulley-w-1, a solid block-2, a solid diameter-w-3 and a hinged joint 67w-4.

Detailed Description

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

example 1:

as shown in figures 1 to 6:

the invention provides a chain assembly line which is structurally provided with a foot seat 1, a whole plate 2, a driving roller 3, a chain 4 and a bearing seat 5, wherein the foot seat 1 is fixedly connected below the whole plate 2 in an embedded mode, the driving roller 3 is installed at one side end position of the whole plate 2 in a penetrating mode, the chain 4 is movably arranged at the top end of the whole plate 2, and the bearing seat 5 is installed on the chain 4 and is in movable fit with the chain 4.

Bear seat 5 and be equipped with well carrier plate 51, holder 52, adjust depression bar 53, lead to and carry chamber 54, lower supporter 55, holder 52 is located the top of well carrier plate 51, adjust depression bar 53 and holder 52 clearance fit, it just link up each other with well carrier plate 51 structure as an organic whole to lead to and carry chamber 54, lower supporter 55 is installed in well carrier plate 51 below, lower supporter 55 and lead to and carry chamber 54 to link up and clearance fit mutually.

The lower support body 55 is provided with a side support block 551, a lifting power disc 552, a slider body 553 and a columnar plate cavity 554, wherein the lifting power disc 552 is embedded and installed inside the side support block 551, two ends of the slider body 553 are embedded into the side support block 551 and movably clamped, the slider body 553 is matched with the lifting power disc 552, the slider body 553 moves in the columnar plate cavity 554, the side support block 551 is in a columnar shape, and the slider body 553 is in a columnar shape and performs lifting movement in a columnar hollow groove of the columnar plate cavity 554.

The slider 553 is provided with a sliding end a1, a connecting supporter a2 and a touching top body a3, the sliding end a1 is embedded and connected at two side ends of the connecting supporter a2, the touching top body a3 is connected at the top end of the connecting supporter a2, the diameter width of the touching top body a3 is slightly smaller than that of the connecting supporter a2, and the two are driven by the sliding end a1 to synchronously lift.

Wherein the connecting supporter a2 is provided with an outer frame b1, an inner cavity b2, an arc pocket spring b3, a penetrating shaft b4, a contact pressure block b5 and an arc sliding body b6, the inner cavity b2 is positioned at the inner side of the outer frame b1, the arc pocket spring b3 is connected to the middle section of the top end of the inner cavity b2, the penetrating shaft b4 and the arc pocket spring b3 are mutually penetrated and movably matched, the contact pressure block b5 is connected to the top of the inner cavity b2, the inner cavity b2 is positioned at two sides of the arc pocket spring b2, the arc sliding body b2 is embedded in the inner cavity b2, the contact pressure block b2 is movably clamped with the bottom of the outer frame b2, the contact pressure block b2 is in clearance fit with the arc sliding body b2, the arc sliding body b2 is penetrated and movably matched with the penetrating shaft b2, the outer frame b2 is a plate body with two through holes at the bottom, the arc pocket spring b2 is in an arc structure, the contact pressure block 2 is made of a certain elastic material, and the contact pressure block 2, the two arc sliding bodies b6 are symmetrically distributed and movable about the center and move in an arc shape, when the lower end foreign object abuts against the arc sliding bodies b6, the arc sliding bodies b6 slide out of the inner cavity b2, and the contact pressure block b5 serves as a matching abutting force, so that the arc sliding bodies b6 cannot slide into the inner cavity b2 in the friction movement with the edge.

The arc sliding body b6 is provided with an integral supporting section t1, a hard abutting end t2, a middle soft section t3 and a side abutting diameter t4, the middle soft section t3 is connected to the lower end of the integral supporting section t1, the middle soft section t3 is located at the tail end of the arc sliding body b6, the side abutting diameter t4 and the middle soft section t3 are of an integrated structure, the hard abutting end t2 and the arc sliding body b6 are of an integrated structure and are arranged at the tail end of the integrated structure, the integral supporting section t1 is made of hard silica gel, the softness is poor, the middle soft section t3 is made of butadiene and has good flexibility and traction performance, the hard abutting end t2 is made of resin and has certain hardness, the integral supporting section t1 tends to maintain the whole arc direction, the middle soft section t 32 is driven to slide out, the friction is made of soft 3 to touch and slide, and attachments can fall into the side abutting diameter t4 in sliding to collect attachments.

The specific use mode and function of the embodiment are as follows: a person puts a cylindrical motor shell to be conveyed into a through-loading cavity 54, adjusts an adjusting pressure rod 53, the adjusting pressure rod is matched with a clamping seat 52 to clamp conveyed materials, a driving roller 3 is driven, a bearing seat 5 is driven by a chain 4 to perform displacement movement, in operation, a sliding block 553 is positioned at the position of the lower end of a cylindrical plate cavity 554, dust particles can float into 555 and attach to the wall surface of the cylindrical plate cavity, when the materials are exchanged, the sliding block 553 is required to be supported and matched at the bottom of the materials to be separated from the through-loading cavity 54, the sliding block 553 performs lifting and sliding under the action of a lifting power disc 552, when the sliding block is lifted, no foreign object is abutted by the lower end of an arc sliding body b6, the sliding block slides out through an opening at the bottom end of an outer frame b1, an arc spring pocket b3 plays a pocket receiving and limiting role on the sliding block, a pressing block b5 generates downward pressing force after sliding out of the arc sliding body b6 to prevent the sliding block b2 in the side wall of the cylindrical plate cavity 554, the arc sliding body b6 slides along with the connection support body a2 under the drive of the buckling sliding end a1, the whole support section t1 maintains an arc shape for the whole support section t1, the side wall of the column plate cavity 554 is contacted by the elastic toughness of the middle soft section t3, the side diameter t4 facilitates the floating dust to fall into and collect the dust, and meanwhile, the dust is prevented from attaching to the side wall of the column plate cavity 554.

Example 2:

as shown in fig. 7 to 8:

the touch top body a3 is provided with a through plate q1, an inner groove q2, half-bag abutting blocks q3 and shovel blocks q4, the inner groove q2 and a through plate q1 are of an integrated structure and are arranged on the inner side of the inner groove q1, the half-bag abutting blocks q3 are movably matched below the shovel blocks q4, the shovel blocks q4 are embedded in the inner groove q2 and movably clamped, the top surface end of the through plate q1 is provided with through holes, the half-bag abutting blocks q3 are provided with two through holes, the two through holes are distributed at the port positions on two sides of the through plate q1 and are in a hemispherical shape and made of plastic elastomers, the shovel blocks q4 are clamped at the port on the side of the through plate q1 under the elastic abutting force of the half-bag abutting blocks q3 and are in inclined angles, foreign objects can be conveniently shoveled, and then fall out of the through plate q1 when the touch top body a3 is inverted.

The shovel block q4 is provided with a hinged pulley w1, a solid block w2, a falling port w3 and a through flow path w4, the hinged pulley w1 is connected to the tail end of the solid block w2, the falling port w3 penetrates the middle upper end of the solid block w2, the through flow path w4 is embedded into the solid block w2, the lower end of the falling port w3 penetrates the through flow path w4, the upper end diameter port of the falling port w3 is larger than the lower end diameter port, five positions are arranged on the falling port w3, and the falling port w3 facilitates falling of shoveled objects when the solid block w2 slides obliquely, so that the shoveled objects are collected through the through flow path w 4.

The specific use mode and function of the embodiment are as follows: when the top contact body a3 ascends and descends along with the buckle sliding end a1, the hinge pulley w1 slides in the inner groove q2, so that the shovel block q4 integrally extends and protrudes towards the end opening of the side of the through plate q1, the bottom of the half-bag resisting block q3 is pressed against the half-bag resisting block q3 has certain back-supporting force under the action of high elasticity of the half-bag resisting block q3, the solid block w2 is inclined to a certain degree, so that the attachment on the side wall of the columnar plate cavity 554 can be conveniently removed by the shovel block q4 in the whole displacement process, the shoveled attachment falls on the falling port w3 and then is discharged into the inner groove q2 through the through-flow path w4, when the material is to be changed, the carrying seat 5 is inverted, and the slide block 553 is lifted to the lower end of the carrying cavity 54, which is at the upper port of the column-shaped plate cavity 554, and is convenient for the shoveled material to be discharged through the through hole structure of the through plate q1, thereby preventing dust from adhering to the side wall of the columnar plate cavity 554 and affecting the displacement of the slider 553.

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.