阅读说明：本技术 一种涂覆机换位离心机构 (Coating machine transposition centrifugal mechanism ) 是由 吕亚妹 于 2020-06-19 设计创作，主要内容包括：本发明提供了一种涂覆机换位离心机构,包括主体、夹持器和换位盘,主体内部中部嵌入设置有夹持器,主体内部中部两侧固定连接有换位盘；主体包括有开关窗和储放槽,夹持器包括有嵌合轴、套接槽和夹持块,夹持块包括有套接环和限定块,换位盘包括有旋转槽和旋转盘,旋转槽包括有限位环和稳定槽,旋转盘包括有嵌合槽、限定槽、传动轴和稳定块,该装置设置有夹持块,通过夹持块对工件的固定使得当夹持器带动工件的一侧发生环绕移动的时候能够对连接工件的一端进行角度的修正,使得其能够在发生偏斜的时候始终保持平行连接在夹持器中。(The invention provides a coating machine transposition centrifugal mechanism which comprises a main body, a clamp holder and transposition disks, wherein the clamp holder is embedded in the middle of the interior of the main body, and the transposition disks are fixedly connected to two sides of the middle of the interior of the main body; the main part is including the switch window and storing the groove, the holder is including the gomphosis axle, cup joint groove and grip block, the grip block is including cup joint ring sum limiting block, the transposition dish is including revolving chute and rotary disk, the revolving chute is including limiting ring sum stabilizing trough, the rotary disk is including the gomphosis groove, limiting trough, transmission shaft and stabilizing block, the device is provided with the grip block, make through the grip block to the fixed of work piece can carry out the correction of angle to the one end of connecting the work piece when the holder drives one side of work piece and takes place to encircle the removal, make it can keep parallel connection all the time in the holder when taking place the skew.)

1. A coating machine transposition centrifugal mechanism comprises a main body (1), a clamp holder (2) and a transposition disc (3), and is characterized in that: a clamp holder (2) is embedded in the middle of the interior of the main body (1), and transposition discs (3) are fixedly connected to two sides of the middle of the interior of the main body (1);

the main body (1) comprises an opening and closing window (101) and a storage tank (102), the opening and closing window (101) is embedded at the top end of the middle part of the front end of the main body (1), and an opening of the storage tank (102) is formed in the middle part of the interior of the main body (1);

the clamp holder (2) comprises an embedding shaft (201), a sleeving groove (202) and a clamping block (203), the embedding shaft (201) is fixedly connected to two ends of the clamp holder (2), an opening of the sleeving groove (202) is formed in the middle of the clamp holder (2) and close to the periphery of the two ends, and the clamping block (203) is embedded in the bottom end of the middle of the clamp holder (2);

the clamping block (203) comprises a sleeve joint ring (2031) and a limiting block (2032), the sleeve joint ring (2031) is fixedly connected to two ends of the clamping block (203), and the limiting block (2032) is fixedly connected to one end surface of the clamping block (203);

the transposition plate (3) comprises a rotating groove (301) and a rotating disc (302), an opening of the rotating groove (301) is formed in the middle of one side of the transposition plate (3), and the rotating disc (302) is embedded in the middle of the rotating groove (301);

the rotary groove (301) comprises a limiting ring (3011) and a stabilizing groove (3012), the opening of the limiting ring (3011) is arranged around the middle of the rotary groove (301), and the opening of the stabilizing groove (3012) is arranged on one side of the middle of the rotary groove (301) close to the peripheral surface;

the rotary disc (302) comprises a mosaic groove (3021), a limiting groove (3022), a transmission shaft (3023) and a stabilizing block (3024), wherein openings of the mosaic groove (3021) are arranged on two sides of the rotary disc (302), openings of the limiting groove (3022) are arranged on the middle part of one side of the rotary disc (302) close to two sides, the transmission shaft (3023) is embedded in one side of the middle part of the rotary disc (302), and the stabilizing block (3024) is fixedly connected to one side of the rotary disc (302) close to the periphery of the edge.

2. The coater index centrifuge mechanism of claim 1, wherein: the embedding shaft (201) is a circular shaft bulge with smaller diameter at two ends of the holder (2), and the embedding shaft (201) and the embedding groove (3021) are embedded with each other.

3. The coater index centrifuge mechanism of claim 1, wherein: the sleeve joint groove (202) is a circular groove which is formed by the clamp holder (2) and is embedded with the whole diameter of the sleeve joint ring (2031) on the peripheral surface of the clamp holder close to the two ends.

4. The coater index centrifuge mechanism of claim 1, wherein: the limiting block (2032) is a rectangular bump with a curved arc at the bottom part of the sleeve ring (2031), and the limiting block (2032) and the limiting groove (3022) are embedded with each other in a slotted arc way.

5. The coater index centrifuge mechanism of claim 1, wherein: the limiting ring (3011) is a circular groove around the middle of the rotating groove (301), the groove of the rotating groove (301) is embedded with the groove diameter of the limiting ring (3011) and the rotating disk (302), and a groove mark which is embedded with the surface of the embedded shaft (201) is arranged on one side of the middle of the limiting ring (3011).

6. The coater index centrifuge mechanism of claim 1, wherein: the stabilizing groove (3012) is a circular groove at the middle part of the rotating groove (301) close to the periphery of the edge, and the groove and the stabilizing block (3024) are mutually embedded.

7. The coater index centrifuge mechanism of claim 1, wherein: the embedded groove (3021) is a groove with a cylindrical shape at one side of the rotating disc (302), the center of the middle part of the embedded groove (3021) is also provided with the same embedded groove (3021), and the grooved side of the embedded groove (3021) at one side is hollow.

8. The coater index centrifuge mechanism of claim 1, wherein: the transmission shaft (3023) is a cylindrical round shaft arranged on one side of the rotating disc (302), and the round shaft penetrates through the transposition disc (3) and is electrically connected with the external rotating structure.

Technical Field

The invention relates to the technical field of coating machines, in particular to a coating machine.

Background

A coating machine is an automatic mechanical device which specially controls fluid and coats the fluid on the surface of a product, a workpiece is fixedly prevented in the coating machine, and then the surface of the workpiece is coated through a spray gun of the coating machine.

Disclosure of Invention

The invention aims to solve the technical problem that the coating machine cannot coat the side surface and the back surface of a workpiece because the coating machine cannot perform random transposition and turnover when coating the workpiece.

The purpose and the effect of the transposition centrifugal mechanism of the coating machine are achieved by the following specific technical means:

a coating machine transposition centrifugal mechanism comprises a main body, a clamp holder and a transposition disc, wherein the clamp holder is embedded in the middle of the interior of the main body, and the transposition discs are fixedly connected to two sides of the middle of the interior of the main body;

the main body comprises an opening and closing window and a storage tank, the opening and closing window is embedded and arranged at the top end of the middle part of the front end of the main body, and an opening of the storage tank is arranged in the middle part of the interior of the main body;

the clamp holder comprises an embedded shaft, a sleeving groove and a clamping block, the embedded shaft is fixedly connected to two ends of the clamp holder, an opening of the sleeving groove is formed in the middle of the clamp holder and close to the periphery of the two ends, and the clamping block is embedded in the bottom end of the middle of the clamp holder;

the clamping block comprises a sleeve ring and a limiting block, the sleeve ring is fixedly connected to two ends of the clamping block, and the limiting block is fixedly connected to the surface of one end of the clamping block;

the transposition disc comprises a rotating groove and a rotating disc, an opening of the rotating groove is formed in the middle of one side of the transposition disc, and the rotating disc is embedded in the middle of the rotating groove;

the rotating groove comprises a limiting ring and a stabilizing groove, the opening of the limiting ring is arranged around the middle part of the rotating groove, and the opening of the stabilizing groove is arranged on one side of the middle part of the rotating groove and is close to the surface of the periphery;

the rotating disc comprises an embedding groove, a limiting groove, a transmission shaft and a stabilizing block, wherein openings of the embedding groove are formed in two sides of the rotating disc, openings of the limiting groove are formed in the middle of one side of the rotating disc and close to two sides, the transmission shaft is embedded in one side of the middle of the rotating disc, and the stabilizing block is fixedly connected to one side of the rotating disc and close to the periphery of the edge.

Further preferred embodiments: the embedding shaft is a circular shaft bulge with smaller diameter at two ends of the clamp holder, and the embedding shaft and the embedding groove are mutually embedded.

Further preferred embodiments: the sleeve joint groove is a circular groove which is formed by the clamp holder and is close to the peripheral surfaces of the two ends and is embedded with the whole diameter of the sleeve joint ring.

Further preferred embodiments: the limiting block is a rectangular lug with a curved radian at the bottom end part of the sleeving ring, and the limiting block is embedded with the limiting groove in a slotting radian mode.

Further preferred embodiments: the limiting ring is a circular groove formed around the middle of the rotary groove, the rotary groove is embedded with the groove diameter of the limiting ring and the rotary disk, and a groove mark embedded with the surface of the embedded shaft is arranged on one side of the middle of the limiting ring.

Further preferred embodiments: the stabilizing groove is a circular groove which is arranged at the middle part of the rotating groove and close to the periphery of the edge, and the groove and the stabilizing block are mutually embedded.

Further preferred embodiments: the tabling groove is a slot with one side of the rotating disc in a cylindrical shape, the middle center of the tabling groove is also provided with the same tabling groove, and the slotted side of the tabling groove at one side is hollow.

Further preferred embodiments: the transmission shaft is a circular shaft with a cylindrical shape on one side of the rotating disc, and the circular shaft penetrates through the transposition disc and is electrically connected with the external rotating structure.

Has the advantages that:

(1) the coating machine transposition centrifugal mechanism is provided with a rotating disc, a clamper of the rotating disc can be driven to rotate and move in a phase position through rotation of the rotating disc, a workpiece fixed in the middle is transposed and overturned, meanwhile, certain transposition is carried out on the position of the workpiece when one side of the rotating disc completely rotates to the other side, the workpiece can be coated on each position of the workpiece, and meanwhile, the rotating disc rotates to drive the workpiece to carry out high-speed surrounding rotation swinging to dry redundant liquid and water coated on the surface.

(2) The device is provided with the clamping block, and the angle of the part clamped by the workpiece is corrected when one of the clamping devices is enabled to move around by fixing the workpiece through the clamping block, so that the workpiece can be always kept parallel to the middle of the clamping device when moving around, and the workpiece cannot abut against the clamping device to move rotationally when moving around on one side.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a partial overall sectional structure diagram of the main body of the invention.

FIG. 3 is a schematic diagram of the overall structure of the index plate according to the present invention.

Fig. 4 is an enlarged schematic view of the structure at a in fig. 3 according to the present invention.

FIG. 5 is a partial overall structure diagram of the holder of the present invention.

FIG. 6 is a partial overall structure diagram of the clamping block of the present invention.

In FIGS. 1-6: the device comprises a main body 1, an opening and closing window 101, a storage groove 102, a gripper 2, a jogged shaft 201, a socket groove 202, a gripping block 203, a socket ring 2031, a limiting block 2032, a transposition disc 3, a rotating groove 301, a limiting ring 3011, a stabilizing groove 3012, a rotating disc 302, a jogged groove 3021, a limiting groove 3022, a transmission shaft 3023 and a stabilizing block 3024.

Detailed Description

As shown in figures 1 to 6:

the invention provides a coating machine transposition centrifugal mechanism which comprises a main body 1, a clamp 2 and a transposition disc 3, wherein the clamp 2 is embedded in the middle of the inside of the main body 1, and the transposition discs 3 are fixedly connected to two sides of the middle of the inside of the main body 1;

the main body 1 comprises an opening and closing window 101 and a storage tank 102, the opening and closing window 101 is embedded and arranged at the top end of the middle part of the front end of the main body 1, and an opening of the storage tank 102 is arranged in the middle part of the interior of the main body 1;

the clamper 2 comprises a tabling shaft 201, a socket groove 202 and a clamping block 203, the tabling shaft 201 is fixedly connected with two ends of the clamper 2, the opening of the socket groove 202 is arranged at the middle part of the clamper 2 near the periphery of the two ends, the clamping block 203 is embedded in the bottom end of the middle part of the clamper 2;

the clamping block 203 comprises a socket ring 2031 and a limiting block 2032, the socket ring 2031 is fixedly connected to two ends of the clamping block 203, and the limiting block 2032 is fixedly connected to one end surface of the clamping block 203;

the transposition plate 3 comprises a rotary groove 301 and a rotary plate 302, the opening of the rotary groove 301 is arranged in the middle of one side of the transposition plate 3, and the rotary plate 302 is embedded in the middle of the rotary groove 301;

the rotary groove 301 comprises a limiting ring 3011 and a stabilizing groove 3012, the opening of the limiting ring 3011 is arranged around the middle part of the rotary groove 301, and the opening of the stabilizing groove 3012 is arranged on one side of the middle part of the rotary groove 301 close to the peripheral surface;

the rotary disc 302 comprises a tabling groove 3021, a limiting groove 3022, a transmission shaft 3023 and a stabilizing block 3024, the tabling groove 3021 is opened at both sides of the rotary disc 302, the limiting groove 3022 is opened at the middle part of one side of the rotary disc 302 near both sides, the transmission shaft 3023 is embedded at one side of the middle part of the rotary disc 302, and the stabilizing block 3024 is fixedly connected to the periphery of one side of the rotary disc 302 near the edge.

The two ends of the clamp holder 2 are circular shaft protrusions with smaller diameters, the clamp holder 201 is embedded with the embedding grooves 3021, the clamp holder 2 is connected to the embedding grooves 3021 on the two sides of the rotating disc 302 through the embedding shafts 201 on the two ends, so that the rotating disc 302 drives the two clamp holders 2 to synchronously shift and rotate when rotating, when the clamp holder 2 is driven to shift and rotate by the rotating disc 302, one side part of the embedding shaft 201 is exposed and supported on one side surface of the middle part of the embedding shaft 201 due to the open groove on one side of the embedding grooves 3021, and the clamp holder 2 rotates when rotating and moving due to the groove marks embedded in the two surfaces.

The socket groove 202 is a circular groove formed around the holder 2 near the two ends and embedded in the socket ring 2031 with the same overall diameter.

The limiting block 2032 is a rectangular protrusion with a curved arc at the bottom of the socket ring 2031, and the limiting block 2032 and the limiting groove 3022 are embedded with each other in a curved arc.

The limiting ring 3011 is a circular slot around the middle of the rotating groove 301, the slot of the rotating groove 301 is embedded with the rotating disc 302 along the diameter of the slot of the limiting ring 3011, and a slot mark embedded with the surface of the embedded shaft 201 is further arranged on one side of the middle of the limiting ring 3011, when the rotating disc 302 rotates, the periphery of the rotating disc 302 rotates along the limiting ring 3011 of the rotating groove 301, and the position of the rotating disc 302 is limited by the limiting ring 3011 and is placed and separated out of the rotating groove 301.

The stabilizing slot 3012 is a circular slot in the middle of the rotary slot 301 near the edge, and the slot is engaged with the stabilizing block 3024, and the stabilizing block 3024 on one side of the rotary disk 302 rotates along the stabilizing slot 3012 of the rotary slot 301, so that the rotary disk 302 will not shift when rotating due to the engagement of the stabilizing block 3024 with the stabilizing slot 3012, and the rollers on both sides of the middle of the stabilizing slot 3012 can roll to reduce the friction force generated by the stabilizing block 3024 when moving, so that the rotation is smoother and will not cause jamming.

The fitting groove 3021 is a groove having a cylindrical shape on the side of the rotating disk 302, the same fitting groove 3021 is further provided in the center of the fitting groove 3021, and the groove side of the fitting groove 3021 on one side is hollow.

The transmission shaft 3023 is a cylindrical circular shaft on one side of the rotating disk 302, and the circular shaft penetrates through the transposition disk 3 and is electrically connected with the external rotating structure.

The working principle is as follows:

the specific use mode and action of this embodiment are that the opening and closing window 101 of the main body 1 is firstly opened, then the workpiece to be coated is placed in the clamper 2, the workpiece is fixed by the clamper 2, then the opening and closing window 101 is closed to make the coated spray gun in the interior of the workpiece uniformly coat the surface of the workpiece, when the workpiece is fixed on the clamper 2, the rotating disc 302 is driven to rotate in the rotating groove 301 of the index disc 3 by opening the rotating mechanism at the exterior of the workpiece through the transmission shaft 3023, and when the rotating disc 302 rotates, the periphery of the rotating disc rotates in the limiting ring 3011 of the rotating groove 301, the position of the rotating disc 302 is limited and placed out of the rotating groove 301 by the limiting ring 3011, and simultaneously the stabilizing block 3024 at one side of the rotating disc 302 rotates in the stabilizing groove 3012 of the rotating groove 301, and the rotating disc 302 does not shift when the rotating disc 302 is embedded in the stabilizing block 3024 and the stabilizing groove 3012, meanwhile, the rolling shafts on the two sides of the middle part of the stabilizing groove 3012 can reduce the friction force generated by the stabilizing block 3024 when moving by rolling to ensure that the rotation is smoother and the locking cannot occur, meanwhile, the holder 2 is connected to the embedding groove 3021 on the rotating disc 302 by the embedding shafts 201 on the two ends of the holder 2, because the position of the embedding shaft 201 is different, the holder 2 only drives the holder 2 on one side to rotate when the rotating disc 302 rotates, so that the two holders are arranged in a skew manner to ensure that the workpiece is arranged in a skew manner, when the holder 2 is driven by the rotating disc 302 to rotate in a skew manner, one side part of the embedding shaft 201 is exposed out and propped against the surface on one side of the middle part of the embedding shaft 201 due to the notch embedded between the surfaces of the holder 2, the holder 2 can rotate when rotating, and the entering of the middle part of the rolling shaft 2031 in the clamping block 203 sleeved on the sleeving groove 202 can be enabled by the rotation of the holder 2 The clamping blocks 203 can naturally shift through a roller between the connection of the sleeve ring 2031 and the sleeve groove 202 and can not move to one side due to the movement of the clamper 2 when the clamper 2 moves in a displacement way, and the workpiece connected between the two clamping blocks 203 can also be connected with the workpiece, so that the clamping blocks 203 correct the deflection angle of the clamping blocks when the clamper 2 moves in a rotation way to keep the parallel fixation of the workpiece, meanwhile, the limiting blocks 2032 on one side can be embedded in the embedding groove 3021 to move in a surrounding way when the clamping blocks 203 rotate around the clamper 2 for adjusting the angle, and the surrounding movement is kept in the same ring all the time through the embedding of the limiting blocks 2032, the clamping blocks 203 are not allowed to shift to pull the fixed workpiece, so that the workpiece can be freely transposed and turned over to coat all parts of the workpiece when being coated, and meanwhile, the workpiece is driven to rotate and swing at high speed around through the rotation of the rotating disc 302 to dry the redundant liquid and water coated on the surface.