CN211967146U - Water retaining mechanism for polishing machine - Google Patents

Abstract

The utility model discloses a manger plate mechanism for burnishing machine, it includes: fixed plate, drive assembly, power component and manger plate subassembly, drive assembly all sets up on the fixed plate with power component, manger plate subassembly is connected with drive assembly, drive assembly includes the fixed axle, rotates fluted disc, spur rack and arc tooth, manger plate subassembly includes synchronizing shaft and breakwater, the fixed axle sets up on the fixed plate with the arc tooth, it locates on the fixed axle to rotate the fluted disc cover, the breakwater is circular-arc structure, the one end of breakwater is fixed in and rotates on the fluted disc, the synchronizing shaft sets up on the other end of breakwater, it all has the gear to set up on the synchronizing shaft, the gear meshes with the arc tooth mutually, the synchronizing shaft rolls and sets up on the arc tooth and drives the breakwater and uses the rotation fluted disc to rotate the arc tooth rotation along the center. The utility model discloses effectively solved the problem that burnishing equipment during operation sweeps and cooling water splashed, the practicality is strong.

Description

Water retaining mechanism for polishing machine

Technical Field

The utility model belongs to the technical field of manger plate mechanism technique and specifically relates to a manger plate mechanism for burnishing machine.

Background

Polishing refers to a process of reducing the roughness of a workpiece surface by mechanical, chemical, or electrochemical actions to obtain a bright, flat surface. The method is to carry out modification processing on the surface of a workpiece by using a polishing tool and abrasive particles or other polishing media. Therefore, the polishing machine is widely used, thereby driving rapid development of the additional products of the polishing machine. At present, current burnishing machine is carrying out polishing work, need use the cooling water to carry out cooling treatment to work piece and emery wheel department, thereby produce the sweeps because the emery wheel rotates to polish the work piece, current burnishing machine generally possesses manger plate mechanism, consequently when the burnishing machine during operation under the condition that does not shelter from, produce the sweeps and splash with the cooling water and come out, the problem of operational environment has seriously been destroyed, meanwhile, in order to solve the sweeps and the cooling water problem of splashing, the technical personnel in the field have added manger plate mechanism and have splashed the improvement to sweeps and cooling water, but this type of manger plate mechanism all adopts flat baffle, the problem that sweeps and cooling water splashed can not fine improvement of this kind of structure manger plate mechanism, manger plate effect is poor, and the practicality is low.

Therefore, the market urgently needs a water baffle mechanism for a polishing machine, wherein the water baffle adopts an arc-shaped structural design, and the position of the water baffle can be changed according to the polishing work requirement.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provides a water retaining mechanism for burnishing machine to the problem among the above-mentioned prior art, and the breakwater adopts circular-arc structural design, can change the breakwater position according to the polishing work demand simultaneously, and the manger plate is effectual, has effectively improved operational environment, and the practicality is strong.

In order to solve the technical problem, the utility model discloses a technical scheme as follows:

a water-stop mechanism for a polishing machine, comprising: fixed plate, drive assembly, power component and manger plate subassembly, drive assembly all sets up on the fixed plate with power component, manger plate subassembly is connected with drive assembly, drive assembly includes the fixed axle, rotates fluted disc, spur rack and arc tooth, manger plate subassembly includes synchronizing shaft and breakwater, the fixed axle sets up on the fixed plate with the arc tooth, it locates on the fixed axle to rotate the fluted disc cover, the breakwater is circular-arc structure, the one end of breakwater is fixed in and rotates on the fluted disc, the synchronizing shaft sets up on the other end of breakwater, it all has the gear to set up on the synchronizing shaft, the gear meshes with the arc tooth mutually, the synchronizing shaft rolls and sets up on the arc tooth and drives the breakwater and uses the rotation fluted disc to rotate the arc tooth rotation along the center.

As a further elaboration of the above technical solution:

in the technical scheme, power component includes cylinder and connecting block, the cylinder is fixed in on the fixed plate, the connecting block sets up in the gas pole front end of cylinder, the spur rack is fixed in the lower extreme of connecting block, the spur rack meshes with the rotation fluted disc mutually, thereby the cylinder drives through driving spur rack rectilinear movement and rotates the fluted disc and rotate and then drive the breakwater and rotate on the arc tooth.

In the technical scheme, the inner side of the water baffle is provided with a first connecting portion, the water baffle is fixed on the rotating fluted disc through the first connecting portion, the first connecting portion is of a fan-shaped structure, the outer side of the water baffle is provided with a second connecting portion, the synchronous shaft sleeve is arranged at the second connecting portion, and the second connecting portion is of a ring-shaped structure.

In the technical scheme, the manger plate subassembly still includes that the sweeps cooling water accepts the board, the groove is accomodate to the sweeps and the groove is accomodate to the cooling water, the sweeps is accomodate the groove and is fixed in on the fixed plate, be provided with the roof on the groove is accomodate to the sweeps, the sweeps cooling water is accepted the board and is fixed in on the roof, there is the clearance between sweeps cooling water is accepted board and the fixed plate, the sweeps cooling water on accepting the board falls into sweeps and accomodates groove department through the clearance with the cooling water, the cooling water is accomodate the groove and is set up in the lower extreme that the groove was accomodate to the sweeps, the cooling water that the sweeps was accomodate on the groove spills over and falls into cooling water and accomodates groove department to realize the separation of sweeps and cooling water.

In the above technical scheme, the sweeps cooling water receiving plate is located at the lower end of the water baffle, the sweeps cooling water receiving plate is of a step-shaped structure and comprises a first receiving portion and a second receiving portion, the second receiving portion is arranged at two ends of the first receiving portion, and the height of the first receiving portion is lower than that of the second receiving portion.

The beneficial effects of the utility model reside in that: the utility model relates to a rationally, novel structure replaces original flat structural design through adopting circular-arc structural design, the scope that makes to prevent splashing is wider, it is better to prevent the effect that splashes, meanwhile, the user only needs to control the cylinder according to the user demand, carry out the transmission through drive assembly, and then carry out position control to the breakwater, thereby better prevent that sweeps and cooling water from splashing out, sweeps and cooling water are accepted the board through the sweeps cooling water, the sweeps is accomodate the groove and is accomodate the groove with the cooling water and carry out the separation and storage, effectively improved operational environment, high durability and convenient use, therefore, the clothes hanger is strong in practicability.

Drawings

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

fig. 2 is a schematic view of the split structure of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying fig. 1-2.

The embodiments described by referring to the drawings are exemplary and intended to be used for explaining the present application and are not to be construed as limiting the present application. In the description of the present application, it is to be understood that the terms "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and thus should not be considered limiting. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise. In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral connections; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate. In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact of the first and second features, or may comprise contact of the first and second features not directly but through another feature in between. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly above and obliquely above the second feature, or simply meaning that the first feature is at a lesser level than the second feature.

As shown in fig. 1-2, a water blocking mechanism for a polishing machine includes: a fixed plate 1, a transmission component 2, a power component 3 and a water retaining component 4, wherein the transmission component 2 and the power component 3 are both arranged on the fixed plate 1, the water retaining component 4 is connected with the transmission component 2, the transmission component 2 comprises a fixed shaft 21, a rotating fluted disc 22, a straight rack 23 and arc-shaped teeth 24, the water retaining component 4 comprises a synchronizing shaft 41 and a water retaining plate 42, the fixing shaft 21 and the arc-shaped teeth 24 are arranged on the fixing plate 1, the rotating fluted disc 22 is sleeved on the fixed shaft 21, the water baffle 42 is in an arc-shaped structure, one end of the water guard plate 42 is fixed on the rotating fluted disc 22, the synchronizing shaft 41 is arranged on the other end of the water guard plate 42, the synchronizing shafts 41 are all provided with gears 43, the gears 43 are meshed with the arc-shaped teeth 24, the synchronizing shaft 41 is disposed on the arc-shaped teeth 24 in a rolling manner to drive the water guard 42 to rotate along the arc-shaped teeth 24 around the rotating toothed disc 22.

As a further improvement, power component 3 includes cylinder 31 and connecting block 32, cylinder 31 is fixed in on the fixed plate 1, connecting block 32 sets up in the gas pole front end of cylinder 31, spur rack 23 is fixed in the lower extreme of connecting block 32, spur rack 23 meshes with rotation fluted disc 22 mutually, thereby cylinder 31 drives rotation fluted disc 22 through driving 23 rectilinear movement of spur rack and rotates and then drive breakwater 42 and rotate on arc tooth 24.

As a further improvement, the inboard of breakwater 24 is provided with first connecting portion, breakwater 24 is fixed in on the rotation fluted disc 22 through first connecting portion, first connecting portion are fan-shaped structure, breakwater 24's the outside is provided with the second connecting portion, second connecting portion department is located to 41 covers of synchronizing shaft, the second connecting portion are the ring dress structure.

As a further improvement, the water retaining assembly 4 further includes the sweeps cooling water bearing plate 43, the sweeps accomodates groove 44 and cooling water and accomodates groove 45, the sweeps is accomodate groove 44 and is fixed in on fixed plate 1, be provided with the roof on the sweeps accomodates groove 44, the sweeps cooling water bearing plate 43 is fixed in on the roof, there is the clearance between sweeps cooling water bearing plate 43 and fixed plate 1, sweeps and cooling water on the sweeps cooling water bearing plate 43 fall into sweeps accomodate groove 44 department through the clearance, cooling water accomodates groove 45 and sets up in the lower extreme of sweeps accomodate groove 44, the cooling water that the sweeps was accomodate on groove 44 spills over and falls into cooling water and accomodate groove 45 department to realize the separation of sweeps and cooling water.

As a further improvement of the present invention, the sweeps cooling water receiving plate 43 is located the lower end of the water baffle 42, the sweeps cooling water receiving plate 43 is a step-like structure, the sweeps cooling water receiving plate 43 includes a first receiving portion and a second receiving portion, the second receiving portion is disposed at both ends of the first receiving portion, and the height of the first receiving portion is lower than that of the second receiving portion.

The above is not intended to limit the technical scope of the present invention, and any modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention are all within the scope of the technical solution of the present invention.

Claims (5)

1. The utility model provides a water-retaining mechanism for burnishing machine which characterized in that, it includes: fixed plate, drive assembly, power component and manger plate subassembly, drive assembly all sets up on the fixed plate with power component, manger plate subassembly is connected with drive assembly, drive assembly includes the fixed axle, rotates fluted disc, spur rack and arc tooth, manger plate subassembly includes synchronizing shaft and breakwater, the fixed axle sets up on the fixed plate with the arc tooth, it locates on the fixed axle to rotate the fluted disc cover, the breakwater is circular-arc structure, the one end of breakwater is fixed in and rotates on the fluted disc, the synchronizing shaft sets up on the other end of breakwater, it all has the gear to set up on the synchronizing shaft, the gear meshes with the arc tooth mutually, the synchronizing shaft rolls and sets up on the arc tooth and drives the breakwater and uses the rotation fluted disc to rotate the arc tooth rotation along the center.

2. The water retaining mechanism for the polishing machine according to claim 1, wherein the power assembly comprises a cylinder and a connecting block, the cylinder is fixed on the fixing plate, the connecting block is disposed at a front end of the gas rod of the cylinder, the spur rack is fixed at a lower end of the connecting block, the spur rack is meshed with the rotating toothed disc, and the cylinder drives the rotating toothed disc to rotate by driving the spur rack to move linearly, so as to drive the water retaining plate to rotate on the arc-shaped teeth.

3. The water retaining mechanism for the polishing machine as claimed in claim 1, wherein the inner side of the water retaining plate is provided with a first connecting portion, the water retaining plate is fixed on the rotating fluted disc through the first connecting portion, the first connecting portion is of a fan-shaped structure, the outer side of the water retaining plate is provided with a second connecting portion, the synchronizing shaft is sleeved at the second connecting portion, and the second connecting portion is of a ring-shaped structure.

4. The water retaining mechanism for the polishing machine according to claim 1, wherein the water retaining assembly further comprises a waste cooling water receiving plate, a waste receiving groove and a cooling water receiving groove, the waste receiving groove is fixed on the fixing plate, a top plate is arranged on the waste receiving groove, the waste cooling water receiving plate is fixed on the top plate, a gap exists between the waste cooling water receiving plate and the fixing plate, waste and cooling water on the waste cooling water receiving plate fall into the waste receiving groove through the gap, the cooling water receiving groove is arranged at the lower end of the waste receiving groove, and cooling water on the waste receiving groove overflows into the cooling water receiving groove, so that waste and cooling water are separated.

5. The water guard mechanism for the polishing machine as claimed in claim 4, wherein the waste cooling water receiving plate is located at a lower end of the water guard, the waste cooling water receiving plate is of a step-like structure, the waste cooling water receiving plate includes a first receiving portion and a second receiving portion, the second receiving portion is disposed at two ends of the first receiving portion, and a height of the first receiving portion is lower than a height of the second receiving portion.

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