CN214323030U - Grinding machine cover - Google Patents

Abstract

The utility model relates to a grinding machine cover body, include: the first cover shell is provided with an inner cavity for accommodating the grinding machine, the first cover shell is provided with a feed inlet, materials are placed on the grinding machine from the feed inlet for processing, the door moving mechanism is arranged on the feed inlet and comprises one or more door bodies, an upper guide rail and a lower guide rail, the upper guide rail and the lower guide rail are respectively fixed in the first cover shell, the one or more door bodies are respectively provided with a sliding upper end matched with the upper guide rail for sliding and a sliding lower end matched with the lower guide rail for sliding, the door bodies are used for sealing or opening the feed inlet after sliding, and an upper shielding piece is arranged, a long-term safe effective to the door body structure that has guaranteed to prevent that the grinding machine housing can be fine prevents oil gas and bits material to door body structure's destruction, and the oil gas and the bits material of production can obtain fine collection processing for sheltering from the seam of slip upper end and last guide rail cooperation department, lower shielding piece for shelter from the seam of slip lower extreme and lower guide rail cooperation department.

Description

Grinding machine cover

Technical Field

The utility model relates to a grinding machine cover body.

Background

Grinding machines are a type of equipment used for grinding, a certain amount of scraps and oil gas are generated and emitted in the process of grinding, the scattered scraps and the emitted oil gas pollute the surrounding environment, on the other hand, if the specified operation is not proper in the process of grinding, the operators are injured, and thirdly, various factors of the surrounding environment can also damage the grinding machine. For the above reasons, a cover is generally provided outside the grinding machine to prevent the above situations.

Among the current grinding machine cover body structure, generally all be provided with the feed inlet that is used for the feeding, be provided with the door body that can open and shut on the feed inlet, at the grinding in-process, close the door body to prevent splashing and the giving off of oil gas of bits material, guarantee the safety and the stability of grinding process, nevertheless bits material can pollute the connection structure between door and the cover body with oil gas, cause connection structure's damage. In addition, the existing grinding machine cannot recover and process the oil gas and scraps well, so that the pollution and the damage of the cover body are caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a can prevent that oil gas and bits material from polluting and damaging door body connection structure's the grinding machine cover body.

In order to realize above-mentioned purpose, provide a grinding machine cover body, including first housing, first housing is last to have the feed inlet, still includes:

move a mechanism, set up and set up on the feed inlet, including one or more door bodies, upper guideway, lower guideway, go up shielding piece and lower shielding piece, upper guideway and lower guideway are fixed respectively in first housing, one or more door bodies all have one with the gliding slip upper end of upper guideway cooperation and one with the gliding slip lower extreme of lower guideway cooperation, the door body through slide with right the feed inlet seal or open, last shielding piece be used for sheltering from the last seam of slip upper end and upper guideway cooperation department, lower shielding piece be used for sheltering from the lower seam of slip lower extreme and lower guideway cooperation department.

In some embodiments, the lower portion of the first housing has a lower surface for collecting debris.

In some embodiments, the lower surface is provided with one or more blanking ports, and the material collecting mechanism is arranged below the blanking ports.

In some embodiments, the collection mechanism comprises:

the feeding trough is arranged according to the feeding port and can receive the scraps falling from the feeding port, the feeding trough is provided with a first opening for discharging,

a material collecting groove which is configured to receive scraps from the first opening and is provided with a second opening for discharging,

the chip collecting device comprises a plurality of charging chutes, a plurality of connecting in series and discharging chips into a collecting chute through first openings of the charging chutes at two ends, and/or b, connecting in parallel and discharging chips into the collecting chute through respective first openings.

In some embodiments, the upper shielding member is a slot, the upper guide rail is disposed in the slot, and the side wall of the slot shields the upper seam.

In some embodiments, the lower shielding member is a wall body, the wall body shields the lower seam, and the wall body is connected with the door body.

In some embodiments, the sliding upper end includes a plurality of upper slides slidably engaged with the upper track.

In some embodiments, the sliding lower end includes a plurality of lower slides that slidably engage the lower track.

In some embodiments, the door body is provided with a window, and the window is covered with a transparent baffle.

In some embodiments, the grinding machine comprises a second housing for receiving a control panel of the grinding machine, the first housing surface has a receiving groove for receiving the second housing, and the second housing is rotatably connected in the receiving groove.

The utility model discloses a grinding machine housing can be fine prevent oil gas and bits material to the destruction of door body structure, guaranteed that the long-term safety of sliding door structure use is effective, the oil gas and the bits material of production can obtain fine collection processing to, in some embodiment modes, the housing of grinding machine has set up detached window form and access door respectively to observing and overhauing.

Drawings

Fig. 1 is a schematic view of an external structure of a grinding machine cover.

Fig. 2 is a schematic front structural view of a grinding machine cover body.

Fig. 3 is a sectional view taken along the plane a-a of fig. 2.

Fig. 4 is a schematic structural view of the door moving mechanism.

Fig. 5 is a partial schematic view of the upper portion of the door moving mechanism.

Fig. 6 is a schematic sectional view of the upper portion of the door moving mechanism.

Fig. 7 is a partial schematic view of the lower portion of the door moving mechanism.

Fig. 8 is a schematic sectional view of the lower portion of the door moving mechanism.

Fig. 9 is a schematic structural view of the lower surface of the grinder cover.

Fig. 10 is a schematic structural view of the aggregate mechanism.

Fig. 11 is a bottom view of the collection mechanism.

In the figure, 1, a first housing, 10, a door moving mechanism, 11, a sliding upper end, 111, an upper sliding block, 112, an upper joint, 12, a sliding lower end, 121, a lower sliding block, 122, a lower joint, 13, a window, 20, a lower surface, 21, a blanking port, 30, a second housing, 40, a window, 50, an upper guide rail, 60, a lower guide rail, 70, an upper shielding mechanism, 71, a side wall, 80, a lower shielding mechanism, 90, a cross beam, 100, an aggregate mechanism, 12, a sliding lower end, 101, a blanking groove, 1011, a first outlet, 102, a material collecting groove, 1021, a second outlet and 103 are connected in series.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings and examples.

As shown in fig. 1, the grinding machine cover body comprises a first cover shell 1 and a door moving mechanism 10, wherein the first cover shell 1 is provided with a feeding hole 2,

the door moving mechanism 10 is arranged on the feed port 2, and the structure of the door moving mechanism is as shown in fig. 4, and includes one or more door bodies 10, an upper guide rail 50, a lower guide rail 60, an upper shielding member 70 and a lower shielding member 80, with reference to fig. 3, the upper guide rail 50 and the lower guide rail 60 are respectively fixed in the first housing 1, the door bodies 10 each have a sliding upper end 11 sliding in cooperation with the upper guide rail 50 and a sliding lower end 12 sliding in cooperation with the lower guide rail 60, the door body 10 slides to close or open the feed port 2, with reference to fig. 5 and 6, the upper shielding member 70 is used for shielding an upper seam 112 at the cooperation position of the sliding upper end 11 and the upper guide rail 50, with reference to fig. 7 and 8, and the lower shielding member 80 is used for shielding a lower seam 122 at the cooperation position of the sliding lower end 12 and the lower guide rail 60. The upper shielding piece and the lower shielding piece can well resist scraps splashed in the grinding process, the scraps are prevented from entering the upper joint and the lower joint, the matching degree between the door body and the upper and lower guide rails can be permanently ensured, and the phenomenon that the door body slides and is blocked and damaged due to the scraps entering the upper and lower joints is avoided.

Referring to fig. 5 and 6, the sliding upper end 11 includes a plurality of upper sliders 111, and the upper sliders 111 are slidably engaged with the upper rail 50. As shown in fig. 6, the upper guide rail may be a cylindrical guide rail, the upper sliding block has a corresponding cylindrical groove, the shapes of the upper sliding block and the upper guide rail are matched with each other, so that the upper sliding block can slide along the axial direction of the cylindrical guide rail, the cylindrical axial direction should be set to be consistent with the sliding direction of the door body, in this embodiment, the upper shielding member 70 is a groove body, the upper guide rail 50 is disposed in the groove body, the side wall 71 of the groove body shields the upper seam 112, the upper shielding member of the groove body structure is particularly suitable for being used as a shielding component of the upper guide rail, because the groove body can shield the upper seam from the lower part and the side surface, while the position of the upper guide rail is generally located above the grinding position, and the upper shielding member of the groove body structure can well shield scraps splashed from the lower grinding position.

Referring to fig. 7 and 8, the lower sliding end 12 includes a plurality of lower slides 121, and the lower slides 121 are slidably engaged with the lower rail 60. As shown in fig. 8, the lower guide rail may also be a cylindrical guide rail, the lower slider may also have a corresponding cylindrical groove, the lower slider and the lower guide rail are mutually matched in shape, so that the lower sliding block can slide along the axial direction of the cylindrical guide rail, the axial direction of the cylinder should be set to be consistent with the sliding direction of the door body, in this embodiment, the lower shielding member 80 is a wall body, which shields the lower seam 122, the wall 80 is connected to the door 10, and the structure of connecting the wall to the door is particularly suitable for being used as a shielding part of a lower guide rail, this is because the lower seam can be shielded from the side and from above after the connection between the wall and the door, the lower guide rail is generally positioned on the side surface or below the grinding position, and the wall body structure connected with the door body can well protect scraps splashed from the side surface and the upper grinding position.

In this embodiment, the door body 10 is provided with a window 13, and the window is covered with a transparent baffle. So that the material processed therein is observed.

Referring to fig. 2 and 3, the lower portion of the first housing 1 has a lower surface 20 for collecting debris. Further, the lower surface 20 has a structure as shown in fig. 9, wherein one or more blanking ports 21 are formed in the lower surface 20, and the collecting mechanism 100 is disposed below the blanking ports 21. Grinding falling from the grinding machine can directly fall onto the lower surface 20, and when the grinding machine is cleaned, scraps can be flushed into a plurality of blanking ports 21 of the lower surface 20 through flushing, and finally the scraps are collected by the collecting mechanism 100 and then uniformly discharged.

One specific construction of the aggregate mechanism is shown in fig. 10 and 11, and includes a chute 101 and a chute 102, wherein,

the blanking groove 101 is configured according to the blanking port 21, the blanking groove 101 is arranged to receive scraps falling from the blanking port 21, the blanking groove 101 is provided with a first opening 1011 for discharging, the blanking groove 101 is a groove body with an open upper part, the size of the groove body needs to be capable of covering the complete blanking port, so that the fallen scraps can be basically and completely collected by the blanking groove 101, the first opening 1011 of the blanking groove 101 is arranged on the side surface,

the trough 102 is configured to receive the scraps from the first opening 1011, and the trough 102 has a second opening 1021 for discharging, and the second opening 1021 is disposed at the bottom of the trough 102 in this embodiment.

The multiple charging chutes 101 are connected in series and discharge the chips into the collecting chute 101 through the first openings 1011 of the charging chutes 101 at two ends, and/or are connected in parallel and discharge the chips into the collecting chute 102 through the respective first openings 1011. The principle of the arrangement mode of the charging chutes 101 is mainly beneficial to centralized collection of chips, in this embodiment, the front ends of the two charging chutes 101 are connected in series by a series of connecting grooves 103, the first openings 1011 are formed at the tail ends of the two charging chutes 101, the collecting chutes 102 are simultaneously arranged below the two first openings and used for collecting the chips from the two charging chutes 101, for the favorable falling of the chips, the charging chutes 101 can be properly provided with slope bottom surfaces declined towards the collecting chutes 102, and the bottom surfaces of the collecting chutes 102 can also decline towards the second openings 1021, so as to be beneficial to the falling of the chips from the second openings 1021. In practice, the second opening may also be connected to a pipe for directing the exhaust of the chips to a specific location.

Referring to fig. 1 and 2, the grinding machine cover further comprises a second cover 30 for accommodating a control panel of the grinding machine, the first cover 1 has a receiving groove 3 for receiving the second cover, and the second cover 30 is rotatably connected in the receiving groove 3. One mode of rotatable coupling is exactly through the pivot connection, the pivot of adoption can be solid pivot or hollow pivot, hollow portion in the hollow pivot can be used for the wiring, various circuit that link to each other with control panel can bury underground in hollow pivot, the effect of the protection circuit that the pivot still played, kill two birds with one stone, the casing drives control panel wherein and rotates to realize that diversified adjustable of control panel angle, so that the operator controls the grinding machine in each angle.

The grinding machine cover body is assembled outside the grinding machine, when materials need to be processed, the door moving mechanism 10 is opened, the materials are placed into the grinding machine from the feeding port 2, then the door moving mechanism 10 is closed, the materials are processed through the operation control panel, in the processing process, the grinding machine cover body can isolate pollution such as chip materials, oil gas and the like generated in the processing process, the upper shielding piece 70 and the lower shielding piece 80 can prevent the chip materials from splashing into the upper joint 112 and the lower joint 122, the chip materials fall on the lower surface 20 of the cover body, and the chip materials enter the blanking port 21 through a water washing or blowing mode after being processed and fall into the collecting mechanism 100 for centralized recovery, the whole process is simple and efficient, and the grinding machine cover body is green and environment-friendly.

The embodiments of the present invention are only used for illustration, and do not limit the scope of the claims, and other substantially equivalent alternatives that may be conceived by those skilled in the art are within the scope of the present invention.

Claims (10)

1. The utility model provides a grinding machine cover body, includes first housing, has the feed inlet on the first housing, and its characterized in that still includes:

move a mechanism, set up and set up on the feed inlet, including one or more door bodies, upper guideway, lower guideway, go up shielding piece and lower shielding piece, upper guideway and lower guideway are fixed respectively in first housing, one or more door bodies all have one with the gliding slip upper end of upper guideway cooperation and one with the gliding slip lower extreme of lower guideway cooperation, the door body through slide with right the feed inlet seal or open, last shielding piece be used for sheltering from the last seam of slip upper end and upper guideway cooperation department, lower shielding piece be used for sheltering from the lower seam of slip lower extreme and lower guideway cooperation department.

2. The grinding machine cover of claim 1 wherein the lower portion of the first housing has a lower surface for collecting debris.

3. The grinder hood as defined in claim 2, wherein said lower surface is provided with one or more blanking ports, and a material collecting mechanism is provided below the blanking ports.

4. The grinder hood as defined in claim 3, wherein the aggregate mechanism comprises:

the feeding trough is arranged according to the feeding port and can receive the scraps falling from the feeding port, the feeding trough is provided with a first opening for discharging,

the collecting trough is configured to receive the scraps from the first opening, the collecting trough is provided with a second opening for discharging, and the scraps are discharged into the collecting trough by the first openings of the discharging troughs at two ends in series and/or are discharged into the collecting trough by the respective first openings in parallel.

5. The grinder hood as defined in claim 1, wherein said upper shield is a channel, said upper rail is disposed in said channel, and a sidewall of said channel shields said upper seam.

6. The grinder hood as defined in claim 1, wherein said lower shield is a wall covering said lower seam, said wall being connected to said door.

7. The grinder hood as defined in claim 1, wherein said sliding upper end includes a plurality of upper slides slidably engaged with the upper guide rails.

8. The grinder hood of claim 1, wherein the sliding lower end includes a plurality of lower blocks, the lower blocks being slidably engaged with the lower guide rails.

9. The grinder cover according to claim 1, wherein the door body is provided with a window, and the window is covered with a transparent baffle.

10. The grinder hood of claim 1, including a second housing for receiving a control panel of the grinder, the first housing having a receiving slot for receiving the second housing, the second housing being rotatably connected within the receiving slot.

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