CN218658584U - Adjustable multi-station glass mold clamp - Google Patents

Abstract

The utility model discloses an adjustable multi-station glass mold clamp, which comprises a bottom plate, wherein the bottom plate is provided with a bottom plate strip-shaped groove, a left movable oil cylinder seat, a fixed oil cylinder seat and a right movable oil cylinder seat are sequentially arranged along the bottom plate strip-shaped groove bottom plate, and the left movable oil cylinder seat and the right movable oil cylinder seat are fixedly connected with the bottom plate through first bolts; the left movable oil cylinder base is fixedly provided with a left oil cylinder, a piston rod of the left oil cylinder is connected with a left pressing plate, the fixed oil cylinder base is fixedly provided with a fixed oil cylinder, a piston rod of the fixed oil cylinder is connected with a middle pressing plate, the right movable oil cylinder base is fixedly provided with a right oil cylinder, and a piston rod of the right oil cylinder is connected with a right pressing plate; and supporting blocks for supporting the glass mold are respectively arranged between the left oil cylinder and the fixed oil cylinder and between the fixed oil cylinder and the right oil cylinder on the bottom plate. The utility model discloses can not only push away simultaneously the location and press from both sides a plurality of glass moulds of dress, also can adjust the station size, make anchor clamps ability used repeatedly many times.

Description

Adjustable multi-station glass mold clamp

Technical Field

The utility model belongs to the technical field of the frock clamp of glass mold manufacturing usefulness, concretely relates to adjustable multistation glass mold clamp.

Background

In the production process of the semicircular glass mold, a clamp is generally required to fix the relative position of the cutting tool and the semicircular glass mold, and the semicircular glass mold is reliably clamped, which plays a crucial role in a cutting machine tool. The sizes of the clamps used by different glass molds are different, and when the glass molds are clamped, the position accuracy of the glass molds relative to the cutter and the cutting machine tool needs to be ensured by the clamps without being influenced by the technical level of workers.

At present, most of clamps for glass molds are used at each time according to the mold size and environmental data to design specific tool clamps, wherein most of the clamps are formed by processing aluminum blocks and sectional materials. The design and manufacturing cycle of the customized fixture is long, and the production cycle of the glass mold is greatly influenced. Moreover, after the production of the glass mold is finished, the specific clamp is often scrapped and cannot be recycled, so that a large amount of waste is undoubtedly caused, and the production cost of a company is increased. Therefore, it is desirable to provide an adjustable clamp that is structurally sound, reusable for many times, and has good performance.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a rational in infrastructure, used repeatedly many times, and have the adjustable multistation anchor clamps of better performance.

In order to achieve the technical purpose, the technical scheme of the utility model is that:

the adjustable multi-station glass mold clamp comprises a bottom plate, wherein a bottom plate strip-shaped groove is formed in the bottom plate, a first bolt penetrates through the bottom plate and can slide along the bottom plate strip-shaped groove, a first nut is matched with the first bolt, a left movable oil cylinder seat, a fixed oil cylinder seat and a right movable oil cylinder seat are sequentially arranged on the bottom plate along the bottom plate strip-shaped groove, and the left movable oil cylinder seat and the right movable oil cylinder seat are fixedly connected with the bottom plate through the first bolt and the first nut;

the left movable oil cylinder seat is fixedly provided with a left oil cylinder, a piston rod of the left oil cylinder is connected with a left pressing plate, the fixed oil cylinder seat is fixedly provided with a fixed oil cylinder, a piston rod of the fixed oil cylinder is connected with a middle pressing plate, the right movable oil cylinder seat is fixedly provided with a right oil cylinder, and a piston rod of the right oil cylinder is connected with a right pressing plate; and supporting blocks for supporting the glass mold are respectively arranged between the left oil cylinder and the fixed oil cylinder and between the fixed oil cylinder and the right oil cylinder on the bottom plate.

When the oil cylinder is used, the first bolt and the first nut are disassembled, so that the left movable oil cylinder base and the right movable oil cylinder base can move on the bottom plate along the strip-shaped groove of the bottom plate; moving the left movable oil cylinder seat and the right movable oil cylinder seat according to the size of the glass mold, and adjusting the distance between the left oil cylinder and the fixed oil cylinder and the distance between the right oil cylinder and the fixed oil cylinder; after the space between the left oil cylinder and the fixed oil cylinder and the space between the right oil cylinder and the fixed oil cylinder are suitable for the glass mold, respectively fastening a first bolt and a first nut to fixedly connect the left movable oil cylinder base and the right movable oil cylinder base with the bottom plate; two semicircular glass molds are respectively placed between the left oil cylinder and the fixed oil cylinder and between the fixed oil cylinder and the right oil cylinder and are positioned on the supporting block of the bottom plate, the inner cavities of the two semicircular glass molds face the bottom plate, the oil cylinders (the left oil cylinder, the fixed oil cylinder and the right oil cylinder) drive the pressing plates (the left pressing plate, the middle pressing plate and the right pressing plate) to move towards the side of the bottom plate, and when the glass molds are pressed on the supporting block by the pressing plates, the glass mold clamping is completed.

In order to facilitate the processing of the arc surface of the glass mold, the contact surface between the clamp and the arc surface of the glass mold is reduced, and meanwhile, in order to facilitate the clamping and automatic pushing positioning when the glass mold is transversely clamped and positioned. Between left side hydro-cylinder and decide the hydro-cylinder and decide between hydro-cylinder and the right hydro-cylinder, left side clamp plate, well clamp plate and right clamp plate are provided with down the bolt respectively, down the bolt includes first bolt and the second bolt that pushes down, first bolt and the second bolt that pushes down are located bottom plate bar groove both sides respectively.

When the glass mold clamping device is used, a glass mold is transversely placed between the left oil cylinder and the fixed oil cylinder and between the fixed oil cylinder and the right oil cylinder, the oil cylinders (the left oil cylinder, the fixed oil cylinder and the right oil cylinder) drive the press plates (the left press plate, the middle press plate and the right press plate) to move towards the bottom plate side, the first pressing bolt and the second pressing bolt of the left press plate and the first pressing bolt and the second pressing bolt of the middle press plate abut against the arc surface of the glass mold between the left oil cylinder and the fixed oil cylinder, the first pressing bolt and the second pressing bolt of the right press plate and the first pressing bolt and the second pressing bolt of the middle press plate abut against the arc surface of the glass mold between the right oil cylinder and the fixed oil cylinder, and when the glass mold is pressed on the supporting block by the pressing bolts, the glass mold clamping device is completed.

The left pressure plate side and the right pressure plate side of the middle pressure plate are respectively provided with a press bolt, the press bolt on the left pressure plate side is matched with the press bolt on the left pressure plate for use, and the press bolt on the right pressure plate side is matched with the press bolt on the right pressure plate for use.

The supporting block comprises a front supporting block and a rear supporting block, and the front supporting block and the rear supporting block are respectively positioned on two sides of the strip-shaped groove of the bottom plate.

In order to adjust the distance between the front supporting block and the rear supporting block conveniently, the glass mold is suitable for glass molds with different sizes. The front supporting block and the rear supporting block are respectively provided with a supporting block strip-shaped groove for a second bolt to pass through, the second bolt can slide along the supporting block strip-shaped groove, and the front supporting block and the rear supporting block are fixedly connected with the bottom plate through the second bolt.

When the glass mold is used, the second bolt is detached and can move in the strip-shaped groove of the supporting block, the distance between the front supporting block and the rear supporting block is adjusted according to the size of the glass mold, and after the distance is adjusted, the second bolt is fastened to fixedly connect each supporting block with the bottom plate.

Between the left oil cylinder and the fixed oil cylinder, the front supporting block comprises a first front supporting block and a second front supporting block, and the rear supporting block comprises a first rear supporting block and a second rear supporting block; between deciding hydro-cylinder and right hydro-cylinder, preceding supporting block includes third preceding supporting block and fourth preceding supporting block, the back supporting block includes supporting block behind third and the fourth.

The bottom plate strip-shaped groove comprises a left bottom plate strip-shaped groove and a right bottom plate strip-shaped groove, and the left bottom plate strip-shaped groove and the right bottom plate strip-shaped groove are respectively positioned on two sides of the fixed oil cylinder seat.

When glass mold is vertical to be pressed from both sides when (promptly, left side hydro-cylinder and fixed hydro-cylinder are located the glass mold left and right sides respectively) between left hydro-cylinder and fixed hydro-cylinder, left side clamp plate (the first bolt and the second of left side clamp plate are pushed down the bolt) and are pressed on the glass mold arc surface left side, well clamp plate (the first bolt and the second of pushing down the bolt of well clamp plate) are pressed on glass mold arc surface right side, it pushes down the in-process at the hydro-cylinder drive clamp plate, the glass mold is under left side clamp plate and well clamp plate effect, can push away the centre automatically. When the glass mold is vertically clamped between the right oil cylinder and the fixed oil cylinder, the glass mold can be automatically pushed in the same principle.

When the glass mold is transversely clamped between the left oil cylinder and the fixed oil cylinder (namely, the left oil cylinder and the fixed oil cylinder are respectively positioned at two ends of the glass mold), the first pressing bolt of the left pressing plate and the first pressing bolt of the middle pressing plate are pressed on the left side of the arc surface of the glass mold, the second pressing bolt of the left pressing plate and the second pressing bolt of the middle pressing plate are pressed on the right side of the arc surface of the glass mold, and the glass mold can be automatically pushed in under the action of the first pressing bolt and the second pressing bolt in the pressing process of the pressing bolt driven by the oil cylinder. When the glass mold is transversely clamped between the right oil cylinder and the fixed oil cylinder, the glass mold can be automatically pushed in the same principle.

The utility model discloses can not only push away simultaneously the well location and press from both sides a plurality of glass moulds of dress, also adjustable station size makes anchor clamps can used repeatedly many times.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the top view structure of the present invention.

Fig. 3 is a left side view structure diagram of the present invention.

Fig. 4 is a schematic view of the structure of the pressing bolt of the present invention.

Fig. 5 is a schematic view of the structure of the support block of the present invention.

Detailed Description

As shown in fig. 1-5, the adjustable multi-station glass mold clamp comprises a bottom plate 1, wherein the bottom plate 1 is transverse to the bottom plate 1, a bottom plate strip-shaped groove is formed in the bottom plate 1, a first bolt 81 penetrates through the bottom plate 1 and can slide along the bottom plate strip-shaped groove, a first nut 82 is used by matching the first bolt 81, the bottom plate strip-shaped groove comprises a left bottom plate strip-shaped groove 11 and a right bottom plate strip-shaped groove 12, the left bottom plate strip-shaped groove 11 and the right bottom plate strip-shaped groove 12 are arranged along the same straight line, and a fixed oil cylinder seat 22 is fixedly arranged between the left bottom plate strip-shaped groove 11 and the right bottom plate strip-shaped groove 12 and is formed in the bottom plate 1.

The bottom plate 1 is provided with a left movable oil cylinder seat 21 and a right movable oil cylinder seat 23 on two sides of a fixed oil cylinder seat 22, the left movable oil cylinder seat 21 is fixedly connected with the bottom plate 1 through a first bolt and a first nut at the position of a left bottom plate strip-shaped groove 11, the first bolt penetrates through the left bottom plate strip-shaped groove 11, the right movable oil cylinder seat 23 is fixedly connected with the bottom plate 1 through the first bolt and the first nut at the position of a right bottom plate strip-shaped groove 12, and the first bolt penetrates through the right bottom plate strip-shaped groove 12. As shown in fig. 1, the first bolt and the first nut are referred to as a bolt and a nut for connecting the base plate and the movable cylinder blocks 21 and 23, and are not particularly limited to a certain bolt or nut.

The left side moves hydro-cylinder seat 21 fixed mounting and has left hydro-cylinder 31, the piston rod of left hydro-cylinder 31 is connected with left clamp plate 41, decide hydro-cylinder seat 22 fixed mounting and decide hydro-cylinder 32, the piston rod of deciding hydro-cylinder 32 is connected with well clamp plate 42, it has right hydro-cylinder 33 to move hydro-cylinder seat 23 fixed mounting on the right side, the piston rod of right hydro-cylinder 33 is connected with right clamp plate 43.

Between left side hydro-cylinder 31 and fixed hydro-cylinder 32 and between fixed hydro-cylinder 32 and right hydro-cylinder 33, left side clamp plate 41, well clamp plate 42, right clamp plate 43 are provided with down the bolt respectively, as shown in fig. 3-4, down the bolt and include first down bolt 51 and second down bolt 52, between left side hydro-cylinder 31 and fixed hydro-cylinder 32, first down bolt 51 and second down bolt 52 are located left bottom plate bar groove 11 both sides respectively, between fixed hydro-cylinder 32 and right hydro-cylinder 33, first down bolt and 51 second down bolt 52 are located right bottom plate bar groove 12 both sides respectively. That is, the first and second hold- down bolts 51 and 52 are respectively located at both sides of the bottom plate linear groove. The left pressure plate 41 side and the right pressure plate 43 side of the middle pressure plate 42 are respectively provided with a press bolt, the press bolt on the left pressure plate 41 side is used in cooperation with the press bolt of the left pressure plate 43, and the press bolt on the right pressure plate 43 side is used in cooperation with the press bolt of the right pressure plate 43. Here, the first and second hold-down bolts refer to bolts for holding down the glass mold, which are connected to the pressure plates (the left pressure plate 41, the middle pressure plate 42, and the right pressure plate 43), and are not particularly limited to a certain bolt.

Between left hydro-cylinder 31 and fixed hydro-cylinder 32 and between fixed hydro-cylinder 32 and right hydro-cylinder 33, bottom plate 1 is provided with the supporting shoe that supports the glass mould respectively, the supporting shoe includes preceding supporting shoe and back supporting shoe, between left hydro-cylinder 31 and fixed hydro-cylinder 32, preceding supporting shoe and back supporting shoe are located left bottom plate strip type groove 11 both sides respectively, between fixed hydro-cylinder 32 and right hydro-cylinder 33, preceding supporting shoe and back supporting shoe are located right bottom plate strip type groove 12 both sides respectively. Namely, the front supporting block and the rear supporting block are respectively positioned at two sides of the strip-shaped groove of the bottom plate.

As shown in fig. 1-2, between the left cylinder block 21 and the fixed cylinder block 22, the front support block includes a first front support block 71 and a second front support block 72, and the rear support block includes a first rear support block 61 and a second rear support block 62; between the fixed cylinder block 22 and the right cylinder block 23, the front support block includes a third front support block 73 and a fourth front support block 74, and the rear support block includes a third rear support block 63 and a fourth rear support block 64.

As shown in fig. 5, in the vertical direction of the bottom plate, the front support block (the first front support block 71, the second front support block 72, the third front support block 73, and the fourth front support block 74) and the rear support block (the first rear support block 61, the second rear support block 62, the third rear support block 63, and the fourth rear support block 64) are provided with support block grooves 13 through which the second bolts 83 pass, the second bolts 83 can slide along the support block strip grooves 13, and the front support block and the rear support block are fixedly connected with the bottom plate 1 through the second bolts 83. Here, the second bolt refers to a bolt for fixedly connecting each front supporting block with the bottom plate 1, and is not particularly referred to as a certain bolt.

When the glass mold is vertically clamped between the left oil cylinder and the fixed oil cylinder and between the fixed oil cylinder and the right oil cylinder, the second bolt is disassembled, so that the second bolt can move in the strip-shaped groove of the supporting block, the distance between each front supporting block and each rear supporting block is adjusted according to the length of the glass mold, and after the distance is adjusted, the second bolt is fastened, so that each supporting block is fixedly connected with the bottom plate; disassembling a first bolt and a first nut to enable a left movable oil cylinder seat and a right movable oil cylinder seat to be capable of displacing on the bottom plate along a bottom plate strip-shaped groove, moving the left movable oil cylinder seat and the right movable oil cylinder seat according to the width of the glass mold, adjusting the distance between a left oil cylinder and a fixed oil cylinder and the distance between a right oil cylinder and the fixed oil cylinder, and respectively fastening the first bolt and the first nut after the distance between the left oil cylinder and the fixed oil cylinder and the distance between the right oil cylinder and the fixed oil cylinder are suitable for the width of the glass mold, so that the left movable oil cylinder seat and the right movable oil cylinder seat are fixedly connected with the bottom plate; two semicircular glass molds are vertically placed between a left oil cylinder and a fixed oil cylinder and between a fixed oil cylinder and a right oil cylinder respectively, the semicircular glass molds are positioned on a supporting block of a bottom plate, inner cavities of the semicircular glass molds face the bottom plate, oil cylinders (the left oil cylinder, the fixed oil cylinder and the right oil cylinder) drive press plates (a left press plate, a middle press plate and a right press plate) to move towards the side of the bottom plate, the press plates drive pressing bolts to press down arc surfaces of the glass molds, and clamping is completed when the pressing bolts press the glass molds on the supporting block. It should be noted that, between the left oil cylinder and the fixed oil cylinder, the first pressing bolt and the second pressing bolt of the left pressing plate are pressed on the left side of the arc surface of the glass mold, the first pressing bolt and the second pressing bolt of the middle pressing plate are pressed on the right side of the arc surface of the glass mold, between the fixed oil cylinder and the right oil cylinder, the first pressing bolt and the second pressing bolt of the middle pressing plate are pressed on the left side of the arc surface of the glass mold, and the first pressing bolt and the second pressing bolt of the right pressing plate are pressed on the right side of the arc surface of the glass mold.

When the glass mold is transversely clamped between the left oil cylinder and the fixed oil cylinder and between the fixed oil cylinder and the right oil cylinder, the second bolt is disassembled, so that the second bolt can move in the strip-shaped groove of the supporting block, the distance between each front supporting block and each rear supporting block is adjusted according to the width of the glass mold, and after the distance is adjusted, the second bolt is fastened, so that each supporting block is fixedly connected with the bottom plate; disassembling a first bolt and a first nut to enable the left movable oil cylinder seat and the right movable oil cylinder seat to be capable of displacing on the bottom plate along the strip-shaped groove of the bottom plate, moving the left movable oil cylinder seat and the right movable oil cylinder seat according to the length of the glass mold, adjusting the distance between the left oil cylinder and the fixed oil cylinder and the distance between the right oil cylinder and the fixed oil cylinder, and respectively fastening the first bolt and the first nut after the distance between the left oil cylinder and the fixed oil cylinder and the distance between the right oil cylinder and the fixed oil cylinder are suitable for the width of the glass mold, so that the left movable oil cylinder seat and the right movable oil cylinder seat are fixedly connected with the bottom plate; two semicircular glass molds are respectively and transversely placed between a left oil cylinder and a fixed oil cylinder and between a fixed oil cylinder and a right oil cylinder, the semicircular glass molds are positioned on a supporting block of a bottom plate, inner cavities of the semicircular glass molds face the bottom plate, oil cylinders (the left oil cylinder, the fixed oil cylinder and the right oil cylinder) drive press plates (a left press plate, a middle press plate and a right press plate) to move towards the side of the bottom plate, the press plates drive pressing bolts to press down arc surfaces of the glass molds, and clamping is completed when the pressing bolts press the glass molds on the supporting block. Between the left oil cylinder and the fixed oil cylinder, a first pressing bolt of the left pressing plate and a first pressing bolt of the middle pressing plate are pressed on the left side of the arc surface of the glass mold, and a second pressing bolt of the left pressing plate and a second pressing bolt of the middle pressing plate are pressed on the right side of the arc surface of the glass mold; between the fixed oil cylinder and the right oil cylinder, a first pressing bolt of the middle pressing plate and a first pressing bolt of the right pressing plate are pressed on the left side of the arc surface of the glass mold, and a second pressing bolt of the middle pressing plate and a second pressing bolt of the right pressing plate are pressed on the right side of the arc surface of the glass mold.

The utility model discloses can not only push away simultaneously the location and press from both sides a plurality of glass moulds of dress, also can adjust the station size, make anchor clamps ability used repeatedly many times.

The above-mentioned embodiment does not limit the utility model in any way, and all the technical solutions that adopt the mode of equivalent replacement or equivalent transform to obtain all fall within the protection scope of the utility model.

Claims (6)

1. The adjustable multi-station glass mold clamp is characterized by comprising a bottom plate, wherein the bottom plate is provided with a bottom plate strip-shaped groove, the bottom plate strip-shaped groove is used for enabling a first bolt to penetrate through the bottom plate, the first bolt is matched with a first nut, a left movable oil cylinder seat, a fixed oil cylinder seat and a right movable oil cylinder seat are sequentially arranged on the bottom plate along the bottom plate strip-shaped groove, and the left movable oil cylinder seat and the right movable oil cylinder seat are fixedly connected with the bottom plate through the first bolt and the first nut; the left movable oil cylinder seat is fixedly provided with a left oil cylinder, a piston rod of the left oil cylinder is connected with a left pressing plate, the fixed oil cylinder seat is fixedly provided with a fixed oil cylinder, a piston rod of the fixed oil cylinder is connected with a middle pressing plate, the right movable oil cylinder seat is fixedly provided with a right oil cylinder, and a piston rod of the right oil cylinder is connected with a right pressing plate; and supporting blocks for supporting the glass mold are respectively arranged between the left oil cylinder and the fixed oil cylinder and between the fixed oil cylinder and the right oil cylinder on the bottom plate.

2. The adjustable multi-station glass mold clamp of claim 1, wherein: between left side hydro-cylinder and decide the hydro-cylinder and decide between hydro-cylinder and the right hydro-cylinder, left side clamp plate, well clamp plate and right clamp plate are provided with down the bolt respectively, down the bolt includes first bolt and the second bolt that pushes down, first bolt and the second bolt that pushes down are located bottom plate bar groove both sides respectively.

3. The adjustable multi-station glass mold clamp of claim 1, wherein: the supporting blocks comprise a front supporting block and a rear supporting block, and the front supporting block and the rear supporting block are respectively positioned on two sides of the strip-shaped groove of the bottom plate.

4. An adjustable multi-station glass mold clamp according to claim 3, wherein: the front supporting block and the rear supporting block are provided with supporting block strip grooves for the second bolts to penetrate through, and the front supporting block and the rear supporting block are fixedly connected with the bottom plate through the second bolts.

5. The adjustable multi-station glass mold clamp of claim 4, wherein: between the left oil cylinder and the fixed oil cylinder, the front supporting block comprises a first front supporting block and a second front supporting block, and the rear supporting block comprises a first rear supporting block and a second rear supporting block; between deciding hydro-cylinder and right hydro-cylinder, preceding supporting block includes third preceding supporting block and fourth preceding supporting block, the back supporting block includes supporting block behind third and the fourth.

6. The adjustable multi-station glass mold clamp of claim 1, wherein: the bottom plate strip-shaped groove comprises a left bottom plate strip-shaped groove and a right bottom plate strip-shaped groove, and the left bottom plate strip-shaped groove and the right bottom plate strip-shaped groove are respectively positioned on two sides of the fixed oil cylinder seat.

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