CN218452842U - Bearing platform structure of glass edging equipment - Google Patents

Abstract

A bearing table structure of glass edge grinding equipment comprises a table base, a first base, a second base and an intermediate bracket positioned between the first base and the second base, wherein the first base is fixedly arranged on the table base, the second base is slidably arranged on the table base, and an interval adjusting structure which is connected and drives the second base to move relative to the first base to adjust the position is arranged on the table base; the middle bracket comprises a middle base which is slidably arranged on the base of the machine table, a roller assembly for slidably supporting glass and a height adjusting assembly for adjusting the height position of the roller assembly, and the roller assembly is arranged on the middle base through the height adjusting assembly. The staff can adjust the high position of wheel components through the altitude mixture control subassembly to make wheel components's height reach the required height that supports glass, let middle bracket can support glass, guarantee the normal clear of glass edging process.

Description

Bearing platform structure of glass edging equipment

Technical Field

The utility model relates to a glass processing equipment technical field, concretely relates to plummer structure of glass edging equipment.

Background

Glass is widely used in daily life, and glass is required to be subjected to edging treatment through glass edging equipment when leaving a factory.

Chinese patent publication No. CN109909834A discloses a horizontal glass high-speed fine-grinding linear bilateral edge grinding machine, which comprises a bed body opening and closing mechanism, a box body grinding wheel group arrangement mechanism, a main transmission mechanism, a pressing frame lifting mechanism, a feeding and discharging guide mechanism, a cooling water circulation system, an automatic center bracket mechanism and an electric cabinet control mechanism; the box body grinding wheel group arrangement mechanism is arranged on the bed body opening and closing mechanism, and the front end and the rear end of the box body grinding wheel group arrangement mechanism are respectively provided with a feeding end and a discharging end; the automatic center bracket mechanism is arranged on the bed body opening and closing mechanism and is positioned between the fixed end and the moving end of the bed body opening and closing mechanism and the middle position of the box body grinding wheel group arrangement mechanism; the cooling water circulation system is provided with two floor water tanks which are respectively arranged at the feeding end and the discharging end and are communicated through pipe fittings. The automatic center bracket mechanism comprises a main belt dragging plate, a synchronous belt mechanism, a driven belt dragging plate and a middle riding wheel group frame, wherein the main belt dragging plate is fixed on the support frame, the main belt dragging plate drives the driven belt dragging plate through the synchronous belt mechanism, and the driven belt dragging plate is fixedly connected with the middle riding wheel group frame, so that the riding wheel group frame can move synchronously along the opening and closing direction of the support frame.

However, in this technical solution, the height of the intermediate riding wheel assembly frame of the automatic center bracket mechanism cannot be adjusted, and when a processing error or an assembly error occurs to each component of the automatic center bracket mechanism, the height of the intermediate riding wheel assembly frame of the automatic center bracket mechanism is difficult to adapt to a required height for supporting glass during edging, so that the intermediate riding wheel assembly frame cannot effectively support the glass, which affects the normal edging work of the glass edging equipment.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a bearing platform structure of glass edging equipment.

The utility model provides a technical scheme that its technical problem adopted is:

a bearing table structure of glass edge grinding equipment comprises a table base, a first base, a second base and an intermediate bracket positioned between the first base and the second base, wherein the first base is fixedly arranged on the table base, the second base is slidably arranged on the table base, and an interval adjusting structure which is connected and drives the second base to move relative to the first base to adjust the position is arranged on the table base; the method is characterized in that: the middle bracket comprises a middle base which is slidably arranged on the base of the machine table, a roller assembly for slidably supporting glass and a height adjusting assembly for adjusting the height position of the roller assembly, and the roller assembly is arranged on the middle base through the height adjusting assembly; the machine table base is provided with a synchronous linkage mechanism which is connected with and drives the middle bracket to move synchronously along with the second base, the synchronous linkage mechanism is connected with and drives the second base to work, and the action output end of the synchronous linkage mechanism is fixedly connected with the middle base.

In the utility model, the front and rear ends of the machine base are both side-mounted beams, two fixed bases are arranged on the bottom of the first base, and the two fixed bases are respectively and fixedly mounted on the side-mounted beams at the front and rear ends of the machine base; the bottom of second base is equipped with two sliding bottom, and two sliding bottom are the direction sliding connection respectively on the side installation roof beam at both ends around the board base, the action output end and the sliding bottom transmission of interval adjustment structure are connected.

In the utility model, the middle base comprises two middle sliding seats and a middle mounting beam arranged at the top of the two middle sliding seats, and the two middle sliding seats are respectively connected to the side mounting beams at the front and the rear ends of the machine base in a guiding way; the height adjusting assembly comprises an adjusting mounting sleeve, an adjusting connecting seat and a height adjusting shaft, the adjusting mounting sleeve is fixedly arranged on the middle mounting beam, the adjusting connecting seat is connected to the bottom of the top supporting beam of the roller assembly, the upper end of the height adjusting shaft is in threaded connection with the adjusting connecting seat, and the lower end of the height adjusting shaft is inserted and matched in the adjusting mounting sleeve.

The utility model discloses in, be equipped with the locking screw that communicates its inner chamber on the regulation installation cover, threaded connection has the locking bolt of the cartridge section lock of altitude mixture control axle in the regulation installation cover in the locking screw.

The utility model discloses in, first base, second base all include two bearing beam, welding that set up side by side and strengthen frame, welding at the middle part of two bearing beam bottoms, weld a plurality of backup pads at two bearing beam tops, weld two mounting panels at the backup pad top, middle part reinforcing frame is located the intermediate position of two bearing beam bottoms, and the bottom of two bearing beam is connected with the reinforcing connecting piece.

In the utility model, the distance adjusting structure comprises an adjusting driving motor, a first synchronous transmission shaft, two distance adjusting screw rods, a first reduction box and a second reduction box, wherein the two distance adjusting screw rods are respectively and rotatably arranged on the tops of two side mounting beams through bearing seats, and each distance adjusting screw rod is provided with a screw rod matching seat which is arranged on a sliding base in a thread matching way; the two distance adjusting screw rods are respectively in transmission connection with the first reduction gearbox and the second reduction gearbox, and the adjusting driving motor is arranged on the first reduction gearbox and is in transmission connection with the first reduction gearbox; and two ends of the first synchronous transmission shaft are in transmission connection with the first reduction gearbox and the second reduction gearbox respectively.

In the utility model, the synchronous linkage mechanism comprises a second synchronous transmission shaft, a linkage annular belt and two synchronous control structures, the second synchronous transmission shaft is respectively rotatably installed on two side installation beams, the second synchronous transmission shaft is provided with a first linkage wheel, one side installation beam is provided with a second linkage wheel, the linkage annular belt is sleeved on the first linkage wheel and the second linkage wheel, one sliding base is provided with a first linkage fixture, and the first linkage fixture is clamped on the linkage annular belt; the synchronous control structure comprises a first synchronous wheel arranged on the side mounting beam, a second synchronous wheel arranged on the second synchronous transmission shaft, and a synchronous annular belt sleeved on the first synchronous wheel and the second synchronous wheel, wherein two second linkage clamps are arranged at the bottom of the middle bracket and are respectively clamped on the synchronous annular belts of the two synchronous control structures.

The utility model has the advantages that:

1. the utility model discloses an intermediate bracket has the height adjustment subassembly that is used for adjusting the wheel components height position, and the staff can adjust the wheel components height position through the height adjustment subassembly to make the wheel components height reach the required height of support glass, let intermediate bracket can support glass, guarantee the normal clear of glass edging process;

2. adopt two bearing beams to come a plurality of backup pads of bearing and mounting panel, set up middle part reinforcing and reinforcing connecting piece in the bottom of two bearing beams moreover, effectively improve the structural stability of first base, second base.

Drawings

The invention will be further explained with reference to the drawings and the embodiments below:

FIG. 1 is a first perspective view of the present embodiment;

FIG. 2 is a second perspective view of the present embodiment;

FIG. 3 is a third perspective view of the present embodiment;

FIG. 4 is an enlarged view of I in FIG. 3;

FIG. 5 is an enlarged partial view of the intermediate bracket;

FIG. 6 is a front view of the present embodiment;

FIG. 7 is a rear view of the present embodiment;

fig. 8 is a perspective view of the second base.

Detailed Description

In order to make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the attached drawings in the embodiments of the present invention will be combined below to clearly and completely describe the technical solution in the embodiments of the present invention.

Referring to fig. 1-8, a bearing table structure of glass edge grinding equipment comprises a table base 1, a first base 2, a second base 3 and a middle bracket 4 positioned between the first base 2 and the second base 3, wherein the first base 2 and the second base 3 are arranged oppositely, the first base 2 is fixedly arranged on the table base 1, the second base 3 is slidably arranged on the table base 1, and an interval adjusting structure 5 which is connected and drives the second base 3 to move and adjust positions relative to the first base 2 is arranged on the table base 1; the middle bracket 4 comprises a middle base 41 which is slidably mounted on the machine base 1, a roller assembly 42 for slidably supporting glass, and a height adjusting assembly 43 for adjusting the height position of the roller assembly 42, wherein the roller assembly 42 is mounted on the middle base 41 through the height adjusting assembly 43; the machine table base 1 is provided with a synchronous linkage mechanism 6 which is connected with and drives the middle bracket 4 to move synchronously along with the second base 3, the synchronous linkage mechanism 6 is connected with and drives the second base 3 to work, and the action output end of the synchronous linkage mechanism 6 is fixedly connected with the middle base 41, so that the middle bracket 4 is driven to move synchronously along with the second base 3.

As a preferred embodiment, the front end and the rear end of the machine base 1 are both side mounting beams 11, the bottom of the first base 2 is provided with two fixing bases 21, and the two fixing bases 21 are respectively fixedly mounted on the side mounting beams 11 at the front end and the rear end of the machine base 1; the bottom of second base 3 is equipped with two sliding base 31, and two sliding base 31 are the direction sliding connection respectively on the side installation roof beam 11 at both ends around the board base 1, the action output end and the sliding base 31 transmission of interval adjustment structure 5 are connected. Further, the top of the side mounting beam 11 is provided with a linear guide rail, and the sliding base 31 is provided with a first sliding block connected to the linear guide rail in a guiding manner.

As a preferred embodiment, the middle base 41 includes two middle sliding seats 411 and a middle mounting beam 412 installed on the tops of the two middle sliding seats 411, the two middle sliding seats 411 are respectively connected to the side mounting beams 11 at the front and rear ends of the machine base 1 in a guiding manner, and a second sliding block connected to a linear guide rail in a guiding manner is arranged on the middle sliding seat 411. The roller assembly 42 comprises a top supporting beam and a plurality of supporting rollers rotatably mounted on the top supporting beam, wherein the supporting rollers are used for slidably supporting the glass; the height adjusting assembly 43 comprises an adjusting mounting sleeve 431, an adjusting connecting seat 432 and a height adjusting shaft 433, wherein the adjusting mounting sleeve 431 is fixedly arranged on the middle mounting beam 412, the adjusting connecting seat 432 is connected to the bottom of a top supporting beam of the roller assembly 42, the upper end of the height adjusting shaft 433 is in threaded connection with the adjusting connecting seat 432, and the lower end of the height adjusting shaft 433 is inserted and matched in the adjusting mounting sleeve 431.

In this embodiment, the height adjusting shaft 433 includes a screw rod section 4331, a limiting section 4332, and an inserting section 4333, which are sequentially connected from top to bottom, the adjusting connection seat 432 includes an adjusting connection plate 4321, an adjusting connection pipe 4322, and an adjusting nut 4323, which are sequentially connected from top to bottom by welding, the adjusting connection plate 4321 is connected to the top support beam, the screw rod section 4331 is in threaded connection with a screw hole of the adjusting nut 4323, and can extend into the adjusting connection pipe 4322, so that the screw rod section 4331 and the adjusting nut 4323 cooperate to adjust the height position of the roller assembly 42; the diameter of the limiting section 4332 is larger than that of the inner ring of the adjusting and mounting sleeve 431, and the bottom of the limiting section 4332 abuts against the top of the adjusting and mounting sleeve 431, so that the height adjusting shaft 433 is matched with the adjusting and mounting sleeve 431 for limiting; the insertion section 4333 is inserted and matched in the adjusting installation sleeve 431, a locking screw hole communicated with an inner cavity of the adjusting installation sleeve 431 is formed in the adjusting installation sleeve 431, and a locking bolt for locking the insertion section 4333 in the adjusting installation sleeve 431 is in threaded connection in the locking screw hole.

When the height of the roller assembly 42 needs to be adjusted, the locking bolt is firstly loosened, and then the height adjusting shaft 433 is rotated, so that the screw section 4331 is screwed out or screwed into the screw hole of the adjusting nut 4323, and the roller assembly 42 mounted on the adjusting connecting seat 432 is changed accordingly, thereby realizing the adjustment of the height of the roller assembly 42. In addition, in order to rotate the height adjusting shaft 433 conveniently, an adjusting driving hole may be formed in the limiting section 4332 of the height adjusting shaft 433, and a worker may insert an adjusting handle into the adjusting driving hole and then drive the height adjusting shaft 433 to rotate by the adjusting handle matched with the adjusting driving hole.

As a preferred embodiment, each of the first base 2 and the second base 3 includes two parallel supporting beams 100, a middle reinforcing frame 200 welded to bottoms of the two supporting beams 100, a plurality of supporting plates 300 welded to tops of the two supporting beams 100, and two mounting plates 400 welded to tops of the supporting plates 300, the supporting beams 100 are square tubes, the middle reinforcing frame 200 is located at a middle position of bottoms of the two supporting beams 100, and bottoms of the two supporting beams 100 are connected to a reinforcing connector 500; the two fixed bases 21 are mounted on the bottom of the two support beams 100 of the first base 2, and the two sliding bases 31 are mounted on the bottom of the two support beams 100 of the second base 3. Compare with current first base 2 and the second base 3 that adopts a plurality of sheet metal piece welding to form, this embodiment adopts two support beams 100 to support a plurality of backup pads 300 and mounting panel 400, sets up middle part reinforcing frame 200 and reinforcing connecting piece 500 in the bottom of two support beams 100 moreover, makes first base 2, second base 3's structural stability high.

As a preferred embodiment, the distance adjusting structure 5 comprises an adjusting driving motor 51, a first synchronous transmission shaft 52, two distance adjusting screw rods 53, a first reduction gearbox 54 and a second reduction gearbox 55, wherein the two distance adjusting screw rods 53 are respectively and rotatably mounted on the tops of the two side mounting beams 11 through bearing seats, and each distance adjusting screw rod 53 is in threaded fit with a screw rod matching seat mounted on the sliding base 31, so that when the distance adjusting screw rods 53 rotate, the second base 3 on the sliding base 31 is driven to move; a first reduction gearbox 54 and a second reduction gearbox 55 are respectively arranged on the end parts of the two side mounting beams 11, two distance adjusting screw rods 53 are respectively in transmission connection with the first reduction gearbox 54 and the second reduction gearbox 55, and the adjusting driving motor 51 is arranged on the first reduction gearbox 54 and is in transmission connection with the first reduction gearbox 54; the two ends of the first synchronous transmission shaft 52 are respectively in transmission connection with the first reduction gearbox 54 and the second reduction gearbox 55, the adjusting and driving motor 51 inputs rotary power to the two distance adjusting screw rods 53 through a transmission system formed by the first synchronous transmission shaft 52, the first reduction gearbox 54 and the second reduction gearbox 55 at the same time, the two distance adjusting screw rods 53 are driven to synchronously rotate, the two sliding bases 31 synchronously move, and the position adjustment of the second base 3 is realized.

As a preferred embodiment, the synchronous linkage mechanism 6 includes a second synchronous transmission shaft 61, a linkage endless belt 62, and two synchronous control structures, the second synchronous transmission shaft 61 is respectively rotatably installed on the two side installation beams 11, the second synchronous transmission shaft 61 is provided with a first linkage wheel 63, one of the side installation beams 11 is provided with a second linkage wheel 64, the linkage endless belt 62 is sleeved on the first linkage wheel 63 and the second linkage wheel 64, one of the sliding bases 31 is provided with a first linkage fixture 65, and the first linkage fixture 65 is clamped on the linkage endless belt 62. The two synchronous control structures are respectively arranged on the outer sides of the two side mounting beams 11 and comprise a first synchronous wheel 66 arranged on the side mounting beam 11, a second synchronous wheel 67 arranged on the second synchronous transmission shaft 61 and a synchronous annular belt 68 sleeved on the first synchronous wheel 66 and the second synchronous wheel 67, two second linkage clamps 69 are arranged at the bottom of the middle bracket 4, and the two second linkage clamps 69 are respectively clamped on the synchronous annular belts 68 of the two synchronous control structures.

When the second base 3 moves, the linkage endless belt 62 drives the second synchronous transmission shaft 61 to rotate, the second synchronizing wheel 67 on the second synchronous transmission shaft 61 drives the synchronous endless belt 68 to move synchronously, and the synchronous endless belt 68 drives the intermediate bracket 4 to move synchronously under the action of the second linkage clamp 69, so that the intermediate bracket 4 moves synchronously to adjust the position along with the synchronous movement of the second base 3.

The above description is only the preferred embodiment of the present invention, and the technical solutions of the objects of the present invention are all within the protection scope of the present invention as long as the objects are achieved by the substantially same means.

Claims (7)

1. A bearing table structure of glass edge grinding equipment comprises a machine table base (1), a first base (2), a second base (3) and an intermediate bracket (4) positioned between the first base (2) and the second base (3), wherein the first base (2) is fixedly arranged on the machine table base (1), the second base (3) is slidably arranged on the machine table base (1), and an interval adjusting structure (5) which is connected with and drives the second base (3) to move and adjust positions relative to the first base (2) is arranged on the machine table base (1); the method is characterized in that: the middle bracket (4) comprises a middle base (41) which is slidably arranged on the machine base (1), a roller assembly (42) for slidably supporting glass and a height adjusting assembly (43) for adjusting the height position of the roller assembly (42), wherein the roller assembly (42) is arranged on the middle base (41) through the height adjusting assembly (43); the machine table base (1) is provided with a synchronous linkage mechanism (6) which is connected with and drives the middle bracket (4) to follow the synchronous movement of the second base (3), the synchronous linkage mechanism (6) is connected with and driven by the second base (3), and the action output end of the synchronous linkage mechanism (6) is fixedly connected with the middle base (41).

2. The carrier structure of a glass edging apparatus according to claim 1, wherein: the front end and the rear end of the machine base (1) are both provided with side mounting beams (11), the bottom of the first base (2) is provided with two fixed bases (21), and the two fixed bases (21) are respectively fixedly mounted on the side mounting beams (11) at the front end and the rear end of the machine base (1); the bottom of second base (3) is equipped with two sliding bottom (31), and two sliding bottom (31) are led sliding connection respectively and are on side installation roof beam (11) at both ends around board base (1), the action output end and the sliding bottom (31) transmission of interval adjustment structure (5) are connected.

3. The stage structure of a glass edging apparatus according to claim 2, wherein: the middle base (41) comprises two middle sliding seats (411) and a middle mounting beam (412) arranged at the tops of the two middle sliding seats (411), and the two middle sliding seats (411) are respectively connected to the side mounting beams (11) at the front end and the rear end of the machine base (1) in a guiding manner; height adjusting part (43) is including adjusting installation cover (431), adjusting connecting seat (432), height-adjusting axle (433), it sets firmly on middle installation roof beam (412) to adjust installation cover (431), adjust the top supporting beam bottom at roller components (42) connecting seat (432), the upper end threaded connection of height-adjusting axle (433) is on adjusting connecting seat (432), and lower extreme cartridge cooperation is in adjusting installation cover (431).

4. The carrier structure of a glass edging apparatus according to claim 3, wherein: the adjusting and mounting sleeve (431) is provided with a locking screw hole communicated with an inner cavity of the adjusting and mounting sleeve, and the locking screw hole is internally in threaded connection with a locking bolt for locking the insertion section (4333) of the height adjusting shaft (433) in the adjusting and mounting sleeve (431).

5. The carrier structure of a glass edging apparatus according to claim 2, wherein: first base (2), second base (3) all include two joist (100) that set up side by side, weld middle part reinforcing frame (200) at two joist (100) bottoms, weld a plurality of backup pads (300) at two joist (100) tops, weld two mounting panels (400) at backup pad (300) top, middle part reinforcing frame (200) are located the intermediate position of two joist (100) bottoms, and the bottom of two joist (100) is connected with reinforcing connecting piece (500).

6. The stage structure of a glass edging apparatus according to claim 2, wherein: the distance adjusting structure (5) comprises an adjusting driving motor (51), a first synchronous transmission shaft (52), two distance adjusting screw rods (53), a first reduction gearbox (54) and a second reduction gearbox (55), the two distance adjusting screw rods (53) are respectively and rotatably arranged on the tops of the two side mounting beams (11) through bearing seats, and a screw rod matching seat arranged on the sliding base (31) is in threaded matching on each distance adjusting screw rod (53); the two distance adjusting screw rods (53) are respectively in transmission connection with a first reduction gearbox (54) and a second reduction gearbox (55), and the adjusting driving motor (51) is installed on the first reduction gearbox (54) and is in transmission connection with the first reduction gearbox (54); and two ends of the first synchronous transmission shaft (52) are respectively in transmission connection with a first reduction gearbox (54) and a second reduction gearbox (55).

7. The stage structure of a glass edging apparatus according to claim 2, wherein: the synchronous linkage mechanism (6) comprises a second synchronous transmission shaft (61), a linkage annular belt (62) and two synchronous control structures, the second synchronous transmission shaft (61) is respectively rotatably installed on two side installation beams (11), a first linkage wheel (63) is arranged on the second synchronous transmission shaft (61), a second linkage wheel (64) is arranged on one side installation beam (11), the linkage annular belt (62) is sleeved on the first linkage wheel (63) and the second linkage wheel (64), a first linkage clamp (65) is arranged on one sliding base (31), and the first linkage clamp (65) is clamped on the linkage annular belt (62); the synchronous control structure comprises a first synchronizing wheel (66) arranged on the side mounting beam (11), a second synchronizing wheel (67) arranged on the second synchronous transmission shaft (61), and a synchronous annular belt (68) sleeved on the first synchronizing wheel (66) and the second synchronizing wheel (67), wherein two second linkage clamps (69) are arranged at the bottom of the middle bracket (4), and the two second linkage clamps (69) are respectively clamped on the synchronous annular belts (68) of the two synchronous control structures.

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