CN205324068U - Mechanism is glued to brush of using in rock wool board production technology - Google Patents

Abstract

The utility model belongs to the technical field of composite rock wool plate processing technology and specifically relates to relate to mechanism is glued to brush of using in rock wool board production technology. Mechanism is glued to brush of using in rock wool board production technology including the last saddle of conveyer belt top setting, goes up the saddle bottom and is connected with the help of second pendulous device and last brush roll, and the key is: it fixes on top support frame with the help of the second cylinder to go up the saddle bottom. Automatic brush is glued substituted manual removal saddle brush and is glued, simple structure, and labour saving and time saving, the face of gluing are evenly pleasing to the eye.

Description

Brush coating mechanism in rock cotton board production technology

Technical field

This utility model relates to composite rock wool slab processing technique field, especially relates to the brush coating mechanism in rock cotton board production technology。

Background technology

Rock cotton board has good insulation, heat insulation, sound insulation and fireproof function, thus it is widely used in building, traffic and industrial circle, what rock cotton board adopted is that the raw materials such as Black Warrior stone, dolomite are made, substantial amounts of dust is there will be when carrying and use, have a strong impact on the healthy of staff and user of service, accordingly, it would be desirable to rock cotton board carries out pad pasting process, and need to cut according to customer demand。In the technique to rock cotton board pad pasting, the rock cotton board on conveyer belt moves to below brush roll, manually moves down saddle, and brush roll and then moves down, and makes brush roll contact with rock cotton board and roll, thus the brush coating realizing rock cotton board processes。But, above-mentioned rock cotton board brush coating technique there is problems in that (1) manual guide frame for moving, wastes time and energy, inefficiency；(2) manually moving down saddle, wayward saddle distance of fall, distance of fall is too near, and brush roll does not contact with rock cotton board, it is impossible to realize brush coating effect；Downthrow is too far away, brush roll and rock cotton board frictional force can be caused too big, cause brush roll to roll not smooth；(3) manual guide frame for moving, it is easy to cause rock cotton board entirety brush coating uneven, both affected attractive in appearance, and wasted again glue。Therefore, how to efficiently control brush roll distance of fall and become problem demanding prompt solution。

Utility model content

For the defect overcoming above-mentioned prior art to exist, this utility model provides the brush coating mechanism in rock cotton board production technology, and automatic brush coating replaces manual guide frame for moving brush coating, and simple in construction, time saving and energy saving, glue surface is uniformly attractive in appearance。

The purpose of this utility model can be achieved through the following technical solutions: the brush coating mechanism in rock cotton board production technology, including the upper saddle that conveyer belt is provided above, upper saddle bottom is connected with upper brush roll by the second pendulous device, it is important to: it is fixed on upper support frame by the second cylinder bottom upper saddle。

It is additionally provided with the second shock-absorbing spring bottom upper saddle to be fixed on upper support frame。

Upper saddle includes the second cross bar and the second montant, second montant and the second cross bar central vertical become T-shaped structure, second crossbar tip both sides are connected with two the second shock-absorbing springs respectively, being connected with the second cylinder in the middle of second crossbar tip, the second shock-absorbing spring top and the second cylinder top are all fixed on upper support frame。

Second pendulous device is the second beaming roller group, second beaming roller group includes the 3rd beaming roller by connecting rod connection and the 4th beaming roller, the catch fixing the 3rd beaming roller central shaft is arranged on the second montant top, the catch fixing the 4th beaming roller central shaft is arranged on the two ends at the brush roll back side, and the 4th beaming roller edge is perpendicular to saddle direction and does back and forth movement。

Also including the lower saddle that conveyer belt is arranged below, the top of lower saddle is connected with left brush roll by the first pendulous device, is fixed on lower support frame by the first cylinder bottom lower saddle。

It is additionally provided with the first shock-absorbing spring bottom lower saddle to be fixed on lower support frame。

Lower saddle includes the first cross bar and the first montant, first montant and the first cross bar central vertical become T-shaped structure, first both sides, cross bar bottom is connected with two the first shock-absorbing springs respectively, it is connected with the first cylinder in the middle of first cross bar bottom, is all fixed on lower support frame with the first cylinder bottom bottom the first shock-absorbing spring。

First pendulous device is the first beaming roller group, first beaming roller group includes the first beaming roller by connecting rod connection and the second beaming roller, the catch fixing the first beaming roller central shaft is arranged on the first montant top sidewall, the catch fixing the second beaming roller central shaft is arranged on the two ends at left brush roll 1 back side, and the second beaming roller edge is perpendicular to lower saddle direction and does back and forth movement。

The beneficial effects of the utility model are, this mechanism is driven brush roll to move up and down by cylinder and presses close to rock cotton board, instead of saddle and move the movement driving brush roll, control brush roll shifts to the method for rock cotton board makes brush roll more reasonable with the distance of rock cotton board, avoid when manually moving down saddle, saddle move from too far away or too near, thus affecting the uneven of brush coating face。

This mechanism is additionally arranged cylinder, for controlling moving up and down of brush roll, instead of manual operation, time saving and energy saving, and work efficiency is high, brush finish uniform in effect and attractive in appearance。

The two ends that cylinder connects are additionally provided with damping spring, and shock-absorbing spring, for relaxing the cylinder impact to saddle, thus avoiding the up-down vibration of brush roll, affects brush coating effect。

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model。

In accompanying drawing, 1 is left brush roll, and 2 is upper brush roll, and 3 is the first cross bar, 4 is the first montant, and 5 is the first shock-absorbing spring, and 6 is the first cylinder, and 7 is lower support frame, 8 is connecting rod, and 9 is the first beaming roller, and 10 is the second beaming roller, 11 is catch, and 12 is the second cross bar, and 13 is the second montant, 14 is the second shock-absorbing spring, and 15 is the second cylinder, and 16 is upper support frame, 17 is the 3rd beaming roller, and 18 is the 4th beaming roller, and 19 is conveyer belt。

Detailed description of the invention

Below in conjunction with accompanying drawing, this utility model is described further。

Specific embodiment, as it is shown in figure 1, the brush coating mechanism in rock cotton board production technology includes conveyer belt 19 is arranged below the lower saddle of left brush roll 1 and conveyer belt 19 is provided above the upper saddle of brush roll 2。

Lower saddle includes the first cross bar 3 and the first montant 4, first montant 4 becomes T-shaped structure with the first cross bar 3 central vertical, first both sides, cross bar 3 bottom is connected with two the first shock-absorbing springs 5 respectively, it is connected with the first cylinder 6 in the middle of first cross bar 3 bottom, is all fixed on lower support frame 7 with bottom the first cylinder 6 bottom the first shock-absorbing spring 5；First montant 4 top is connected with left brush roll 1 by the first beaming roller group, described first beaming roller group includes the first beaming roller 9 and the second beaming roller 10 connected by connecting rod 8, the catch 11 fixing the first beaming roller 9 central shaft is arranged on the first montant 4 top sidewall, the catch 11 fixing the second beaming roller 10 central shaft is arranged on the two ends at left brush roll 1 back side, and the second beaming roller 10 does back and forth movement along being perpendicular to lower saddle direction。

Upper saddle includes the second cross bar 12 and the second montant 13, second montant 13 becomes T-shaped structure with the second cross bar 12 central vertical, second both sides, cross bar 12 top is connected with two the second shock-absorbing springs 14 respectively, being connected with the second cylinder 15 in the middle of second cross bar 12 top, the second shock-absorbing spring 14 top and the second cylinder 15 top are all fixed on upper support frame 16；It is connected with upper brush roll 2 by the second beaming roller group bottom second montant 13, described second beaming roller group includes the 3rd beaming roller 17 and the 4th beaming roller 18 connected by connecting rod 8, the catch 11 fixing the 3rd beaming roller 17 central shaft is arranged on the second montant 13 top, the catch 11 fixing the 4th beaming roller 18 central shaft is arranged on the two ends at brush roll 2 back side, and the 4th beaming roller 18 does back and forth movement along being perpendicular to upper saddle direction。

This utility model is when specifically used, lower saddle is arranged on the lower support frame 7 of conveyer belt 19 lower left, upper saddle is arranged on the upper support frame 16 above conveyer belt 19, lower saddle controls the first montant 4 by the first cylinder 6 and moves up and down, first shock-absorbing spring 5 is for relaxing the impact to the first cross bar 3 of first cylinder 6, in first beaming roller group, the first beaming roller 9 does axial wobble along central shaft, drives left brush roll 1 to do back and forth movement along being perpendicular to lower saddle direction by the second beaming roller 10；Upper saddle controls the second montant 13 by the second cylinder 15 and moves up and down, second shock-absorbing spring 14 is for relaxing the impact to the second cross bar 12 of second cylinder 15, in second beaming roller group, the 3rd beaming roller 17 does axial wobble along central shaft, drives upper brush roll 2 to do back and forth movement along being perpendicular to upper saddle direction by the 4th beaming roller 18。

Claims (8)

1. the brush coating mechanism in rock cotton board production technology, including the upper saddle that conveyer belt (19) is provided above, upper saddle bottom is connected with upper brush roll (2) by the second pendulous device, it is characterised in that: it is fixed on upper support frame (16) by the second cylinder (15) bottom upper saddle。

2. the brush coating mechanism in rock cotton board production technology according to claim 1, it is characterised in that: it is additionally provided with the second shock-absorbing spring (14) bottom upper saddle and is fixed on upper support frame (16)。

3. the brush coating mechanism in rock cotton board production technology according to claim 2, it is characterized in that: upper saddle includes the second cross bar (12) and the second montant (13), second montant (13) becomes T-shaped structure with the second cross bar (12) central vertical, second cross bar (12) both sides, top are connected with two the second shock-absorbing springs (14) respectively, being connected with the second cylinder (15) in the middle of second cross bar (12) top, the second shock-absorbing spring (14) top and the second cylinder (15) top are all fixed on upper support frame (16)。

4. the brush coating mechanism in rock cotton board production technology according to claim 1, it is characterized in that: the second pendulous device is the second beaming roller group, second beaming roller group includes the 3rd beaming roller (17) and the 4th beaming roller (18) that connect by connecting rod (8), the catch (11) fixing the 3rd beaming roller (17) central shaft is arranged on the second montant (13) top, the catch (11) fixing the 4th beaming roller (18) central shaft is arranged on the two ends at brush roll (2) back side, and the 4th beaming roller (18) edge is perpendicular to saddle direction and does back and forth movement。

5. the brush coating mechanism in rock cotton board production technology according to claim 1, it is characterized in that: also include the lower saddle that conveyer belt (19) is arranged below, the top of lower saddle is connected with left brush roll (1) by the first pendulous device, is fixed on lower support frame (7) by the first cylinder (6) bottom lower saddle。

6. the brush coating mechanism in rock cotton board production technology according to claim 5, it is characterised in that: it is additionally provided with the first shock-absorbing spring (5) bottom lower saddle and is fixed on lower support frame (7)。

7. the brush coating mechanism in rock cotton board production technology according to claim 6, it is characterized in that: lower saddle includes the first cross bar (3) and the first montant (4), first montant (4) becomes T-shaped structure with the first cross bar (3) central vertical, first cross bar (3) both sides, bottom are connected with two the first shock-absorbing springs (5) respectively, being connected with the first cylinder (6) in the middle of first cross bar (3) bottom, the first shock-absorbing spring (5) bottom is all fixed on lower support frame (7) with the first cylinder (6) bottom。

8. the brush coating mechanism in rock cotton board production technology according to claim 5, it is characterized in that: the first pendulous device is the first beaming roller group, first beaming roller group includes the first beaming roller (9) and the second beaming roller (10) that connect by connecting rod (8), the catch (11) fixing the first beaming roller (9) central shaft is arranged on the sidewall of the first montant (4) top, the catch (11) fixing the second beaming roller (10) central shaft is arranged on the two ends at left brush roll 1 back side, and the second beaming roller (10) edge is perpendicular to lower saddle direction and does back and forth movement。