CN219965675U - Glass tube split-flow and transmission device - Google Patents

Abstract

The glass tube splitting and conveying device is provided with a fixing frame, a glass tube bearing unit, a conveyor belt unit, a defective product collecting tank and a control system; the fixing frame is arranged at the feeding end of the conveyor belt unit, and the glass tube receiving unit is assembled on the fixing frame; the glass tube supporting units are arranged in two groups left and right, the distance between the two groups of glass tube supporting units is matched with the length of the cut glass tube, two wedge-shaped tube connecting frames are arranged in each group of glass tube supporting units, and the two wedge-shaped tube connecting frames are horizontally moved back and forth to realize the switching of the cross closing and separating states; the feeding end of the conveyor belt unit is positioned below the glass tube bearing unit; the unqualified product collecting tank is arranged on the horizontal ground and is arranged in front-back opposite to the conveyor belt unit. The utility model solves the quality problems of glass tube stacking, collision, scratch and the like, and enables the subsequent transmission and butt joint to be smoother, thereby ensuring the quality of glass tube products and improving the production efficiency.

Description

Glass tube split-flow and transmission device

Technical Field

The utility model relates to the field of production of medicinal glass tubes, in particular to a device for realizing stable and reliable flow distribution and transmission after glass tubes are drawn, molded and cut off.

Background

In the production process of the medicinal glass tube, the formed glass tube is stretched by a tractor to advance, then is cut off at equal intervals by a cutting device, and then qualified products and non-qualified products are separated and split. In the prior art, a formed glass tube is knocked and cut by adopting a stepping rotary heavy hammer, the qualified glass tube after cutting freely falls onto a high-temperature-resistant rubber conveyor belt, the glass tube enters the next working procedure along with the conveyor belt, and the glass tube which is detected as unqualified by a detector is intercepted by an extending inclined baffle and falls into a waste tank, so that sorting and distribution of qualified products and unqualified products are completed.

The sorting and splitting mode of the glass tube workpieces has the following defects: firstly, the front end and the rear end of the glass tube fall onto a rubber conveyor belt with time difference, and the glass tube is obliquely placed on the conveyor belt due to the fact that the front end and the rear end of the glass tube are not synchronous with the contact of the conveyor belt; secondly, the rebound condition still can appear after the glass pipe falls on the conveyer belt with the mode of freely falling body, and the glass pipe finally falls on the conveyer belt under the action of rebound force and is the unordered state that is, is not parallel between the glass pipe, consequently can not only cause follow-up transmission and with the unsmooth problem of other equipment butt joints, reduced work efficiency, still can lead to collision, piling up and the fish tail problem between pipe, bring the harmful effects for the quality of glass pipe product.

Disclosure of Invention

The utility model provides a glass tube distribution and transmission device, which aims to realize the functions of stably and reliably distributing and transmitting glass tubes after drawing, forming and cutting through the cooperation of a glass tube receiving unit with a wedge-shaped cross structure, a conveyor belt unit with a convex rubber limiting structure and a control system, thereby achieving the purposes of ensuring the quality of glass tube products and improving the working efficiency.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the glass tube splitting and conveying device is provided with a fixing frame, a glass tube bearing unit, a conveyor belt unit, a defective product collecting tank and a control system; the fixing frame is arranged on the horizontal ground, is arranged at the feeding end of the conveyor belt unit, and is provided with a glass tube bearing unit; the glass tube supporting units are arranged in two groups left and right, the distance between the two groups of glass tube supporting units is matched with the length of the cut glass tube, two wedge-shaped tube connecting frames are arranged in each group of glass tube supporting units, and the two wedge-shaped tube connecting frames are horizontally moved back and forth to realize the switching of the cross closing and separating states; the feeding end of the conveyor belt unit is positioned below the glass tube bearing unit; the unqualified product collecting tank is arranged on the horizontal ground and is arranged in front-back opposite to the conveyor belt unit; the control box of the control system is arranged on the fixing frame, and the controller arranged in the control box is connected with the control element of the glass tube bearing unit through a wire.

In the glass tube splitting and conveying device, a first cylinder and a second cylinder are further arranged in each group of glass tube bearing units, a first wedge-shaped pipe connecting frame in the two groups of wedge-shaped pipe connecting frames is fixedly connected with a telescopic arm of the first cylinder, and a second wedge-shaped pipe connecting frame is fixedly connected with a telescopic arm of the second cylinder; when the telescopic arm of the first cylinder or the second cylinder stretches out, the first wedge-shaped pipe connecting frame is crossed with the second wedge-shaped pipe connecting frame, and a V-shaped pipe connecting groove is formed at the crossed part of the wedge-shaped surfaces of the first wedge-shaped pipe connecting frame and the second wedge-shaped pipe connecting frame; when the telescopic arm of the first cylinder or the second cylinder is retracted, the first wedge-shaped pipe connecting frame is separated from the second wedge-shaped pipe connecting frame, and a wedge-shaped discharge hole of the glass pipe is formed between the first wedge-shaped pipe connecting frame and the second wedge-shaped pipe connecting frame.

In each group of glass tube receiving units, the first wedge-shaped tube connecting frame is provided with two groups of wedge-shaped inserting plates, the second wedge-shaped tube connecting frame is provided with two groups of wedge-shaped inserting grooves, and the wedge-shaped inserting plates and the wedge-shaped inserting grooves are matched to realize the switching of the cross closing and separating states of the first wedge-shaped tube connecting frame and the second wedge-shaped tube connecting frame.

According to the glass tube distribution and transmission device, the fixing frame is composed of the two groups of square brackets which are arranged front and back, the upper cross beams of the two groups of square brackets are provided with the bearing unit mounting seats, and the first air cylinder and the second air cylinder of the glass tube bearing unit are respectively mounted on the corresponding bearing unit mounting seats.

The glass tube splitting and conveying device is characterized in that a limiting boss is arranged on the conveyor belt unit; the limiting bosses are semi-cylindrical rubber bosses and are fixed on the outer side of the circulating conveyor belt of the conveyor belt unit, and the front-back spacing between two adjacent groups of limiting bosses is consistent.

According to the glass tube splitting and conveying device, the first wedge-shaped pipe connecting frame and the second wedge-shaped pipe connecting frame are made of high-temperature-resistant tetrafluoro materials.

The utility model provides a glass tube distributing and conveying device, which is characterized in that a glass tube receiving unit is additionally arranged above a material receiving opening of a conveyor belt unit, a limiting boss for limiting the placing position of a glass tube is arranged on the conveyor belt unit, and air cylinders in two groups of glass tube receiving units can synchronously act through a control system, so that the time difference that the front end and the rear end of the glass tube fall onto the conveyor belt is eliminated; the utility model also designs the first wedge-shaped pipe receiving frame and the second wedge-shaped pipe receiving frame, so that the glass pipe rolls down along the wedge-shaped surface, the rebound problem when the glass pipe falls onto the conveyor belt is avoided, and the glass pipe on the conveyor belt is in a parallel state under the limit action of the limit boss on the conveyor belt unit, thereby not only solving the quality problems of stacking, collision, scratch and the like of the glass pipe, but also ensuring the quality of the glass pipe products and improving the production efficiency.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a view in the direction A of FIG. 1;

FIG. 3 is an enlarged view of the structure at I in FIG. 2;

FIG. 4 is a schematic view of the structure of the glass tube receiving unit;

FIG. 5 is a view in the B direction of FIG. 4;

FIG. 6 is a top view of FIG. 5;

FIG. 7 is a schematic diagram of the diversion of glass tube work pieces;

fig. 8 is a schematic diagram of the diversion of glass tube work reject.

The reference numerals in the drawings are defined as follows:

1 is a fixing frame;

2 is a receiving unit mounting seat;

3 is a glass tube receiving unit, 3-1 is a first cylinder, 3-2 is a first wedge-shaped tube connecting rack, 3-2-1 is a wedge-shaped inserting plate, 3-3 is a second wedge-shaped tube connecting rack, 3-3-1 is a wedge-shaped slot, and 3-4 is a second cylinder;

4 is a control box;

5 is a storage tank for receiving unqualified products;

6 is a conveyor belt unit, 6-1 is a limit boss;

7 is a glass tube.

Description of the embodiments

The utility model will be further described with reference to the accompanying drawings and specific examples.

Referring to fig. 1 and 2, the utility model provides a glass tube distribution and transmission device, which is provided with a fixing frame 1, a glass tube receiving unit 3, a conveyor belt unit 6, a defective product receiving tank 5 and a control system; the fixing frame 1 is arranged on the horizontal ground, is arranged at the feeding end of the conveyor belt unit 6, consists of two groups of square brackets arranged front and back, is provided with a bearing unit mounting seat 2 on the upper cross beam of the two groups of square brackets, and the glass tube bearing unit 3 is arranged on the bearing unit mounting seat 2; the glass tube supporting units 3 are arranged in two groups left and right, and the distance between the two groups of glass tube supporting units 3 is matched with the length of the cut glass tube; the feeding end of the conveyor belt unit 6 is positioned below the glass tube receiving unit 3; the unqualified product collecting tank 5 is arranged on the horizontal ground and is arranged in front-back opposite to the conveyor belt unit 6; the control system is provided with a control box 4, the control box 4 is arranged on the fixing frame 1, and a controller arranged in the control box is connected with a control element of the glass tube bearing unit through a wire.

Referring to fig. 2 and 3, the glass tube splitting and conveying device is provided with a limiting boss 6-1 on a conveyor belt unit 6; the limiting bosses 6-1 are semi-cylindrical rubber bosses and are fixed on the outer side of the circulating conveyor belt of the conveyor belt unit, and the front-back spacing of two adjacent groups of limiting bosses 6-1 is consistent.

Referring to fig. 4, 5 and 6, in the glass tube splitting and conveying device of the present utility model, a first cylinder 3-1, a first wedge-shaped pipe connecting frame 3-2, a second wedge-shaped pipe connecting frame 3-3 and a second cylinder 3-4 are disposed in each group of glass tube receiving units 3, wherein the first wedge-shaped pipe connecting frame 3-2 is fixedly connected with a telescopic arm of the first cylinder 3-1, and the second wedge-shaped pipe connecting frame 3-3 is fixedly connected with a telescopic arm of the second cylinder 3-4; the first wedge-shaped pipe connecting frame 3-2 is provided with two groups of wedge-shaped inserting plates 3-2-1, the second wedge-shaped pipe connecting frame 3-3 is provided with two groups of wedge-shaped inserting grooves 3-3-1 matched with the wedge-shaped inserting plates 3-2-1, and the first wedge-shaped pipe connecting frame 3-2 and the second wedge-shaped pipe connecting frame 3-3 are made of high-temperature resistant tetrafluoro materials.

Referring to fig. 5, 6, 7 and 8, the glass tube distributing and conveying device of the present utility model has the following working principle of the glass tube receiving unit 3: as shown in fig. 5 and 6, when the telescopic arms of the first cylinder 3-1 and the second cylinder 3-4 extend, the two groups of wedge-shaped spiles 3-2-1 of the first wedge-shaped pipe connecting frame 3-2 are inserted into the wedge-shaped slots 3-3-1 of the second wedge-shaped pipe connecting frame 3-3, the first wedge-shaped pipe connecting frame 3-2 and the second wedge-shaped pipe connecting frame 3-3 are intersected, and a V-shaped pipe connecting groove is formed at the intersection part of the wedge-shaped surfaces of the two wedge-shaped pipe connecting frames, so that the cut glass pipe can be received through the V-shaped pipe connecting groove. As shown in fig. 7, if the detector detects that the cut glass tube is a qualified product, the control system sends an action command, and the telescopic arms of the second air cylinders 3-4 in the two groups of glass tube receiving units 3 retract synchronously to drive the second wedge-shaped tube receiving frames 3-3 to be separated from the first wedge-shaped tube receiving frames 3-2, a wedge-shaped discharge port of the glass tube 7 is formed between the two wedge-shaped tube receiving frames 3-3 and the first wedge-shaped tube receiving frames, the glass tube 7 rolls down onto the conveyor belt unit 6 along the wedge-shaped surface of the first wedge-shaped tube receiving frames 3-2, is placed in a direction perpendicular to the axis of the conveyor belt unit 6 under the limiting action of the limiting boss 6-1, and is conveyed along with the conveyor belt unit 6 to the next procedure. As shown in fig. 8, if the detector detects that the glass tube workpiece is a defective product, the control system sends an action command, the telescopic arms of the first air cylinder 3-1 in the two groups of glass tube receiving units 3 retract, the first wedge-shaped tube receiving frame 3-2 is separated from the second wedge-shaped tube receiving frame 3-3, a wedge-shaped discharge port of the glass tube 7 is formed between the first wedge-shaped tube receiving frame 3-2 and the second wedge-shaped tube receiving frame 3-3, the glass tube 7 rolls down to the defective product receiving storage tank 5 along the wedge-shaped surface of the second wedge-shaped tube receiving frame 3-3, and the defective glass tube 7 is removed.

Claims (6)

1. The utility model provides a glass pipe reposition of redundant personnel and transmission device which characterized in that: the glass tube collecting device is provided with a fixing frame (1), a glass tube receiving unit (3), a conveyor belt unit (6), a defective product collecting tank (5) and a control system; the fixing frame (1) is arranged on the horizontal ground, is arranged at the feeding end of the conveyor belt unit (6), and is provided with the glass tube receiving unit (3); the glass tube supporting units (3) are arranged in two groups left and right, the distance between the two groups of glass tube supporting units (3) is matched with the length of the cut glass tube, two wedge-shaped tube supporting frames are arranged in each group of glass tube supporting units (3), and the two wedge-shaped tube supporting frames are horizontally moved back and forth to realize the switching of the cross closing and separating states; the feeding end of the conveyor belt unit (6) is positioned below the glass tube bearing unit (3); the unqualified product collecting tank (5) is arranged on the horizontal ground and is arranged in front-back opposite to the conveyor belt unit (6); the control box (4) of the control system is arranged on the fixing frame (1), and the controller arranged in the control box is connected with the control element of the glass tube bearing unit through a wire.

2. The glass tube flow dividing and transporting device according to claim 1, wherein: a first air cylinder (3-1) and a second air cylinder (3-4) are further arranged in each group of glass tube supporting units (3), a first wedge-shaped tube connecting frame (3-2) in the two groups of wedge-shaped tube connecting frames is fixedly connected with a telescopic arm of the first air cylinder (3-1), and a second wedge-shaped tube connecting frame (3-3) is fixedly connected with a telescopic arm of the second air cylinder (3-4); when the telescopic arm of the first air cylinder (3-1) or the second air cylinder (3-4) stretches out, the first wedge-shaped pipe connecting frame (3-2) is intersected with the second wedge-shaped pipe connecting frame (3-3), and a V-shaped pipe connecting groove is formed at the intersection part of the wedge-shaped surfaces of the first wedge-shaped pipe connecting frame and the second wedge-shaped pipe connecting frame; when the telescopic arm of the first air cylinder (3-1) or the second air cylinder (3-4) is retracted, the first wedge-shaped pipe connecting frame (3-2) is separated from the second wedge-shaped pipe connecting frame (3-3), and a wedge-shaped discharge hole of the glass pipe is formed between the first wedge-shaped pipe connecting frame and the second wedge-shaped pipe connecting frame.

3. The glass tube flow dividing and transporting device according to claim 2, wherein: in each group of glass tube receiving units (3), the first wedge-shaped tube receiving frame (3-2) is provided with two groups of wedge-shaped inserting plates (3-2-1), the second wedge-shaped tube receiving frame (3-3) is provided with two groups of wedge-shaped inserting grooves (3-3-1), and the wedge-shaped inserting plates (3-2-1) are matched with the wedge-shaped inserting grooves (3-3-1) to realize the switching of the cross closing and separating states of the first wedge-shaped tube receiving frame (3-2) and the second wedge-shaped tube receiving frame (3-3).

4. A glass tube flow dividing and transporting device according to claim 3, wherein: the fixing frame (1) is composed of two groups of square brackets which are arranged front and back, the upper cross beams of the two groups of square brackets are provided with bearing unit mounting seats (2), and a first air cylinder (3-1) and a second air cylinder (3-4) of the glass tube bearing unit (3) are respectively mounted on the corresponding bearing unit mounting seats (2).

5. A glass tube flow dividing and transporting device according to claim 3, wherein: a limit boss (6-1) is arranged on the conveyor belt unit (6); the limiting bosses (6-1) are semi-cylindrical rubber bosses and are fixed on the outer side of the circulating conveyor belt of the conveyor belt unit, and the front-back spacing between two adjacent groups of limiting bosses (6-1) is consistent.

6. A glass tube flow dividing and transporting device according to claim 3, wherein: the first wedge-shaped pipe connecting frame (3-2) and the second wedge-shaped pipe connecting frame (3-3) are made of high-temperature-resistant tetrafluoro materials.