CN220313898U - On-line heating and conveying device for pipe protective caps - Google Patents

Abstract

The utility model belongs to the technical field of pipe production equipment, and discloses an on-line heating and conveying device for pipe protective caps, which comprises a vibration disc, wherein the vibration disc is used for conveying protective caps, a heating and conveying buffer mechanism fixing frame is fixedly arranged on one side of the vibration disc, a heating and conveying buffer mechanism is fixedly arranged on the heating and conveying buffer mechanism fixing frame, the protective caps are conveyed into the heating and conveying buffer mechanism through the vibration disc, the heating and conveying buffer mechanism comprises a heating and conveying buffer channel, a heating plate, a temperature control meter and a patch type temperature sensor, a feeding hole of the heating and conveying buffer channel faces to a conveying discharging hole of the vibration disc, the heating plate is arranged on two sides of the heating and conveying buffer channel and is used for heating the protective caps in the heating and conveying buffer channel, and the patch type temperature sensor and the heating plate are electrically connected with the temperature control meter. The device realizes the function of on-line heating of the pipe protective cap conveyed out by vibration of the vibration disc, and the heating is stable.

Description

On-line heating and conveying device for pipe protective caps

Technical Field

The utility model belongs to the technical field of pipe production equipment, and particularly relates to an on-line heating and conveying device for a pipe protective cap.

Background

After the PPR plastic pipe is cut into a pipe with a fixed length by a cutting machine in the production process, protective caps are sleeved at two ends of the pipe by automatic capping equipment to protect ports. The temperature of the pipe just produced is higher, the pipe is relatively softer, the cool protective cap is harder in the automatic capping process of the automatic capping equipment, damage is easily caused at a pipe port, the cool protective cap is not easy to deform, the condition that the protective cap is not covered or is not firmly covered can also occur, the quality and quality of products are affected, the protective cap is put into an oven in advance to be baked and then poured into a vibration disc for feeding and capping, the temperature of the protective cap is higher initially, the quality of the cap is good, but the protective cap in the vibration disc is gradually cooled along with use, damage to the pipe port and the condition that the cover is not covered firmly are caused later, and the protective cap is repeatedly heated back and forth and repeatedly poured into the vibration disc to be conveyed, so that time and labor are wasted, and human resources are also caused.

Disclosure of Invention

The utility model aims to provide an on-line heating and conveying device for a pipe protective cap, so as to solve the technical problems.

In order to achieve the above purpose, the specific technical scheme of the pipe protective cap on-line heating and conveying device is as follows:

the utility model provides an online heating conveyor of tubular product protective cap, includes the vibration dish, and the vibration dish is used for carrying the protective cap, vibration dish one side is fixed to be provided with the heating and carries buffer memory mechanism mount, the fixed heating that is provided with on the heating and carries buffer memory mechanism mount carries buffer memory mechanism, the protective cap carries into the heating through the vibration dish and carries buffer memory mechanism, the heating carries buffer memory mechanism including heating and carries buffer memory passageway, hot plate, temperature control table and paster type temperature sensor, the feed inlet of heating and carries buffer memory passageway is facing to the transport discharge gate of vibration dish, the hot plate sets up in heating and carries buffer memory passageway both sides for heat the protective cap in the heating and carry buffer memory passageway, paster type temperature sensor and hot plate all are connected with the temperature control table electricity.

Further, the heating plate comprises a left mica heating plate and a right mica heating plate, the left mica heating plate is fixedly arranged in a groove on the left side of the heating conveying buffer storage channel, and the right mica heating plate is fixedly arranged in a groove on the right side of the heating conveying buffer storage channel.

Further, the patch type temperature sensor is fixedly arranged in a right groove of the heating conveying buffer channel and stuck to the surface of the right mica heating plate.

Furthermore, the temperature control meter is embedded into the heating, conveying and buffering mechanism fixing frame and is locked and fixed through screws.

Furthermore, the heating conveying buffer channel is fixedly connected with the heating conveying buffer mechanism fixing frame through an inner hexagon screw.

Furthermore, a feed inlet of the heating conveying buffer channel is provided with a folded edge.

Further, the device comprises a vibration disc fixing frame, and the bottom of the vibration disc is fixedly connected with the vibration disc fixing frame.

Further, the device comprises a general bracket, and the vibration disc fixing frame is fixedly connected with the general bracket.

Furthermore, the heating conveying buffer memory mechanism fixing frame is fixedly connected to the overall support and is arranged on one side of the vibration disc fixing frame.

Further, the vibration disk comprises rubber feet, foot limiting bases, a vibration motor, a conveying disk body and a shell.

The on-line heating and conveying device for the pipe protective cap has the following advantages: the novel design, reasonable in conception have realized carrying out on-line heating's function to the tubular product protective cap that vibration disc vibration was carried out, need not to make a round trip to heat repeatedly, simple structure simultaneously, save the cost, extremely little, the convenient operation of dependence to the environment, the operation of being convenient for, the heating is stable.

Drawings

FIG. 1 is a schematic view of the overall structure of the device of the present utility model;

FIG. 2 is a detailed view of the heating, transporting and buffering mechanism of the device of the present utility model;

FIG. 3 is a front view of a heating, conveying and buffering mechanism of the device of the present utility model;

FIG. 4 is a disassembled view of the heating delivery buffer mechanism of the apparatus of the present utility model.

The figure indicates: 1. a protective cap; 2. a vibration plate; 3. Heating, conveying and caching mechanisms; 4. a general support; 5. a vibration disk fixing frame; 6. heating and conveying a buffer mechanism fixing frame; 7. heating the conveying buffer channel; 8. a temperature control meter; 9. a patch type temperature sensor; 10. the temperature sensor locks the hand-screwed bolt; 11. the lower right heating plate locks the hand-screwed bolt; 12. the right upper heating plate locks the hand-screwed bolt; 13. a left mica heating plate; 14. the left upper heating plate locks the hand-screwed bolt; 15. the left lower heating plate locks the hand-screwed bolt; 17. right side mica heating plate.

Detailed Description

In order to better understand the purpose, structure and function of the present utility model, the present utility model relates to an on-line heating and conveying device for pipe protective caps, which is described in further detail below with reference to the accompanying drawings.

The on-line heating and conveying device for the pipe protective cap comprises a general bracket 4, a vibration disc fixing frame 5, a vibration disc 2, a heating and conveying buffer mechanism fixing frame 6 and a heating and conveying buffer mechanism 3, wherein the vibration disc fixing frame 5 is formed by cutting, welding and punching thickened steel plates; the whole mount 4 is formed by cutting, welding and punching thickened steel pipes and steel plates, the vibration disc mount 5 and the whole support 4 are fixedly connected through 7 inner hexagon screws, the vibration disc 2 is formed by assembling a rubber foot, a foot limiting seat, a vibration motor, a conveying disc body, a shell and the like, the bottom of the vibration disc 2 is fixedly connected with the vibration disc mount 5 through 3 inner hexagon screws, and the vibration disc 2 is used for conveying the protective cap 1. The heating conveying buffer memory mechanism fixing frame 6 is formed by cutting, welding, punching and polishing thickened steel plates, and the heating conveying buffer memory mechanism fixing frame 6 is arranged on one side of the vibration disc fixing frame 5 and is fixedly connected with the overall fixing frame 4 through 12 inner hexagon screws. The heating and conveying buffer mechanism 3 is fixedly connected to a heating and conveying buffer mechanism fixing frame 6, and the protective cap 1 is conveyed into the heating and conveying buffer mechanism 3 through the vibrating disk 2.

The heating and conveying buffer mechanism 3 comprises a heating and conveying buffer channel 7, a heating plate, a temperature control meter 8 and a patch type temperature sensor 9.

The heating conveying buffer channel 7 is formed by cutting, bending, welding and punching stainless steel plates, a feed port of the heating conveying buffer channel is provided with a folded edge serving as a guide to ensure smooth feeding, and 5 nuts are welded on the side face of the heating conveying buffer channel and used for locking hand-screwed bolt fixing. The feeding hole of the heating conveying buffer channel 7 is opposite to the conveying discharging hole of the vibrating plate 2 and is fixedly connected with the heating conveying buffer mechanism fixing frame 6 through 6 inner hexagon screws.

The temperature control meter 8 is embedded into the heating conveying buffer mechanism fixing frame 6 and is locked and fixed by 4 screws.

The heating plate comprises a left mica heating plate 13 and a right mica heating plate 17, wherein the left mica heating plate 13 is arranged in a groove at the left side of the heating conveying buffer channel 7 and is locked and fixed through a left upper heating plate locking hand screwing bolt 14 and a left lower heating plate locking hand screwing bolt 15. The left upper heating plate locking hand-screwed bolt 14 and the left lower heating plate locking hand-screwed bolt 15 are formed by cutting and polishing polytetrafluoroethylene blocks. The right mica heating plate 17 is arranged in a groove on the right side of the heating conveying buffer channel 7 and is locked and fixed by a right upper heating plate locking hand-screwing bolt 12 and a right lower heating plate hand-screwing locking bolt 11. The patch type temperature sensor 9 is arranged in a right side groove of the heating conveying buffer channel 7 and is stuck to the surface of the right side mica heating plate 17, and is locked and fixed through a temperature sensor locking hand-screwed bolt 10. The right upper heating plate locking hand-screwing bolt 12, the right lower heating plate locking hand-screwing bolt 11 and the temperature sensor locking hand-screwing bolt 10 are formed by cutting and polishing polytetrafluoroethylene blocks. The surface-mounted temperature sensor 9, the left mica heating plate 13 and the right mica heating plate 17 are electrically connected with the temperature control meter 8, and the temperature control meter 8 is used for temperature acquisition and control.

The main working mode is that a set vibration disc 2, a heating conveying buffer channel 7, a left mica heating plate 13, a right mica heating plate 17, a patch type temperature sensor 9, a temperature control meter 8 and the like are combined together, and the left mica heating plate 13 and the right mica heating plate 17 are fixed on two sides of the heating conveying buffer channel 7 to heat the heating conveying buffer channel 7 to form a pipe protective cap on-line heating conveying device with strong practicability.

The novel design, reasonable in conception mainly have to vibrate the tubular product protective cap that carries out on-line heating's function to the vibration of vibration dish, simple structure simultaneously, save the cost, little to the environmental dependence, convenient operation, the operation of being convenient for, the heating is stable.

The specific implementation process of the device in the production process is as follows: in the production and debugging process of the extrusion production line, the protective cap is poured into the vibration disc 2, the vibration disc 2 vibrates and conveys the protective cap 1 out to enter the heating and conveying buffer channel 7, and the heating and conveying buffer channel 7 is filled. At this time, the vibration plate 2 stops running, and then the vibration plate can be automatically started and stopped according to the number of the protective caps in the heating and conveying buffer channel 7, so that the filling of the protective caps 1 in the heating and conveying buffer channel 7 is ensured. Then fix left side mica hot plate 13, right side mica hot plate 17 and temperature sensor 9 on heating transport buffer channel 7, set up the temperature of heating according to the stable temperature demand of helmet cap quality on temperature control table 8 again, then left side mica hot plate 13 and right side mica hot plate 17 start heating, temperature sensor 9 then sends temperature measurement to temperature control table 8 in real time to start stopping that temperature control table 8 and set for temperature value control left side mica hot plate 13 and right side mica hot plate 17 heated makes the temperature stable at the setting value. When the temperature reaches the set value, the rows of protective caps 1 in the heating, conveying and buffering channel are heated. Then, starting the extrusion production line to produce extrusion, and simultaneously starting the automatic capping equipment at the rear end, when the pipe is cut out from the cutting machine and falls onto the automatic capping equipment, the automatic capping equipment takes away the cap 1 heated at the lowest part of the heating and conveying buffer channel 7 and sleeves the port of the pipe, the next cap 1 is automatically heated from the falling of the feeding port at the upper end of the heating and conveying buffer channel 7, and continuously falls onto the automatic capping equipment along with the pipe being cut out from the cutting machine, the cap 1 heated at the lowest part of the heating and conveying buffer channel 7 is continuously taken away by the automatic capping equipment, and the unheated cap 1 continuously enters the channel from the upper end of the heating and conveying buffer channel 7 and is heated, so that the process is repeated. And finishing the action of the device.

The utility model has the advantages that: the novel design, reasonable in conception mainly have to vibrate the tubular product protective cap that carries out on-line heating's function to the vibration of vibration dish, simple structure simultaneously, save the cost, little to the environmental dependence, convenient operation, the operation of being convenient for, the heating is stable.

It will be understood that the utility model has been described in terms of several embodiments, and that various changes and equivalents may be made to these features and embodiments by those skilled in the art without departing from the spirit and scope of the utility model. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the utility model without departing from the essential scope thereof. Therefore, it is intended that the utility model not be limited to the particular embodiment disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (10)

1. The utility model provides a tubular product protective cap on-line heating conveyor, includes vibration dish (2), and vibration dish (2) are used for carrying protective cap (1), its characterized in that, vibration dish (2) one side is fixed to be provided with heating and is carried buffer memory mechanism mount (6), the fixed heating that is provided with on heating and carry buffer memory mechanism mount (6) and carry buffer memory mechanism (3), protective cap (1) carry into heating through vibration dish (2) and carry buffer memory mechanism (3), heating carries buffer memory mechanism (3) including heating and carries buffer memory passageway (7), hot plate, temperature-controlling table (8) and paster temperature sensor (9), the material inlet of heating and carrying buffer memory passageway (7) is right against the transport discharge gate of vibration dish (2), the hot plate sets up in heating and carries buffer memory passageway (7) both sides for heat protective cap (1) in heating and carrying buffer memory passageway (7), paster temperature sensor (9) and hot plate all are connected with temperature-controlling table (8) electricity.

2. The on-line heating and conveying device for pipe protective caps according to claim 1, wherein the heating plates comprise a left mica heating plate (13) and a right mica heating plate (17), the left mica heating plate (13) is fixedly arranged in a groove on the left side of the heating and conveying buffer channel (7), and the right mica heating plate (17) is fixedly arranged in a groove on the right side of the heating and conveying buffer channel (7).

3. The on-line heating and conveying device for the pipe protective cap according to claim 2, wherein the patch type temperature sensor (9) is fixedly arranged in a right groove of the heating and conveying buffer channel (7) and stuck on the surface of the right mica heating plate (17).

4. The on-line heating and conveying device for the pipe protective cap according to claim 1, wherein the temperature control meter (8) is embedded into a heating, conveying and buffering mechanism fixing frame (6) and is locked and fixed through screws.

5. The on-line heating and conveying device for the pipe protective cap according to claim 1, wherein the heating and conveying buffer channel (7) is fixedly connected with the heating and conveying buffer mechanism fixing frame (6) through an inner hexagon screw.

6. The on-line heating and conveying device for pipe protective caps according to claim 1, wherein a feed port of the heating and conveying buffer channel (7) is provided with a folded edge.

7. The on-line heating and conveying device for the pipe protective cap according to claim 1, wherein the device comprises a vibration disc fixing frame (5), and the bottom of the vibration disc (2) is fixedly connected with the vibration disc fixing frame (5).

8. The on-line heating and conveying device for pipe protective caps according to claim 7, wherein the device comprises a general bracket (4), and the vibration disc fixing frame (5) is fixedly connected with the general bracket (4).

9. The on-line heating and conveying device for the pipe protective cap according to claim 8, wherein the heating and conveying buffer mechanism fixing frame (6) is fixedly connected to the overall bracket (4) and is arranged on one side of the vibration disc fixing frame (5).

10. The on-line heating and conveying device for pipe protective caps according to claim 1, wherein the vibration disc (2) comprises rubber feet, foot limiting bases, a vibration motor, a conveying disc body and a shell.