CN205200218U - Copper ingot material feeding unit - Google Patents

Abstract

The utility model relates to a copper ingot material feeding unit, it includes workstation, support, baffle, conducting bar, lifting machine, contact sensor and baffle, wherein, is used for supporting the workstation the support mounting in the workstation below, the baffle is installed the both sides of the top of workstation, the conducting bar equidistance is liftoff install in between the baffle, baffle installation is in the workstation with baffle and the conducting bar tip of vertically one side roughly, the contact sensor install in on the baffle, the lifting machine install in the baffle with between the conducting bar. The utility model provides a copper ingot material feeding unit can effectively avoid operating personnel to take place the possibility of scalding to the pay -off of copper ingot heating furnace the time, has improved work efficiency simultaneously evidently.

Description

A kind of copper ingot pay-off

Technical field

The utility model relates to a kind of copper ingot pay-off, particularly a kind of copper ingot pay-off pending heat treated copper ingot being transported to the charging spout being arranged at copper ingot heating furnace outside.

Background technology

By the pipe of smelting-casting equipment casting gained, enter after copper ingot before extruder processes further one by one being cut into, need to be transported to copper ingot heating furnace and carry out annealing in process to eliminate casting stress, and be heated to the temperature needed for extrusion process.

The copper ingot feeding style generally adopted at present makes to lift in the charging spout being arranged at copper ingot heating furnace outside by a dead lift by copper ingot one by one, is sent in copper ingot heating furnace by copper ingot by this charging spout.Because copper ingot heating furnace temperature is very high, make the temperature of the charging spout being arranged at heating furnace outside also higher, if the consequence that careless manipulation just may cause operating personnel to scald.In addition, copper ingot quality is large, therefore adopts this pure manual type efficiency very low.

Utility model content

Utility model problem to be solved

Inventor of the present utility model, for above-mentioned technical problem, proposes a kind of novel copper ingot pay-off, thus can by copper ingot to be heated fast and be transported in the charging spout being arranged at copper ingot heating furnace outside in large quantities, to be transported in copper ingot heating furnace.

In order to realize above-mentioned utility model, the utility model have employed following technical scheme:

According to an embodiment of the present utility model, provide a kind of copper ingot pay-off, it comprises workbench, support, guide plate, sliver, elevator, contact sensor, baffle plate, wherein, for supporting that the support installing of described workbench is below described workbench, described guide plate is arranged on the both sides of the top of described workbench, described sliver is installed between described guide plate equidistantly, described baffle plate is arranged on the end of described workbench, baffle plate is substantially vertical with guide plate and sliver, described contact sensor is installed on described baffle plate, described hoist installation is between described baffle plate and described sliver.

According to the copper ingot pay-off of an embodiment of the present utility model, the height of wherein said support is can regulate according to the height of copper ingot heating furnace, so arranges the height that can adapt to different copper ingot heating furnaces.

According to the copper ingot pay-off of an embodiment of the present utility model, wherein said elevator is airlift.

According to the copper ingot pay-off of an embodiment of the present utility model, the quantity of wherein said sliver is more than three.

According to the copper ingot pay-off of an embodiment of the present utility model, wherein said workbench is away from one end of described elevator higher than relative one end, so that copper ingot slides on elevator, this difference in height is continually varying gradually.

According to the copper ingot pay-off of an embodiment of the present utility model, wherein said workbench and described baffle plate are fixed together with described support respectively, and described fixing means is unrestricted, but preferably by electric welding together.

According to the copper ingot pay-off of an embodiment of the present utility model, the quantity of wherein said contact sensor can adjust according to the diameter of copper ingot, this can touch lift when being and arriving assigned address in order to ensure copper ingot thus start lift, in addition, the position of contact sensor also can regulate according to copper ingot diameter.According to the copper ingot pay-off of an embodiment of the present utility model, wherein said workbench is made up of metal material such as steel plate.

Utility model effect

The copper ingot pay-off that the utility model provides can effectively avoid operating personnel transporting in copper ingot to heating furnace process the possibility occurring to scald, and can once transport a large amount of copper ingots simultaneously, significantly improve production efficiency.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the utility model automatic feeder equipment top view;

Fig. 2 is the schematic diagram of the utility model automatic feeder equipment side view;

Fig. 3 is the schematic diagram of the utility model automatic feeder equipment front view.

Description of reference numerals

1, guide plate;

2, sliver;

3, elevator;

4, contact sensor;

5, support;

6, workbench;

7, baffle plate.

Detailed description of the invention

In order to make technical purpose of the present utility model, technical scheme and technique effect clearly understand, below in conjunction with accompanying drawing, the utility model is described in further detail.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

As Figure 1-3, the utility model provides a kind of copper ingot pay-off, and it comprises guide plate 1, sliver 2, elevator 3, contact sensor 4, support 5, workbench 6 and baffle plate 7.Wherein said workbench away from one end of described elevator higher than relative one end, described guide plate 1 is arranged at both sides above described workbench 5, described sliver 2 is arranged in the middle of guide plate 1 equidistantly, described baffle plate 7 is arranged on the end of the side substantially vertical with guide plate and sliver of described workbench 6, described contact sensor 4 is installed on described baffle plate 7, it is middle with described sliver 2 that described elevator 3 is installed on described baffle plate 7, and described support 5 is installed on described workbench 6 bottom.

When copper ingot is transported to copper ingot heating furnace by needs, its operating procedure is as follows:

Copper ingot is placed on workbench 6, promotes copper ingot and advance through guide plate 1 and sliver 2, to be transported on elevator 3 in order systematically.When copper ingot arrives the precalculated position on elevator 3, copper ingot will touch contact sensor 4, and now elevator 3 promotes, and be lifted by copper ingot in the charging spout sending into copper ingot heating furnace.When a copper ingot is transported to after in copper ingot heating furnace, elevator 3 declines and resets, and completes a set of process.

According to an embodiment, described elevator 3 is airlift.

According to an embodiment, the quantity of described sliver 2 is more than three, and sliver quantity depends on number and the volume of copper ingot to be heated, and copper ingot number is few, and volume is large, then can reduce the number of sliver, otherwise then needs the number increasing sliver, therefore unrestricted.

According to an embodiment, in order to enhance productivity, lower energy consumption, be preferably set to higher than relative one end by described workbench 6 away from one end of described elevator, copper ingot can slide to elevator under the help of self gravitation thus, reduces the intensity of operation.

According to an embodiment, described workbench 6 and described baffle plate 7 pass through secure bond also can be removably combined with described support 5 respectively, because the quality of copper ingot self is comparatively large, therefore impact comparatively large, therefore preferably by solder bond together.

According to an embodiment, the material of described workbench is unrestricted, can be various can withstand high temperatures metal or the nonmetallic materials of constant weight and impact can be born, but to consider from the angle of economy, be preferably made up of steel plate.

According to an embodiment, the position of described contact sensor can regulate according to the diameter of transported copper ingot, and this can touch contact sensor in order to ensure when copper ingot arrives assigned address.

According to an embodiment, the number of described contact sensor can increase and decrease as the case may be, arrives the situation failing to touch contact sensor behind precalculated position occur to prevent copper ingot, as long as namely a contact sensor touches and encountered, namely lift starts.

Arrange about above-described machinery, operating procedure and parameter, it should be understood that it is descriptive but not determinate, the mode by equivalent replacement makes amendment in the scope described in above description and claim.That is, scope of the present utility model should be determined with reference to the four corner of claims, instead of determines with reference to explanation above.In a word, be understood that the utility model can carry out multiple correction and change.

Practicality in industry

Copper ingot feeder structure provided by the utility model is simple, but can effectively avoid operating personnel to cause scalding because transporting copper ingot to copper ingot heating furnace, can transport a large amount of copper ingots simultaneously, substantially increase operating efficiency.

Claims (9)

1. a copper ingot pay-off, it comprises workbench, support, guide plate, sliver, elevator, contact sensor, baffle plate, it is characterized in that,

For supporting that the described support installing of described workbench is below described workbench, described guide plate is arranged on the both sides of the top of described workbench, described sliver is installed between described guide plate equidistantly, described baffle plate is arranged on the end of the side substantially vertical with guide plate and sliver of described workbench, described contact sensor is installed on described baffle plate, and described hoist installation is between described baffle plate and described sliver.

2. copper ingot pay-off according to claim 1, is characterized in that, the height of the height foundation copper ingot heating furnace of described support is adjustable.

3. copper ingot pay-off according to claim 1 and 2, is characterized in that, described elevator is airlift.

4. copper ingot pay-off according to claim 1 and 2, is characterized in that, the quantity of described sliver is more than three.

5. copper ingot pay-off according to claim 1, it is characterized in that, described workbench is away from one end of described elevator higher than relative one end, and described workbench is continually varying gradually away from the difference in height between one end of described elevator and relative one end.

6. copper ingot pay-off according to claim 1, is characterized in that, described workbench and described baffle plate are fixed together with described support respectively.

7. copper ingot pay-off according to claim 1 and 2, is characterized in that, described workbench is made of metal.

8. copper ingot pay-off according to claim 1 and 2, is characterized in that, the quantity of described contact sensor adjusts according to the number of copper ingot.

9. copper ingot pay-off according to claim 6, is characterized in that, described workbench or described baffle plate is fixed on the mode of described support for welding.